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// Copyright (c) 2012 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 "content/browser/gpu/gpu_internals_ui.h"
#include <stddef.h>
#include <memory>
#include <string>
#include <utility>
#include "base/bind.h"
#include "base/bind_helpers.h"
#include "base/command_line.h"
#include "base/environment.h"
#include "base/i18n/time_formatting.h"
#include "base/macros.h"
#include "base/memory/ptr_util.h"
#include "base/stl_util.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/stringize_macros.h"
#include "base/strings/stringprintf.h"
#include "base/sys_info.h"
#include "base/values.h"
#include "build/build_config.h"
#include "content/browser/gpu/compositor_util.h"
#include "content/browser/gpu/gpu_data_manager_impl.h"
#include "content/grit/content_resources.h"
#include "content/public/browser/browser_thread.h"
#include "content/public/browser/gpu_data_manager_observer.h"
#include "content/public/browser/web_contents.h"
#include "content/public/browser/web_ui.h"
#include "content/public/browser/web_ui_data_source.h"
#include "content/public/browser/web_ui_message_handler.h"
#include "content/public/common/content_client.h"
#include "content/public/common/content_switches.h"
#include "content/public/common/url_constants.h"
#include "gpu/config/gpu_feature_type.h"
#include "gpu/config/gpu_info.h"
#include "gpu/config/gpu_lists_version.h"
#include "gpu/ipc/host/gpu_memory_buffer_support.h"
#include "skia/ext/skia_commit_hash.h"
#include "third_party/angle/src/common/version.h"
#include "third_party/skia/include/core/SkMilestone.h"
#include "ui/display/display.h"
#include "ui/display/screen.h"
#include "ui/gfx/buffer_format_util.h"
#include "ui/gl/gpu_switching_manager.h"
#if defined(OS_WIN)
#include "ui/base/win/shell.h"
#include "ui/gfx/win/physical_size.h"
#endif
#if defined(USE_X11)
#include "ui/base/x/x11_util.h" // nogncheck
#include "ui/gfx/x/x11_atom_cache.h" // nogncheck
#endif
namespace content {
namespace {
WebUIDataSource* CreateGpuHTMLSource() {
WebUIDataSource* source = WebUIDataSource::Create(kChromeUIGpuHost);
source->SetJsonPath("strings.js");
source->AddResourcePath("gpu_internals.js", IDR_GPU_INTERNALS_JS);
source->SetDefaultResource(IDR_GPU_INTERNALS_HTML);
source->UseGzip();
return source;
}
std::unique_ptr<base::DictionaryValue> NewDescriptionValuePair(
const std::string& desc,
const std::string& value) {
std::unique_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
dict->SetString("description", desc);
dict->SetString("value", value);
return dict;
}
std::unique_ptr<base::DictionaryValue> NewDescriptionValuePair(
const std::string& desc,
std::unique_ptr<base::Value> value) {
std::unique_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
dict->SetString("description", desc);
dict->Set("value", std::move(value));
return dict;
}
#if defined(OS_WIN)
// Output DxDiagNode tree as nested array of {description,value} pairs
std::unique_ptr<base::ListValue> DxDiagNodeToList(const gpu::DxDiagNode& node) {
auto list = std::make_unique<base::ListValue>();
for (std::map<std::string, std::string>::const_iterator it =
node.values.begin();
it != node.values.end();
++it) {
list->Append(NewDescriptionValuePair(it->first, it->second));
}
for (std::map<std::string, gpu::DxDiagNode>::const_iterator it =
node.children.begin();
it != node.children.end();
++it) {
std::unique_ptr<base::ListValue> sublist = DxDiagNodeToList(it->second);
list->Append(NewDescriptionValuePair(it->first, std::move(sublist)));
}
return list;
}
#endif
std::string GPUDeviceToString(const gpu::GPUInfo::GPUDevice& gpu) {
std::string vendor = base::StringPrintf("0x%04x", gpu.vendor_id);
if (!gpu.vendor_string.empty())
vendor += " [" + gpu.vendor_string + "]";
std::string device = base::StringPrintf("0x%04x", gpu.device_id);
if (!gpu.device_string.empty())
device += " [" + gpu.device_string + "]";
return base::StringPrintf("VENDOR = %s, DEVICE= %s%s",
vendor.c_str(), device.c_str(), gpu.active ? " *ACTIVE*" : "");
}
std::unique_ptr<base::DictionaryValue> GpuInfoAsDictionaryValue() {
gpu::GPUInfo gpu_info = GpuDataManagerImpl::GetInstance()->GetGPUInfo();
auto basic_info = std::make_unique<base::ListValue>();
basic_info->Append(NewDescriptionValuePair(
"Initialization time",
base::Int64ToString(gpu_info.initialization_time.InMilliseconds())));
basic_info->Append(NewDescriptionValuePair(
"In-process GPU",
std::make_unique<base::Value>(gpu_info.in_process_gpu)));
basic_info->Append(NewDescriptionValuePair(
"Passthrough Command Decoder",
std::make_unique<base::Value>(gpu_info.passthrough_cmd_decoder)));
basic_info->Append(NewDescriptionValuePair(
"Direct Composition",
std::make_unique<base::Value>(gpu_info.direct_composition)));
basic_info->Append(NewDescriptionValuePair(
"Supports overlays",
std::make_unique<base::Value>(gpu_info.supports_overlays)));
basic_info->Append(NewDescriptionValuePair(
"Sandboxed", std::make_unique<base::Value>(gpu_info.sandboxed)));
basic_info->Append(NewDescriptionValuePair(
"GPU0", GPUDeviceToString(gpu_info.gpu)));
for (size_t i = 0; i < gpu_info.secondary_gpus.size(); ++i) {
basic_info->Append(NewDescriptionValuePair(
base::StringPrintf("GPU%d", static_cast<int>(i + 1)),
GPUDeviceToString(gpu_info.secondary_gpus[i])));
}
basic_info->Append(NewDescriptionValuePair(
"Optimus", std::make_unique<base::Value>(gpu_info.optimus)));
basic_info->Append(NewDescriptionValuePair(
"Optimus", std::make_unique<base::Value>(gpu_info.optimus)));
basic_info->Append(NewDescriptionValuePair(
"AMD switchable",
std::make_unique<base::Value>(gpu_info.amd_switchable)));
#if defined(OS_WIN)
std::string compositor =
ui::win::IsAeroGlassEnabled() ? "Aero Glass" : "none";
basic_info->Append(
NewDescriptionValuePair("Desktop compositing", compositor));
std::vector<gfx::PhysicalDisplaySize> display_sizes =
gfx::GetPhysicalSizeForDisplays();
for (const auto& display_size : display_sizes) {
const int w = display_size.width_mm;
const int h = display_size.height_mm;
const double size_mm = sqrt(w * w + h * h);
const double size_inches = 0.0393701 * size_mm;
const double rounded_size_inches = floor(10.0 * size_inches) / 10.0;
std::string size_string = base::StringPrintf("%.1f\"", rounded_size_inches);
std::string description_string = base::StringPrintf(
"Diagonal Monitor Size of %s", display_size.display_name.c_str());
basic_info->Append(
NewDescriptionValuePair(description_string, size_string));
}
#endif
std::string disabled_extensions;
GpuDataManagerImpl::GetInstance()->GetDisabledExtensions(
&disabled_extensions);
basic_info->Append(
NewDescriptionValuePair("Driver vendor", gpu_info.driver_vendor));
basic_info->Append(NewDescriptionValuePair("Driver version",
gpu_info.driver_version));
basic_info->Append(NewDescriptionValuePair("Driver date",
gpu_info.driver_date));
basic_info->Append(NewDescriptionValuePair("Pixel shader version",
gpu_info.pixel_shader_version));
basic_info->Append(NewDescriptionValuePair("Vertex shader version",
gpu_info.vertex_shader_version));
basic_info->Append(NewDescriptionValuePair("Max. MSAA samples",
gpu_info.max_msaa_samples));
basic_info->Append(NewDescriptionValuePair("Machine model name",
gpu_info.machine_model_name));
basic_info->Append(NewDescriptionValuePair("Machine model version",
gpu_info.machine_model_version));
basic_info->Append(NewDescriptionValuePair("GL_VENDOR",
gpu_info.gl_vendor));
basic_info->Append(NewDescriptionValuePair("GL_RENDERER",
gpu_info.gl_renderer));
basic_info->Append(NewDescriptionValuePair("GL_VERSION",
gpu_info.gl_version));
basic_info->Append(NewDescriptionValuePair("GL_EXTENSIONS",
gpu_info.gl_extensions));
basic_info->Append(NewDescriptionValuePair("Disabled Extensions",
disabled_extensions));
basic_info->Append(NewDescriptionValuePair("Window system binding vendor",
gpu_info.gl_ws_vendor));
basic_info->Append(NewDescriptionValuePair("Window system binding version",
gpu_info.gl_ws_version));
basic_info->Append(NewDescriptionValuePair("Window system binding extensions",
gpu_info.gl_ws_extensions));
#if defined(USE_X11)
basic_info->Append(NewDescriptionValuePair("Window manager",
ui::GuessWindowManagerName()));
{
std::unique_ptr<base::Environment> env(base::Environment::Create());
std::string value;
const char kXDGCurrentDesktop[] = "XDG_CURRENT_DESKTOP";
if (env->GetVar(kXDGCurrentDesktop, &value))
basic_info->Append(NewDescriptionValuePair(kXDGCurrentDesktop, value));
const char kGDMSession[] = "GDMSESSION";
if (env->GetVar(kGDMSession, &value))
basic_info->Append(NewDescriptionValuePair(kGDMSession, value));
basic_info->Append(NewDescriptionValuePair(
"Compositing manager",
ui::IsCompositingManagerPresent() ? "Yes" : "No"));
}
#endif
std::string direct_rendering = gpu_info.direct_rendering ? "Yes" : "No";
basic_info->Append(
NewDescriptionValuePair("Direct rendering", direct_rendering));
std::string reset_strategy =
base::StringPrintf("0x%04x", gpu_info.gl_reset_notification_strategy);
basic_info->Append(NewDescriptionValuePair(
"Reset notification strategy", reset_strategy));
basic_info->Append(NewDescriptionValuePair(
"GPU process crash count",
std::make_unique<base::Value>(gpu_info.process_crash_count)));
auto info = std::make_unique<base::DictionaryValue>();
#if defined(OS_WIN)
auto dx_info = std::make_unique<base::Value>();
if (gpu_info.dx_diagnostics.children.size())
dx_info = DxDiagNodeToList(gpu_info.dx_diagnostics);
info->Set("diagnostics", std::move(dx_info));
#endif
#if defined(USE_X11)
basic_info->Append(NewDescriptionValuePair(
"System visual ID", base::NumberToString(gpu_info.system_visual)));
basic_info->Append(NewDescriptionValuePair(
"RGBA visual ID", base::NumberToString(gpu_info.rgba_visual)));
#endif
info->Set("basic_info", std::move(basic_info));
return info;
}
const char* BufferUsageToString(gfx::BufferUsage usage) {
switch (usage) {
case gfx::BufferUsage::GPU_READ:
return "GPU_READ";
case gfx::BufferUsage::SCANOUT:
return "SCANOUT";
case gfx::BufferUsage::SCANOUT_CAMERA_READ_WRITE:
return "SCANOUT_CAMERA_READ_WRITE";
case gfx::BufferUsage::SCANOUT_CPU_READ_WRITE:
return "SCANOUT_CPU_READ_WRITE";
case gfx::BufferUsage::SCANOUT_VDA_WRITE:
return "SCANOUT_VDA_WRITE";
case gfx::BufferUsage::GPU_READ_CPU_READ_WRITE:
return "GPU_READ_CPU_READ_WRITE";
case gfx::BufferUsage::GPU_READ_CPU_READ_WRITE_PERSISTENT:
return "GPU_READ_CPU_READ_WRITE_PERSISTENT";
}
NOTREACHED();
return nullptr;
}
std::unique_ptr<base::ListValue> CompositorInfo() {
auto compositor_info = std::make_unique<base::ListValue>();
compositor_info->Append(NewDescriptionValuePair(
"Tile Update Mode",
IsZeroCopyUploadEnabled() ? "Zero-copy" : "One-copy"));
compositor_info->Append(NewDescriptionValuePair(
"Partial Raster", IsPartialRasterEnabled() ? "Enabled" : "Disabled"));
return compositor_info;
}
std::unique_ptr<base::ListValue> GpuMemoryBufferInfo() {
auto gpu_memory_buffer_info = std::make_unique<base::ListValue>();
const auto native_configurations =
gpu::GetNativeGpuMemoryBufferConfigurations();
for (size_t format = 0;
format < static_cast<size_t>(gfx::BufferFormat::LAST) + 1; format++) {
std::string native_usage_support;
for (size_t usage = 0;
usage < static_cast<size_t>(gfx::BufferUsage::LAST) + 1; usage++) {
if (base::ContainsKey(
native_configurations,
std::make_pair(static_cast<gfx::BufferFormat>(format),
static_cast<gfx::BufferUsage>(usage)))) {
native_usage_support = base::StringPrintf(
"%s%s %s", native_usage_support.c_str(),
native_usage_support.empty() ? "" : ",",
BufferUsageToString(static_cast<gfx::BufferUsage>(usage)));
}
}
if (native_usage_support.empty())
native_usage_support = base::StringPrintf("Software only");
gpu_memory_buffer_info->Append(NewDescriptionValuePair(
gfx::BufferFormatToString(static_cast<gfx::BufferFormat>(format)),
native_usage_support));
}
return gpu_memory_buffer_info;
}
std::unique_ptr<base::ListValue> getDisplayInfo() {
auto display_info = std::make_unique<base::ListValue>();
const std::vector<display::Display> displays =
display::Screen::GetScreen()->GetAllDisplays();
for (const auto& display : displays) {
display_info->Append(NewDescriptionValuePair("Info ", display.ToString()));
display_info->Append(NewDescriptionValuePair(
"Color space information", display.color_space().ToString()));
display_info->Append(NewDescriptionValuePair(
"Bits per color component",
base::NumberToString(display.depth_per_component())));
display_info->Append(NewDescriptionValuePair(
"Bits per pixel", base::NumberToString(display.color_depth())));
}
return display_info;
}
std::string GetProfileName(gpu::VideoCodecProfile profile) {
switch (profile) {
case gpu::VIDEO_CODEC_PROFILE_UNKNOWN:
return "unknown";
case gpu::H264PROFILE_BASELINE:
return "h264 baseline";
case gpu::H264PROFILE_MAIN:
return "h264 main";
case gpu::H264PROFILE_EXTENDED:
return "h264 extended";
case gpu::H264PROFILE_HIGH:
return "h264 high";
case gpu::H264PROFILE_HIGH10PROFILE:
return "h264 high 10";
case gpu::H264PROFILE_HIGH422PROFILE:
return "h264 high 4:2:2";
case gpu::H264PROFILE_HIGH444PREDICTIVEPROFILE:
return "h264 high 4:4:4 predictive";
case gpu::H264PROFILE_SCALABLEBASELINE:
return "h264 scalable baseline";
case gpu::H264PROFILE_SCALABLEHIGH:
return "h264 scalable high";
case gpu::H264PROFILE_STEREOHIGH:
return "h264 stereo high";
case gpu::H264PROFILE_MULTIVIEWHIGH:
return "h264 multiview high";
case gpu::HEVCPROFILE_MAIN:
return "hevc main";
case gpu::HEVCPROFILE_MAIN10:
return "hevc main 10";
case gpu::HEVCPROFILE_MAIN_STILL_PICTURE:
return "hevc main still-picture";
case gpu::VP8PROFILE_ANY:
return "vp8";
case gpu::VP9PROFILE_PROFILE0:
return "vp9 profile0";
case gpu::VP9PROFILE_PROFILE1:
return "vp9 profile1";
case gpu::VP9PROFILE_PROFILE2:
return "vp9 profile2";
case gpu::VP9PROFILE_PROFILE3:
return "vp9 profile3";
case gpu::DOLBYVISION_PROFILE0:
return "dolby vision profile 0";
case gpu::DOLBYVISION_PROFILE4:
return "dolby vision profile 4";
case gpu::DOLBYVISION_PROFILE5:
return "dolby vision profile 5";
case gpu::DOLBYVISION_PROFILE7:
return "dolby vision profile 7";
case gpu::THEORAPROFILE_ANY:
return "theora";
case gpu::AV1PROFILE_PROFILE0:
return "av1 profile0";
}
NOTREACHED();
return "";
}
std::unique_ptr<base::ListValue> GetVideoAcceleratorsInfo() {
gpu::GPUInfo gpu_info = GpuDataManagerImpl::GetInstance()->GetGPUInfo();
auto info = std::make_unique<base::ListValue>();
for (const auto& profile :
gpu_info.video_decode_accelerator_capabilities.supported_profiles) {
std::string codec_string = base::StringPrintf(
"Decode %s", GetProfileName(profile.profile).c_str());
std::string resolution_string = base::StringPrintf(
"up to %s pixels %s", profile.max_resolution.ToString().c_str(),
profile.encrypted_only ? "(encrypted)" : "");
info->Append(NewDescriptionValuePair(codec_string, resolution_string));
}
for (const auto& profile :
gpu_info.video_encode_accelerator_supported_profiles) {
std::string codec_string = base::StringPrintf(
"Encode %s", GetProfileName(profile.profile).c_str());
std::string resolution_string = base::StringPrintf(
"up to %s pixels and/or %.3f fps",
profile.max_resolution.ToString().c_str(),
static_cast<double>(profile.max_framerate_numerator) /
profile.max_framerate_denominator);
info->Append(NewDescriptionValuePair(codec_string, resolution_string));
}
return info;
}
// This class receives javascript messages from the renderer.
// Note that the WebUI infrastructure runs on the UI thread, therefore all of
// this class's methods are expected to run on the UI thread.
class GpuMessageHandler
: public WebUIMessageHandler,
public base::SupportsWeakPtr<GpuMessageHandler>,
public GpuDataManagerObserver,
public ui::GpuSwitchingObserver {
public:
GpuMessageHandler();
~GpuMessageHandler() override;
// WebUIMessageHandler implementation.
void RegisterMessages() override;
// GpuDataManagerObserver implementation.
void OnGpuInfoUpdate() override;
// ui::GpuSwitchingObserver implementation.
void OnGpuSwitched() override;
// Messages
void OnBrowserBridgeInitialized(const base::ListValue* list);
void OnCallAsync(const base::ListValue* list);
// Submessages dispatched from OnCallAsync
std::unique_ptr<base::DictionaryValue> OnRequestClientInfo(
const base::ListValue* list);
std::unique_ptr<base::ListValue> OnRequestLogMessages(
const base::ListValue* list);
private:
// True if observing the GpuDataManager (re-attaching as observer would
// DCHECK).
bool observing_;
DISALLOW_COPY_AND_ASSIGN(GpuMessageHandler);
};
////////////////////////////////////////////////////////////////////////////////
//
// GpuMessageHandler
//
////////////////////////////////////////////////////////////////////////////////
GpuMessageHandler::GpuMessageHandler()
: observing_(false) {
}
GpuMessageHandler::~GpuMessageHandler() {
ui::GpuSwitchingManager::GetInstance()->RemoveObserver(this);
GpuDataManagerImpl::GetInstance()->RemoveObserver(this);
}
/* BrowserBridge.callAsync prepends a requestID to these messages. */
void GpuMessageHandler::RegisterMessages() {
DCHECK_CURRENTLY_ON(BrowserThread::UI);
web_ui()->RegisterMessageCallback("browserBridgeInitialized",
base::Bind(&GpuMessageHandler::OnBrowserBridgeInitialized,
base::Unretained(this)));
web_ui()->RegisterMessageCallback("callAsync",
base::Bind(&GpuMessageHandler::OnCallAsync,
base::Unretained(this)));
}
void GpuMessageHandler::OnCallAsync(const base::ListValue* args) {
DCHECK_GE(args->GetSize(), static_cast<size_t>(2));
// unpack args into requestId, submessage and submessageArgs
bool ok;
const base::Value* requestId;
ok = args->Get(0, &requestId);
DCHECK(ok);
std::string submessage;
ok = args->GetString(1, &submessage);
DCHECK(ok);
auto submessageArgs = std::make_unique<base::ListValue>();
for (size_t i = 2; i < args->GetSize(); ++i) {
const base::Value* arg;
ok = args->Get(i, &arg);
DCHECK(ok);
submessageArgs->Append(arg->CreateDeepCopy());
}
// call the submessage handler
std::unique_ptr<base::Value> ret;
if (submessage == "requestClientInfo") {
ret = OnRequestClientInfo(submessageArgs.get());
} else if (submessage == "requestLogMessages") {
ret = OnRequestLogMessages(submessageArgs.get());
} else { // unrecognized submessage
NOTREACHED();
return;
}
// call BrowserBridge.onCallAsyncReply with result
if (ret) {
web_ui()->CallJavascriptFunctionUnsafe("browserBridge.onCallAsyncReply",
*requestId, *ret);
} else {
web_ui()->CallJavascriptFunctionUnsafe("browserBridge.onCallAsyncReply",
*requestId);
}
}
void GpuMessageHandler::OnBrowserBridgeInitialized(
const base::ListValue* args) {
DCHECK_CURRENTLY_ON(BrowserThread::UI);
// Watch for changes in GPUInfo
if (!observing_) {
GpuDataManagerImpl::GetInstance()->AddObserver(this);
ui::GpuSwitchingManager::GetInstance()->AddObserver(this);
}
observing_ = true;
// Tell GpuDataManager it should have full GpuInfo. If the
// Gpu process has not run yet, this will trigger its launch.
GpuDataManagerImpl::GetInstance()->RequestCompleteGpuInfoIfNeeded();
// Run callback immediately in case the info is ready and no update in the
// future.
OnGpuInfoUpdate();
}
std::unique_ptr<base::DictionaryValue> GpuMessageHandler::OnRequestClientInfo(
const base::ListValue* list) {
DCHECK_CURRENTLY_ON(BrowserThread::UI);
auto dict = std::make_unique<base::DictionaryValue>();
dict->SetString("version", GetContentClient()->GetProduct());
dict->SetString("command_line",
base::CommandLine::ForCurrentProcess()->GetCommandLineString());
dict->SetString("operating_system",
base::SysInfo::OperatingSystemName() + " " +
base::SysInfo::OperatingSystemVersion());
dict->SetString("angle_commit_id", ANGLE_COMMIT_HASH);
dict->SetString("graphics_backend",
std::string("Skia/" STRINGIZE(SK_MILESTONE)
" " SKIA_COMMIT_HASH));
dict->SetString("revision_identifier", GPU_LISTS_VERSION);
return dict;
}
std::unique_ptr<base::ListValue> GpuMessageHandler::OnRequestLogMessages(
const base::ListValue*) {
DCHECK_CURRENTLY_ON(BrowserThread::UI);
return GpuDataManagerImpl::GetInstance()->GetLogMessages();
}
void GpuMessageHandler::OnGpuInfoUpdate() {
// Get GPU Info.
std::unique_ptr<base::DictionaryValue> gpu_info_val(
GpuInfoAsDictionaryValue());
// Add in blacklisting features
auto feature_status = std::make_unique<base::DictionaryValue>();
feature_status->Set("featureStatus", GetFeatureStatus());
feature_status->Set("problems", GetProblems());
auto workarounds = std::make_unique<base::ListValue>();
for (const std::string& workaround : GetDriverBugWorkarounds())
workarounds->AppendString(workaround);
feature_status->Set("workarounds", std::move(workarounds));
gpu_info_val->Set("featureStatus", std::move(feature_status));
gpu_info_val->Set("compositorInfo", CompositorInfo());
gpu_info_val->Set("gpuMemoryBufferInfo", GpuMemoryBufferInfo());
gpu_info_val->Set("displayInfo", getDisplayInfo());
gpu_info_val->Set("videoAcceleratorsInfo", GetVideoAcceleratorsInfo());
// Send GPU Info to javascript.
web_ui()->CallJavascriptFunctionUnsafe("browserBridge.onGpuInfoUpdate",
*(gpu_info_val.get()));
}
void GpuMessageHandler::OnGpuSwitched() {
GpuDataManagerImpl::GetInstance()->RequestCompleteGpuInfoIfNeeded();
}
} // namespace
////////////////////////////////////////////////////////////////////////////////
//
// GpuInternalsUI
//
////////////////////////////////////////////////////////////////////////////////
GpuInternalsUI::GpuInternalsUI(WebUI* web_ui)
: WebUIController(web_ui) {
web_ui->AddMessageHandler(std::make_unique<GpuMessageHandler>());
// Set up the chrome://gpu/ source.
BrowserContext* browser_context =
web_ui->GetWebContents()->GetBrowserContext();
WebUIDataSource::Add(browser_context, CreateGpuHTMLSource());
}
} // namespace content
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