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241 lines
6.1 KiB
C++
241 lines
6.1 KiB
C++
// Copyright (c) 2011 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "base/sys_info.h"
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#include <errno.h>
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#include <stddef.h>
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#include <stdint.h>
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#include <string.h>
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#include <sys/param.h>
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#include <sys/utsname.h>
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#include <unistd.h>
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#include "base/files/file_util.h"
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#include "base/lazy_instance.h"
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#include "base/logging.h"
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#include "base/strings/utf_string_conversions.h"
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#include "base/sys_info_internal.h"
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#include "base/threading/thread_restrictions.h"
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#include "build/build_config.h"
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#if !defined(OS_FUCHSIA)
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#include <sys/resource.h>
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#endif
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#if defined(OS_ANDROID)
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#include <sys/vfs.h>
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#define statvfs statfs // Android uses a statvfs-like statfs struct and call.
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#else
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#include <sys/statvfs.h>
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#endif
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#if defined(OS_LINUX)
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#include <linux/magic.h>
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#include <sys/vfs.h>
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#endif
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namespace {
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#if !defined(OS_OPENBSD) && !defined(OS_FUCHSIA)
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int NumberOfProcessors() {
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// sysconf returns the number of "logical" (not "physical") processors on both
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// Mac and Linux. So we get the number of max available "logical" processors.
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//
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// Note that the number of "currently online" processors may be fewer than the
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// returned value of NumberOfProcessors(). On some platforms, the kernel may
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// make some processors offline intermittently, to save power when system
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// loading is low.
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//
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// One common use case that needs to know the processor count is to create
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// optimal number of threads for optimization. It should make plan according
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// to the number of "max available" processors instead of "currently online"
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// ones. The kernel should be smart enough to make all processors online when
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// it has sufficient number of threads waiting to run.
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long res = sysconf(_SC_NPROCESSORS_CONF);
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if (res == -1) {
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NOTREACHED();
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return 1;
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}
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return static_cast<int>(res);
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}
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base::LazyInstance<
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base::internal::LazySysInfoValue<int, NumberOfProcessors> >::Leaky
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g_lazy_number_of_processors = LAZY_INSTANCE_INITIALIZER;
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#endif // !defined(OS_OPENBSD) && !defined(OS_FUCHSIA)
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#if !defined(OS_FUCHSIA)
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int64_t AmountOfVirtualMemory() {
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struct rlimit limit;
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int result = getrlimit(RLIMIT_DATA, &limit);
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if (result != 0) {
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NOTREACHED();
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return 0;
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}
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return limit.rlim_cur == RLIM_INFINITY ? 0 : limit.rlim_cur;
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}
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base::LazyInstance<
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base::internal::LazySysInfoValue<int64_t, AmountOfVirtualMemory>>::Leaky
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g_lazy_virtual_memory = LAZY_INSTANCE_INITIALIZER;
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#endif // !defined(OS_FUCHSIA)
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#if defined(OS_LINUX)
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bool IsStatsZeroIfUnlimited(const base::FilePath& path) {
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struct statfs stats;
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if (HANDLE_EINTR(statfs(path.value().c_str(), &stats)) != 0)
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return false;
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switch (stats.f_type) {
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case TMPFS_MAGIC:
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case HUGETLBFS_MAGIC:
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case RAMFS_MAGIC:
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return true;
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}
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return false;
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}
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#endif
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bool GetDiskSpaceInfo(const base::FilePath& path,
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int64_t* available_bytes,
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int64_t* total_bytes) {
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struct statvfs stats;
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if (HANDLE_EINTR(statvfs(path.value().c_str(), &stats)) != 0)
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return false;
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#if defined(OS_LINUX)
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const bool zero_size_means_unlimited =
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stats.f_blocks == 0 && IsStatsZeroIfUnlimited(path);
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#else
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const bool zero_size_means_unlimited = false;
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#endif
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if (available_bytes) {
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*available_bytes =
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zero_size_means_unlimited
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? std::numeric_limits<int64_t>::max()
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: static_cast<int64_t>(stats.f_bavail) * stats.f_frsize;
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}
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if (total_bytes) {
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*total_bytes = zero_size_means_unlimited
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? std::numeric_limits<int64_t>::max()
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: static_cast<int64_t>(stats.f_blocks) * stats.f_frsize;
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}
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return true;
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}
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} // namespace
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namespace base {
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#if !defined(OS_OPENBSD) && !defined(OS_FUCHSIA)
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int SysInfo::NumberOfProcessors() {
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return g_lazy_number_of_processors.Get().value();
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}
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#endif
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#if !defined(OS_FUCHSIA)
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// static
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int64_t SysInfo::AmountOfVirtualMemory() {
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return g_lazy_virtual_memory.Get().value();
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}
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#endif
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// static
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int64_t SysInfo::AmountOfFreeDiskSpace(const FilePath& path) {
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AssertBlockingAllowed();
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int64_t available;
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if (!GetDiskSpaceInfo(path, &available, nullptr))
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return -1;
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return available;
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}
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// static
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int64_t SysInfo::AmountOfTotalDiskSpace(const FilePath& path) {
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AssertBlockingAllowed();
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int64_t total;
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if (!GetDiskSpaceInfo(path, nullptr, &total))
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return -1;
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return total;
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}
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#if !defined(OS_MACOSX) && !defined(OS_ANDROID)
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// static
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std::string SysInfo::OperatingSystemName() {
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struct utsname info;
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if (uname(&info) < 0) {
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NOTREACHED();
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return std::string();
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}
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return std::string(info.sysname);
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}
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#endif
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#if !defined(OS_MACOSX) && !defined(OS_ANDROID) && !(OS_CHROMEOS)
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// static
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std::string SysInfo::OperatingSystemVersion() {
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struct utsname info;
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if (uname(&info) < 0) {
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NOTREACHED();
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return std::string();
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}
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return std::string(info.release);
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}
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#endif
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#if !defined(OS_MACOSX) && !defined(OS_ANDROID) && !defined(OS_CHROMEOS)
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// static
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void SysInfo::OperatingSystemVersionNumbers(int32_t* major_version,
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int32_t* minor_version,
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int32_t* bugfix_version) {
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struct utsname info;
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if (uname(&info) < 0) {
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NOTREACHED();
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*major_version = 0;
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*minor_version = 0;
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*bugfix_version = 0;
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return;
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}
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int num_read = sscanf(info.release, "%d.%d.%d", major_version, minor_version,
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bugfix_version);
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if (num_read < 1)
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*major_version = 0;
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if (num_read < 2)
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*minor_version = 0;
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if (num_read < 3)
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*bugfix_version = 0;
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}
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#endif
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// static
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std::string SysInfo::OperatingSystemArchitecture() {
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struct utsname info;
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if (uname(&info) < 0) {
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NOTREACHED();
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return std::string();
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}
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std::string arch(info.machine);
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if (arch == "i386" || arch == "i486" || arch == "i586" || arch == "i686") {
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arch = "x86";
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} else if (arch == "amd64") {
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arch = "x86_64";
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} else if (std::string(info.sysname) == "AIX") {
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arch = "ppc64";
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}
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return arch;
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}
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// static
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size_t SysInfo::VMAllocationGranularity() {
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return getpagesize();
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}
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} // namespace base
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