/** @file * Get the CPU info on x86 processors that support it * * Wireshark - Network traffic analyzer * By Gerald Combs * Copyright 1998 Gerald Combs * * SPDX-License-Identifier: GPL-2.0-or-later */ /* * Get CPU info on platforms where the x86 cpuid instruction can be used. * * Skip 32-bit versions for GCC and Clang, as older IA-32 processors don't * have cpuid. * * Intel has documented the CPUID instruction in the "Intel(r) 64 and IA-32 * Architectures Developer's Manual" at * * https://www.intel.com/content/www/us/en/architecture-and-technology/64-ia-32-architectures-software-developer-vol-2a-manual.html * * The ws_cpuid() routine will return 0 if cpuinfo isn't available, including * on non-x86 platforms and on 32-bit x86 platforms with GCC and Clang, as * well as non-MSVC and non-GCC-or-Clang platforms. * * The "selector" argument to ws_cpuid() is the "initial EAX value" for the * instruction. The initial ECX value is 0. * * The "CPUInfo" argument points to 4 32-bit values into which the * resulting values of EAX, EBX, ECX, and EDX are store, in order. */ #include "ws_attributes.h" #if defined(_MSC_VER) /* MSVC */ /* * XXX - do the same IA-32 (which doesn't have CPUID prior to some versions * of the 80486 and all versions of the 80586^Woriginal Pentium) vs. * x86-64 (which always has CPUID) stuff that we do with GCC/Clang? * * You will probably not be happy running current versions of Wireshark * on an 80386 or 80486 machine, and we're dropping support for IA-32 * on Windows anyway, so the answer is probably "no". */ #if defined(_M_IX86) || defined(_M_X64) static gboolean ws_cpuid(guint32 *CPUInfo, guint32 selector) { /* https://docs.microsoft.com/en-us/cpp/intrinsics/cpuid-cpuidex */ CPUInfo[0] = CPUInfo[1] = CPUInfo[2] = CPUInfo[3] = 0; __cpuid((int *) CPUInfo, selector); /* XXX, how to check if it's supported on MSVC? just in case clear all flags above */ return TRUE; } #else /* not x86 */ static gboolean ws_cpuid(guint32 *CPUInfo _U_, int selector _U_) { /* Not x86, so no cpuid instruction */ return FALSE; } #endif #elif defined(__GNUC__) /* GCC/clang */ #if defined(__x86_64__) static inline gboolean ws_cpuid(guint32 *CPUInfo, int selector) { __asm__ __volatile__("cpuid" : "=a" (CPUInfo[0]), "=b" (CPUInfo[1]), "=c" (CPUInfo[2]), "=d" (CPUInfo[3]) : "a" (selector), "c" (0)); return TRUE; } #elif defined(__i386__) static gboolean ws_cpuid(guint32 *CPUInfo _U_, int selector _U_) { /* * TODO: need a test if older processors have the cpuid instruction. * * The correct way to test for this, according to the Intel64/IA-32 * documentation from Intel, in section 17.1 "USING THE CPUID * INSTRUCTION", is to try to change the ID bit (bit 21) in * EFLAGS. If it can be changed, the machine supports CPUID, * otherwise it doesn't. * * Some 486's, and all subsequent processors, support CPUID. * * For those who are curious, the way you distinguish between * an 80386 and an 80486 is to try to set the flag in EFLAGS * that causes unaligned accesses to fault - that's bit 18. * However, if the SMAP bit is set in CR4, that bit controls * whether explicit supervisor-mode access to user-mode pages * are allowed, so that should presumably only be done in a * very controlled environment, such as the system boot process. * * So, if you want to find out what type of CPU the system has, * it's probably best to ask the OS, if it supplies the result * of any CPU type testing it's done. */ return FALSE; } #else /* not x86 */ static gboolean ws_cpuid(guint32 *CPUInfo _U_, int selector _U_) { /* Not x86, so no cpuid instruction */ return FALSE; } #endif #else /* Other compilers */ static gboolean ws_cpuid(guint32 *CPUInfo _U_, int selector _U_) { return FALSE; } #endif static int ws_cpuid_sse42(void) { guint32 CPUInfo[4]; if (!ws_cpuid(CPUInfo, 1)) return 0; /* in ECX bit 20 toggled on */ return (CPUInfo[2] & (1 << 20)); }