// Copyright 2013 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

#include "ui/latency/latency_info.h"

#include <stddef.h>

#include <algorithm>
#include <string>
#include <utility>

#include "base/json/json_writer.h"
#include "base/lazy_instance.h"
#include "base/logging.h"
#include "base/trace_event/trace_event.h"
#include "services/tracing/public/cpp/perfetto/flow_event_utils.h"
#include "services/tracing/public/cpp/perfetto/macros.h"
#include "third_party/perfetto/protos/perfetto/trace/track_event/chrome_latency_info.pbzero.h"

namespace {

using perfetto::protos::pbzero::ChromeLatencyInfo;
using perfetto::protos::pbzero::TrackEvent;

const size_t kMaxLatencyInfoNumber = 100;

ChromeLatencyInfo::LatencyComponentType GetComponentProtoEnum(
    ui::LatencyComponentType type) {
#define CASE_TYPE(t)      \
  case ui::t##_COMPONENT: \
    return ChromeLatencyInfo::COMPONENT_##t
  switch (type) {
    CASE_TYPE(INPUT_EVENT_LATENCY_BEGIN_RWH);
    CASE_TYPE(INPUT_EVENT_LATENCY_SCROLL_UPDATE_ORIGINAL);
    CASE_TYPE(INPUT_EVENT_LATENCY_FIRST_SCROLL_UPDATE_ORIGINAL);
    CASE_TYPE(INPUT_EVENT_LATENCY_ORIGINAL);
    CASE_TYPE(INPUT_EVENT_LATENCY_UI);
    CASE_TYPE(INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_MAIN);
    CASE_TYPE(INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_IMPL);
    CASE_TYPE(INPUT_EVENT_LATENCY_RENDERER_MAIN);
    CASE_TYPE(INPUT_EVENT_LATENCY_RENDERER_SWAP);
    CASE_TYPE(DISPLAY_COMPOSITOR_RECEIVED_FRAME);
    CASE_TYPE(INPUT_EVENT_GPU_SWAP_BUFFER);
    CASE_TYPE(INPUT_EVENT_LATENCY_FRAME_SWAP);
    default:
      NOTREACHED() << "Unhandled LatencyComponentType: " << type;
      return ChromeLatencyInfo::COMPONENT_UNSPECIFIED;
  }
#undef CASE_TYPE
}

bool IsInputLatencyBeginComponent(ui::LatencyComponentType type) {
  return type == ui::INPUT_EVENT_LATENCY_BEGIN_RWH_COMPONENT;
}

constexpr const char kTraceCategoriesForAsyncEvents[] =
    "benchmark,latencyInfo,rail";

struct LatencyInfoEnabledInitializer {
  LatencyInfoEnabledInitializer() :
      latency_info_enabled(TRACE_EVENT_API_GET_CATEGORY_GROUP_ENABLED(
          kTraceCategoriesForAsyncEvents)) {
  }

  const unsigned char* latency_info_enabled;
};

static base::LazyInstance<LatencyInfoEnabledInitializer>::Leaky
  g_latency_info_enabled = LAZY_INSTANCE_INITIALIZER;

}  // namespace

namespace ui {

LatencyInfo::LatencyInfo() = default;

LatencyInfo::LatencyInfo(SourceEventType type) : source_event_type_(type) {}

LatencyInfo::LatencyInfo(const LatencyInfo& other) = default;
LatencyInfo::LatencyInfo(LatencyInfo&& other) = default;

LatencyInfo::~LatencyInfo() = default;

LatencyInfo::LatencyInfo(int64_t trace_id, bool terminated)
    : trace_id_(trace_id), terminated_(terminated) {}

LatencyInfo& LatencyInfo::operator=(const LatencyInfo& other) = default;

bool LatencyInfo::Verify(const std::vector<LatencyInfo>& latency_info,
                         const char* referring_msg) {
  if (latency_info.size() > kMaxLatencyInfoNumber) {
    LOG(ERROR) << referring_msg << ", LatencyInfo vector size "
               << latency_info.size() << " is too big.";
    TRACE_EVENT_INSTANT1("input,benchmark,latencyInfo",
                         "LatencyInfo::Verify Fails", TRACE_EVENT_SCOPE_GLOBAL,
                         "size", latency_info.size());
    return false;
  }
  return true;
}

void LatencyInfo::TraceIntermediateFlowEvents(
    const std::vector<LatencyInfo>& latency_info,
    perfetto::protos::pbzero::ChromeLatencyInfo::Step step) {
  for (auto& latency : latency_info) {
    if (latency.trace_id() == -1)
      continue;

    TRACE_EVENT(
        "input,benchmark,latencyInfo", "LatencyInfo.Flow",
        [&latency, &step](perfetto::EventContext ctx) {
          ChromeLatencyInfo* info = ctx.event()->set_chrome_latency_info();
          info->set_step(step);
          info->set_trace_id(latency.trace_id());
          tracing::FillFlowEvent(ctx, TrackEvent::LegacyEvent::FLOW_INOUT,
                                 latency.trace_id());
        });
  }
}

void LatencyInfo::AddNewLatencyFrom(const LatencyInfo& other) {
  // Don't clobber an existing trace_id_ or ukm_source_id_.
  if (trace_id_ == -1) {
    trace_id_ = other.trace_id();
  }

  if (ukm_source_id_ == ukm::kInvalidSourceId) {
    ukm_source_id_ = other.ukm_source_id();
  }

  for (const auto& lc : other.latency_components()) {
    if (!FindLatency(lc.first, nullptr)) {
      AddLatencyNumberWithTimestamp(lc.first, lc.second);
    }
  }

  coalesced_ = other.coalesced();
  gesture_scroll_id_ = other.gesture_scroll_id();
  touch_trace_id_ = other.touch_trace_id();
  // TODO(tdresser): Ideally we'd copy |began_| here as well, but |began_| isn't
  // very intuitive, and we can actually begin multiple times across copied
  // events.
  terminated_ = other.terminated();
}

void LatencyInfo::AddLatencyNumber(LatencyComponentType component) {
  AddLatencyNumberWithTimestampImpl(component, base::TimeTicks::Now(), nullptr);
}

void LatencyInfo::AddLatencyNumberWithTraceName(LatencyComponentType component,
                                                const char* trace_name_str,
                                                base::TimeTicks now) {
  AddLatencyNumberWithTimestampImpl(component, now, trace_name_str);
}

void LatencyInfo::AddLatencyNumberWithTimestamp(LatencyComponentType component,
                                                base::TimeTicks time) {
  AddLatencyNumberWithTimestampImpl(component, time, nullptr);
}

void LatencyInfo::AddLatencyNumberWithTimestampImpl(
    LatencyComponentType component,
    base::TimeTicks time,
    const char* trace_name_str) {
  const unsigned char* latency_info_enabled =
      g_latency_info_enabled.Get().latency_info_enabled;

  if (IsInputLatencyBeginComponent(component)) {
    // Should only ever add begin component once.
    CHECK(!began_);
    began_ = true;
    // We should have a trace ID assigned by now.
    DCHECK(trace_id_ != -1);

    if (*latency_info_enabled) {
      // The timestamp for ASYNC_BEGIN trace event is used for drawing the
      // beginning of the trace event in trace viewer. For better visualization,
      // for an input event, we want to draw the beginning as when the event is
      // originally created, e.g. the timestamp of its ORIGINAL/UI_COMPONENT,
      // not when we actually issue the ASYNC_BEGIN trace event.
      base::TimeTicks begin_timestamp;
      base::TimeTicks ts;
      if (FindLatency(INPUT_EVENT_LATENCY_ORIGINAL_COMPONENT,
                      &begin_timestamp) ||
          FindLatency(INPUT_EVENT_LATENCY_UI_COMPONENT, &begin_timestamp)) {
        ts = begin_timestamp;
      } else {
        ts = base::TimeTicks::Now();
      }

      TRACE_EVENT_BEGIN(kTraceCategoriesForAsyncEvents,
                        perfetto::StaticString{trace_name_str},
                        perfetto::Track::Global(trace_id_), ts);
    }

    TRACE_EVENT("input,benchmark,latencyInfo", "LatencyInfo.Flow",
                [this](perfetto::EventContext ctx) {
                  ChromeLatencyInfo* info =
                      ctx.event()->set_chrome_latency_info();
                  info->set_trace_id(trace_id_);
                  tracing::FillFlowEvent(ctx, TrackEvent::LegacyEvent::FLOW_OUT,
                                         trace_id_);
                });
  }

  auto it = latency_components_.find(component);
  DCHECK(it == latency_components_.end());
  latency_components_[component] = time;

  if (component == INPUT_EVENT_LATENCY_FRAME_SWAP_COMPONENT)
    Terminate();
}

void LatencyInfo::Terminate() {
  if (!began_)
    return;

  // Should only ever be terminated once.
  CHECK(!terminated_);
  terminated_ = true;

  if (*g_latency_info_enabled.Get().latency_info_enabled) {
    base::TimeTicks gpu_swap_end_timestamp;
    if (!this->FindLatency(INPUT_EVENT_LATENCY_FRAME_SWAP_COMPONENT,
                           &gpu_swap_end_timestamp)) {
      gpu_swap_end_timestamp = base::TimeTicks::Now();
    }
    TRACE_EVENT_END(
        kTraceCategoriesForAsyncEvents, perfetto::Track::Global(trace_id_),
        gpu_swap_end_timestamp, [this](perfetto::EventContext ctx) {
          ChromeLatencyInfo* info = ctx.event()->set_chrome_latency_info();
          for (const auto& lc : latency_components_) {
            ChromeLatencyInfo::ComponentInfo* component =
                info->add_component_info();

            component->set_component_type(GetComponentProtoEnum(lc.first));
            component->set_time_us(lc.second.since_origin().InMicroseconds());
          }

          if (gesture_scroll_id_ > 0) {
            info->set_gesture_scroll_id(gesture_scroll_id_);
          }
          if (touch_trace_id_ > 0) {
            info->set_touch_id(touch_trace_id_);
          }

          info->set_trace_id(trace_id_);
          info->set_is_coalesced(coalesced_);
        });
  }

  TRACE_EVENT("input,benchmark,latencyInfo", "LatencyInfo.Flow",
              [this](perfetto::EventContext ctx) {
                ChromeLatencyInfo* info =
                    ctx.event()->set_chrome_latency_info();
                info->set_trace_id(trace_id_);
                tracing::FillFlowEvent(ctx, TrackEvent::LegacyEvent::FLOW_IN,
                                       trace_id_);
              });
}

bool LatencyInfo::FindLatency(LatencyComponentType type,
                              base::TimeTicks* output) const {
  auto it = latency_components_.find(type);
  if (it == latency_components_.end())
    return false;
  if (output)
    *output = it->second;
  return true;
}

}  // namespace ui