// Copyright (c) 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/process/process_metrics.h" #include // Must be in front of other Windows header files. #include #include #include #include #include #include "base/logging.h" #include "base/memory/ptr_util.h" #include "base/process/memory.h" #include "base/process/process_metrics_iocounters.h" #include "base/sys_info.h" namespace base { namespace { // System pagesize. This value remains constant on x86/64 architectures. const int PAGESIZE_KB = 4; typedef NTSTATUS(WINAPI* NTQUERYSYSTEMINFORMATION)( SYSTEM_INFORMATION_CLASS SystemInformationClass, PVOID SystemInformation, ULONG SystemInformationLength, PULONG ReturnLength); } // namespace ProcessMetrics::~ProcessMetrics() { } size_t GetMaxFds() { // Windows is only limited by the amount of physical memory. return std::numeric_limits::max(); } // static std::unique_ptr ProcessMetrics::CreateProcessMetrics( ProcessHandle process) { return WrapUnique(new ProcessMetrics(process)); } namespace { class WorkingSetInformationBuffer { public: WorkingSetInformationBuffer() {} ~WorkingSetInformationBuffer() { Clear(); } bool Reserve(size_t size) { Clear(); // Use UncheckedMalloc here because this can be called from the code // that handles low memory condition. return UncheckedMalloc(size, reinterpret_cast(&buffer_)); } const PSAPI_WORKING_SET_INFORMATION* operator ->() const { return buffer_; } size_t GetPageEntryCount() const { return number_of_entries; } // This function is used to get page entries for a process. bool QueryPageEntries(const ProcessHandle& process) { int retries = 5; number_of_entries = 4096; // Just a guess. for (;;) { size_t buffer_size = sizeof(PSAPI_WORKING_SET_INFORMATION) + (number_of_entries * sizeof(PSAPI_WORKING_SET_BLOCK)); if (!Reserve(buffer_size)) return false; // On success, |buffer_| is populated with info about the working set of // |process|. On ERROR_BAD_LENGTH failure, increase the size of the // buffer and try again. if (QueryWorkingSet(process, buffer_, buffer_size)) break; // Success if (GetLastError() != ERROR_BAD_LENGTH) return false; number_of_entries = buffer_->NumberOfEntries; // Maybe some entries are being added right now. Increase the buffer to // take that into account. Increasing by 10% should generally be enough, // especially considering the potentially low memory condition during the // call (when called from OomMemoryDetails) and the potentially high // number of entries (300K was observed in crash dumps). number_of_entries *= 1.1; if (--retries == 0) { // If we're looping, eventually fail. return false; } } // TODO(chengx): Remove the comment and the logic below. It is no longer // needed since we don't have Win2000 support. // On windows 2000 the function returns 1 even when the buffer is too small. // The number of entries that we are going to parse is the minimum between // the size we allocated and the real number of entries. number_of_entries = std::min(number_of_entries, static_cast(buffer_->NumberOfEntries)); return true; } private: void Clear() { free(buffer_); buffer_ = nullptr; } PSAPI_WORKING_SET_INFORMATION* buffer_ = nullptr; // Number of page entries. size_t number_of_entries = 0; DISALLOW_COPY_AND_ASSIGN(WorkingSetInformationBuffer); }; } // namespace TimeDelta ProcessMetrics::GetCumulativeCPUUsage() { FILETIME creation_time; FILETIME exit_time; FILETIME kernel_time; FILETIME user_time; if (!GetProcessTimes(process_.Get(), &creation_time, &exit_time, &kernel_time, &user_time)) { // We don't assert here because in some cases (such as in the Task Manager) // we may call this function on a process that has just exited but we have // not yet received the notification. return TimeDelta(); } return TimeDelta::FromFileTime(kernel_time) + TimeDelta::FromFileTime(user_time); } bool ProcessMetrics::GetIOCounters(IoCounters* io_counters) const { return GetProcessIoCounters(process_.Get(), io_counters) != FALSE; } ProcessMetrics::ProcessMetrics(ProcessHandle process) { if (process) { HANDLE duplicate_handle = INVALID_HANDLE_VALUE; BOOL result = ::DuplicateHandle(::GetCurrentProcess(), process, ::GetCurrentProcess(), &duplicate_handle, PROCESS_QUERY_INFORMATION, FALSE, 0); DPCHECK(result); process_.Set(duplicate_handle); } } size_t GetSystemCommitCharge() { // Get the System Page Size. SYSTEM_INFO system_info; GetSystemInfo(&system_info); PERFORMANCE_INFORMATION info; if (!GetPerformanceInfo(&info, sizeof(info))) { DLOG(ERROR) << "Failed to fetch internal performance info."; return 0; } return (info.CommitTotal * system_info.dwPageSize) / 1024; } size_t GetPageSize() { return PAGESIZE_KB * 1024; } // This function uses the following mapping between MEMORYSTATUSEX and // SystemMemoryInfoKB: // ullTotalPhys ==> total // ullAvailPhys ==> avail_phys // ullTotalPageFile ==> swap_total // ullAvailPageFile ==> swap_free bool GetSystemMemoryInfo(SystemMemoryInfoKB* meminfo) { MEMORYSTATUSEX mem_status; mem_status.dwLength = sizeof(mem_status); if (!::GlobalMemoryStatusEx(&mem_status)) return false; meminfo->total = mem_status.ullTotalPhys / 1024; meminfo->avail_phys = mem_status.ullAvailPhys / 1024; meminfo->swap_total = mem_status.ullTotalPageFile / 1024; meminfo->swap_free = mem_status.ullAvailPageFile / 1024; return true; } size_t ProcessMetrics::GetMallocUsage() { // Unsupported as getting malloc usage on Windows requires iterating through // the heap which is slow and crashes. return 0; } } // namespace base