Input latency performance test that uses tracing.

chrome/test/perf/latency/latency_tests.cc

Index: chrome/test/perf/latency/latency_tests.cc
diff --git a/chrome/test/perf/latency/latency_tests.cc b/chrome/test/perf/latency/latency_tests.cc
new file mode 100644
index 0000000000000000000000000000000000000000..fc33b9f7432325abbe03dd8adafcb8b6e28dc491
--- /dev/null
+++ b/chrome/test/perf/latency/latency_tests.cc
@@ -0,0 +1,543 @@
+// Copyright (c) 2011 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/command_line.h"
+#include "base/file_util.h"
+#include "base/memory/scoped_ptr.h"
+#include "base/path_service.h"
+#include "base/string_number_conversions.h"
+#include "base/stringprintf.h"
+#include "base/test/test_switches.h"
+#include "base/test/trace_event_analyzer.h"
+#include "base/threading/platform_thread.h"
+#include "base/timer.h"
+#include "base/version.h"
+#include "chrome/browser/ui/browser.h"
+#include "chrome/browser/ui/tab_contents/tab_contents_wrapper.h"
+#include "chrome/common/chrome_paths.h"
+#include "chrome/common/chrome_switches.h"
+#include "chrome/test/base/tracing.h"
+#include "chrome/test/base/ui_test_utils.h"
+#include "chrome/test/perf/browser_perf_test.h"
+#include "chrome/test/perf/perf_test.h"
+#include "content/browser/renderer_host/render_view_host.h"
+#include "content/browser/tab_contents/tab_contents.h"
+#include "content/public/common/content_switches.h"
+#include "third_party/WebKit/Source/WebKit/chromium/public/WebInputEvent.h"
+#include "testing/gtest/include/gtest/gtest.h"
+
+// Run with --vmodule=latency_tests=1 to print verbose latency info.
+
+// How is latency measured?
+//
+// The test injects mouse moves many times per frame from the browser via
+// RenderWidgetHost. Each input has a unique x coordinate. When the javascript
+// handler receives the input, it stores the coordinate for later use in the
+// requestAnimationFrame callback. In RAF, the test paints using the x
+// coordinate as a color (in software, it sets the color of a table; in webgl,
+// it executes a glClearColor). Trace events emit the color when it is picked up
+// by either UpdateRect for software or gles2_cmd_decoder/glClear for webgl.
+//
+// Each UpdateRect (software) or SwapBuffers (webgl) is considered to be a frame
+// boundary that will be used to measure latency in number of frames. Starting
+// from a frame boundary Y, the test first determines what mouse x coordinate
+// was represented by the color at that frame boundary. Then, the test walks
+// backward through the trace events to find the input event matching that
+// x coordinate. Then, the test find the nearest frame boundary X to the input
+// event (may be before or after). The number of frame boundaries is then
+// counted between X and Y to determine the input latency.
+//
+// By injecting mouse moves many times per frame, we reduce flakiness in the
+// finding of the nearest frame boundary.
+//
+// This test only measures the latency introduced by chrome code -- it does not
+// measure latency introduced by mouse drivers or the GL driver or the OS window
+// manager. The actual latency seen by a user is more than what is reported by
+// this test.
+//
+// Current modes:
+// - Software RAF
+// - WebGL RAF
+
+namespace {
+
+using namespace trace_analyzer;
+
+enum LatencyTestFlags {
+  kInputHeavy   = 1 << 0,
+  kInputDirty   = 1 << 1,
+  kRafHeavy     = 1 << 2,
+  kPaintHeavy   = 1 << 3
+};
+
+int kWebGLCanvasWidth = 10;
+int kNumFrames = 60;
+int kInputsPerFrame = 16;
+// Magic number to identify certain glClear events.
+int kClearColorGreen = 137;
+int kMouseY = 5;
+
+class LatencyTest : public BrowserPerfTest {
+ public:
+  LatencyTest() :
+      query_instant_(Query(EVENT_PHASE) ==
+                     Query::Phase(TRACE_EVENT_PHASE_INSTANT)),
+      query_swaps_(Query::Bool(false)),
+      query_inputs_(Query::Bool(false)),
+      query_blits_(Query::Bool(false)),
+      query_clears_(Query::Bool(false)),
+      mouse_x_(0),
+      tab_width_(0),
+      delay_time_ms_(0),
+      num_frames_(0),
+      verbose_(false),
+      test_flags_(0) {}
+
+  virtual void SetUpCommandLine(CommandLine* command_line) {
+    BrowserPerfTest::SetUpCommandLine(command_line);
+    // This enables DOM automation for tab contents.
+    EnableDOMAutomation();
+#ifdef TEST_THREADED_COMPOSITING_LATENCY
+    command_line->AppendSwitch(switches::kEnableThreadedCompositing);
+#endif
+    // Default behavior is to thumbnail the tab after 0.5 seconds, causing
+    // a nasty frame hitch and disturbing the latency test. Fix that:
+    command_line->AppendSwitch(switches::kEnableInBrowserThumbnailing);
+    command_line->AppendSwitch(switches::kDisableBackgroundNetworking);
+  }
+
+  // Run test with specified |mode| and |behaviors|.
+  // |mode| can be webgl or software.
+  // |behaviors| is a list of combinations of LatencyTestFlags.
+  void RunTest(const std::string& mode, const std::vector<int>& behaviors);
+
+  std::vector<int> GetAllBehaviors() {
+    std::vector<int> behaviors;
+    int max_behaviors = kInputHeavy | kInputDirty | kRafHeavy | kPaintHeavy;
+    for (int i = 0; i <= max_behaviors; ++i)
+      behaviors.push_back(i);
+    return behaviors;
+  }
+
+private:
+  void RunTestInternal(const std::string& test_url,
+                       bool send_inputs,
+                       int input_delay_ms);
+
+  double CalculateLatency();
+
+  std::string GetTraceName(int flags) {
+    if (flags == 0)
+      return "simple";
+    std::string name;
+    if (flags & kInputHeavy)
+      name += "ih";
+    if (flags & kInputDirty)
+      name += std::string(name.empty()? "" : "_") + "id";
+    if (flags & kRafHeavy)
+      name += std::string(name.empty()? "" : "_") + "rh";
+    if (flags & kPaintHeavy)
+      name += std::string(name.empty()? "" : "_") + "ph";
+    return name;
+  }
+
+  std::string GetUrlModeString(int flags) {
+    std::string mode = "&mode=" + mode_;
+    if (flags & kInputHeavy)
+      mode += "&inputHeavy=true";
+    if (flags & kInputDirty)
+      mode += "&inputDirty=true";
+    if (flags & kRafHeavy)
+      mode += "&rafHeavy=true";
+    if (flags & kPaintHeavy)
+      mode += "&paintHeavy=true";
+    return mode;
+  }
+
+  std::string GetUrl(int flags) {
+    std::string test_url =
+        net::FilePathToFileURL(test_path_).possibly_invalid_spec();
+    test_url += "?numFrames=" + base::IntToString(num_frames_);
+    test_url += "&canvasWidth=" + base::IntToString(kWebGLCanvasWidth);
+    test_url += "&clearColorGreen=" + base::IntToString(kClearColorGreen);
+    test_url += "&delayTimeMS=" + base::IntToString(delay_time_ms_);
+    test_url += "&y=" + base::IntToString(kMouseY);
+    return test_url + GetUrlModeString(flags);
+  }
+
+  int GetMeanFrameTime() const {
+    TraceEventVector events;
+    // Search for compositor swaps (or UpdateRects in the software path).
+    analyzer_->FindEvents(query_swaps_, &events);
+    RateStats stats;
+    bool success = GetRateStats(events, &stats);
+    EXPECT_TRUE(success);
+    if (!success)
+      return 16000;
+
+    // Check that the number of swaps is close to kNumFrames.
+    EXPECT_LT(num_frames_ - num_frames_/4, static_cast<int>(events.size()));
+    return static_cast<int>(stats.mean_us);
+  }
+
+  void SendInput() {
+    RenderViewHost* rvh = browser()->GetSelectedTabContentsWrapper()->
+        tab_contents()->render_view_host();
+    WebKit::WebMouseEvent mouse_event;
+    mouse_event.movementX = 1;
+    mouse_x_ += mouse_event.movementX;
+    // Wrap mouse_x_ when it's near the edge of the tab.
+    if (mouse_x_ > tab_width_ - 5)
+      mouse_x_ = 1;
+    mouse_event.x = mouse_event.windowX = mouse_x_;
+    // Set y coordinate to be a few pixels down from the top of the window,
+    // so that it is between the top and bottom of the canvas.
+    mouse_event.y = mouse_event.windowY = 5;
+    mouse_event.type = WebKit::WebInputEvent::MouseMove;
+    TRACE_EVENT_INSTANT1("test_latency", "MouseEventBegin", "x", mouse_x_);
+    rvh->ForwardMouseEvent(mouse_event);
+  }
+
+  void PrintEvents(const TraceEventVector& events) {
+    bool is_software = (mode_ == "software");
+    // Print trace data.
+    int swap_count = 0;
+    for (size_t i = 0; i < events.size(); ++i) {
+      if (events[i]->name == "MouseEventBegin") {
+        printf("%03d ", events[i]->GetKnownArgAsInt("x"));
+      }
+      else if (events[i]->name == "DoClear") {
+        printf("Clr%03d ", events[i]->GetKnownArgAsInt("red"));
+      }
+      else if (events[i]->name == "DoBlit") {
+        // WebGL context swap buffers.
+        printf("BLT ");
+      }
+      else if (events[i]->name == "SwapBuffers") {
+        // Compositor context swap buffers.
+        ++swap_count;
+        printf("|\nframe %03d: ", swap_count + 1);
+      }
+      else if (is_software && events[i]->name == "UpdateRect") {
+        ++swap_count;
+        printf("(%d)|\nframe %03d: ",
+                events[i]->GetKnownArgAsInt("color"), swap_count + 1);
+      }
+    }
+    printf("\n");
+  }
+
+  FilePath test_path_;
+  Query query_instant_;
+  Query query_swaps_;
+  Query query_inputs_;
+  Query query_blits_;
+  Query query_clears_;
+  scoped_ptr<TraceAnalyzer> analyzer_;
+  int mouse_x_;
+  int tab_width_;
+  base::RepeatingTimer<LatencyTest> timer_;
+  std::string mode_;
+  int delay_time_ms_;
+  int num_frames_;
+  std::map<int, double> latencies_;
+  bool verbose_;
+  int test_flags_;
+};
+
+void LatencyTest::RunTest(const std::string& mode,
+                          const std::vector<int>& behaviors) {
+  mode_ = mode;
+  verbose_ = (logging::GetVlogLevel("latency_tests") > 0);
+
+  // Construct queries for searching trace events via TraceAnalyzer.
+  int initial_flags = 0;
+  if (mode_ == "webgl") {
+    query_swaps_ = query_instant_ &&
+        Query(EVENT_NAME) == Query::String("SwapBuffers") &&
+        Query(EVENT_ARG, "width") != Query::Int(kWebGLCanvasWidth);
+  } else if (mode_ == "software") {
+    // Run software with kPaintHeavy the first time when no inputs are
+    // triggering paints -- otherwise it won't update each frame.
+    initial_flags = static_cast<int>(kPaintHeavy);
+    // Software updates need to have x=0 and y=0 to contain the input color.
+    query_swaps_ = query_instant_ &&
+        Query(EVENT_NAME) == Query::String("UpdateRect") &&
+        Query(EVENT_ARG, "x+y") == Query::Int(0);
+  }
+  query_inputs_ = query_instant_ &&
+      Query(EVENT_NAME) == Query::String("MouseEventBegin");
+  query_blits_ = query_instant_ &&
+      Query(EVENT_NAME) == Query::String("DoBlit") &&
+      Query(EVENT_ARG, "width") == Query::Int(kWebGLCanvasWidth);
+  query_clears_ = query_instant_ &&
+      Query(EVENT_NAME) == Query::String("DoClear") &&
+      Query(EVENT_ARG, "green") == Query::Int(kClearColorGreen);
+  Query query_width_swaps = query_swaps_;
+  if (mode_ == "software") {
+    query_width_swaps = query_instant_ &&
+        Query(EVENT_NAME) == Query::String("UpdateRectWidth") &&
+        Query(EVENT_ARG, "width") > Query::Int(kWebGLCanvasWidth);
+  }
+
+  // Set path to test html.
+  PathService::Get(chrome::DIR_TEST_DATA, &test_path_);
+  test_path_ = test_path_.Append(FILE_PATH_LITERAL("perf"));
+  test_path_ = test_path_.Append(FILE_PATH_LITERAL("latency"));
+  test_path_ = test_path_.Append(FILE_PATH_LITERAL("latency_suite.html"));
+  ASSERT_TRUE(file_util::PathExists(test_path_))
+      << "Missing test file: " << test_path_.value();
+
+  // Run once with defaults to measure the frame times.
+  delay_time_ms_ = 0;
+  // kNumFrames may be very high, but we only need a few frames to measure
+  // average frame times.
+  num_frames_ = 30;
+  RunTestInternal(GetUrl(initial_flags), false, 0);
+
+  // Get width of tab so that we know the limit of x coordinates for the
+  // injected mouse inputs.
+  const TraceEvent* swap_event = analyzer_->FindOneEvent(query_width_swaps);
+  ASSERT_TRUE(swap_event);
+  tab_width_ = swap_event->GetKnownArgAsInt("width");
+  // Keep printf output clean by limiting input coords to three digits:
+  tab_width_ = (tab_width_ < 1000) ? tab_width_ : 999;
+  // Sanity check the tab_width -- it should be more than 100 pixels.
+  EXPECT_GT(tab_width_, 100);
+
+  int mean_frame_time_us = GetMeanFrameTime();
+  if (verbose_)
+    printf("Mean frame time micros = %d\n", mean_frame_time_us);
+  // Delay time is 2x the average frame time.
+  delay_time_ms_ = 2 * mean_frame_time_us / 1000;
+  // Calculate delay time between inputs based on the measured frame time.
+  // This prevents flooding the browser with more events than we need if the
+  // test is running very slow (such as on a VM).
+  int delay_us = mean_frame_time_us / kInputsPerFrame;
+  // Round delay_us down to nearest milliseconds.
+  int delay_ms = delay_us / 1000;
+  delay_ms = (delay_ms <= 0) ? 1 : delay_ms;
+
+  // Reset num_frames_ for actual test runs.
+  num_frames_ = kNumFrames;
+
+  // Run input latency test with each requested behavior.
+  for (size_t i = 0; i < behaviors.size(); ++i) {
+    // Sleep to allow the rendering pipeline to flush.
+    base::PlatformThread::Sleep(200);
+
+    test_flags_ = behaviors[i];
+    std::string url = GetUrl(test_flags_);
+    printf("=============================================================\n");
+    if (verbose_)
+      printf("Mode: %s\n", GetUrlModeString(i).c_str());
+    printf("URL: %s\n", url.c_str());
+
+    // Do the actual test with input events.
+    RunTestInternal(url, true, delay_ms);
+    latencies_[test_flags_] = CalculateLatency();
+  }
+
+  // Print summary if more than 1 behavior was tested in this run.
+  if (behaviors.size() > 1) {
+    printf("#############################################################\n");
+    printf("## %s\n", mode_.c_str());
+    if (verbose_) {
+      printf("Latency, behavior:\n");
+      for (size_t i = 0; i < behaviors.size(); ++i) {
+        printf("%.1f, %s%s%s%s\n", latencies_[behaviors[i]],
+               (i & kInputHeavy) ? "InputHeavy " : "",
+               (i & kInputDirty) ? "InputDirty " : "",
+               (i & kRafHeavy) ? "RafHeavy " : "",
+               (i & kPaintHeavy) ? "PaintHeavy " : "");
+      }
+    }
+    printf("Latencies for tests: ");
+    for (size_t i = 0; i < behaviors.size(); ++i) {
+      printf("%.1f%s", latencies_[behaviors[i]],
+             (i < behaviors.size() - 1) ? ", " : "");
+    }
+    printf("\n");
+    printf("#############################################################\n");
+  }
+}
+
+void LatencyTest::RunTestInternal(const std::string& test_url,
+                                  bool send_inputs,
+                                  int input_delay_ms) {
+  mouse_x_ = 0;
+
+  ASSERT_TRUE(tracing::BeginTracing("test_gpu,test_latency"));
+
+  ui_test_utils::NavigateToURLWithDisposition(
+      browser(), GURL(test_url), CURRENT_TAB,
+      ui_test_utils::BROWSER_TEST_NONE);
+
+  // Start sending mouse inputs.
+  if (send_inputs) {
+    timer_.Start(FROM_HERE, base::TimeDelta::FromMicroseconds(input_delay_ms),
+                 this, &LatencyTest::SendInput);
+  }
+
+  // Wait for message indicating the test has finished running.
+  ui_test_utils::DOMMessageQueue message_queue;
+  ASSERT_TRUE(message_queue.WaitForMessage(NULL));
+
+  timer_.Stop();
+
+  std::string json_events;
+  ASSERT_TRUE(tracing::EndTracing(&json_events));
+
+  analyzer_.reset(TraceAnalyzer::Create(json_events));
+  analyzer_->AssociateBeginEndEvents();
+  analyzer_->MergeAssociatedEventArgs();
+}
+
+double LatencyTest::CalculateLatency() {
+  TraceEventVector events;
+  if (mode_ == "webgl") {
+    // Search for three types of events in WebGL mode:
+    //  - onscreen swaps.
+    //  - DoClear calls that contain the mouse x coordinate.
+    //  - mouse events.
+    analyzer_->FindEvents(query_swaps_ || query_inputs_ ||
+                          query_blits_ || query_clears_, &events);
+  }
+  else if (mode_ == "software") {
+    analyzer_->FindEvents(query_swaps_ || query_inputs_, &events);
+  } else {
+    CHECK(0) << "invalid mode";
+  }
+
+  if (verbose_)
+    PrintEvents(events);
+
+  int swap_count = 0;
+  size_t previous_blit_pos = 0;
+  swap_count = 0;
+  std::vector<int> latencies;
+  printf("Measured latency (in number of frames) for each frame:\n");
+  for (size_t i = 0; i < events.size(); ++i) {
+    if (query_swaps_.Evaluate(*events[i])) {
+      // Compositor context swap buffers.
+      ++swap_count;
+      // Don't analyze first few swaps, because they are filling the rendering
+      // pipeline and may be unstable.
+      if (swap_count > 4) {
+        int mouse_x = 0;
+        if (mode_ == "webgl") {
+

[cmp, 2011/12/20 23:44:51]

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[jbates, 2011/12/21 00:39:59]

Done.

+          // Trace backwards through the events to find the input event that
+          // matches the glClear that was presented by this SwapBuffers.
+
+          // Step 1: Find the last blit (which will be the WebGL blit).
+          size_t blit_pos = 0;
+          EXPECT_TRUE(FindLastOf(events, query_blits_, i, &blit_pos));
+          // Skip this SwapBuffers if the blit has already been consumed by a
+          // previous SwapBuffers. This means the current frame did not receive
+          // an update from WebGL.
+          EXPECT_GT(blit_pos, previous_blit_pos);
+          if (blit_pos == previous_blit_pos) {
+            if (verbose_)
+              printf(" %03d: ERROR\n", swap_count);
+            else
+              printf(" ERROR");
+            continue;
+          }
+          previous_blit_pos = blit_pos;
+
+          // Step 2: find the last clear from the WebGL blit. This will be the
+          // value of the latest mouse input that has affected this swap.
+          size_t clear_pos = 0;
+          EXPECT_TRUE(FindLastOf(events, query_clears_, blit_pos, &clear_pos));
+          mouse_x = events[clear_pos]->GetKnownArgAsInt("red");
+

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[jbates, 2011/12/21 00:39:59]

Done.

+        } else if (mode_ == "software") {
+

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[jbates, 2011/12/21 00:39:59]

Done.

+          // The software path gets the mouse_x directly from the DIB colors.
+          mouse_x = events[i]->GetKnownArgAsInt("color");
+        }
+
+        // Find the corresponding mouse input.
+        size_t input_pos = 0;
+        Query query_mouse_event = query_inputs_ &&
+            Query(EVENT_ARG, "x") == Query::Int(mouse_x);
+        EXPECT_TRUE(FindLastOf(events, query_mouse_event, i, &input_pos));
+
+        // Step 4: Find the nearest onscreen SwapBuffers to this input event.
+        size_t closest_swap = 0;
+        size_t second_closest_swap = 0;
+        EXPECT_TRUE(FindClosest(events, query_swaps_, input_pos,
+                                       &closest_swap, &second_closest_swap));
+        int latency = CountMatches(events, query_swaps_, closest_swap, i);
+        latencies.push_back(latency);
+        if (verbose_)
+          printf(" %03d: %d\n", swap_count, latency);
+        else
+          printf(" %d", latency);
+      }
+    }
+  }
+  printf("\n");
+
+  EXPECT_GT(latencies.size(), size_t(2));
+  if (latencies.size() <= size_t(2))
+    return 0.0;
+
+  double mean_latency = 0.0;
+  // Skip last couple latencies, because they could be unreliable.
+  size_t num_consider = latencies.size() - 2;
+  for (size_t i = 0; i < num_consider; ++i)
+    mean_latency += static_cast<double>(latencies[i]);
+  mean_latency /= static_cast<double>(num_consider);
+  printf("Mean latency = %f\n", mean_latency);
+
+  double mean_error = 0.0;
+  for (size_t i = 0; i < num_consider; ++i) {
+    double offset = fabs(mean_latency - static_cast<double>(latencies[i]));
+    mean_error = (offset > mean_error) ? offset : mean_error;
+  }
+
+  std::string trace_name = GetTraceName(test_flags_);
+  std::string mean_and_error = base::StringPrintf("%f,%f", mean_latency,
+                                                  mean_error);
+  perf_test::PrintResultMeanAndError(mode_, "", trace_name, mean_and_error,
+                                     "frames", true);
+  return mean_latency;
+}
+
+// For manual testing only, run all input latency tests and print summary.
+IN_PROC_BROWSER_TEST_F(LatencyTest, DISABLED_WebGLLatencyAll) {
+  RunTest("webgl", GetAllBehaviors());
+}
+
+// For manual testing only, run all input latency tests and print summary.
+IN_PROC_BROWSER_TEST_F(LatencyTest, DISABLED_SoftwareLatencyAll) {
+  RunTest("software", GetAllBehaviors());
+}
+
+IN_PROC_BROWSER_TEST_F(LatencyTest, WebGLLatencySelect) {
+  std::vector<int> behaviors;
+  behaviors.push_back(0);
+  behaviors.push_back(kInputHeavy);
+  behaviors.push_back(kInputHeavy | kInputDirty | kRafHeavy);
+  behaviors.push_back(kInputDirty | kPaintHeavy);
+  behaviors.push_back(kInputDirty | kRafHeavy | kPaintHeavy);
+  behaviors.push_back(kInputDirty | kInputHeavy | kRafHeavy | kPaintHeavy);
+  RunTest("webgl", behaviors);
+}
+
+IN_PROC_BROWSER_TEST_F(LatencyTest, SoftwareLatencySelect) {
+  std::vector<int> behaviors;
+  behaviors.push_back(0);
+  behaviors.push_back(kInputHeavy);
+  behaviors.push_back(kInputHeavy | kInputDirty | kRafHeavy);
+  behaviors.push_back(kInputDirty | kPaintHeavy);
+  behaviors.push_back(kInputDirty | kRafHeavy | kPaintHeavy);
+  behaviors.push_back(kInputDirty | kInputHeavy | kRafHeavy | kPaintHeavy);
+  RunTest("software", behaviors);
+}
+
+}  // namespace anonymous
+

[cmp, 2011/12/20 23:44:51]

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[jbates, 2011/12/21 00:39:59]

Done.