compiler-rt/lib/scudo/scudo_utils.cpp - llvm-project - Git at Google

 //===-- scudo_utils.cpp -----------------------------------------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 ///
 /// Platform specific utility functions.
 ///
 //===----------------------------------------------------------------------===//

 #include "scudo_utils.h"

 #if defined(__x86_64__) || defined(__i386__)
 # include <cpuid.h>
 #elif defined(__arm__) || defined(__aarch64__)
 # include "sanitizer_common/sanitizer_getauxval.h"
 # if SANITIZER_FUCHSIA
 #  include <zircon/syscalls.h>
 #  include <zircon/features.h>
 # elif SANITIZER_POSIX
 #  include "sanitizer_common/sanitizer_posix.h"
 #  include <fcntl.h>
 # endif
 #endif

 #include <stdarg.h>

 // TODO(kostyak): remove __sanitizer *Printf uses in favor for our own less
 //                complicated string formatting code. The following is a
 //                temporary workaround to be able to use __sanitizer::VSNPrintf.
 namespace __sanitizer {

 extern int VSNPrintf(char *buff, int buff_length, const char *format,
                      va_list args);

 }  // namespace __sanitizer

 namespace __scudo {

 void dieWithMessage(const char *Format, ...) {
   static const char ScudoError[] = "Scudo ERROR: ";
   static constexpr uptr PrefixSize = sizeof(ScudoError) - 1;
   // Our messages are tiny, 256 characters is more than enough.
   char Message[256];
   va_list Args;
   va_start(Args, Format);
   internal_memcpy(Message, ScudoError, PrefixSize);
   VSNPrintf(Message + PrefixSize, sizeof(Message) - PrefixSize, Format, Args);
   va_end(Args);
   LogMessageOnPrintf(Message);
   if (common_flags()->abort_on_error)
     SetAbortMessage(Message);
   RawWrite(Message);
   Die();
 }

 #if defined(__x86_64__) || defined(__i386__)
 // i386 and x86_64 specific code to detect CRC32 hardware support via CPUID.
 // CRC32 requires the SSE 4.2 instruction set.
 # ifndef bit_SSE4_2
 #  define bit_SSE4_2 bit_SSE42  // clang and gcc have different defines.
 # endif

 #ifndef signature_HYGON_ebx // They are not defined in gcc.
 // HYGON: "HygonGenuine".
 #define signature_HYGON_ebx 0x6f677948
 #define signature_HYGON_edx 0x6e65476e
 #define signature_HYGON_ecx 0x656e6975
 #endif

 bool hasHardwareCRC32() {
   u32 Eax, Ebx, Ecx, Edx;
   __get_cpuid(0, &Eax, &Ebx, &Ecx, &Edx);
   const bool IsIntel = (Ebx == signature_INTEL_ebx) &&
                        (Edx == signature_INTEL_edx) &&
                        (Ecx == signature_INTEL_ecx);
   const bool IsAMD = (Ebx == signature_AMD_ebx) &&
                      (Edx == signature_AMD_edx) &&
                      (Ecx == signature_AMD_ecx);
   const bool IsHygon = (Ebx == signature_HYGON_ebx) &&
                        (Edx == signature_HYGON_edx) &&
                        (Ecx == signature_HYGON_ecx);
   if (!IsIntel && !IsAMD && !IsHygon)
     return false;
   __get_cpuid(1, &Eax, &Ebx, &Ecx, &Edx);
   return !!(Ecx & bit_SSE4_2);
 }
 #elif defined(__arm__) || defined(__aarch64__)
 // For ARM and AArch64, hardware CRC32 support is indicated in the AT_HWCAP
 // auxiliary vector.
 # ifndef AT_HWCAP
 #  define AT_HWCAP 16
 # endif
 # ifndef HWCAP_CRC32
 #  define HWCAP_CRC32 (1 << 7)  // HWCAP_CRC32 is missing on older platforms.
 # endif
 # if SANITIZER_POSIX
 bool hasHardwareCRC32ARMPosix() {
   uptr F = internal_open("/proc/self/auxv", O_RDONLY);
   if (internal_iserror(F))
     return false;
   struct { uptr Tag; uptr Value; } Entry = { 0, 0 };
   for (;;) {
     uptr N = internal_read(F, &Entry, sizeof(Entry));
     if (internal_iserror(N) || N != sizeof(Entry) ||
         (Entry.Tag == 0 && Entry.Value == 0) || Entry.Tag == AT_HWCAP)
       break;
   }
   internal_close(F);
   return (Entry.Tag == AT_HWCAP && (Entry.Value & HWCAP_CRC32) != 0);
 }
 # else
 bool hasHardwareCRC32ARMPosix() { return false; }
 # endif  // SANITIZER_POSIX

 // Bionic doesn't initialize its globals early enough. This causes issues when
 // trying to access them from a preinit_array (b/25751302) or from another
 // constructor called before the libc one (b/68046352). __progname is
 // initialized after the other globals, so we can check its value to know if
 // calling getauxval is safe.
 extern "C" SANITIZER_WEAK_ATTRIBUTE char *__progname;
 inline bool areBionicGlobalsInitialized() {
   return !SANITIZER_ANDROID || (&__progname && __progname);
 }

 bool hasHardwareCRC32() {
 #if SANITIZER_FUCHSIA
   u32 HWCap;
   zx_status_t Status = zx_system_get_features(ZX_FEATURE_KIND_CPU, &HWCap);
   if (Status != ZX_OK || (HWCap & ZX_ARM64_FEATURE_ISA_CRC32) == 0)
     return false;
   return true;
 #else
   if (&getauxval && areBionicGlobalsInitialized())
     return !!(getauxval(AT_HWCAP) & HWCAP_CRC32);
   return hasHardwareCRC32ARMPosix();
 #endif  // SANITIZER_FUCHSIA
 }
 #else
 bool hasHardwareCRC32() { return false; }
 #endif  // defined(__x86_64__) || defined(__i386__)

 }  // namespace __scudo
	//===-- scudo_utils.cpp ------------------------------------------ C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	///
	/// Platform specific utility functions.
	///
	//===----------------------------------------------------------------------===//

	#include "scudo_utils.h"

	#if defined(__x86_64__) \|\| defined(__i386__)
	# include <cpuid.h>
	#elif defined(__arm__) \|\| defined(__aarch64__)
	# include "sanitizer_common/sanitizer_getauxval.h"
	# if SANITIZER_FUCHSIA
	# include <zircon/syscalls.h>
	# include <zircon/features.h>
	# elif SANITIZER_POSIX
	# include "sanitizer_common/sanitizer_posix.h"
	# include <fcntl.h>
	# endif
	#endif

	#include <stdarg.h>

	// TODO(kostyak): remove __sanitizer *Printf uses in favor for our own less
	// complicated string formatting code. The following is a
	// temporary workaround to be able to use __sanitizer::VSNPrintf.
	namespace __sanitizer {

	extern int VSNPrintf(char buff, int buff_length, const char format,
	va_list args);

	} // namespace __sanitizer

	namespace __scudo {

	void dieWithMessage(const char *Format, ...) {
	static const char ScudoError[] = "Scudo ERROR: ";
	static constexpr uptr PrefixSize = sizeof(ScudoError) - 1;
	// Our messages are tiny, 256 characters is more than enough.
	char Message[256];
	va_list Args;
	va_start(Args, Format);
	internal_memcpy(Message, ScudoError, PrefixSize);
	VSNPrintf(Message + PrefixSize, sizeof(Message) - PrefixSize, Format, Args);
	va_end(Args);
	LogMessageOnPrintf(Message);
	if (common_flags()->abort_on_error)
	SetAbortMessage(Message);
	RawWrite(Message);
	Die();
	}

	#if defined(__x86_64__) \|\| defined(__i386__)
	// i386 and x86_64 specific code to detect CRC32 hardware support via CPUID.
	// CRC32 requires the SSE 4.2 instruction set.
	# ifndef bit_SSE4_2
	# define bit_SSE4_2 bit_SSE42 // clang and gcc have different defines.
	# endif

	#ifndef signature_HYGON_ebx // They are not defined in gcc.
	// HYGON: "HygonGenuine".
	#define signature_HYGON_ebx 0x6f677948
	#define signature_HYGON_edx 0x6e65476e
	#define signature_HYGON_ecx 0x656e6975
	#endif

	bool hasHardwareCRC32() {
	u32 Eax, Ebx, Ecx, Edx;
	__get_cpuid(0, &Eax, &Ebx, &Ecx, &Edx);
	const bool IsIntel = (Ebx == signature_INTEL_ebx) &&
	(Edx == signature_INTEL_edx) &&
	(Ecx == signature_INTEL_ecx);
	const bool IsAMD = (Ebx == signature_AMD_ebx) &&
	(Edx == signature_AMD_edx) &&
	(Ecx == signature_AMD_ecx);
	const bool IsHygon = (Ebx == signature_HYGON_ebx) &&
	(Edx == signature_HYGON_edx) &&
	(Ecx == signature_HYGON_ecx);
	if (!IsIntel && !IsAMD && !IsHygon)
	return false;
	__get_cpuid(1, &Eax, &Ebx, &Ecx, &Edx);
	return !!(Ecx & bit_SSE4_2);
	}
	#elif defined(__arm__) \|\| defined(__aarch64__)
	// For ARM and AArch64, hardware CRC32 support is indicated in the AT_HWCAP
	// auxiliary vector.
	# ifndef AT_HWCAP
	# define AT_HWCAP 16
	# endif
	# ifndef HWCAP_CRC32
	# define HWCAP_CRC32 (1 << 7) // HWCAP_CRC32 is missing on older platforms.
	# endif
	# if SANITIZER_POSIX
	bool hasHardwareCRC32ARMPosix() {
	uptr F = internal_open("/proc/self/auxv", O_RDONLY);
	if (internal_iserror(F))
	return false;
	struct { uptr Tag; uptr Value; } Entry = { 0, 0 };
	for (;;) {
	uptr N = internal_read(F, &Entry, sizeof(Entry));
	if (internal_iserror(N) \|\| N != sizeof(Entry) \|\|
	(Entry.Tag == 0 && Entry.Value == 0) \|\| Entry.Tag == AT_HWCAP)
	break;
	}
	internal_close(F);
	return (Entry.Tag == AT_HWCAP && (Entry.Value & HWCAP_CRC32) != 0);
	}
	# else
	bool hasHardwareCRC32ARMPosix() { return false; }
	# endif // SANITIZER_POSIX

	// Bionic doesn't initialize its globals early enough. This causes issues when
	// trying to access them from a preinit_array (b/25751302) or from another
	// constructor called before the libc one (b/68046352). __progname is
	// initialized after the other globals, so we can check its value to know if
	// calling getauxval is safe.
	extern "C" SANITIZER_WEAK_ATTRIBUTE char *__progname;
	inline bool areBionicGlobalsInitialized() {
	return !SANITIZER_ANDROID \|\| (&__progname && __progname);
	}

	bool hasHardwareCRC32() {
	#if SANITIZER_FUCHSIA
	u32 HWCap;
	zx_status_t Status = zx_system_get_features(ZX_FEATURE_KIND_CPU, &HWCap);
	if (Status != ZX_OK \|\| (HWCap & ZX_ARM64_FEATURE_ISA_CRC32) == 0)
	return false;
	return true;
	#else
	if (&getauxval && areBionicGlobalsInitialized())
	return !!(getauxval(AT_HWCAP) & HWCAP_CRC32);
	return hasHardwareCRC32ARMPosix();
	#endif // SANITIZER_FUCHSIA
	}
	#else
	bool hasHardwareCRC32() { return false; }
	#endif // defined(__x86_64__) \|\| defined(__i386__)

	} // namespace __scudo