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chromium / chromium / src / bec147a63f30ec6e1157bc591c4cdb4998387d00 / . / gin / v8_platform.cc
blob: 94f3fbd7fd28fb7d41dbd4070cac4912fe30e6ca [file] [log] [blame]
// Copyright 2014 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 "gin/public/v8_platform.h"
#include <algorithm>
#include "base/bind.h"
#include "base/bit_cast.h"
#include "base/bits.h"
#include "base/check_op.h"
#include "base/debug/stack_trace.h"
#include "base/location.h"
#include "base/memory/nonscannable_memory.h"
#include "base/rand_util.h"
#include "base/system/sys_info.h"
#include "base/task/post_job.h"
#include "base/task/post_task.h"
#include "base/task/task_traits.h"
#include "base/task/thread_pool.h"
#include "base/task/thread_pool/thread_pool_instance.h"
#include "base/trace_event/trace_event.h"
#include "base/tracing_buildflags.h"
#include "build/build_config.h"
#include "gin/per_isolate_data.h"
#include "v8_platform_page_allocator.h"
namespace gin {
namespace {
base::LazyInstance<V8Platform>::Leaky g_v8_platform = LAZY_INSTANCE_INITIALIZER;
constexpr base::TaskTraits kLowPriorityTaskTraits = {
base::TaskPriority::BEST_EFFORT};
constexpr base::TaskTraits kDefaultTaskTraits = {
base::TaskPriority::USER_VISIBLE};
constexpr base::TaskTraits kBlockingTaskTraits = {
base::TaskPriority::USER_BLOCKING};
void PrintStackTrace() {
base::debug::StackTrace trace;
trace.Print();
}
class ConvertableToTraceFormatWrapper final
: public base::trace_event::ConvertableToTraceFormat {
public:
explicit ConvertableToTraceFormatWrapper(
std::unique_ptr<v8::ConvertableToTraceFormat> inner)
: inner_(std::move(inner)) {}
ConvertableToTraceFormatWrapper(const ConvertableToTraceFormatWrapper&) =
delete;
ConvertableToTraceFormatWrapper& operator=(
const ConvertableToTraceFormatWrapper&) = delete;
~ConvertableToTraceFormatWrapper() override = default;
void AppendAsTraceFormat(std::string* out) const final {
inner_->AppendAsTraceFormat(out);
}
private:
std::unique_ptr<v8::ConvertableToTraceFormat> inner_;
};
class EnabledStateObserverImpl final
: public base::trace_event::TraceLog::EnabledStateObserver {
public:
EnabledStateObserverImpl() {
base::trace_event::TraceLog::GetInstance()->AddEnabledStateObserver(this);
}
EnabledStateObserverImpl(const EnabledStateObserverImpl&) = delete;
EnabledStateObserverImpl& operator=(const EnabledStateObserverImpl&) = delete;
~EnabledStateObserverImpl() override {
base::trace_event::TraceLog::GetInstance()->RemoveEnabledStateObserver(
this);
}
void OnTraceLogEnabled() final {
base::AutoLock lock(mutex_);
for (auto* o : observers_) {
o->OnTraceEnabled();
}
}
void OnTraceLogDisabled() final {
base::AutoLock lock(mutex_);
for (auto* o : observers_) {
o->OnTraceDisabled();
}
}
void AddObserver(v8::TracingController::TraceStateObserver* observer) {
{
base::AutoLock lock(mutex_);
DCHECK(!observers_.count(observer));
observers_.insert(observer);
}
// Fire the observer if recording is already in progress.
if (base::trace_event::TraceLog::GetInstance()->IsEnabled())
observer->OnTraceEnabled();
}
void RemoveObserver(v8::TracingController::TraceStateObserver* observer) {
base::AutoLock lock(mutex_);
DCHECK(observers_.count(observer) == 1);
observers_.erase(observer);
}
private:
base::Lock mutex_;
std::unordered_set<v8::TracingController::TraceStateObserver*> observers_;
};
base::LazyInstance<EnabledStateObserverImpl>::Leaky g_trace_state_dispatcher =
LAZY_INSTANCE_INITIALIZER;
// TODO(skyostil): Deduplicate this with the clamper in Blink.
class TimeClamper {
public:
// As site isolation is enabled on desktop platforms, we can safely provide
// more timing resolution. Jittering is still enabled everywhere.
#if defined(OS_ANDROID)
static constexpr double kResolutionSeconds = 100e-6;
#else
static constexpr double kResolutionSeconds = 5e-6;
#endif
TimeClamper() : secret_(base::RandUint64()) {}
TimeClamper(const TimeClamper&) = delete;
TimeClamper& operator=(const TimeClamper&) = delete;
double ClampTimeResolution(double time_seconds) const {
bool was_negative = false;
if (time_seconds < 0) {
was_negative = true;
time_seconds = -time_seconds;
}
// For each clamped time interval, compute a pseudorandom transition
// threshold. The reported time will either be the start of that interval or
// the next one depending on which side of the threshold |time_seconds| is.
double interval = floor(time_seconds / kResolutionSeconds);
double clamped_time = interval * kResolutionSeconds;
double tick_threshold = ThresholdFor(clamped_time);
if (time_seconds >= tick_threshold)
clamped_time = (interval + 1) * kResolutionSeconds;
if (was_negative)
clamped_time = -clamped_time;
return clamped_time;
}
private:
inline double ThresholdFor(double clamped_time) const {
uint64_t time_hash = MurmurHash3(bit_cast<int64_t>(clamped_time) ^ secret_);
return clamped_time + kResolutionSeconds * ToDouble(time_hash);
}
static inline double ToDouble(uint64_t value) {
// Exponent for double values for [1.0 .. 2.0]
static const uint64_t kExponentBits = uint64_t{0x3FF0000000000000};
static const uint64_t kMantissaMask = uint64_t{0x000FFFFFFFFFFFFF};
uint64_t random = (value & kMantissaMask) | kExponentBits;
return bit_cast<double>(random) - 1;
}
static inline uint64_t MurmurHash3(uint64_t value) {
value ^= value >> 33;
value *= uint64_t{0xFF51AFD7ED558CCD};
value ^= value >> 33;
value *= uint64_t{0xC4CEB9FE1A85EC53};
value ^= value >> 33;
return value;
}
const uint64_t secret_;
};
base::LazyInstance<TimeClamper>::Leaky g_time_clamper =
LAZY_INSTANCE_INITIALIZER;
#if BUILDFLAG(USE_PARTITION_ALLOC)
base::LazyInstance<gin::PageAllocator>::Leaky g_page_allocator =
LAZY_INSTANCE_INITIALIZER;
#endif // BUILDFLAG(USE_PARTITION_ALLOC)
class JobDelegateImpl : public v8::JobDelegate {
public:
explicit JobDelegateImpl(base::JobDelegate* delegate) : delegate_(delegate) {}
JobDelegateImpl() = default;
JobDelegateImpl(const JobDelegateImpl&) = delete;
JobDelegateImpl& operator=(const JobDelegateImpl&) = delete;
// v8::JobDelegate:
bool ShouldYield() override { return delegate_->ShouldYield(); }
void NotifyConcurrencyIncrease() override {
delegate_->NotifyConcurrencyIncrease();
}
uint8_t GetTaskId() override { return delegate_->GetTaskId(); }
bool IsJoiningThread() const override { return delegate_->IsJoiningThread(); }
private:
base::JobDelegate* delegate_;
};
class JobHandleImpl : public v8::JobHandle {
public:
explicit JobHandleImpl(base::JobHandle handle) : handle_(std::move(handle)) {}
~JobHandleImpl() override = default;
JobHandleImpl(const JobHandleImpl&) = delete;
JobHandleImpl& operator=(const JobHandleImpl&) = delete;
// v8::JobHandle:
void NotifyConcurrencyIncrease() override {
handle_.NotifyConcurrencyIncrease();
}
bool UpdatePriorityEnabled() const override { return true; }
void UpdatePriority(v8::TaskPriority new_priority) override {
handle_.UpdatePriority(ToBaseTaskPriority(new_priority));
}
void Join() override { handle_.Join(); }
void Cancel() override { handle_.Cancel(); }
void CancelAndDetach() override { handle_.CancelAndDetach(); }
bool IsActive() override { return handle_.IsActive(); }
bool IsValid() override { return !!handle_; }
private:
static base::TaskPriority ToBaseTaskPriority(v8::TaskPriority priority) {
switch (priority) {
case v8::TaskPriority::kBestEffort:
return base::TaskPriority::BEST_EFFORT;
case v8::TaskPriority::kUserVisible:
return base::TaskPriority::USER_VISIBLE;
case v8::TaskPriority::kUserBlocking:
return base::TaskPriority::USER_BLOCKING;
}
}
base::JobHandle handle_;
};
} // namespace
} // namespace gin
// Allow std::unique_ptr<v8::ConvertableToTraceFormat> to be a valid
// initialization value for trace macros.
template <>
struct base::trace_event::TraceValue::Helper<
std::unique_ptr<v8::ConvertableToTraceFormat>> {
static constexpr unsigned char kType = TRACE_VALUE_TYPE_CONVERTABLE;
static inline void SetValue(
TraceValue* v,
std::unique_ptr<v8::ConvertableToTraceFormat> value) {
// NOTE: |as_convertable| is an owning pointer, so using new here
// is acceptable.
v->as_convertable =
new gin::ConvertableToTraceFormatWrapper(std::move(value));
}
};
namespace gin {
class V8Platform::TracingControllerImpl : public v8::TracingController {
public:
TracingControllerImpl() = default;
TracingControllerImpl(const TracingControllerImpl&) = delete;
TracingControllerImpl& operator=(const TracingControllerImpl&) = delete;
~TracingControllerImpl() override = default;
// TracingController implementation.
#if !BUILDFLAG(USE_PERFETTO_CLIENT_LIBRARY)
const uint8_t* GetCategoryGroupEnabled(const char* name) override {
return TRACE_EVENT_API_GET_CATEGORY_GROUP_ENABLED(name);
}
uint64_t AddTraceEvent(
char phase,
const uint8_t* category_enabled_flag,
const char* name,
const char* scope,
uint64_t id,
uint64_t bind_id,
int32_t num_args,
const char** arg_names,
const uint8_t* arg_types,
const uint64_t* arg_values,
std::unique_ptr<v8::ConvertableToTraceFormat>* arg_convertables,
unsigned int flags) override {
base::trace_event::TraceArguments args(
num_args, arg_names, arg_types,
reinterpret_cast<const unsigned long long*>(arg_values),
arg_convertables);
DCHECK_LE(num_args, 2);
base::trace_event::TraceEventHandle handle =
TRACE_EVENT_API_ADD_TRACE_EVENT_WITH_BIND_ID(
phase, category_enabled_flag, name, scope, id, bind_id, &args,
flags);
uint64_t result;
memcpy(&result, &handle, sizeof(result));
return result;
}
uint64_t AddTraceEventWithTimestamp(
char phase,
const uint8_t* category_enabled_flag,
const char* name,
const char* scope,
uint64_t id,
uint64_t bind_id,
int32_t num_args,
const char** arg_names,
const uint8_t* arg_types,
const uint64_t* arg_values,
std::unique_ptr<v8::ConvertableToTraceFormat>* arg_convertables,
unsigned int flags,
int64_t timestampMicroseconds) override {
base::trace_event::TraceArguments args(
num_args, arg_names, arg_types,
reinterpret_cast<const unsigned long long*>(arg_values),
arg_convertables);
DCHECK_LE(num_args, 2);
base::TimeTicks timestamp =
base::TimeTicks() + base::Microseconds(timestampMicroseconds);
base::trace_event::TraceEventHandle handle =
TRACE_EVENT_API_ADD_TRACE_EVENT_WITH_THREAD_ID_AND_TIMESTAMP(
phase, category_enabled_flag, name, scope, id, bind_id,
TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, &args, flags);
uint64_t result;
memcpy(&result, &handle, sizeof(result));
return result;
}
void UpdateTraceEventDuration(const uint8_t* category_enabled_flag,
const char* name,
uint64_t handle) override {
base::trace_event::TraceEventHandle traceEventHandle;
memcpy(&traceEventHandle, &handle, sizeof(handle));
TRACE_EVENT_API_UPDATE_TRACE_EVENT_DURATION(category_enabled_flag, name,
traceEventHandle);
}
#endif // !BUILDFLAG(USE_PERFETTO_CLIENT_LIBRARY)
void AddTraceStateObserver(TraceStateObserver* observer) override {
g_trace_state_dispatcher.Get().AddObserver(observer);
}
void RemoveTraceStateObserver(TraceStateObserver* observer) override {
g_trace_state_dispatcher.Get().RemoveObserver(observer);
}
};
// static
V8Platform* V8Platform::Get() { return g_v8_platform.Pointer(); }
V8Platform::V8Platform() : tracing_controller_(new TracingControllerImpl) {}
V8Platform::~V8Platform() = default;
#if BUILDFLAG(USE_PARTITION_ALLOC)
PageAllocator* V8Platform::GetPageAllocator() {
return g_page_allocator.Pointer();
}
void V8Platform::OnCriticalMemoryPressure() {
// We only have a reservation on 32-bit Windows systems.
// TODO(bbudge) Make the #if's in BlinkInitializer match.
#if defined(OS_WIN) && defined(ARCH_CPU_32_BITS)
base::ReleaseReservation();
#endif
}
v8::ZoneBackingAllocator* V8Platform::GetZoneBackingAllocator() {
static struct Allocator final : v8::ZoneBackingAllocator {
MallocFn GetMallocFn() const override {
return &base::AllocNonQuarantinable;
}
FreeFn GetFreeFn() const override { return &base::FreeNonQuarantinable; }
} allocator;
return &allocator;
}
#endif // BUILDFLAG(USE_PARTITION_ALLOC)
std::shared_ptr<v8::TaskRunner> V8Platform::GetForegroundTaskRunner(
v8::Isolate* isolate) {
PerIsolateData* data = PerIsolateData::From(isolate);
return data->task_runner();
}
int V8Platform::NumberOfWorkerThreads() {
// V8Platform assumes the scheduler uses the same set of workers for default
// and user blocking tasks.
const int num_foreground_workers =
base::ThreadPoolInstance::Get()
->GetMaxConcurrentNonBlockedTasksWithTraitsDeprecated(
kDefaultTaskTraits);
DCHECK_EQ(num_foreground_workers,
base::ThreadPoolInstance::Get()
->GetMaxConcurrentNonBlockedTasksWithTraitsDeprecated(
kBlockingTaskTraits));
return std::max(1, num_foreground_workers);
}
void V8Platform::CallOnWorkerThread(std::unique_ptr<v8::Task> task) {
base::ThreadPool::PostTask(FROM_HERE, kDefaultTaskTraits,
base::BindOnce(&v8::Task::Run, std::move(task)));
}
void V8Platform::CallBlockingTaskOnWorkerThread(
std::unique_ptr<v8::Task> task) {
base::ThreadPool::PostTask(FROM_HERE, kBlockingTaskTraits,
base::BindOnce(&v8::Task::Run, std::move(task)));
}
void V8Platform::CallLowPriorityTaskOnWorkerThread(
std::unique_ptr<v8::Task> task) {
base::ThreadPool::PostTask(FROM_HERE, kLowPriorityTaskTraits,
base::BindOnce(&v8::Task::Run, std::move(task)));
}
void V8Platform::CallDelayedOnWorkerThread(std::unique_ptr<v8::Task> task,
double delay_in_seconds) {
base::ThreadPool::PostDelayedTask(
FROM_HERE, kDefaultTaskTraits,
base::BindOnce(&v8::Task::Run, std::move(task)),
base::Seconds(delay_in_seconds));
}
std::unique_ptr<v8::JobHandle> V8Platform::PostJob(
v8::TaskPriority priority,
std::unique_ptr<v8::JobTask> job_task) {
base::TaskTraits task_traits;
switch (priority) {
case v8::TaskPriority::kBestEffort:
task_traits = kLowPriorityTaskTraits;
break;
case v8::TaskPriority::kUserVisible:
task_traits = kDefaultTaskTraits;
break;
case v8::TaskPriority::kUserBlocking:
task_traits = kBlockingTaskTraits;
break;
}
// Ownership of |job_task| is assumed by |worker_task|, while
// |max_concurrency_callback| uses an unretained pointer.
auto* job_task_ptr = job_task.get();
auto handle =
base::PostJob(FROM_HERE, task_traits,
base::BindRepeating(
[](const std::unique_ptr<v8::JobTask>& job_task,
base::JobDelegate* delegate) {
JobDelegateImpl delegate_impl(delegate);
job_task->Run(&delegate_impl);
},
std::move(job_task)),
base::BindRepeating(
[](v8::JobTask* job_task, size_t worker_count) {
return job_task->GetMaxConcurrency(worker_count);
},
base::Unretained(job_task_ptr)));
return std::make_unique<JobHandleImpl>(std::move(handle));
}
bool V8Platform::IdleTasksEnabled(v8::Isolate* isolate) {
return PerIsolateData::From(isolate)->task_runner()->IdleTasksEnabled();
}
double V8Platform::MonotonicallyIncreasingTime() {
return base::TimeTicks::Now().ToInternalValue() /
static_cast<double>(base::Time::kMicrosecondsPerSecond);
}
double V8Platform::CurrentClockTimeMillis() {
double now_seconds = base::Time::Now().ToJsTime() / 1000;
return g_time_clamper.Get().ClampTimeResolution(now_seconds) * 1000;
}
v8::TracingController* V8Platform::GetTracingController() {
return tracing_controller_.get();
}
v8::Platform::StackTracePrinter V8Platform::GetStackTracePrinter() {
return PrintStackTrace;
}
} // namespace gin