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383 lines
11 KiB
C++
383 lines
11 KiB
C++
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// Copyright (c) 2013 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/process/process_metrics.h"
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#include <windows.h>
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#include <psapi.h>
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#include <stddef.h>
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#include <stdint.h>
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#include <winternl.h>
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#include <algorithm>
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#include "base/logging.h"
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#include "base/memory/ptr_util.h"
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#include "base/process/memory.h"
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#include "base/sys_info.h"
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#if defined(OS_WIN)
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#include <windows.h>
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#endif
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namespace base {
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namespace {
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// System pagesize. This value remains constant on x86/64 architectures.
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const int PAGESIZE_KB = 4;
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typedef NTSTATUS(WINAPI* NTQUERYSYSTEMINFORMATION)(
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SYSTEM_INFORMATION_CLASS SystemInformationClass,
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PVOID SystemInformation,
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ULONG SystemInformationLength,
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PULONG ReturnLength);
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} // namespace
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ProcessMetrics::~ProcessMetrics() { }
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size_t GetMaxFds() {
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// Windows is only limited by the amount of physical memory.
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return std::numeric_limits<size_t>::max();
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}
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// static
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std::unique_ptr<ProcessMetrics> ProcessMetrics::CreateProcessMetrics(
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ProcessHandle process) {
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return WrapUnique(new ProcessMetrics(process));
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}
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size_t ProcessMetrics::GetPagefileUsage() const {
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PROCESS_MEMORY_COUNTERS pmc;
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if (GetProcessMemoryInfo(process_.Get(), &pmc, sizeof(pmc))) {
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return pmc.PagefileUsage;
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}
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return 0;
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}
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// Returns the peak space allocated for the pagefile, in bytes.
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size_t ProcessMetrics::GetPeakPagefileUsage() const {
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PROCESS_MEMORY_COUNTERS pmc;
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if (GetProcessMemoryInfo(process_.Get(), &pmc, sizeof(pmc))) {
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return pmc.PeakPagefileUsage;
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}
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return 0;
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}
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// Returns the current working set size, in bytes.
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size_t ProcessMetrics::GetWorkingSetSize() const {
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PROCESS_MEMORY_COUNTERS pmc;
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if (GetProcessMemoryInfo(process_.Get(), &pmc, sizeof(pmc))) {
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return pmc.WorkingSetSize;
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}
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return 0;
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}
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// Returns the peak working set size, in bytes.
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size_t ProcessMetrics::GetPeakWorkingSetSize() const {
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PROCESS_MEMORY_COUNTERS pmc;
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if (GetProcessMemoryInfo(process_.Get(), &pmc, sizeof(pmc))) {
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return pmc.PeakWorkingSetSize;
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}
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return 0;
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}
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bool ProcessMetrics::GetMemoryBytes(size_t* private_bytes,
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size_t* shared_bytes) const {
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// PROCESS_MEMORY_COUNTERS_EX is not supported until XP SP2.
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// GetProcessMemoryInfo() will simply fail on prior OS. So the requested
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// information is simply not available. Hence, we will return 0 on unsupported
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// OSes. Unlike most Win32 API, we don't need to initialize the "cb" member.
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PROCESS_MEMORY_COUNTERS_EX pmcx;
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if (private_bytes &&
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GetProcessMemoryInfo(process_.Get(),
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reinterpret_cast<PROCESS_MEMORY_COUNTERS*>(&pmcx),
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sizeof(pmcx))) {
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*private_bytes = pmcx.PrivateUsage;
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}
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if (shared_bytes) {
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WorkingSetKBytes ws_usage;
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if (!GetWorkingSetKBytes(&ws_usage))
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return false;
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*shared_bytes = ws_usage.shared * 1024;
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}
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return true;
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}
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void ProcessMetrics::GetCommittedKBytes(CommittedKBytes* usage) const {
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MEMORY_BASIC_INFORMATION mbi = {0};
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size_t committed_private = 0;
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size_t committed_mapped = 0;
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size_t committed_image = 0;
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void* base_address = NULL;
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while (VirtualQueryEx(process_.Get(), base_address, &mbi, sizeof(mbi)) ==
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sizeof(mbi)) {
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if (mbi.State == MEM_COMMIT) {
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if (mbi.Type == MEM_PRIVATE) {
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committed_private += mbi.RegionSize;
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} else if (mbi.Type == MEM_MAPPED) {
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committed_mapped += mbi.RegionSize;
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} else if (mbi.Type == MEM_IMAGE) {
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committed_image += mbi.RegionSize;
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} else {
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NOTREACHED();
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}
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}
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void* new_base = (static_cast<BYTE*>(mbi.BaseAddress)) + mbi.RegionSize;
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// Avoid infinite loop by weird MEMORY_BASIC_INFORMATION.
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// If we query 64bit processes in a 32bit process, VirtualQueryEx()
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// returns such data.
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if (new_base <= base_address) {
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usage->image = 0;
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usage->mapped = 0;
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usage->priv = 0;
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return;
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}
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base_address = new_base;
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}
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usage->image = committed_image / 1024;
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usage->mapped = committed_mapped / 1024;
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usage->priv = committed_private / 1024;
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}
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namespace {
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class WorkingSetInformationBuffer {
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public:
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WorkingSetInformationBuffer() {}
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~WorkingSetInformationBuffer() { Clear(); }
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bool Reserve(size_t size) {
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Clear();
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// Use UncheckedMalloc here because this can be called from the code
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// that handles low memory condition.
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return UncheckedMalloc(size, reinterpret_cast<void**>(&buffer_));
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}
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const PSAPI_WORKING_SET_INFORMATION* operator ->() const { return buffer_; }
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size_t GetPageEntryCount() const { return number_of_entries; }
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// This function is used to get page entries for a process.
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bool QueryPageEntries(const ProcessHandle& process) {
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int retries = 5;
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number_of_entries = 4096; // Just a guess.
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for (;;) {
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size_t buffer_size =
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sizeof(PSAPI_WORKING_SET_INFORMATION) +
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(number_of_entries * sizeof(PSAPI_WORKING_SET_BLOCK));
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if (!Reserve(buffer_size))
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return false;
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// On success, |buffer_| is populated with info about the working set of
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// |process|. On ERROR_BAD_LENGTH failure, increase the size of the
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// buffer and try again.
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if (QueryWorkingSet(process, buffer_, buffer_size))
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break; // Success
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if (GetLastError() != ERROR_BAD_LENGTH)
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return false;
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number_of_entries = buffer_->NumberOfEntries;
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// Maybe some entries are being added right now. Increase the buffer to
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// take that into account. Increasing by 10% should generally be enough,
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// especially considering the potentially low memory condition during the
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// call (when called from OomMemoryDetails) and the potentially high
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// number of entries (300K was observed in crash dumps).
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number_of_entries *= 1.1;
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if (--retries == 0) {
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// If we're looping, eventually fail.
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return false;
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}
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}
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// TODO(chengx): Remove the comment and the logic below. It is no longer
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// needed since we don't have Win2000 support.
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// On windows 2000 the function returns 1 even when the buffer is too small.
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// The number of entries that we are going to parse is the minimum between
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// the size we allocated and the real number of entries.
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number_of_entries = std::min(number_of_entries,
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static_cast<size_t>(buffer_->NumberOfEntries));
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return true;
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}
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private:
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void Clear() {
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free(buffer_);
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buffer_ = nullptr;
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}
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PSAPI_WORKING_SET_INFORMATION* buffer_ = nullptr;
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// Number of page entries.
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size_t number_of_entries = 0;
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DISALLOW_COPY_AND_ASSIGN(WorkingSetInformationBuffer);
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};
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} // namespace
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bool ProcessMetrics::GetWorkingSetKBytes(WorkingSetKBytes* ws_usage) const {
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size_t ws_private = 0;
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size_t ws_shareable = 0;
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size_t ws_shared = 0;
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DCHECK(ws_usage);
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memset(ws_usage, 0, sizeof(*ws_usage));
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WorkingSetInformationBuffer buffer;
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if (!buffer.QueryPageEntries(process_.Get()))
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return false;
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size_t num_page_entries = buffer.GetPageEntryCount();
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for (size_t i = 0; i < num_page_entries; i++) {
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if (buffer->WorkingSetInfo[i].Shared) {
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ws_shareable++;
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if (buffer->WorkingSetInfo[i].ShareCount > 1)
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ws_shared++;
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} else {
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ws_private++;
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}
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}
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ws_usage->priv = ws_private * PAGESIZE_KB;
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ws_usage->shareable = ws_shareable * PAGESIZE_KB;
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ws_usage->shared = ws_shared * PAGESIZE_KB;
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return true;
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}
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// This function calculates the proportional set size for a process.
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bool ProcessMetrics::GetProportionalSetSizeBytes(uint64_t* pss_bytes) const {
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double ws_pss = 0.0;
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WorkingSetInformationBuffer buffer;
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if (!buffer.QueryPageEntries(process_.Get()))
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return false;
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size_t num_page_entries = buffer.GetPageEntryCount();
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for (size_t i = 0; i < num_page_entries; i++) {
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if (buffer->WorkingSetInfo[i].Shared &&
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buffer->WorkingSetInfo[i].ShareCount > 0)
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ws_pss += 1.0 / buffer->WorkingSetInfo[i].ShareCount;
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else
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ws_pss += 1.0;
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}
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*pss_bytes = static_cast<uint64_t>(ws_pss * GetPageSize());
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return true;
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}
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static uint64_t FileTimeToUTC(const FILETIME& ftime) {
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LARGE_INTEGER li;
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li.LowPart = ftime.dwLowDateTime;
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li.HighPart = ftime.dwHighDateTime;
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return li.QuadPart;
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}
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double ProcessMetrics::GetPlatformIndependentCPUUsage() {
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FILETIME creation_time;
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FILETIME exit_time;
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FILETIME kernel_time;
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FILETIME user_time;
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if (!GetProcessTimes(process_.Get(), &creation_time, &exit_time, &kernel_time,
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&user_time)) {
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// We don't assert here because in some cases (such as in the Task Manager)
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// we may call this function on a process that has just exited but we have
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// not yet received the notification.
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return 0;
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}
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int64_t system_time = FileTimeToUTC(kernel_time) + FileTimeToUTC(user_time);
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TimeTicks time = TimeTicks::Now();
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if (last_system_time_ == 0) {
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// First call, just set the last values.
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last_system_time_ = system_time;
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last_cpu_time_ = time;
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return 0;
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}
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int64_t system_time_delta = system_time - last_system_time_;
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// FILETIME is in 100-nanosecond units, so this needs microseconds times 10.
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int64_t time_delta = (time - last_cpu_time_).InMicroseconds() * 10;
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DCHECK_NE(0U, time_delta);
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if (time_delta == 0)
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return 0;
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last_system_time_ = system_time;
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last_cpu_time_ = time;
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return static_cast<double>(system_time_delta * 100) / time_delta;
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}
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bool ProcessMetrics::GetIOCounters(IoCounters* io_counters) const {
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return GetProcessIoCounters(process_.Get(), io_counters) != FALSE;
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}
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ProcessMetrics::ProcessMetrics(ProcessHandle process) : last_system_time_(0) {
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if (process) {
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HANDLE duplicate_handle;
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BOOL result = ::DuplicateHandle(::GetCurrentProcess(), process,
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::GetCurrentProcess(), &duplicate_handle,
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PROCESS_QUERY_INFORMATION, FALSE, 0);
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DCHECK(result);
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process_.Set(duplicate_handle);
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}
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}
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size_t GetSystemCommitCharge() {
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// Get the System Page Size.
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SYSTEM_INFO system_info;
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GetSystemInfo(&system_info);
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PERFORMANCE_INFORMATION info;
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if (!GetPerformanceInfo(&info, sizeof(info))) {
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DLOG(ERROR) << "Failed to fetch internal performance info.";
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return 0;
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}
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return (info.CommitTotal * system_info.dwPageSize) / 1024;
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}
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size_t GetPageSize() {
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return PAGESIZE_KB * 1024;
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}
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// This function uses the following mapping between MEMORYSTATUSEX and
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// SystemMemoryInfoKB:
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// ullTotalPhys ==> total
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// ullAvailPhys ==> avail_phys
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// ullTotalPageFile ==> swap_total
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// ullAvailPageFile ==> swap_free
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bool GetSystemMemoryInfo(SystemMemoryInfoKB* meminfo) {
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MEMORYSTATUSEX mem_status;
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mem_status.dwLength = sizeof(mem_status);
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if (!::GlobalMemoryStatusEx(&mem_status))
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return false;
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meminfo->total = mem_status.ullTotalPhys / 1024;
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meminfo->avail_phys = mem_status.ullAvailPhys / 1024;
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meminfo->swap_total = mem_status.ullTotalPageFile / 1024;
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meminfo->swap_free = mem_status.ullAvailPageFile / 1024;
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return true;
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}
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size_t ProcessMetrics::GetMallocUsage() {
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// Unsupported as getting malloc usage on Windows requires iterating through
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// the heap which is slow and crashes.
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return 0;
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}
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} // namespace base
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