base/trace_event/trace_event_etw_export_win.cc - cobalt - Git at Google

 // Copyright 2015 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/trace_event/trace_event_etw_export_win.h"

 #include "base/command_line.h"
 #include "base/logging.h"
 #include "base/memory/singleton.h"
 #include "base/strings/string_tokenizer.h"
 #include "base/strings/utf_string_conversions.h"
 #include "base/threading/platform_thread.h"
 #include "base/trace_event/trace_event.h"
 #include "base/trace_event/trace_event_impl.h"

 #include <windows.h>

 // The GetProcAddress technique is borrowed from
 // https://github.com/google/UIforETW/tree/master/ETWProviders
 //
 // EVNTAPI is used in evntprov.h which is included by chrome_events_win.h.
 // We define EVNTAPI without the DECLSPEC_IMPORT specifier so that we can
 // implement these functions locally instead of using the import library, and
 // can therefore still run on Windows XP.
 #define EVNTAPI __stdcall
 // Include the event register/write/unregister macros compiled from the manifest
 // file. Note that this includes evntprov.h which requires a Vista+ Windows SDK.
 //
 // In SHARED_INTERMEDIATE_DIR.
 #include "base/trace_event/etw_manifest/chrome_events_win.h"  // NOLINT
 #include "starboard/types.h"

 namespace {
 // |kFilteredEventGroupNames| contains the event categories that can be
 // exported individually. These categories can be enabled by passing the correct
 // keyword when starting the trace. A keyword is a 64-bit flag and we attribute
 // one bit per category. We can therefore enable a particular category by
 // setting its corresponding bit in the keyword. For events that are not present
 // in |kFilteredEventGroupNames|, we have two bits that control their
 // behaviour. When bit 61 is enabled, any event that is not disabled by default
 // (ie. doesn't start with disabled-by-default-) will be exported. Likewise,
 // when bit 62 is enabled, any event that is disabled by default will be
 // exported.
 //
 // Note that bit 63 (MSB) must always be set, otherwise tracing will be disabled
 // by ETW. Therefore, the keyword will always be greater than
 // 0x8000000000000000.
 //
 // Examples of passing keywords to the provider using xperf:
 // # This exports "benchmark" and "cc" events
 // xperf -start chrome -on Chrome:0x8000000000000009
 //
 // # This exports "gpu", "netlog" and all other events that are not disabled by
 // # default
 // xperf -start chrome -on Chrome:0xA0000000000000A0
 //
 // More info about starting a trace and keyword can be obtained by using the
 // help section of xperf (xperf -help start). Note that xperf documentation
 // refers to keywords as flags and there are two ways to enable them, using
 // group names or the hex representation. We only support the latter. Also, we
 // ignore the level.
 const char* const kFilteredEventGroupNames[] = {
     "benchmark",                                        // 0x1
     "blink",                                            // 0x2
     "browser",                                          // 0x4
     "cc",                                               // 0x8
     "evdev",                                            // 0x10
     "gpu",                                              // 0x20
     "input",                                            // 0x40
     "netlog",                                           // 0x80
     "sequence_manager",                                 // 0x100
     "toplevel",                                         // 0x200
     "v8",                                               // 0x400
     "disabled-by-default-cc.debug",                     // 0x800
     "disabled-by-default-cc.debug.picture",             // 0x1000
     "disabled-by-default-toplevel.flow",                // 0x2000
     "startup",                                          // 0x4000
     "latency"};                                         // 0x8000
 const char kOtherEventsGroupName[] = "__OTHER_EVENTS";  // 0x2000000000000000
 const char kDisabledOtherEventsGroupName[] =
     "__DISABLED_OTHER_EVENTS";  // 0x4000000000000000
 const uint64_t kOtherEventsKeywordBit = 1ULL << 61;
 const uint64_t kDisabledOtherEventsKeywordBit = 1ULL << 62;
 const size_t kNumberOfCategories = ARRAYSIZE(kFilteredEventGroupNames) + 2U;

 }  // namespace

 namespace base {
 namespace trace_event {

 // This object will be created by each process. It's a background (low-priority)
 // thread that will monitor the ETW keyword for any changes.
 class TraceEventETWExport::ETWKeywordUpdateThread
     : public PlatformThread::Delegate {
  public:
   ETWKeywordUpdateThread() {}
   ~ETWKeywordUpdateThread() override {}

   // Implementation of PlatformThread::Delegate:
   void ThreadMain() override {
     PlatformThread::SetName("ETW Keyword Update Thread");
     TimeDelta sleep_time = TimeDelta::FromMilliseconds(kUpdateTimerDelayMs);
     while (1) {
       PlatformThread::Sleep(sleep_time);
       trace_event::TraceEventETWExport::UpdateETWKeyword();
     }
   }

  private:
   // Time between checks for ETW keyword changes (in milliseconds).
   unsigned int kUpdateTimerDelayMs = 1000;
 };


 TraceEventETWExport::TraceEventETWExport()
     : etw_export_enabled_(false), etw_match_any_keyword_(0ULL) {
   // Register the ETW provider. If registration fails then the event logging
   // calls will fail.
   EventRegisterChrome();

   // Make sure to initialize the map with all the group names. Subsequent
   // modifications will be made by the background thread and only affect the
   // values of the keys (no key addition/deletion). Therefore, the map does not
   // require a lock for access.
   for (size_t i = 0; i < ARRAYSIZE(kFilteredEventGroupNames); i++)
     categories_status_[kFilteredEventGroupNames[i]] = false;
   categories_status_[kOtherEventsGroupName] = false;
   categories_status_[kDisabledOtherEventsGroupName] = false;
   DCHECK_EQ(kNumberOfCategories, categories_status_.size());
 }

 TraceEventETWExport::~TraceEventETWExport() {
   EventUnregisterChrome();
 }

 // static
 TraceEventETWExport* TraceEventETWExport::GetInstance() {
   return Singleton<TraceEventETWExport,
                    StaticMemorySingletonTraits<TraceEventETWExport>>::get();
 }

 // static
 void TraceEventETWExport::EnableETWExport() {
   auto* instance = GetInstance();
   if (instance && !instance->etw_export_enabled_) {
     instance->etw_export_enabled_ = true;
     // Sync the enabled categories with ETW by calling UpdateEnabledCategories()
     // that checks the keyword. Then create a thread that will call that same
     // function periodically, to make sure we stay in sync.
     instance->UpdateEnabledCategories();
     if (instance->keyword_update_thread_handle_.is_null()) {
       instance->keyword_update_thread_.reset(new ETWKeywordUpdateThread);
       PlatformThread::CreateWithPriority(
           0, instance->keyword_update_thread_.get(),
           &instance->keyword_update_thread_handle_, ThreadPriority::BACKGROUND);
     }
   }
 }

 // static
 void TraceEventETWExport::DisableETWExport() {
   auto* instance = GetInstance();
   if (instance && instance->etw_export_enabled_)
     instance->etw_export_enabled_ = false;
 }

 // static
 bool TraceEventETWExport::IsETWExportEnabled() {
   auto* instance = GetInstance();
   return (instance && instance->etw_export_enabled_);
 }

 // static
 void TraceEventETWExport::AddEvent(
     char phase,
     const unsigned char* category_group_enabled,
     const char* name,
     unsigned long long id,
     int num_args,
     const char* const* arg_names,
     const unsigned char* arg_types,
     const unsigned long long* arg_values,
     const std::unique_ptr<ConvertableToTraceFormat>* convertable_values) {
   // We bail early in case exporting is disabled or no consumer is listening.
   auto* instance = GetInstance();
   if (!instance || !instance->etw_export_enabled_ || !EventEnabledChromeEvent())
     return;

   const char* phase_string = nullptr;
   // Space to store the phase identifier and null-terminator, when needed.
   char phase_buffer[2];
   switch (phase) {
     case TRACE_EVENT_PHASE_BEGIN:
       phase_string = "Begin";
       break;
     case TRACE_EVENT_PHASE_END:
       phase_string = "End";
       break;
     case TRACE_EVENT_PHASE_COMPLETE:
       phase_string = "Complete";
       break;
     case TRACE_EVENT_PHASE_INSTANT:
       phase_string = "Instant";
       break;
     case TRACE_EVENT_PHASE_ASYNC_BEGIN:
       phase_string = "Async Begin";
       break;
     case TRACE_EVENT_PHASE_ASYNC_STEP_INTO:
       phase_string = "Async Step Into";
       break;
     case TRACE_EVENT_PHASE_ASYNC_STEP_PAST:
       phase_string = "Async Step Past";
       break;
     case TRACE_EVENT_PHASE_ASYNC_END:
       phase_string = "Async End";
       break;
     case TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN:
       phase_string = "Nestable Async Begin";
       break;
     case TRACE_EVENT_PHASE_NESTABLE_ASYNC_END:
       phase_string = "Nestable Async End";
       break;
     case TRACE_EVENT_PHASE_NESTABLE_ASYNC_INSTANT:
       phase_string = "Nestable Async Instant";
       break;
     case TRACE_EVENT_PHASE_FLOW_BEGIN:
       phase_string = "Phase Flow Begin";
       break;
     case TRACE_EVENT_PHASE_FLOW_STEP:
       phase_string = "Phase Flow Step";
       break;
     case TRACE_EVENT_PHASE_FLOW_END:
       phase_string = "Phase Flow End";
       break;
     case TRACE_EVENT_PHASE_METADATA:
       phase_string = "Phase Metadata";
       break;
     case TRACE_EVENT_PHASE_COUNTER:
       phase_string = "Phase Counter";
       break;
     case TRACE_EVENT_PHASE_SAMPLE:
       phase_string = "Phase Sample";
       break;
     case TRACE_EVENT_PHASE_CREATE_OBJECT:
       phase_string = "Phase Create Object";
       break;
     case TRACE_EVENT_PHASE_SNAPSHOT_OBJECT:
       phase_string = "Phase Snapshot Object";
       break;
     case TRACE_EVENT_PHASE_DELETE_OBJECT:
       phase_string = "Phase Delete Object";
       break;
     default:
       phase_buffer[0] = phase;
       phase_buffer[1] = 0;
       phase_string = phase_buffer;
       break;
   }

   std::string arg_values_string[3];
   for (int i = 0; i < num_args; i++) {
     if (arg_types[i] == TRACE_VALUE_TYPE_CONVERTABLE) {
       // Temporarily do nothing here. This function consumes 1/3 to 1/2 of
       // *total* process CPU time when ETW tracing, and many of the strings
       // created exceed WPA's 4094 byte limit and are shown as:
       // "Unable to parse data". See crbug.com/488257
       // convertable_values[i]->AppendAsTraceFormat(arg_values_string + i);
     } else {
       TraceEvent::TraceValue trace_event;
       trace_event.as_uint = arg_values[i];
       TraceEvent::AppendValueAsJSON(arg_types[i], trace_event,
                                     arg_values_string + i);
     }
   }

   EventWriteChromeEvent(
       name, phase_string, num_args > 0 ? arg_names[0] : "",
       arg_values_string[0].c_str(), num_args > 1 ? arg_names[1] : "",
       arg_values_string[1].c_str(), num_args > 2 ? arg_names[2] : "",
       arg_values_string[2].c_str());
 }

 // static
 void TraceEventETWExport::AddCompleteEndEvent(const char* name) {
   auto* instance = GetInstance();
   if (!instance || !instance->etw_export_enabled_ || !EventEnabledChromeEvent())
     return;

   EventWriteChromeEvent(name, "Complete End", "", "", "", "", "", "");
 }

 // static
 bool TraceEventETWExport::IsCategoryGroupEnabled(
     StringPiece category_group_name) {
   DCHECK(!category_group_name.empty());
   auto* instance = GetInstance();
   if (instance == nullptr)
     return false;

   if (!instance->IsETWExportEnabled())
     return false;

   CStringTokenizer category_group_tokens(category_group_name.begin(),
                                          category_group_name.end(), ",");
   while (category_group_tokens.GetNext()) {
     StringPiece category_group_token = category_group_tokens.token_piece();
     if (instance->IsCategoryEnabled(category_group_token)) {
       return true;
     }
   }
   return false;
 }

 bool TraceEventETWExport::UpdateEnabledCategories() {
   if (etw_match_any_keyword_ == CHROME_Context.MatchAnyKeyword)
     return false;

   // If the keyword has changed, update each category.
   // Chrome_Context.MatchAnyKeyword is set by UIforETW (or other ETW trace
   // recording tools) using the ETW infrastructure. This value will be set in
   // all Chrome processes that have registered their ETW provider.
   etw_match_any_keyword_ = CHROME_Context.MatchAnyKeyword;
   for (size_t i = 0; i < ARRAYSIZE(kFilteredEventGroupNames); i++) {
     if (etw_match_any_keyword_ & (1ULL << i)) {
       categories_status_[kFilteredEventGroupNames[i]] = true;
     } else {
       categories_status_[kFilteredEventGroupNames[i]] = false;
     }
   }

   // Also update the two default categories.
   if (etw_match_any_keyword_ & kOtherEventsKeywordBit) {
     categories_status_[kOtherEventsGroupName] = true;
   } else {
     categories_status_[kOtherEventsGroupName] = false;
   }
   if (etw_match_any_keyword_ & kDisabledOtherEventsKeywordBit) {
     categories_status_[kDisabledOtherEventsGroupName] = true;
   } else {
     categories_status_[kDisabledOtherEventsGroupName] = false;
   }

   DCHECK_EQ(kNumberOfCategories, categories_status_.size());

   // Update the categories in TraceLog.
   TraceLog::GetInstance()->UpdateETWCategoryGroupEnabledFlags();

   return true;
 }

 bool TraceEventETWExport::IsCategoryEnabled(StringPiece category_name) const {
   DCHECK_EQ(kNumberOfCategories, categories_status_.size());
   // Try to find the category and return its status if found
   auto it = categories_status_.find(category_name);
   if (it != categories_status_.end())
     return it->second;

   // Otherwise return the corresponding default status by first checking if the
   // category is disabled by default.
   if (category_name.starts_with("disabled-by-default")) {
     DCHECK(categories_status_.find(kDisabledOtherEventsGroupName) !=
            categories_status_.end());
     return categories_status_.find(kDisabledOtherEventsGroupName)->second;
   } else {
     DCHECK(categories_status_.find(kOtherEventsGroupName) !=
            categories_status_.end());
     return categories_status_.find(kOtherEventsGroupName)->second;
   }
 }

 // static
 void TraceEventETWExport::UpdateETWKeyword() {
   if (!IsETWExportEnabled())
     return;
   auto* instance = GetInstance();
   DCHECK(instance);
   instance->UpdateEnabledCategories();
 }
 }  // namespace trace_event
 }  // namespace base
	// Copyright 2015 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/trace_event/trace_event_etw_export_win.h"

	#include "base/command_line.h"
	#include "base/logging.h"
	#include "base/memory/singleton.h"
	#include "base/strings/string_tokenizer.h"
	#include "base/strings/utf_string_conversions.h"
	#include "base/threading/platform_thread.h"
	#include "base/trace_event/trace_event.h"
	#include "base/trace_event/trace_event_impl.h"

	#include <windows.h>

	// The GetProcAddress technique is borrowed from
	// https://github.com/google/UIforETW/tree/master/ETWProviders
	//
	// EVNTAPI is used in evntprov.h which is included by chrome_events_win.h.
	// We define EVNTAPI without the DECLSPEC_IMPORT specifier so that we can
	// implement these functions locally instead of using the import library, and
	// can therefore still run on Windows XP.
	#define EVNTAPI __stdcall
	// Include the event register/write/unregister macros compiled from the manifest
	// file. Note that this includes evntprov.h which requires a Vista+ Windows SDK.
	//
	// In SHARED_INTERMEDIATE_DIR.
	#include "base/trace_event/etw_manifest/chrome_events_win.h" // NOLINT
	#include "starboard/types.h"

	namespace {
	// \|kFilteredEventGroupNames\| contains the event categories that can be
	// exported individually. These categories can be enabled by passing the correct
	// keyword when starting the trace. A keyword is a 64-bit flag and we attribute
	// one bit per category. We can therefore enable a particular category by
	// setting its corresponding bit in the keyword. For events that are not present
	// in \|kFilteredEventGroupNames\|, we have two bits that control their
	// behaviour. When bit 61 is enabled, any event that is not disabled by default
	// (ie. doesn't start with disabled-by-default-) will be exported. Likewise,
	// when bit 62 is enabled, any event that is disabled by default will be
	// exported.
	//
	// Note that bit 63 (MSB) must always be set, otherwise tracing will be disabled
	// by ETW. Therefore, the keyword will always be greater than
	// 0x8000000000000000.
	//
	// Examples of passing keywords to the provider using xperf:
	// # This exports "benchmark" and "cc" events
	// xperf -start chrome -on Chrome:0x8000000000000009
	//
	// # This exports "gpu", "netlog" and all other events that are not disabled by
	// # default
	// xperf -start chrome -on Chrome:0xA0000000000000A0
	//
	// More info about starting a trace and keyword can be obtained by using the
	// help section of xperf (xperf -help start). Note that xperf documentation
	// refers to keywords as flags and there are two ways to enable them, using
	// group names or the hex representation. We only support the latter. Also, we
	// ignore the level.
	const char* const kFilteredEventGroupNames[] = {
	"benchmark", // 0x1
	"blink", // 0x2
	"browser", // 0x4
	"cc", // 0x8
	"evdev", // 0x10
	"gpu", // 0x20
	"input", // 0x40
	"netlog", // 0x80
	"sequence_manager", // 0x100
	"toplevel", // 0x200
	"v8", // 0x400
	"disabled-by-default-cc.debug", // 0x800
	"disabled-by-default-cc.debug.picture", // 0x1000
	"disabled-by-default-toplevel.flow", // 0x2000
	"startup", // 0x4000
	"latency"}; // 0x8000
	const char kOtherEventsGroupName[] = "__OTHER_EVENTS"; // 0x2000000000000000
	const char kDisabledOtherEventsGroupName[] =
	"__DISABLED_OTHER_EVENTS"; // 0x4000000000000000
	const uint64_t kOtherEventsKeywordBit = 1ULL << 61;
	const uint64_t kDisabledOtherEventsKeywordBit = 1ULL << 62;
	const size_t kNumberOfCategories = ARRAYSIZE(kFilteredEventGroupNames) + 2U;

	} // namespace

	namespace base {
	namespace trace_event {

	// This object will be created by each process. It's a background (low-priority)
	// thread that will monitor the ETW keyword for any changes.
	class TraceEventETWExport::ETWKeywordUpdateThread
	: public PlatformThread::Delegate {
	public:
	ETWKeywordUpdateThread() {}
	~ETWKeywordUpdateThread() override {}

	// Implementation of PlatformThread::Delegate:
	void ThreadMain() override {
	PlatformThread::SetName("ETW Keyword Update Thread");
	TimeDelta sleep_time = TimeDelta::FromMilliseconds(kUpdateTimerDelayMs);
	while (1) {
	PlatformThread::Sleep(sleep_time);
	trace_event::TraceEventETWExport::UpdateETWKeyword();
	}
	}

	private:
	// Time between checks for ETW keyword changes (in milliseconds).
	unsigned int kUpdateTimerDelayMs = 1000;
	};


	TraceEventETWExport::TraceEventETWExport()
	: etw_export_enabled_(false), etw_match_any_keyword_(0ULL) {
	// Register the ETW provider. If registration fails then the event logging
	// calls will fail.
	EventRegisterChrome();

	// Make sure to initialize the map with all the group names. Subsequent
	// modifications will be made by the background thread and only affect the
	// values of the keys (no key addition/deletion). Therefore, the map does not
	// require a lock for access.
	for (size_t i = 0; i < ARRAYSIZE(kFilteredEventGroupNames); i++)
	categories_status_[kFilteredEventGroupNames[i]] = false;
	categories_status_[kOtherEventsGroupName] = false;
	categories_status_[kDisabledOtherEventsGroupName] = false;
	DCHECK_EQ(kNumberOfCategories, categories_status_.size());
	}

	TraceEventETWExport::~TraceEventETWExport() {
	EventUnregisterChrome();
	}

	// static
	TraceEventETWExport* TraceEventETWExport::GetInstance() {
	return Singleton<TraceEventETWExport,
	StaticMemorySingletonTraits<TraceEventETWExport>>::get();
	}

	// static
	void TraceEventETWExport::EnableETWExport() {
	auto* instance = GetInstance();
	if (instance && !instance->etw_export_enabled_) {
	instance->etw_export_enabled_ = true;
	// Sync the enabled categories with ETW by calling UpdateEnabledCategories()
	// that checks the keyword. Then create a thread that will call that same
	// function periodically, to make sure we stay in sync.
	instance->UpdateEnabledCategories();
	if (instance->keyword_update_thread_handle_.is_null()) {
	instance->keyword_update_thread_.reset(new ETWKeywordUpdateThread);
	PlatformThread::CreateWithPriority(
	0, instance->keyword_update_thread_.get(),
	&instance->keyword_update_thread_handle_, ThreadPriority::BACKGROUND);
	}
	}
	}

	// static
	void TraceEventETWExport::DisableETWExport() {
	auto* instance = GetInstance();
	if (instance && instance->etw_export_enabled_)
	instance->etw_export_enabled_ = false;
	}

	// static
	bool TraceEventETWExport::IsETWExportEnabled() {
	auto* instance = GetInstance();
	return (instance && instance->etw_export_enabled_);
	}

	// static
	void TraceEventETWExport::AddEvent(
	char phase,
	const unsigned char* category_group_enabled,
	const char* name,
	unsigned long long id,
	int num_args,
	const char* const* arg_names,
	const unsigned char* arg_types,
	const unsigned long long* arg_values,
	const std::unique_ptr<ConvertableToTraceFormat>* convertable_values) {
	// We bail early in case exporting is disabled or no consumer is listening.
	auto* instance = GetInstance();
	if (!instance \|\| !instance->etw_export_enabled_ \|\| !EventEnabledChromeEvent())
	return;

	const char* phase_string = nullptr;
	// Space to store the phase identifier and null-terminator, when needed.
	char phase_buffer[2];
	switch (phase) {
	case TRACE_EVENT_PHASE_BEGIN:
	phase_string = "Begin";
	break;
	case TRACE_EVENT_PHASE_END:
	phase_string = "End";
	break;
	case TRACE_EVENT_PHASE_COMPLETE:
	phase_string = "Complete";
	break;
	case TRACE_EVENT_PHASE_INSTANT:
	phase_string = "Instant";
	break;
	case TRACE_EVENT_PHASE_ASYNC_BEGIN:
	phase_string = "Async Begin";
	break;
	case TRACE_EVENT_PHASE_ASYNC_STEP_INTO:
	phase_string = "Async Step Into";
	break;
	case TRACE_EVENT_PHASE_ASYNC_STEP_PAST:
	phase_string = "Async Step Past";
	break;
	case TRACE_EVENT_PHASE_ASYNC_END:
	phase_string = "Async End";
	break;
	case TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN:
	phase_string = "Nestable Async Begin";
	break;
	case TRACE_EVENT_PHASE_NESTABLE_ASYNC_END:
	phase_string = "Nestable Async End";
	break;
	case TRACE_EVENT_PHASE_NESTABLE_ASYNC_INSTANT:
	phase_string = "Nestable Async Instant";
	break;
	case TRACE_EVENT_PHASE_FLOW_BEGIN:
	phase_string = "Phase Flow Begin";
	break;
	case TRACE_EVENT_PHASE_FLOW_STEP:
	phase_string = "Phase Flow Step";
	break;
	case TRACE_EVENT_PHASE_FLOW_END:
	phase_string = "Phase Flow End";
	break;
	case TRACE_EVENT_PHASE_METADATA:
	phase_string = "Phase Metadata";
	break;
	case TRACE_EVENT_PHASE_COUNTER:
	phase_string = "Phase Counter";
	break;
	case TRACE_EVENT_PHASE_SAMPLE:
	phase_string = "Phase Sample";
	break;
	case TRACE_EVENT_PHASE_CREATE_OBJECT:
	phase_string = "Phase Create Object";
	break;
	case TRACE_EVENT_PHASE_SNAPSHOT_OBJECT:
	phase_string = "Phase Snapshot Object";
	break;
	case TRACE_EVENT_PHASE_DELETE_OBJECT:
	phase_string = "Phase Delete Object";
	break;
	default:
	phase_buffer[0] = phase;
	phase_buffer[1] = 0;
	phase_string = phase_buffer;
	break;
	}

	std::string arg_values_string[3];
	for (int i = 0; i < num_args; i++) {
	if (arg_types[i] == TRACE_VALUE_TYPE_CONVERTABLE) {
	// Temporarily do nothing here. This function consumes 1/3 to 1/2 of
	// total process CPU time when ETW tracing, and many of the strings
	// created exceed WPA's 4094 byte limit and are shown as:
	// "Unable to parse data". See crbug.com/488257
	// convertable_values[i]->AppendAsTraceFormat(arg_values_string + i);
	} else {
	TraceEvent::TraceValue trace_event;
	trace_event.as_uint = arg_values[i];
	TraceEvent::AppendValueAsJSON(arg_types[i], trace_event,
	arg_values_string + i);
	}
	}

	EventWriteChromeEvent(
	name, phase_string, num_args > 0 ? arg_names[0] : "",
	arg_values_string[0].c_str(), num_args > 1 ? arg_names[1] : "",
	arg_values_string[1].c_str(), num_args > 2 ? arg_names[2] : "",
	arg_values_string[2].c_str());
	}

	// static
	void TraceEventETWExport::AddCompleteEndEvent(const char* name) {
	auto* instance = GetInstance();
	if (!instance \|\| !instance->etw_export_enabled_ \|\| !EventEnabledChromeEvent())
	return;

	EventWriteChromeEvent(name, "Complete End", "", "", "", "", "", "");
	}

	// static
	bool TraceEventETWExport::IsCategoryGroupEnabled(
	StringPiece category_group_name) {
	DCHECK(!category_group_name.empty());
	auto* instance = GetInstance();
	if (instance == nullptr)
	return false;

	if (!instance->IsETWExportEnabled())
	return false;

	CStringTokenizer category_group_tokens(category_group_name.begin(),
	category_group_name.end(), ",");
	while (category_group_tokens.GetNext()) {
	StringPiece category_group_token = category_group_tokens.token_piece();
	if (instance->IsCategoryEnabled(category_group_token)) {
	return true;
	}
	}
	return false;
	}

	bool TraceEventETWExport::UpdateEnabledCategories() {
	if (etw_match_any_keyword_ == CHROME_Context.MatchAnyKeyword)
	return false;

	// If the keyword has changed, update each category.
	// Chrome_Context.MatchAnyKeyword is set by UIforETW (or other ETW trace
	// recording tools) using the ETW infrastructure. This value will be set in
	// all Chrome processes that have registered their ETW provider.
	etw_match_any_keyword_ = CHROME_Context.MatchAnyKeyword;
	for (size_t i = 0; i < ARRAYSIZE(kFilteredEventGroupNames); i++) {
	if (etw_match_any_keyword_ & (1ULL << i)) {
	categories_status_[kFilteredEventGroupNames[i]] = true;
	} else {
	categories_status_[kFilteredEventGroupNames[i]] = false;
	}
	}

	// Also update the two default categories.
	if (etw_match_any_keyword_ & kOtherEventsKeywordBit) {
	categories_status_[kOtherEventsGroupName] = true;
	} else {
	categories_status_[kOtherEventsGroupName] = false;
	}
	if (etw_match_any_keyword_ & kDisabledOtherEventsKeywordBit) {
	categories_status_[kDisabledOtherEventsGroupName] = true;
	} else {
	categories_status_[kDisabledOtherEventsGroupName] = false;
	}

	DCHECK_EQ(kNumberOfCategories, categories_status_.size());

	// Update the categories in TraceLog.
	TraceLog::GetInstance()->UpdateETWCategoryGroupEnabledFlags();

	return true;
	}

	bool TraceEventETWExport::IsCategoryEnabled(StringPiece category_name) const {
	DCHECK_EQ(kNumberOfCategories, categories_status_.size());
	// Try to find the category and return its status if found
	auto it = categories_status_.find(category_name);
	if (it != categories_status_.end())
	return it->second;

	// Otherwise return the corresponding default status by first checking if the
	// category is disabled by default.
	if (category_name.starts_with("disabled-by-default")) {
	DCHECK(categories_status_.find(kDisabledOtherEventsGroupName) !=
	categories_status_.end());
	return categories_status_.find(kDisabledOtherEventsGroupName)->second;
	} else {
	DCHECK(categories_status_.find(kOtherEventsGroupName) !=
	categories_status_.end());
	return categories_status_.find(kOtherEventsGroupName)->second;
	}
	}

	// static
	void TraceEventETWExport::UpdateETWKeyword() {
	if (!IsETWExportEnabled())
	return;
	auto* instance = GetInstance();
	DCHECK(instance);
	instance->UpdateEnabledCategories();
	}
	} // namespace trace_event
	} // namespace base