src/third_party/mozjs-45/js/src/gc/GCTrace.cpp - cobalt - Git at Google

 /* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
  * vim: set ts=8 sts=4 et sw=4 tw=99:
  * This Source Code Form is subject to the terms of the Mozilla Public
  * License, v. 2.0. If a copy of the MPL was not distributed with this
  * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

 #if defined(COBALT) && defined(COBALT_JS_GC_TRACE)

 #include "gc/GCTrace.h"
 #include "jscntxt.h"
 #include "jsfriendapi.h"
 #include "vm/Runtime.h"

 #include "nb/thread_local_object.h"
 #include "starboard/log.h"

 #include <unordered_map>

 namespace js {
 namespace gc {

 namespace {

 // A simple struct to bundle up both when and where a |GCThing| was allocated.
 struct AllocationInfo {
   std::string stack;
   SbTimeMonotonic time;
 };

 // A simple struct to bundle up all information relevant to the current thread
 // that we are tracing allocations for, which includes a mapping from |Cell|s
 // to their corresponding |AllocationInfo|, as well as the last time that we
 // dumped |thing2info|.
 struct TraceData {
   std::unordered_map<Cell*, AllocationInfo> thing2info;
   SbTimeMonotonic last_dump_time;
 };
 nb::ThreadLocalObject<TraceData> tlo_trace_data;

 const SbTimeMonotonic kDumpInterval = 15 * 60 * 1000 * 1000;
 const int kStackSize = 10;

 // Return the top first |n| stack frames of |cx| as a single string.  |cx|
 // must not be NULL.
 std::string DumpBacktrace(JSContext* cx, int n) {
   SB_DCHECK(cx != NULL);

   Sprinter sprinter(cx);
   sprinter.init();
   size_t depth = 0;

   for (AllFramesIter it(cx); !it.done(); ++it, ++depth) {
     if (depth > n) {
       break;
     }

     const char* filename = JS_GetScriptFilename(it.script());
     unsigned column = 0;
     unsigned line = PCToLineNumber(it.script(), it.pc(), &column);

     if (depth != 0) {
       sprinter.printf(" ");
     }

     sprinter.printf("#%d %s:%d:%d", depth, filename, line, column);
   }

   return std::string(sprinter.string(),
                      sprinter.string() + sprinter.getOffset());
 }

 // Add |thing| and its corresponding |AllocationInfo| to |thing2info|.
 void StartTrackingThing(Cell* thing) {
   if (!thing) {
     return;
   }

   auto* rt = thing->runtimeFromMainThread();
   auto* cx = rt->contextList.getFirst();
   // JavaScript allocations can still happen during the brief period of time
   // in between when we destroy the sole |JSContext| and then finally destroy
   // the entire |JSRuntime|.  They should be counted as having had no stack.
   auto stack = cx ? DumpBacktrace(cx, kStackSize) : "";
   auto& thing2info = tlo_trace_data.GetOrCreate()->thing2info;
   thing2info[thing] = {stack, SbTimeGetMonotonicNow()};
 }

 // Remove |thing| from |tlo_thing2info|.  |tlo_thing2info| is expected to
 // actually contain |thing|, and will error if it does not.
 void StopTrackingThing(Cell* thing) {
   if (!thing) {
     return;
   }

   auto& thing2info = tlo_trace_data.GetOrCreate()->thing2info;
   auto erased_count = thing2info.erase(thing);
   SB_DCHECK(erased_count == 1);
 }

 // Dump the current state of the heap if |kDumpInterval| time has passed since
 // the last dump.
 void MaybeDump() {
   auto& trace_data = *tlo_trace_data.GetOrCreate();
   auto now = SbTimeGetMonotonicNow();
   auto diff = now - trace_data.last_dump_time;
   if (diff > kDumpInterval) {
     trace_data.last_dump_time = now;
     auto thread_id = SbThreadGetId();
     SB_LOG(INFO) << "CJGT_BEGIN_HEAP_DUMP: " << thread_id << " " << now;
     for (const auto& pair : trace_data.thing2info) {
       SB_LOG(INFO) << "CJGT_HEAP_DUMP: " << thread_id << " "
                    << static_cast<void*>(pair.first) << " " << pair.second.time
                    << " " << pair.second.stack;
     }
     SB_LOG(INFO) << "CJGT_END_HEAP_DUMP: " << thread_id << " " << now;
   }
 }

 std::string GetThreadName() {
   char buffer[120];
   SbThreadGetName(buffer, SB_ARRAY_SIZE_INT(buffer));
   return &buffer[0];
 }

 }  // namespace

 bool InitTrace(GCRuntime& gc) {
   SB_LOG(INFO) << "CJGT_THREAD_ID_TO_NAME: " << SbThreadGetId() << " "
                << GetThreadName();
   return true;
 }

 void FinishTrace() {}

 bool TraceEnabled() {
   return true;
 }

 void TraceNurseryAlloc(Cell* thing, size_t size) {
   // Don't do anything.  We will trace |thing| if it ends up getting
   // tenured.
 }

 void TraceTenuredAlloc(Cell* thing, AllocKind kind) {
   StartTrackingThing(thing);
 }

 void TraceCreateObject(JSObject* object) {}

 void TraceMinorGCStart() {}

 void TracePromoteToTenured(Cell* src, Cell* dst) {
   StartTrackingThing(dst);
 }

 void TraceMinorGCEnd() {
   MaybeDump();
 }

 void TraceMajorGCStart() {}

 void TraceTenuredFinalize(Cell* thing) {
   StopTrackingThing(thing);
 }

 void TraceMajorGCEnd() {
   MaybeDump();
 }

 void TraceTypeNewScript(js::ObjectGroup* group) {}

 }  // namespace gc
 }  // namespace js

 #elif defined(JS_GC_TRACE)

 #include "gc/GCTrace.h"

 #include <stdio.h>
 #include <string.h>

 #include "gc/GCTraceFormat.h"

 #include "js/HashTable.h"

 using namespace js;
 using namespace js::gc;

 JS_STATIC_ASSERT(AllocKinds == unsigned(AllocKind::LIMIT));
 JS_STATIC_ASSERT(LastObjectAllocKind == unsigned(AllocKind::OBJECT_LAST));

 static FILE* gcTraceFile = nullptr;

 static HashSet<const Class*, DefaultHasher<const Class*>, SystemAllocPolicy> tracedClasses;
 static HashSet<const ObjectGroup*, DefaultHasher<const ObjectGroup*>, SystemAllocPolicy> tracedGroups;

 static inline void
 WriteWord(uint64_t data)
 {
     if (gcTraceFile)
         fwrite(&data, sizeof(data), 1, gcTraceFile);
 }

 static inline void
 TraceEvent(GCTraceEvent event, uint64_t payload = 0, uint8_t extra = 0)
 {
     MOZ_ASSERT(event < GCTraceEventCount);
     MOZ_ASSERT((payload >> TracePayloadBits) == 0);
     WriteWord((uint64_t(event) << TraceEventShift) |
                (uint64_t(extra) << TraceExtraShift) | payload);
 }

 static inline void
 TraceAddress(const void* p)
 {
     TraceEvent(TraceDataAddress, uint64_t(p));
 }

 static inline void
 TraceInt(uint32_t data)
 {
     TraceEvent(TraceDataInt, data);
 }

 static void
 TraceString(const char* string)
 {
     JS_STATIC_ASSERT(sizeof(char) == 1);

     size_t length = strlen(string);
     const unsigned charsPerWord = sizeof(uint64_t);
     unsigned wordCount = (length + charsPerWord - 1) / charsPerWord;

     TraceEvent(TraceDataString, length);
     for (unsigned i = 0; i < wordCount; ++i) {
         union
         {
             uint64_t word;
             char chars[charsPerWord];
         } data;
         strncpy(data.chars, string + (i * charsPerWord), charsPerWord);
         WriteWord(data.word);
     }
 }

 bool
 js::gc::InitTrace(GCRuntime& gc)
 {
     /* This currently does not support multiple runtimes. */
     MOZ_ALWAYS_TRUE(!gcTraceFile);

     char* filename = js_sb_getenv("JS_GC_TRACE");
     if (!filename)
         return true;

     if (!tracedClasses.init() || !tracedTypes.init()) {
         FinishTrace();
         return false;
     }

     gcTraceFile = fopen(filename, "w");
     if (!gcTraceFile) {
         FinishTrace();
         return false;
     }

     TraceEvent(TraceEventInit, 0, TraceFormatVersion);

     /* Trace information about thing sizes. */
     for (auto kind : AllAllocKinds())
         TraceEvent(TraceEventThingSize, Arena::thingSize(kind));

     return true;
 }

 void
 js::gc::FinishTrace()
 {
     if (gcTraceFile) {
         fclose(gcTraceFile);
         gcTraceFile = nullptr;
     }
     tracedClasses.finish();
     tracedTypes.finish();
 }

 bool
 js::gc::TraceEnabled()
 {
     return gcTraceFile != nullptr;
 }

 void
 js::gc::TraceNurseryAlloc(Cell* thing, size_t size)
 {
     if (thing) {
         /* We don't have AllocKind here, but we can work it out from size. */
         unsigned slots = (size - sizeof(JSObject)) / sizeof(JS::Value);
         AllocKind kind = GetBackgroundAllocKind(GetGCObjectKind(slots));
         TraceEvent(TraceEventNurseryAlloc, uint64_t(thing), kind);
     }
 }

 void
 js::gc::TraceTenuredAlloc(Cell* thing, AllocKind kind)
 {
     if (thing)
         TraceEvent(TraceEventTenuredAlloc, uint64_t(thing), kind);
 }

 static void
 MaybeTraceClass(const Class* clasp)
 {
     if (tracedClasses.has(clasp))
         return;

     TraceEvent(TraceEventClassInfo, uint64_t(clasp));
     TraceString(clasp->name);
     TraceInt(clasp->flags);
     TraceInt(clasp->finalize != nullptr);

     MOZ_ALWAYS_TRUE(tracedClasses.put(clasp));
 }

 static void
 MaybeTraceGroup(ObjectGroup* group)
 {
     if (tracedGroups.has(group))
         return;

     MaybeTraceClass(group->clasp());
     TraceEvent(TraceEventGroupInfo, uint64_t(group));
     TraceAddress(group->clasp());
     TraceInt(group->flags());

     MOZ_ALWAYS_TRUE(tracedGroups.put(group));
 }

 void
 js::gc::TraceTypeNewScript(ObjectGroup* group)
 {
     const size_t bufLength = 128;
     static char buffer[bufLength];
     MOZ_ASSERT(group->hasNewScript());
     JSAtom* funName = group->newScript()->fun->displayAtom();
     if (!funName)
         return;

     size_t length = funName->length();
     MOZ_ALWAYS_TRUE(length < bufLength);
     CopyChars(reinterpret_cast<Latin1Char*>(buffer), *funName);
     buffer[length] = 0;

     TraceEvent(TraceEventTypeNewScript, uint64_t(group));
     TraceString(buffer);
 }

 void
 js::gc::TraceCreateObject(JSObject* object)
 {
     if (!gcTraceFile)
         return;

     ObjectGroup* group = object->group();
     MaybeTraceGroup(group);
     TraceEvent(TraceEventCreateObject, uint64_t(object));
     TraceAddress(group);
 }

 void
 js::gc::TraceMinorGCStart()
 {
     TraceEvent(TraceEventMinorGCStart);
 }

 void
 js::gc::TracePromoteToTenured(Cell* src, Cell* dst)
 {
     TraceEvent(TraceEventPromoteToTenured, uint64_t(src));
     TraceAddress(dst);
 }

 void
 js::gc::TraceMinorGCEnd()
 {
     TraceEvent(TraceEventMinorGCEnd);
 }

 void
 js::gc::TraceMajorGCStart()
 {
     TraceEvent(TraceEventMajorGCStart);
 }

 void
 js::gc::TraceTenuredFinalize(Cell* thing)
 {
     if (!gcTraceFile)
         return;
     if (thing->tenuredGetAllocKind() == AllocKind::OBJECT_GROUP)
         tracedGroups.remove(static_cast<const ObjectGroup*>(thing));
     TraceEvent(TraceEventTenuredFinalize, uint64_t(thing));
 }

 void
 js::gc::TraceMajorGCEnd()
 {
     TraceEvent(TraceEventMajorGCEnd);
 }

 #endif
	/* -- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 --
	* vim: set ts=8 sts=4 et sw=4 tw=99:
	* This Source Code Form is subject to the terms of the Mozilla Public
	* License, v. 2.0. If a copy of the MPL was not distributed with this
	* file, You can obtain one at http://mozilla.org/MPL/2.0/. */

	#if defined(COBALT) && defined(COBALT_JS_GC_TRACE)

	#include "gc/GCTrace.h"
	#include "jscntxt.h"
	#include "jsfriendapi.h"
	#include "vm/Runtime.h"

	#include "nb/thread_local_object.h"
	#include "starboard/log.h"

	#include <unordered_map>

	namespace js {
	namespace gc {

	namespace {

	// A simple struct to bundle up both when and where a \|GCThing\| was allocated.
	struct AllocationInfo {
	std::string stack;
	SbTimeMonotonic time;
	};

	// A simple struct to bundle up all information relevant to the current thread
	// that we are tracing allocations for, which includes a mapping from \|Cell\|s
	// to their corresponding \|AllocationInfo\|, as well as the last time that we
	// dumped \|thing2info\|.
	struct TraceData {
	std::unordered_map<Cell*, AllocationInfo> thing2info;
	SbTimeMonotonic last_dump_time;
	};
	nb::ThreadLocalObject<TraceData> tlo_trace_data;

	const SbTimeMonotonic kDumpInterval = 15 * 60 * 1000 * 1000;
	const int kStackSize = 10;

	// Return the top first \|n\| stack frames of \|cx\| as a single string. \|cx\|
	// must not be NULL.
	std::string DumpBacktrace(JSContext* cx, int n) {
	SB_DCHECK(cx != NULL);

	Sprinter sprinter(cx);
	sprinter.init();
	size_t depth = 0;

	for (AllFramesIter it(cx); !it.done(); ++it, ++depth) {
	if (depth > n) {
	break;
	}

	const char* filename = JS_GetScriptFilename(it.script());
	unsigned column = 0;
	unsigned line = PCToLineNumber(it.script(), it.pc(), &column);

	if (depth != 0) {
	sprinter.printf(" ");
	}

	sprinter.printf("#%d %s:%d:%d", depth, filename, line, column);
	}

	return std::string(sprinter.string(),
	sprinter.string() + sprinter.getOffset());
	}

	// Add \|thing\| and its corresponding \|AllocationInfo\| to \|thing2info\|.
	void StartTrackingThing(Cell* thing) {
	if (!thing) {
	return;
	}

	auto* rt = thing->runtimeFromMainThread();
	auto* cx = rt->contextList.getFirst();
	// JavaScript allocations can still happen during the brief period of time
	// in between when we destroy the sole \|JSContext\| and then finally destroy
	// the entire \|JSRuntime\|. They should be counted as having had no stack.
	auto stack = cx ? DumpBacktrace(cx, kStackSize) : "";
	auto& thing2info = tlo_trace_data.GetOrCreate()->thing2info;
	thing2info[thing] = {stack, SbTimeGetMonotonicNow()};
	}

	// Remove \|thing\| from \|tlo_thing2info\|. \|tlo_thing2info\| is expected to
	// actually contain \|thing\|, and will error if it does not.
	void StopTrackingThing(Cell* thing) {
	if (!thing) {
	return;
	}

	auto& thing2info = tlo_trace_data.GetOrCreate()->thing2info;
	auto erased_count = thing2info.erase(thing);
	SB_DCHECK(erased_count == 1);
	}

	// Dump the current state of the heap if \|kDumpInterval\| time has passed since
	// the last dump.
	void MaybeDump() {
	auto& trace_data = *tlo_trace_data.GetOrCreate();
	auto now = SbTimeGetMonotonicNow();
	auto diff = now - trace_data.last_dump_time;
	if (diff > kDumpInterval) {
	trace_data.last_dump_time = now;
	auto thread_id = SbThreadGetId();
	SB_LOG(INFO) << "CJGT_BEGIN_HEAP_DUMP: " << thread_id << " " << now;
	for (const auto& pair : trace_data.thing2info) {
	SB_LOG(INFO) << "CJGT_HEAP_DUMP: " << thread_id << " "
	<< static_cast<void*>(pair.first) << " " << pair.second.time
	<< " " << pair.second.stack;
	}
	SB_LOG(INFO) << "CJGT_END_HEAP_DUMP: " << thread_id << " " << now;
	}
	}

	std::string GetThreadName() {
	char buffer[120];
	SbThreadGetName(buffer, SB_ARRAY_SIZE_INT(buffer));
	return &buffer[0];
	}

	} // namespace

	bool InitTrace(GCRuntime& gc) {
	SB_LOG(INFO) << "CJGT_THREAD_ID_TO_NAME: " << SbThreadGetId() << " "
	<< GetThreadName();
	return true;
	}

	void FinishTrace() {}

	bool TraceEnabled() {
	return true;
	}

	void TraceNurseryAlloc(Cell* thing, size_t size) {
	// Don't do anything. We will trace \|thing\| if it ends up getting
	// tenured.
	}

	void TraceTenuredAlloc(Cell* thing, AllocKind kind) {
	StartTrackingThing(thing);
	}

	void TraceCreateObject(JSObject* object) {}

	void TraceMinorGCStart() {}

	void TracePromoteToTenured(Cell* src, Cell* dst) {
	StartTrackingThing(dst);
	}

	void TraceMinorGCEnd() {
	MaybeDump();
	}

	void TraceMajorGCStart() {}

	void TraceTenuredFinalize(Cell* thing) {
	StopTrackingThing(thing);
	}

	void TraceMajorGCEnd() {
	MaybeDump();
	}

	void TraceTypeNewScript(js::ObjectGroup* group) {}

	} // namespace gc
	} // namespace js

	#elif defined(JS_GC_TRACE)

	#include "gc/GCTrace.h"

	#include <stdio.h>
	#include <string.h>

	#include "gc/GCTraceFormat.h"

	#include "js/HashTable.h"

	using namespace js;
	using namespace js::gc;

	JS_STATIC_ASSERT(AllocKinds == unsigned(AllocKind::LIMIT));
	JS_STATIC_ASSERT(LastObjectAllocKind == unsigned(AllocKind::OBJECT_LAST));

	static FILE* gcTraceFile = nullptr;

	static HashSet<const Class, DefaultHasher<const Class>, SystemAllocPolicy> tracedClasses;
	static HashSet<const ObjectGroup, DefaultHasher<const ObjectGroup>, SystemAllocPolicy> tracedGroups;

	static inline void
	WriteWord(uint64_t data)
	{
	if (gcTraceFile)
	fwrite(&data, sizeof(data), 1, gcTraceFile);
	}

	static inline void
	TraceEvent(GCTraceEvent event, uint64_t payload = 0, uint8_t extra = 0)
	{
	MOZ_ASSERT(event < GCTraceEventCount);
	MOZ_ASSERT((payload >> TracePayloadBits) == 0);
	WriteWord((uint64_t(event) << TraceEventShift) \|
	(uint64_t(extra) << TraceExtraShift) \| payload);
	}

	static inline void
	TraceAddress(const void* p)
	{
	TraceEvent(TraceDataAddress, uint64_t(p));
	}

	static inline void
	TraceInt(uint32_t data)
	{
	TraceEvent(TraceDataInt, data);
	}

	static void
	TraceString(const char* string)
	{
	JS_STATIC_ASSERT(sizeof(char) == 1);

	size_t length = strlen(string);
	const unsigned charsPerWord = sizeof(uint64_t);
	unsigned wordCount = (length + charsPerWord - 1) / charsPerWord;

	TraceEvent(TraceDataString, length);
	for (unsigned i = 0; i < wordCount; ++i) {
	union
	{
	uint64_t word;
	char chars[charsPerWord];
	} data;
	strncpy(data.chars, string + (i * charsPerWord), charsPerWord);
	WriteWord(data.word);
	}
	}

	bool
	js::gc::InitTrace(GCRuntime& gc)
	{
	/* This currently does not support multiple runtimes. */
	MOZ_ALWAYS_TRUE(!gcTraceFile);

	char* filename = js_sb_getenv("JS_GC_TRACE");
	if (!filename)
	return true;

	if (!tracedClasses.init() \|\| !tracedTypes.init()) {
	FinishTrace();
	return false;
	}

	gcTraceFile = fopen(filename, "w");
	if (!gcTraceFile) {
	FinishTrace();
	return false;
	}

	TraceEvent(TraceEventInit, 0, TraceFormatVersion);

	/* Trace information about thing sizes. */
	for (auto kind : AllAllocKinds())
	TraceEvent(TraceEventThingSize, Arena::thingSize(kind));

	return true;
	}

	void
	js::gc::FinishTrace()
	{
	if (gcTraceFile) {
	fclose(gcTraceFile);
	gcTraceFile = nullptr;
	}
	tracedClasses.finish();
	tracedTypes.finish();
	}

	bool
	js::gc::TraceEnabled()
	{
	return gcTraceFile != nullptr;
	}

	void
	js::gc::TraceNurseryAlloc(Cell* thing, size_t size)
	{
	if (thing) {
	/* We don't have AllocKind here, but we can work it out from size. */
	unsigned slots = (size - sizeof(JSObject)) / sizeof(JS::Value);
	AllocKind kind = GetBackgroundAllocKind(GetGCObjectKind(slots));
	TraceEvent(TraceEventNurseryAlloc, uint64_t(thing), kind);
	}
	}

	void
	js::gc::TraceTenuredAlloc(Cell* thing, AllocKind kind)
	{
	if (thing)
	TraceEvent(TraceEventTenuredAlloc, uint64_t(thing), kind);
	}

	static void
	MaybeTraceClass(const Class* clasp)
	{
	if (tracedClasses.has(clasp))
	return;

	TraceEvent(TraceEventClassInfo, uint64_t(clasp));
	TraceString(clasp->name);
	TraceInt(clasp->flags);
	TraceInt(clasp->finalize != nullptr);

	MOZ_ALWAYS_TRUE(tracedClasses.put(clasp));
	}

	static void
	MaybeTraceGroup(ObjectGroup* group)
	{
	if (tracedGroups.has(group))
	return;

	MaybeTraceClass(group->clasp());
	TraceEvent(TraceEventGroupInfo, uint64_t(group));
	TraceAddress(group->clasp());
	TraceInt(group->flags());

	MOZ_ALWAYS_TRUE(tracedGroups.put(group));
	}

	void
	js::gc::TraceTypeNewScript(ObjectGroup* group)
	{
	const size_t bufLength = 128;
	static char buffer[bufLength];
	MOZ_ASSERT(group->hasNewScript());
	JSAtom* funName = group->newScript()->fun->displayAtom();
	if (!funName)
	return;

	size_t length = funName->length();
	MOZ_ALWAYS_TRUE(length < bufLength);
	CopyChars(reinterpret_cast<Latin1Char>(buffer), funName);
	buffer[length] = 0;

	TraceEvent(TraceEventTypeNewScript, uint64_t(group));
	TraceString(buffer);
	}

	void
	js::gc::TraceCreateObject(JSObject* object)
	{
	if (!gcTraceFile)
	return;

	ObjectGroup* group = object->group();
	MaybeTraceGroup(group);
	TraceEvent(TraceEventCreateObject, uint64_t(object));
	TraceAddress(group);
	}

	void
	js::gc::TraceMinorGCStart()
	{
	TraceEvent(TraceEventMinorGCStart);
	}

	void
	js::gc::TracePromoteToTenured(Cell* src, Cell* dst)
	{
	TraceEvent(TraceEventPromoteToTenured, uint64_t(src));
	TraceAddress(dst);
	}

	void
	js::gc::TraceMinorGCEnd()
	{
	TraceEvent(TraceEventMinorGCEnd);
	}

	void
	js::gc::TraceMajorGCStart()
	{
	TraceEvent(TraceEventMajorGCStart);
	}

	void
	js::gc::TraceTenuredFinalize(Cell* thing)
	{
	if (!gcTraceFile)
	return;
	if (thing->tenuredGetAllocKind() == AllocKind::OBJECT_GROUP)
	tracedGroups.remove(static_cast<const ObjectGroup*>(thing));
	TraceEvent(TraceEventTenuredFinalize, uint64_t(thing));
	}

	void
	js::gc::TraceMajorGCEnd()
	{
	TraceEvent(TraceEventMajorGCEnd);
	}

	#endif