v8/include/v8-metrics.h
Emanuel Ziegler 905aafab8b [wasm] Add CPU time metrics (reland)
This is a reland of dcdaf42fa8. It adds
CPU time metrics to the WasmModuleDecoded (except for streaming),
WasmModuleCompiled and WasmModuleTieredUp events. This can later be used
to provide this information as UKMs or UMAs.

Bug: v8:11611
Change-Id: I813fc8de36d1445c6a887abf496ec10e1a803815
Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2953296
Reviewed-by: Adam Klein <adamk@chromium.org>
Reviewed-by: Clemens Backes <clemensb@chromium.org>
Commit-Queue: Emanuel Ziegler <ecmziegler@chromium.org>
Cr-Commit-Position: refs/heads/master@{#75715}
2021-07-14 08:01:41 +00:00

230 lines
7.6 KiB
C++

// Copyright 2020 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef V8_METRICS_H_
#define V8_METRICS_H_
#include "v8-internal.h" // NOLINT(build/include_directory)
#include "v8.h" // NOLINT(build/include_directory)
namespace v8 {
namespace metrics {
struct GarbageCollectionPhases {
int64_t compact_wall_clock_duration_in_us = -1;
int64_t mark_wall_clock_duration_in_us = -1;
int64_t sweep_wall_clock_duration_in_us = -1;
int64_t weak_wall_clock_duration_in_us = -1;
};
struct GarbageCollectionSizes {
int64_t bytes_before = -1;
int64_t bytes_after = -1;
int64_t bytes_freed = -1;
};
struct GarbageCollectionFullCycle {
GarbageCollectionPhases total;
GarbageCollectionPhases total_cpp;
GarbageCollectionPhases main_thread;
GarbageCollectionPhases main_thread_cpp;
GarbageCollectionPhases main_thread_atomic;
GarbageCollectionPhases main_thread_atomic_cpp;
GarbageCollectionPhases main_thread_incremental;
GarbageCollectionPhases main_thread_incremental_cpp;
GarbageCollectionSizes objects;
GarbageCollectionSizes objects_cpp;
GarbageCollectionSizes memory;
GarbageCollectionSizes memory_cpp;
double collection_rate_in_percent;
double collection_rate_cpp_in_percent;
double efficiency_in_bytes_per_us;
double efficiency_cpp_in_bytes_per_us;
double main_thread_efficiency_in_bytes_per_us;
double main_thread_efficiency_cpp_in_bytes_per_us;
};
struct GarbageCollectionFullMainThreadIncrementalMark {
int64_t wall_clock_duration_in_us = -1;
int64_t cpp_wall_clock_duration_in_us = -1;
};
struct GarbageCollectionFullMainThreadBatchedIncrementalMark {
std::vector<GarbageCollectionFullMainThreadIncrementalMark> events;
};
struct GarbageCollectionFullMainThreadIncrementalSweep {
int64_t wall_clock_duration_in_us = -1;
int64_t cpp_wall_clock_duration_in_us = -1;
};
struct GarbageCollectionFullMainThreadBatchedIncrementalSweep {
std::vector<GarbageCollectionFullMainThreadIncrementalSweep> events;
};
struct GarbageCollectionYoungCycle {
int64_t total_wall_clock_duration_in_us = -1;
int64_t main_thread_wall_clock_duration_in_us = -1;
double collection_rate_in_percent;
double efficiency_in_bytes_per_us;
double main_thread_efficiency_in_bytes_per_us;
};
struct WasmModuleDecoded {
bool async = false;
bool streamed = false;
bool success = false;
size_t module_size_in_bytes = 0;
size_t function_count = 0;
int64_t wall_clock_duration_in_us = -1;
int64_t cpu_duration_in_us = -1;
};
struct WasmModuleCompiled {
bool async = false;
bool streamed = false;
bool cached = false;
bool deserialized = false;
bool lazy = false;
bool success = false;
size_t code_size_in_bytes = 0;
size_t liftoff_bailout_count = 0;
int64_t wall_clock_duration_in_us = -1;
int64_t cpu_duration_in_us = -1;
};
struct WasmModuleInstantiated {
bool async = false;
bool success = false;
size_t imported_function_count = 0;
int64_t wall_clock_duration_in_us = -1;
};
struct WasmModuleTieredUp {
bool lazy = false;
size_t code_size_in_bytes = 0;
int64_t wall_clock_duration_in_us = -1;
int64_t cpu_duration_in_us = -1;
};
struct WasmModulesPerIsolate {
size_t count = 0;
};
#define V8_MAIN_THREAD_METRICS_EVENTS(V) \
V(GarbageCollectionFullCycle) \
V(GarbageCollectionFullMainThreadIncrementalMark) \
V(GarbageCollectionFullMainThreadBatchedIncrementalMark) \
V(GarbageCollectionFullMainThreadIncrementalSweep) \
V(GarbageCollectionFullMainThreadBatchedIncrementalSweep) \
V(GarbageCollectionYoungCycle) \
V(WasmModuleDecoded) \
V(WasmModuleCompiled) \
V(WasmModuleInstantiated) \
V(WasmModuleTieredUp)
#define V8_THREAD_SAFE_METRICS_EVENTS(V) V(WasmModulesPerIsolate)
/**
* This class serves as a base class for recording event-based metrics in V8.
* There a two kinds of metrics, those which are expected to be thread-safe and
* whose implementation is required to fulfill this requirement and those whose
* implementation does not have that requirement and only needs to be
* executable on the main thread. If such an event is triggered from a
* background thread, it will be delayed and executed by the foreground task
* runner.
*
* The thread-safe events are listed in the V8_THREAD_SAFE_METRICS_EVENTS
* macro above while the main thread event are listed in
* V8_MAIN_THREAD_METRICS_EVENTS above. For the former, a virtual method
* AddMainThreadEvent(const E& event, v8::Context::Token token) will be
* generated and for the latter AddThreadSafeEvent(const E& event).
*
* Thread-safe events are not allowed to access the context and therefore do
* not carry a context ID with them. These IDs can be generated using
* Recorder::GetContextId() and the ID will be valid throughout the lifetime
* of the isolate. It is not guaranteed that the ID will still resolve to
* a valid context using Recorder::GetContext() at the time the metric is
* recorded. In this case, an empty handle will be returned.
*
* The embedder is expected to call v8::Isolate::SetMetricsRecorder()
* providing its implementation and have the virtual methods overwritten
* for the events it cares about.
*/
class V8_EXPORT Recorder {
public:
// A unique identifier for a context in this Isolate.
// It is guaranteed to not be reused throughout the lifetime of the Isolate.
class ContextId {
public:
ContextId() : id_(kEmptyId) {}
bool IsEmpty() const { return id_ == kEmptyId; }
static const ContextId Empty() { return ContextId{kEmptyId}; }
bool operator==(const ContextId& other) const { return id_ == other.id_; }
bool operator!=(const ContextId& other) const { return id_ != other.id_; }
private:
friend class ::v8::Context;
friend class ::v8::internal::Isolate;
explicit ContextId(uintptr_t id) : id_(id) {}
static constexpr uintptr_t kEmptyId = 0;
uintptr_t id_;
};
virtual ~Recorder() = default;
#define ADD_MAIN_THREAD_EVENT(E) \
virtual void AddMainThreadEvent(const E& event, ContextId context_id) {}
V8_MAIN_THREAD_METRICS_EVENTS(ADD_MAIN_THREAD_EVENT)
#undef ADD_MAIN_THREAD_EVENT
#define ADD_THREAD_SAFE_EVENT(E) \
virtual void AddThreadSafeEvent(const E& event) {}
V8_THREAD_SAFE_METRICS_EVENTS(ADD_THREAD_SAFE_EVENT)
#undef ADD_THREAD_SAFE_EVENT
virtual void NotifyIsolateDisposal() {}
// Return the context with the given id or an empty handle if the context
// was already garbage collected.
static MaybeLocal<Context> GetContext(Isolate* isolate, ContextId id);
// Return the unique id corresponding to the given context.
static ContextId GetContextId(Local<Context> context);
};
/**
* Experimental API intended for the LongTasks UKM (crbug.com/1173527).
* The Reset() method should be called at the start of a potential
* long task. The Get() method returns durations of V8 work that
* happened during the task.
*
* This API is experimental and may be removed/changed in the future.
*/
struct V8_EXPORT LongTaskStats {
/**
* Resets durations of V8 work for the new task.
*/
V8_INLINE static void Reset(Isolate* isolate) {
v8::internal::Internals::IncrementLongTasksStatsCounter(isolate);
}
/**
* Returns durations of V8 work that happened since the last Reset().
*/
static LongTaskStats Get(Isolate* isolate);
int64_t gc_full_atomic_wall_clock_duration_us = 0;
int64_t gc_full_incremental_wall_clock_duration_us = 0;
int64_t gc_young_wall_clock_duration_us = 0;
};
} // namespace metrics
} // namespace v8
#endif // V8_METRICS_H_