mirror of
https://github.com/mozilla/gecko-dev.git
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0f45148664
--HG-- extra : rebase_source : ea3618023c548a8ca6ca14749633c194606af52f
273 lines
8.0 KiB
C++
273 lines
8.0 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "mozilla/CPUUsageWatcher.h"
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#include "prsystem.h"
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#ifdef XP_MACOSX
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#include <sys/resource.h>
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#include <mach/clock.h>
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#include <mach/mach_host.h>
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#endif
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namespace mozilla {
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#ifdef CPU_USAGE_WATCHER_ACTIVE
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// Even if the machine only has one processor, tolerate up to 50%
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// external CPU usage.
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static const float kTolerableExternalCPUUsageFloor = 0.5f;
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struct CPUStats {
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// The average CPU usage time, which can be summed across all cores in the
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// system, or averaged between them. Whichever it is, it needs to be in the
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// same units as updateTime.
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uint64_t usageTime;
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// A monotonically increasing value in the same units as usageTime, which can
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// be used to determine the percentage of active vs idle time
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uint64_t updateTime;
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};
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#ifdef XP_MACOSX
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static const uint64_t kMicrosecondsPerSecond = 1000000LL;
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static const uint64_t kNanosecondsPerMicrosecond = 1000LL;
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static const uint64_t kCPUCheckInterval = kMicrosecondsPerSecond / 2LL;
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uint64_t GetMicroseconds(timeval time) {
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return ((uint64_t)time.tv_sec) * kMicrosecondsPerSecond +
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(uint64_t)time.tv_usec;
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}
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uint64_t GetMicroseconds(mach_timespec_t time) {
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return ((uint64_t)time.tv_sec) * kMicrosecondsPerSecond +
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((uint64_t)time.tv_nsec) / kNanosecondsPerMicrosecond;
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}
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Result<CPUStats, CPUUsageWatcherError>
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GetProcessCPUStats(int32_t numCPUs) {
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CPUStats result = {};
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rusage usage;
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int32_t rusageResult = getrusage(RUSAGE_SELF, &usage);
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if (rusageResult == -1) {
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return Err(GetProcessTimesError);
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}
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result.usageTime = GetMicroseconds(usage.ru_utime) + GetMicroseconds(usage.ru_stime);
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clock_serv_t realtimeClock;
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kern_return_t errorResult =
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host_get_clock_service(mach_host_self(), REALTIME_CLOCK, &realtimeClock);
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if (errorResult != KERN_SUCCESS) {
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return Err(GetProcessTimesError);
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}
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mach_timespec_t time;
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errorResult = clock_get_time(realtimeClock, &time);
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if (errorResult != KERN_SUCCESS) {
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return Err(GetProcessTimesError);
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}
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result.updateTime = GetMicroseconds(time);
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// getrusage will give us the sum of the values across all
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// of our cores. Divide by the number of CPUs to get an average.
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result.usageTime /= numCPUs;
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return result;
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}
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Result<CPUStats, CPUUsageWatcherError>
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GetGlobalCPUStats() {
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CPUStats result = {};
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host_cpu_load_info_data_t loadInfo;
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mach_msg_type_number_t loadInfoCount = HOST_CPU_LOAD_INFO_COUNT;
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kern_return_t statsResult = host_statistics(mach_host_self(),
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HOST_CPU_LOAD_INFO,
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(host_info_t)&loadInfo,
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&loadInfoCount);
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if (statsResult != KERN_SUCCESS) {
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return Err(HostStatisticsError);
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}
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result.usageTime = loadInfo.cpu_ticks[CPU_STATE_USER] +
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loadInfo.cpu_ticks[CPU_STATE_NICE] +
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loadInfo.cpu_ticks[CPU_STATE_SYSTEM];
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result.updateTime = result.usageTime + loadInfo.cpu_ticks[CPU_STATE_IDLE];
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return result;
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}
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#endif // XP_MACOSX
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#ifdef XP_WIN
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// A FILETIME represents the number of 100-nanosecond ticks since 1/1/1601 UTC
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static const uint64_t kFILETIMETicksPerSecond = 10000000;
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static const uint64_t kCPUCheckInterval = kFILETIMETicksPerSecond / 2;
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uint64_t
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FiletimeToInteger(FILETIME filetime) {
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return ((uint64_t)filetime.dwLowDateTime) |
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(uint64_t)filetime.dwHighDateTime << 32;
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}
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Result<CPUStats, CPUUsageWatcherError> GetProcessCPUStats(int32_t numCPUs) {
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CPUStats result = {};
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FILETIME creationFiletime;
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FILETIME exitFiletime;
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FILETIME kernelFiletime;
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FILETIME userFiletime;
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bool success = GetProcessTimes(GetCurrentProcess(),
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&creationFiletime,
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&exitFiletime,
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&kernelFiletime,
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&userFiletime);
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if (!success) {
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return Err(GetProcessTimesError);
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}
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result.usageTime = FiletimeToInteger(kernelFiletime) +
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FiletimeToInteger(userFiletime);
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FILETIME nowFiletime;
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GetSystemTimeAsFileTime(&nowFiletime);
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result.updateTime = FiletimeToInteger(nowFiletime);
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result.usageTime /= numCPUs;
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return result;
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}
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Result<CPUStats, CPUUsageWatcherError>
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GetGlobalCPUStats() {
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CPUStats result = {};
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FILETIME idleFiletime;
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FILETIME kernelFiletime;
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FILETIME userFiletime;
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bool success = GetSystemTimes(&idleFiletime,
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&kernelFiletime,
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&userFiletime);
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if (!success) {
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return Err(GetSystemTimesError);
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}
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result.usageTime = FiletimeToInteger(kernelFiletime) +
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FiletimeToInteger(userFiletime);
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result.updateTime = result.usageTime + FiletimeToInteger(idleFiletime);
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return result;
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}
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#endif // XP_WIN
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Result<Ok, CPUUsageWatcherError>
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CPUUsageWatcher::Init()
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{
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mNumCPUs = PR_GetNumberOfProcessors();
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if (mNumCPUs <= 0) {
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mExternalUsageThreshold = 1.0f;
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return Err(GetNumberOfProcessorsError);
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}
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mExternalUsageThreshold = std::max(1.0f - 1.0f / (float)mNumCPUs,
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kTolerableExternalCPUUsageFloor);
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CPUStats processTimes;
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MOZ_TRY_VAR(processTimes, GetProcessCPUStats(mNumCPUs));
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mProcessUpdateTime = processTimes.updateTime;
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mProcessUsageTime = processTimes.usageTime;
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CPUStats globalTimes;
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MOZ_TRY_VAR(globalTimes, GetGlobalCPUStats());
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mGlobalUpdateTime = globalTimes.updateTime;
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mGlobalUsageTime = globalTimes.usageTime;
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mInitialized = true;
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CPUUsageWatcher* self = this;
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NS_DispatchToMainThread(
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NS_NewRunnableFunction("CPUUsageWatcher::Init",
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[=]() { BackgroundHangMonitor::RegisterAnnotator(*self); }));
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return Ok();
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}
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void
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CPUUsageWatcher::Uninit()
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{
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if (mInitialized) {
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BackgroundHangMonitor::UnregisterAnnotator(*this);
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}
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mInitialized = false;
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}
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Result<Ok, CPUUsageWatcherError>
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CPUUsageWatcher::CollectCPUUsage()
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{
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if (!mInitialized) {
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return Ok();
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}
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mExternalUsageRatio = 0.0f;
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CPUStats processTimes;
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MOZ_TRY_VAR(processTimes, GetProcessCPUStats(mNumCPUs));
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CPUStats globalTimes;
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MOZ_TRY_VAR(globalTimes, GetGlobalCPUStats());
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uint64_t processUsageDelta = processTimes.usageTime - mProcessUsageTime;
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uint64_t processUpdateDelta = processTimes.updateTime - mProcessUpdateTime;
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float processUsageNormalized = processUsageDelta > 0 ?
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(float)processUsageDelta / (float)processUpdateDelta :
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0.0f;
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uint64_t globalUsageDelta = globalTimes.usageTime - mGlobalUsageTime;
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uint64_t globalUpdateDelta = globalTimes.updateTime - mGlobalUpdateTime;
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float globalUsageNormalized = globalUsageDelta > 0 ?
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(float)globalUsageDelta / (float)globalUpdateDelta :
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0.0f;
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mProcessUsageTime = processTimes.usageTime;
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mProcessUpdateTime = processTimes.updateTime;
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mGlobalUsageTime = globalTimes.usageTime;
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mGlobalUpdateTime = globalTimes.updateTime;
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mExternalUsageRatio = std::max(0.0f,
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globalUsageNormalized - processUsageNormalized);
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return Ok();
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}
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void
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CPUUsageWatcher::AnnotateHang(BackgroundHangAnnotations& aAnnotations) {
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if (!mInitialized) {
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return;
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}
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if (mExternalUsageRatio > mExternalUsageThreshold) {
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aAnnotations.AddAnnotation(NS_LITERAL_STRING("ExternalCPUHigh"), true);
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}
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}
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#else // !CPU_USAGE_WATCHER_ACTIVE
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Result<Ok, CPUUsageWatcherError>
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CPUUsageWatcher::Init()
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{
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return Ok();
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}
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void CPUUsageWatcher::Uninit() {}
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Result<Ok, CPUUsageWatcherError>
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CPUUsageWatcher::CollectCPUUsage()
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{
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return Ok();
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}
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void CPUUsageWatcher::AnnotateHang(BackgroundHangAnnotations& aAnnotations) {}
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#endif // CPU_USAGE_WATCHER_ACTIVE
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} // namespace mozilla
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