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// Copyright 2014 Google Inc. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "cobalt/browser/browser_module.h"
#include <algorithm>
#include <vector>
#include "base/bind.h"
#include "base/command_line.h"
#include "base/debug/trace_event.h"
#include "base/file_path.h"
#include "base/lazy_instance.h"
#include "base/logging.h"
#include "base/optional.h"
#include "base/path_service.h"
#include "base/stl_util.h"
#include "base/string_number_conversions.h"
#include "base/string_split.h"
#include "base/time.h"
#include "cobalt/base/cobalt_paths.h"
#include "cobalt/base/source_location.h"
#include "cobalt/base/tokens.h"
#include "cobalt/browser/on_screen_keyboard_starboard_bridge.h"
#include "cobalt/browser/screen_shot_writer.h"
#include "cobalt/browser/storage_upgrade_handler.h"
#include "cobalt/browser/switches.h"
#include "cobalt/browser/user_agent_string.h"
#include "cobalt/browser/webapi_extension.h"
#include "cobalt/dom/csp_delegate_factory.h"
#include "cobalt/dom/input_event_init.h"
#include "cobalt/dom/keyboard_event_init.h"
#include "cobalt/dom/keycode.h"
#include "cobalt/dom/mutation_observer_task_manager.h"
#include "cobalt/dom/window.h"
#include "cobalt/h5vcc/h5vcc.h"
#include "cobalt/input/input_device_manager_fuzzer.h"
#include "cobalt/overlay_info/overlay_info_registry.h"
#include "nb/memory_scope.h"
#include "starboard/atomic.h"
#include "starboard/configuration.h"
#include "starboard/system.h"
#include "starboard/time.h"
#if SB_HAS(CORE_DUMP_HANDLER_SUPPORT)
#include "starboard/ps4/core_dump_handler.h"
#endif // SB_HAS(CORE_DUMP_HANDLER_SUPPORT)
namespace cobalt {
#if defined(COBALT_CHECK_RENDER_TIMEOUT)
namespace timestamp {
// This is a temporary workaround.
extern SbAtomic64 g_last_render_timestamp;
} // namespace timestamp
namespace {
struct NonTrivialGlobalVariables {
NonTrivialGlobalVariables();
SbAtomic64* last_render_timestamp;
};
NonTrivialGlobalVariables::NonTrivialGlobalVariables() {
last_render_timestamp = &cobalt::timestamp::g_last_render_timestamp;
SbAtomicNoBarrier_Exchange64(last_render_timestamp,
static_cast<SbAtomic64>(SbTimeGetNow()));
}
base::LazyInstance<NonTrivialGlobalVariables> non_trivial_global_variables =
LAZY_INSTANCE_INITIALIZER;
} // namespace
#endif
namespace browser {
namespace {
#if defined(COBALT_CHECK_RENDER_TIMEOUT)
// Timeout for last render.
const int kLastRenderTimeoutSeconds = 15;
// Polling interval for timeout_polling_thread_.
const int kRenderTimeOutPollingDelaySeconds = 1;
// Minimum number of continuous times the timeout expirations. This is used to
// prevent unintended behavior in situations such as when returning from
// suspended state. Note that the timeout response trigger will be delayed
// after the actual timeout expiration by this value times the polling delay.
const int kMinimumContinuousRenderTimeoutExpirations = 2;
// Name for timeout_polling_thread_.
const char* kTimeoutPollingThreadName = "TimeoutPolling";
// This specifies the percentage of calls to OnRenderTimeout() that result in a
// call to OnError().
const int kRenderTimeoutErrorPercentage = 99;
#endif
// This constant defines the maximum rate at which the layout engine will
// refresh over time. Since there is little benefit in performing a layout
// faster than the display's refresh rate, we set this to 60Hz.
const float kLayoutMaxRefreshFrequencyInHz = 60.0f;
// TODO: Subscribe to viewport size changes.
const int kMainWebModuleZIndex = 1;
const int kSplashScreenZIndex = 2;
#if defined(ENABLE_DEBUG_CONSOLE)
const int kDebugConsoleZIndex = 3;
#endif // defined(ENABLE_DEBUG_CONSOLE)
const int kOverlayInfoZIndex = 4;
#if defined(ENABLE_DEBUG_CONSOLE)
const char kFuzzerToggleCommand[] = "fuzzer_toggle";
const char kFuzzerToggleCommandShortHelp[] = "Toggles the input fuzzer on/off.";
const char kFuzzerToggleCommandLongHelp[] =
"Each time this is called, it will toggle whether the input fuzzer is "
"activated or not. While activated, input will constantly and randomly be "
"generated and passed directly into the main web module.";
const char kSetMediaConfigCommand[] = "set_media_config";
const char kSetMediaConfigCommandShortHelp[] =
"Sets media module configuration.";
const char kSetMediaConfigCommandLongHelp[] =
"This can be called in the form of set_media_config('name=value'), where "
"name is a string and value is an int. Refer to the implementation of "
"MediaModule::SetConfiguration() on individual platform for settings "
"supported on the particular platform.";
// Command to take a screenshot.
const char kScreenshotCommand[] = "screenshot";
// Help strings for the navigate command.
const char kScreenshotCommandShortHelp[] = "Takes a screenshot.";
const char kScreenshotCommandLongHelp[] =
"Creates a screenshot of the most recent layout tree and writes it "
"to disk. Logs the filename of the screenshot to the console when done.";
void ScreenshotCompleteCallback(const FilePath& output_path) {
DLOG(INFO) << "Screenshot written to " << output_path.value();
}
void OnScreenshotMessage(BrowserModule* browser_module,
const std::string& message) {
UNREFERENCED_PARAMETER(message);
FilePath dir;
if (!PathService::Get(cobalt::paths::DIR_COBALT_DEBUG_OUT, &dir)) {
NOTREACHED() << "Failed to get debug out directory.";
}
base::Time::Exploded exploded;
base::Time::Now().LocalExplode(&exploded);
DCHECK(exploded.HasValidValues());
std::string screenshot_file_name =
StringPrintf("screenshot-%04d-%02d-%02d_%02d-%02d-%02d.png",
exploded.year, exploded.month, exploded.day_of_month,
exploded.hour, exploded.minute, exploded.second);
FilePath output_path = dir.Append(screenshot_file_name);
browser_module->RequestScreenshotToFile(
output_path, loader::image::EncodedStaticImage::ImageFormat::kPNG,
base::Bind(&ScreenshotCompleteCallback, output_path));
}
#endif // defined(ENABLE_DEBUG_CONSOLE)
scoped_refptr<script::Wrappable> CreateH5VCC(
const h5vcc::H5vcc::Settings& settings,
const scoped_refptr<dom::Window>& window,
dom::MutationObserverTaskManager* mutation_observer_task_manager,
script::GlobalEnvironment* global_environment) {
UNREFERENCED_PARAMETER(global_environment);
return scoped_refptr<script::Wrappable>(
new h5vcc::H5vcc(settings, window, mutation_observer_task_manager));
}
scoped_refptr<script::Wrappable> CreateExtensionInterface(
const scoped_refptr<dom::Window>& window,
dom::MutationObserverTaskManager* mutation_observer_task_manager,
script::GlobalEnvironment* global_environment) {
UNREFERENCED_PARAMETER(mutation_observer_task_manager);
return CreateWebAPIExtensionObject(window, global_environment);
}
renderer::RendererModule::Options RendererModuleWithCameraOptions(
renderer::RendererModule::Options options,
scoped_refptr<input::Camera3D> camera_3d) {
options.get_camera_transform = base::Bind(
&input::Camera3D::GetCameraTransformAndUpdateOrientation, camera_3d);
return options; // Copy.
}
renderer::Submission CreateSubmissionFromLayoutResults(
const browser::WebModule::LayoutResults& layout_results) {
renderer::Submission renderer_submission(layout_results.render_tree,
layout_results.layout_time);
if (!layout_results.on_rasterized_callback.is_null()) {
renderer_submission.on_rasterized_callbacks.push_back(
layout_results.on_rasterized_callback);
}
return renderer_submission;
}
} // namespace
BrowserModule::BrowserModule(const GURL& url,
base::ApplicationState initial_application_state,
base::EventDispatcher* event_dispatcher,
account::AccountManager* account_manager,
const Options& options)
: ALLOW_THIS_IN_INITIALIZER_LIST(weak_ptr_factory_(this)),
ALLOW_THIS_IN_INITIALIZER_LIST(
weak_this_(weak_ptr_factory_.GetWeakPtr())),
options_(options),
self_message_loop_(MessageLoop::current()),
event_dispatcher_(event_dispatcher),
storage_manager_(make_scoped_ptr(new StorageUpgradeHandler(url))
.PassAs<storage::StorageManager::UpgradeHandler>(),
options_.storage_manager_options),
is_rendered_(false),
can_play_type_handler_(media::MediaModule::CreateCanPlayTypeHandler()),
network_module_(
CreateUserAgentString(GetUserAgentPlatformInfoFromSystem()),
&storage_manager_, event_dispatcher_,
options_.network_module_options),
splash_screen_cache_(new SplashScreenCache()),
#if SB_HAS(ON_SCREEN_KEYBOARD)
on_screen_keyboard_bridge_(new OnScreenKeyboardStarboardBridge(
base::Bind(&BrowserModule::GetSbWindow, base::Unretained(this)))),
#endif // SB_HAS(ON_SCREEN_KEYBOARD)
web_module_loaded_(true /* manually_reset */,
false /* initially_signalled */),
web_module_recreated_callback_(options_.web_module_recreated_callback),
navigate_count_(0),
navigate_time_("Time.Browser.Navigate", 0,
"The last time a navigation occurred."),
on_load_event_time_("Time.Browser.OnLoadEvent", 0,
"The last time the window.OnLoad event fired."),
javascript_reserved_memory_(
"Memory.JS", 0,
"The total memory that is reserved by the JavaScript engine, which "
"includes both parts that have live JavaScript values, as well as "
"preallocated space for future values."),
#if defined(ENABLE_DEBUG_CONSOLE)
ALLOW_THIS_IN_INITIALIZER_LIST(fuzzer_toggle_command_handler_(
kFuzzerToggleCommand,
base::Bind(&BrowserModule::OnFuzzerToggle, base::Unretained(this)),
kFuzzerToggleCommandShortHelp, kFuzzerToggleCommandLongHelp)),
ALLOW_THIS_IN_INITIALIZER_LIST(set_media_config_command_handler_(
kSetMediaConfigCommand,
base::Bind(&BrowserModule::OnSetMediaConfig, base::Unretained(this)),
kSetMediaConfigCommandShortHelp, kSetMediaConfigCommandLongHelp)),
ALLOW_THIS_IN_INITIALIZER_LIST(screenshot_command_handler_(
kScreenshotCommand,
base::Bind(&OnScreenshotMessage, base::Unretained(this)),
kScreenshotCommandShortHelp, kScreenshotCommandLongHelp)),
#endif // defined(ENABLE_DEBUG_CONSOLE)
has_resumed_(true, false),
#if defined(COBALT_CHECK_RENDER_TIMEOUT)
timeout_polling_thread_(kTimeoutPollingThreadName),
render_timeout_count_(0),
#endif
on_error_retry_count_(0),
waiting_for_error_retry_(false),
will_quit_(false),
application_state_(initial_application_state),
main_web_module_generation_(0),
next_timeline_id_(1),
current_splash_screen_timeline_id_(-1),
current_main_web_module_timeline_id_(-1) {
TRACE_EVENT0("cobalt::browser", "BrowserModule::BrowserModule()");
// Apply platform memory setting adjustments and defaults.
ApplyAutoMemSettings();
h5vcc_url_handler_.reset(new H5vccURLHandler(this));
#if SB_HAS(CORE_DUMP_HANDLER_SUPPORT)
SbCoreDumpRegisterHandler(BrowserModule::CoreDumpHandler, this);
on_error_triggered_count_ = 0;
#if defined(COBALT_CHECK_RENDER_TIMEOUT)
recovery_mechanism_triggered_count_ = 0;
timeout_response_trigger_count_ = 0;
#endif // defined(COBALT_CHECK_RENDER_TIMEOUT)
#endif // SB_HAS(CORE_DUMP_HANDLER_SUPPORT)
#if defined(COBALT_CHECK_RENDER_TIMEOUT)
timeout_polling_thread_.Start();
timeout_polling_thread_.message_loop()->PostDelayedTask(
FROM_HERE,
base::Bind(&BrowserModule::OnPollForRenderTimeout, base::Unretained(this),
url),
base::TimeDelta::FromSeconds(kRenderTimeOutPollingDelaySeconds));
#endif
CommandLine* command_line = CommandLine::ForCurrentProcess();
// Create the main web module layer.
main_web_module_layer_ =
render_tree_combiner_.CreateLayer(kMainWebModuleZIndex);
// Create the splash screen layer.
splash_screen_layer_ = render_tree_combiner_.CreateLayer(kSplashScreenZIndex);
// Create the debug console layer.
#if defined(ENABLE_DEBUG_CONSOLE)
debug_console_layer_ = render_tree_combiner_.CreateLayer(kDebugConsoleZIndex);
#endif
if (command_line->HasSwitch(browser::switches::kQrCodeOverlay)) {
qr_overlay_info_layer_ =
render_tree_combiner_.CreateLayer(kOverlayInfoZIndex);
} else {
overlay_info::OverlayInfoRegistry::Disable();
}
// Setup our main web module to have the H5VCC API injected into it.
DCHECK(!ContainsKey(options_.web_module_options.injected_window_attributes,
"h5vcc"));
h5vcc::H5vcc::Settings h5vcc_settings;
h5vcc_settings.media_module = media_module_.get();
h5vcc_settings.network_module = &network_module_;
h5vcc_settings.account_manager = account_manager;
h5vcc_settings.event_dispatcher = event_dispatcher_;
h5vcc_settings.initial_deep_link = options_.initial_deep_link;
options_.web_module_options.injected_window_attributes["h5vcc"] =
base::Bind(&CreateH5VCC, h5vcc_settings);
base::optional<std::string> extension_object_name =
GetWebAPIExtensionObjectPropertyName();
if (extension_object_name) {
options_.web_module_options
.injected_window_attributes[*extension_object_name] =
base::Bind(&CreateExtensionInterface);
}
#if defined(ENABLE_DEBUG_CONSOLE) && defined(ENABLE_DEBUG_COMMAND_LINE_SWITCHES)
if (command_line->HasSwitch(switches::kInputFuzzer)) {
OnFuzzerToggle(std::string());
}
if (command_line->HasSwitch(switches::kSuspendFuzzer)) {
suspend_fuzzer_.emplace();
}
#endif // ENABLE_DEBUG_CONSOLE && ENABLE_DEBUG_COMMAND_LINE_SWITCHES
if (application_state_ == base::kApplicationStateStarted ||
application_state_ == base::kApplicationStatePaused) {
InitializeSystemWindow();
} else if (application_state_ == base::kApplicationStatePreloading) {
resource_provider_stub_.emplace(true /*allocate_image_data*/);
}
#if defined(ENABLE_DEBUG_CONSOLE)
debug_console_.reset(new DebugConsole(
application_state_,
base::Bind(&BrowserModule::QueueOnDebugConsoleRenderTreeProduced,
base::Unretained(this)),
&network_module_, GetViewportSize(), GetResourceProvider(),
kLayoutMaxRefreshFrequencyInHz,
base::Bind(&BrowserModule::GetDebugServer, base::Unretained(this))));
lifecycle_observers_.AddObserver(debug_console_.get());
#endif // defined(ENABLE_DEBUG_CONSOLE)
if (command_line->HasSwitch(switches::kEnableMapToMeshRectanglar)) {
options_.web_module_options.enable_map_to_mesh_rectangular = true;
}
if (qr_overlay_info_layer_) {
qr_code_overlay_.reset(new overlay_info::QrCodeOverlay(
GetViewportSize(), GetResourceProvider(),
base::Bind(&BrowserModule::QueueOnQrCodeOverlayRenderTreeProduced,
base::Unretained(this))));
}
fallback_splash_screen_url_ = options.fallback_splash_screen_url;
// Synchronously construct our WebModule object.
Navigate(url);
DCHECK(web_module_);
}
BrowserModule::~BrowserModule() {
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
// Transition into the suspended state from whichever state we happen to
// currently be in, to prepare for shutdown.
switch (application_state_) {
case base::kApplicationStateStarted:
Pause();
// Intentional fall-through.
case base::kApplicationStatePaused:
case base::kApplicationStatePreloading:
Suspend();
break;
case base::kApplicationStateStopped:
NOTREACHED() << "BrowserModule does not support the stopped state.";
break;
case base::kApplicationStateSuspended:
break;
}
on_error_retry_timer_.Stop();
#if SB_HAS(CORE_DUMP_HANDLER_SUPPORT)
SbCoreDumpUnregisterHandler(BrowserModule::CoreDumpHandler, this);
#endif
}
void BrowserModule::Navigate(const GURL& url) {
DLOG(INFO) << "In BrowserModule::Navigate " << url;
TRACE_EVENT1("cobalt::browser", "BrowserModule::Navigate()", "url",
url.spec());
// Reset the waitable event regardless of the thread. This ensures that the
// webdriver won't incorrectly believe that the webmodule has finished loading
// when it calls Navigate() and waits for the |web_module_loaded_| signal.
web_module_loaded_.Reset();
// Repost to our own message loop if necessary.
if (MessageLoop::current() != self_message_loop_) {
self_message_loop_->PostTask(
FROM_HERE, base::Bind(&BrowserModule::Navigate, weak_this_, url));
return;
}
// First try the registered handlers (e.g. for h5vcc://). If one of these
// handles the URL, we don't use the web module.
if (TryURLHandlers(url)) {
return;
}
// Clear error handling once we're told to navigate, either because it's the
// retry from the error or something decided we should navigate elsewhere.
on_error_retry_timer_.Stop();
waiting_for_error_retry_ = false;
// Navigations aren't allowed if the app is suspended. If this is the case,
// simply set the pending navigate url, which will cause the navigation to
// occur when Cobalt resumes, and return.
if (application_state_ == base::kApplicationStateSuspended) {
pending_navigate_url_ = url.spec();
return;
}
// Now that we know the navigation is occurring, clear out
// |pending_navigate_url_|.
pending_navigate_url_.clear();
// Destroy old WebModule first, so we don't get a memory high-watermark after
// the second WebModule's constructor runs, but before scoped_ptr::reset() is
// run.
if (web_module_) {
lifecycle_observers_.RemoveObserver(web_module_.get());
}
web_module_.reset(NULL);
// Increment the navigation generation so that we can attach it to event
// callbacks as a way of identifying the new web module from the old ones.
++main_web_module_generation_;
current_splash_screen_timeline_id_ = next_timeline_id_++;
current_main_web_module_timeline_id_ = next_timeline_id_++;
main_web_module_layer_->Reset();
// Wait until after the old WebModule is destroyed before setting the navigate
// time so that it won't be included in the time taken to load the URL.
++navigate_count_;
navigate_time_ = base::TimeTicks::Now().ToInternalValue();
// Show a splash screen while we're waiting for the web page to load.
const math::Size& viewport_size = GetViewportSize();
DestroySplashScreen(base::TimeDelta());
if (options_.enable_splash_screen_on_reloads || navigate_count_ == 1) {
base::optional<std::string> key = SplashScreenCache::GetKeyForStartUrl(url);
if (fallback_splash_screen_url_ ||
(key && splash_screen_cache_->IsSplashScreenCached(*key))) {
splash_screen_.reset(new SplashScreen(
application_state_,
base::Bind(&BrowserModule::QueueOnSplashScreenRenderTreeProduced,
base::Unretained(this)),
&network_module_, viewport_size, GetResourceProvider(),
kLayoutMaxRefreshFrequencyInHz, fallback_splash_screen_url_, url,
splash_screen_cache_.get(),
base::Bind(&BrowserModule::DestroySplashScreen, weak_this_)));
lifecycle_observers_.AddObserver(splash_screen_.get());
}
}
// Create new WebModule.
#if !defined(COBALT_FORCE_CSP)
options_.web_module_options.csp_insecure_allowed_token =
dom::CspDelegateFactory::GetInsecureAllowedToken();
#endif
WebModule::Options options(options_.web_module_options);
options.splash_screen_cache = splash_screen_cache_.get();
options.navigation_callback =
base::Bind(&BrowserModule::Navigate, base::Unretained(this));
options.loaded_callbacks.push_back(
base::Bind(&BrowserModule::OnLoad, base::Unretained(this)));
#if defined(ENABLE_FAKE_MICROPHONE)
if (CommandLine::ForCurrentProcess()->HasSwitch(switches::kFakeMicrophone) ||
CommandLine::ForCurrentProcess()->HasSwitch(switches::kInputFuzzer)) {
options.dom_settings_options.microphone_options.enable_fake_microphone =
true;
}
#endif // defined(ENABLE_FAKE_MICROPHONE)
if (on_screen_keyboard_bridge_) {
options.on_screen_keyboard_bridge = on_screen_keyboard_bridge_.get();
}
options.image_cache_capacity_multiplier_when_playing_video =
COBALT_IMAGE_CACHE_CAPACITY_MULTIPLIER_WHEN_PLAYING_VIDEO;
if (input_device_manager_) {
options.camera_3d = input_device_manager_->camera_3d();
}
float video_pixel_ratio = 1.0f;
if (system_window_) {
video_pixel_ratio = system_window_->GetVideoPixelRatio();
}
// Make sure that automem has been run before creating the WebModule, so that
// we use properly configured options for all parameters.
DCHECK(auto_mem_);
options.provide_screenshot_function =
base::Bind(&ScreenShotWriter::RequestScreenshotToMemoryUnencoded,
base::Unretained(screen_shot_writer_.get()));
web_module_.reset(new WebModule(
url, application_state_,
base::Bind(&BrowserModule::QueueOnRenderTreeProduced,
base::Unretained(this), main_web_module_generation_),
base::Bind(&BrowserModule::OnError, base::Unretained(this)),
base::Bind(&BrowserModule::OnWindowClose, base::Unretained(this)),
base::Bind(&BrowserModule::OnWindowMinimize, base::Unretained(this)),
can_play_type_handler_.get(), media_module_.get(), &network_module_,
viewport_size, video_pixel_ratio, GetResourceProvider(),
kLayoutMaxRefreshFrequencyInHz, options));
lifecycle_observers_.AddObserver(web_module_.get());
if (!web_module_recreated_callback_.is_null()) {
web_module_recreated_callback_.Run();
}
}
void BrowserModule::Reload() {
TRACE_EVENT0("cobalt::browser", "BrowserModule::Reload()");
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
DCHECK(web_module_);
web_module_->ExecuteJavascript(
"location.reload();",
base::SourceLocation("[object BrowserModule]", 1, 1),
NULL /* output: succeeded */);
}
#if SB_HAS(CORE_DUMP_HANDLER_SUPPORT)
// static
void BrowserModule::CoreDumpHandler(void* browser_module_as_void) {
BrowserModule* browser_module =
static_cast<BrowserModule*>(browser_module_as_void);
SbCoreDumpLogInteger("BrowserModule.on_error_triggered_count_",
browser_module->on_error_triggered_count_);
#if defined(COBALT_CHECK_RENDER_TIMEOUT)
SbCoreDumpLogInteger("BrowserModule.recovery_mechanism_triggered_count_",
browser_module->recovery_mechanism_triggered_count_);
SbCoreDumpLogInteger("BrowserModule.timeout_response_trigger_count_",
browser_module->timeout_response_trigger_count_);
#endif // defined(COBALT_CHECK_RENDER_TIMEOUT)
}
#endif // SB_HAS(CORE_DUMP_HANDLER_SUPPORT)
void BrowserModule::OnLoad() {
TRACE_EVENT0("cobalt::browser", "BrowserModule::OnLoad()");
// Repost to our own message loop if necessary. This also prevents
// asynchronous access to this object by |web_module_| during destruction.
if (MessageLoop::current() != self_message_loop_) {
self_message_loop_->PostTask(
FROM_HERE, base::Bind(&BrowserModule::OnLoad, weak_this_));
return;
}
// This log is relied on by the webdriver benchmark tests, so it shouldn't be
// changed unless the corresponding benchmark logic is changed as well.
LOG(INFO) << "Loaded WebModule";
// Clear |on_error_retry_count_| after a successful load.
on_error_retry_count_ = 0;
on_load_event_time_ = base::TimeTicks::Now().ToInternalValue();
web_module_loaded_.Signal();
}
bool BrowserModule::WaitForLoad(const base::TimeDelta& timeout) {
TRACE_EVENT0("cobalt::browser", "BrowserModule::WaitForLoad()");
return web_module_loaded_.TimedWait(timeout);
}
void BrowserModule::RequestScreenshotToFile(
const FilePath& path,
loader::image::EncodedStaticImage::ImageFormat image_format,
const base::Closure& done_callback) {
TRACE_EVENT0("cobalt::browser", "BrowserModule::RequestScreenshotToFile()");
DCHECK(screen_shot_writer_);
scoped_refptr<render_tree::Node> render_tree = GetLastSubmissionAnimated();
if (!render_tree) {
LOG(WARNING) << "Unable to get animated render tree";
return;
}
screen_shot_writer_->RequestScreenshotToFile(
image_format, path, render_tree, done_callback);
}
void BrowserModule::RequestScreenshotToBuffer(
loader::image::EncodedStaticImage::ImageFormat image_format,
const ScreenShotWriter::ImageEncodeCompleteCallback& screenshot_ready) {
TRACE_EVENT0("cobalt::browser", "BrowserModule::RequestScreenshotToBuffer()");
DCHECK(screen_shot_writer_);
scoped_refptr<render_tree::Node> render_tree = GetLastSubmissionAnimated();
if (!render_tree) {
LOG(WARNING) << "Unable to get animated render tree";
return;
}
screen_shot_writer_->RequestScreenshotToMemory(
image_format, render_tree, screenshot_ready);
}
scoped_refptr<render_tree::Node> BrowserModule::GetLastSubmissionAnimated() {
DCHECK(main_web_module_layer_);
base::optional<renderer::Submission> last_submission =
main_web_module_layer_->GetCurrentSubmission();
if (!last_submission) {
LOG(WARNING) << "Unable to find last submission.";
return nullptr;
}
DCHECK(last_submission->render_tree);
render_tree::animations::AnimateNode* animate_node =
base::polymorphic_downcast<render_tree::animations::AnimateNode*>(
last_submission->render_tree.get());
render_tree::animations::AnimateNode::AnimateResults results =
animate_node->Apply(last_submission->time_offset);
return results.animated->source();
}
void BrowserModule::ProcessRenderTreeSubmissionQueue() {
TRACE_EVENT0("cobalt::browser",
"BrowserModule::ProcessRenderTreeSubmissionQueue()");
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
render_tree_submission_queue_.ProcessAll();
}
void BrowserModule::QueueOnRenderTreeProduced(
int main_web_module_generation,
const browser::WebModule::LayoutResults& layout_results) {
TRACE_EVENT0("cobalt::browser", "BrowserModule::QueueOnRenderTreeProduced()");
render_tree_submission_queue_.AddMessage(
base::Bind(&BrowserModule::OnRenderTreeProduced, base::Unretained(this),
main_web_module_generation, layout_results));
self_message_loop_->PostTask(
FROM_HERE,
base::Bind(&BrowserModule::ProcessRenderTreeSubmissionQueue, weak_this_));
}
void BrowserModule::QueueOnSplashScreenRenderTreeProduced(
const browser::WebModule::LayoutResults& layout_results) {
TRACE_EVENT0("cobalt::browser",
"BrowserModule::QueueOnSplashScreenRenderTreeProduced()");
render_tree_submission_queue_.AddMessage(
base::Bind(&BrowserModule::OnSplashScreenRenderTreeProduced,
base::Unretained(this), layout_results));
self_message_loop_->PostTask(
FROM_HERE,
base::Bind(&BrowserModule::ProcessRenderTreeSubmissionQueue, weak_this_));
}
void BrowserModule::OnRenderTreeProduced(
int main_web_module_generation,
const browser::WebModule::LayoutResults& layout_results) {
TRACE_EVENT0("cobalt::browser", "BrowserModule::OnRenderTreeProduced()");
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
if (main_web_module_generation != main_web_module_generation_) {
// Ignore render trees produced by old stale web modules. This might happen
// during a navigation transition.
return;
}
if (splash_screen_) {
if (on_screen_keyboard_show_called_) {
// Hide the splash screen as quickly as possible.
DestroySplashScreen(base::TimeDelta());
} else if (!splash_screen_->ShutdownSignaled()) {
splash_screen_->Shutdown();
}
}
if (application_state_ == base::kApplicationStatePreloading) {
layout_results.on_rasterized_callback.Run();
return;
}
renderer::Submission renderer_submission(
CreateSubmissionFromLayoutResults(layout_results));
// Set the timeline id for the main web module. The main web module is
// assumed to be an interactive experience for which the default timeline
// configuration is already designed for, so we don't configure anything
// explicitly.
renderer_submission.timeline_info.id = current_main_web_module_timeline_id_;
renderer_submission.on_rasterized_callbacks.push_back(base::Bind(
&BrowserModule::OnRendererSubmissionRasterized, base::Unretained(this)));
if (!splash_screen_) {
render_tree_combiner_.SetTimelineLayer(main_web_module_layer_.get());
}
main_web_module_layer_->Submit(renderer_submission);
SubmitCurrentRenderTreeToRenderer();
}
void BrowserModule::OnSplashScreenRenderTreeProduced(
const browser::WebModule::LayoutResults& layout_results) {
TRACE_EVENT0("cobalt::browser",
"BrowserModule::OnSplashScreenRenderTreeProduced()");
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
if (application_state_ == base::kApplicationStatePreloading ||
!splash_screen_) {
return;
}
renderer::Submission renderer_submission(
CreateSubmissionFromLayoutResults(layout_results));
// We customize some of the renderer pipeline timeline behavior to cater for
// non-interactive splash screen playback.
renderer_submission.timeline_info.id = current_splash_screen_timeline_id_;
// Since the splash screen is non-interactive, latency is not a concern.
// Latency reduction implies a speedup in animation playback speed which can
// make the splash screen play out quicker than intended.
renderer_submission.timeline_info.allow_latency_reduction = false;
// Increase the submission queue size to a larger value than usual. This
// is done because a) since we do not attempt to reduce latency, the queue
// tends to fill up more and b) the pipeline may end up receiving a number
// of render tree submissions caused by updated main web module render trees,
// which can fill the submission queue. Blowing the submission queue is
// particularly bad for the splash screen as it results in dropping of older
// submissions, which results in skipping forward during animations, which
// sucks.
renderer_submission.timeline_info.max_submission_queue_size =
std::max(8, renderer_submission.timeline_info.max_submission_queue_size);
renderer_submission.on_rasterized_callbacks.push_back(base::Bind(
&BrowserModule::OnRendererSubmissionRasterized, base::Unretained(this)));
render_tree_combiner_.SetTimelineLayer(splash_screen_layer_.get());
splash_screen_layer_->Submit(renderer_submission);
// TODO: write screen shot using render_tree_combiner_ (to combine
// splash screen and main web_module). Consider when the splash
// screen is overlaid on top of the main web module render tree, and
// a screenshot is taken : there will be a race condition on which
// web module update their render tree last.
SubmitCurrentRenderTreeToRenderer();
}
void BrowserModule::QueueOnQrCodeOverlayRenderTreeProduced(
const scoped_refptr<render_tree::Node>& render_tree) {
TRACE_EVENT0("cobalt::browser",
"BrowserModule::QueueOnQrCodeOverlayRenderTreeProduced()");
render_tree_submission_queue_.AddMessage(
base::Bind(&BrowserModule::OnQrCodeOverlayRenderTreeProduced,
base::Unretained(this), render_tree));
self_message_loop_->PostTask(
FROM_HERE,
base::Bind(&BrowserModule::ProcessRenderTreeSubmissionQueue, weak_this_));
}
void BrowserModule::OnQrCodeOverlayRenderTreeProduced(
const scoped_refptr<render_tree::Node>& render_tree) {
TRACE_EVENT0("cobalt::browser",
"BrowserModule::OnQrCodeOverlayRenderTreeProduced()");
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
DCHECK(qr_overlay_info_layer_);
if (application_state_ == base::kApplicationStatePreloading) {
return;
}
qr_overlay_info_layer_->Submit(renderer::Submission(render_tree));
SubmitCurrentRenderTreeToRenderer();
}
void BrowserModule::OnWindowClose(base::TimeDelta close_time) {
UNREFERENCED_PARAMETER(close_time);
#if defined(ENABLE_DEBUG_CONSOLE)
if (input_device_manager_fuzzer_) {
return;
}
#endif
SbSystemRequestStop(0);
}
void BrowserModule::OnWindowMinimize() {
#if defined(ENABLE_DEBUG_CONSOLE)
if (input_device_manager_fuzzer_) {
return;
}
#endif
SbSystemRequestSuspend();
}
#if SB_API_VERSION >= 8
void BrowserModule::OnWindowSizeChanged(const SbWindowSize& size) {
math::Size math_size(size.width, size.height);
if (web_module_) {
web_module_->SetSize(math_size, size.video_pixel_ratio);
}
#if defined(ENABLE_DEBUG_CONSOLE)
if (debug_console_) {
debug_console_->web_module().SetSize(math_size, size.video_pixel_ratio);
}
#endif // defined(ENABLE_DEBUG_CONSOLE)
if (splash_screen_) {
splash_screen_->web_module().SetSize(math_size, size.video_pixel_ratio);
}
return;
}
#endif // SB_API_VERSION >= 8
#if SB_HAS(ON_SCREEN_KEYBOARD)
void BrowserModule::OnOnScreenKeyboardShown(
const base::OnScreenKeyboardShownEvent* event) {
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
// Only inject shown events to the main WebModule.
on_screen_keyboard_show_called_ = true;
if (splash_screen_ && splash_screen_->ShutdownSignaled()) {
DestroySplashScreen(base::TimeDelta());
}
if (web_module_) {
web_module_->InjectOnScreenKeyboardShownEvent(event->ticket());
}
}
void BrowserModule::OnOnScreenKeyboardHidden(
const base::OnScreenKeyboardHiddenEvent* event) {
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
// Only inject hidden events to the main WebModule.
if (web_module_) {
web_module_->InjectOnScreenKeyboardHiddenEvent(event->ticket());
}
}
void BrowserModule::OnOnScreenKeyboardFocused(
const base::OnScreenKeyboardFocusedEvent* event) {
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
// Only inject focused events to the main WebModule.
if (web_module_) {
web_module_->InjectOnScreenKeyboardFocusedEvent(event->ticket());
}
}
void BrowserModule::OnOnScreenKeyboardBlurred(
const base::OnScreenKeyboardBlurredEvent* event) {
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
// Only inject blurred events to the main WebModule.
if (web_module_) {
web_module_->InjectOnScreenKeyboardBlurredEvent(event->ticket());
}
}
#endif // SB_HAS(ON_SCREEN_KEYBOARD)
#if SB_HAS(CAPTIONS)
void BrowserModule::OnCaptionSettingsChanged(
const base::AccessibilityCaptionSettingsChangedEvent* /*event*/) {
if (web_module_) {
web_module_->InjectCaptionSettingsChangedEvent();
}
}
#endif // SB_HAS(CAPTIONS)
#if defined(ENABLE_DEBUG_CONSOLE)
void BrowserModule::OnFuzzerToggle(const std::string& message) {
if (MessageLoop::current() != self_message_loop_) {
self_message_loop_->PostTask(
FROM_HERE,
base::Bind(&BrowserModule::OnFuzzerToggle, weak_this_, message));
return;
}
if (!input_device_manager_fuzzer_) {
// Wire up the input fuzzer key generator to the keyboard event callback.
input_device_manager_fuzzer_ = scoped_ptr<input::InputDeviceManager>(
new input::InputDeviceManagerFuzzer(
base::Bind(&BrowserModule::InjectKeyEventToMainWebModule,
base::Unretained(this))));
} else {
input_device_manager_fuzzer_.reset();
}
}
void BrowserModule::OnSetMediaConfig(const std::string& config) {
if (MessageLoop::current() != self_message_loop_) {
self_message_loop_->PostTask(
FROM_HERE,
base::Bind(&BrowserModule::OnSetMediaConfig, weak_this_, config));
return;
}
std::vector<std::string> tokens;
base::SplitString(config, '=', &tokens);
int value;
if (tokens.size() != 2 || !base::StringToInt(tokens[1], &value)) {
LOG(WARNING) << "Media configuration '" << config << "' is not in the"
<< " form of '<string name>=<int value>'.";
return;
}
if (media_module_->SetConfiguration(tokens[0], value)) {
LOG(INFO) << "Successfully setting " << tokens[0] << " to " << value;
} else {
LOG(WARNING) << "Failed to set " << tokens[0] << " to " << value;
}
}
void BrowserModule::QueueOnDebugConsoleRenderTreeProduced(
const browser::WebModule::LayoutResults& layout_results) {
TRACE_EVENT0("cobalt::browser",
"BrowserModule::QueueOnDebugConsoleRenderTreeProduced()");
render_tree_submission_queue_.AddMessage(
base::Bind(&BrowserModule::OnDebugConsoleRenderTreeProduced,
base::Unretained(this), layout_results));
self_message_loop_->PostTask(
FROM_HERE,
base::Bind(&BrowserModule::ProcessRenderTreeSubmissionQueue, weak_this_));
}
void BrowserModule::OnDebugConsoleRenderTreeProduced(
const browser::WebModule::LayoutResults& layout_results) {
TRACE_EVENT0("cobalt::browser",
"BrowserModule::OnDebugConsoleRenderTreeProduced()");
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
if (application_state_ == base::kApplicationStatePreloading) {
return;
}
if (debug_console_->GetMode() == debug::DebugHub::kDebugConsoleOff) {
// If the layer already has no render tree then simply return. In that case
// nothing is changing.
if (!debug_console_layer_->HasRenderTree()) {
return;
}
debug_console_layer_->Submit(base::nullopt);
} else {
debug_console_layer_->Submit(
CreateSubmissionFromLayoutResults(layout_results));
}
SubmitCurrentRenderTreeToRenderer();
}
#endif // defined(ENABLE_DEBUG_CONSOLE)
#if SB_HAS(ON_SCREEN_KEYBOARD)
void BrowserModule::OnOnScreenKeyboardInputEventProduced(
base::Token type, const dom::InputEventInit& event) {
TRACE_EVENT0("cobalt::browser",
"BrowserModule::OnOnScreenKeyboardInputEventProduced()");
if (MessageLoop::current() != self_message_loop_) {
self_message_loop_->PostTask(
FROM_HERE,
base::Bind(&BrowserModule::OnOnScreenKeyboardInputEventProduced,
weak_this_, type, event));
return;
}
#if defined(ENABLE_DEBUG_CONSOLE)
// If the debug console is fully visible, it gets the next chance to handle
// input events.
if (debug_console_->GetMode() >= debug::DebugHub::kDebugConsoleOn) {
if (!debug_console_->InjectOnScreenKeyboardInputEvent(type, event)) {
return;
}
}
#endif // defined(ENABLE_DEBUG_CONSOLE)
InjectOnScreenKeyboardInputEventToMainWebModule(type, event);
}
#endif // SB_HAS(ON_SCREEN_KEYBOARD)
void BrowserModule::OnKeyEventProduced(base::Token type,
const dom::KeyboardEventInit& event) {
TRACE_EVENT0("cobalt::browser", "BrowserModule::OnKeyEventProduced()");
if (MessageLoop::current() != self_message_loop_) {
self_message_loop_->PostTask(
FROM_HERE, base::Bind(&BrowserModule::OnKeyEventProduced, weak_this_,
type, event));
return;
}
// Filter the key event.
if (!FilterKeyEvent(type, event)) {
return;
}
InjectKeyEventToMainWebModule(type, event);
}
void BrowserModule::OnPointerEventProduced(base::Token type,
const dom::PointerEventInit& event) {
TRACE_EVENT0("cobalt::browser", "BrowserModule::OnPointerEventProduced()");
if (MessageLoop::current() != self_message_loop_) {
self_message_loop_->PostTask(
FROM_HERE, base::Bind(&BrowserModule::OnPointerEventProduced,
weak_this_, type, event));
return;
}
#if defined(ENABLE_DEBUG_CONSOLE)
trace_manager_.OnInputEventProduced();
#endif // defined(ENABLE_DEBUG_CONSOLE)
DCHECK(web_module_);
web_module_->InjectPointerEvent(type, event);
}
void BrowserModule::OnWheelEventProduced(base::Token type,
const dom::WheelEventInit& event) {
TRACE_EVENT0("cobalt::browser", "BrowserModule::OnWheelEventProduced()");
if (MessageLoop::current() != self_message_loop_) {
self_message_loop_->PostTask(
FROM_HERE, base::Bind(&BrowserModule::OnWheelEventProduced, weak_this_,
type, event));
return;
}
#if defined(ENABLE_DEBUG_CONSOLE)
trace_manager_.OnInputEventProduced();
#endif // defined(ENABLE_DEBUG_CONSOLE)
DCHECK(web_module_);
web_module_->InjectWheelEvent(type, event);
}
void BrowserModule::InjectKeyEventToMainWebModule(
base::Token type, const dom::KeyboardEventInit& event) {
TRACE_EVENT0("cobalt::browser",
"BrowserModule::InjectKeyEventToMainWebModule()");
if (MessageLoop::current() != self_message_loop_) {
self_message_loop_->PostTask(
FROM_HERE, base::Bind(&BrowserModule::InjectKeyEventToMainWebModule,
weak_this_, type, event));
return;
}
#if defined(ENABLE_DEBUG_CONSOLE)
trace_manager_.OnInputEventProduced();
#endif // defined(ENABLE_DEBUG_CONSOLE)
DCHECK(web_module_);
web_module_->InjectKeyboardEvent(type, event);
}
#if SB_HAS(ON_SCREEN_KEYBOARD)
void BrowserModule::InjectOnScreenKeyboardInputEventToMainWebModule(
base::Token type, const dom::InputEventInit& event) {
TRACE_EVENT0(
"cobalt::browser",
"BrowserModule::InjectOnScreenKeyboardInputEventToMainWebModule()");
if (MessageLoop::current() != self_message_loop_) {
self_message_loop_->PostTask(
FROM_HERE,
base::Bind(
&BrowserModule::InjectOnScreenKeyboardInputEventToMainWebModule,
weak_this_, type, event));
return;
}
#if defined(ENABLE_DEBUG_CONSOLE)
trace_manager_.OnInputEventProduced();
#endif // defined(ENABLE_DEBUG_CONSOLE)
DCHECK(web_module_);
web_module_->InjectOnScreenKeyboardInputEvent(type, event);
}
#endif // SB_HAS(ON_SCREEN_KEYBOARD)
void BrowserModule::OnError(const GURL& url, const std::string& error) {
TRACE_EVENT0("cobalt::browser", "BrowserModule::OnError()");
if (MessageLoop::current() != self_message_loop_) {
self_message_loop_->PostTask(
FROM_HERE, base::Bind(&BrowserModule::OnError, weak_this_, url, error));
return;
}
#if SB_HAS(CORE_DUMP_HANDLER_SUPPORT)
on_error_triggered_count_++;
#endif
// Set |pending_navigate_url_| to the url where the error occurred. This will
// cause the OnError callback to Navigate() to this URL if it receives a
// positive response; otherwise, if Cobalt is currently preloaded or
// suspended, then this is the url that Cobalt will navigate to when it starts
// or resumes.
pending_navigate_url_ = url.spec();
// Start the OnErrorRetry() timer if it isn't already running.
// The minimum delay between calls to OnErrorRetry() exponentially grows as
// |on_error_retry_count_| increases. |on_error_retry_count_| is reset when
// OnLoad() is called.
if (!on_error_retry_timer_.IsRunning()) {
const int64 kBaseRetryDelayInMilliseconds = 1000;
// Cap the max error shift at 10 (1024 * kBaseDelayInMilliseconds)
// This results in the minimum delay being capped at ~17 minutes.
const int kMaxOnErrorRetryCountShift = 10;
int64 min_delay = kBaseRetryDelayInMilliseconds << std::min(
kMaxOnErrorRetryCountShift, on_error_retry_count_);
int64 required_delay = std::max(
min_delay -
(base::TimeTicks::Now() - on_error_retry_time_).InMilliseconds(),
static_cast<int64>(0));
on_error_retry_timer_.Start(
FROM_HERE, base::TimeDelta::FromMilliseconds(required_delay), this,
&BrowserModule::OnErrorRetry);
}
}
void BrowserModule::OnErrorRetry() {
++on_error_retry_count_;
on_error_retry_time_ = base::TimeTicks::Now();
waiting_for_error_retry_ = true;
TryURLHandlers(
GURL("h5vcc://network-failure?retry-url=" + pending_navigate_url_));
}
bool BrowserModule::FilterKeyEvent(base::Token type,
const dom::KeyboardEventInit& event) {
TRACE_EVENT0("cobalt::browser", "BrowserModule::FilterKeyEvent()");
// Check for hotkeys first. If it is a hotkey, no more processing is needed.
if (!FilterKeyEventForHotkeys(type, event)) {
return false;
}
#if defined(ENABLE_DEBUG_CONSOLE)
// If the debug console is fully visible, it gets the next chance to handle
// key events.
if (debug_console_->GetMode() >= debug::DebugHub::kDebugConsoleOn) {
if (!debug_console_->FilterKeyEvent(type, event)) {
return false;
}
}
#endif // defined(ENABLE_DEBUG_CONSOLE)
return true;
}
bool BrowserModule::FilterKeyEventForHotkeys(
base::Token type, const dom::KeyboardEventInit& event) {
#if !defined(ENABLE_DEBUG_CONSOLE)
UNREFERENCED_PARAMETER(type);
UNREFERENCED_PARAMETER(event);
#else
if (event.key_code() == dom::keycode::kF1 ||
(event.ctrl_key() && event.key_code() == dom::keycode::kO)) {
if (type == base::Tokens::keydown()) {
// Ctrl+O toggles the debug console display.
debug_console_->CycleMode();
}
return false;
}
#endif // defined(ENABLE_DEBUG_CONSOLE)
return true;
}
void BrowserModule::AddURLHandler(
const URLHandler::URLHandlerCallback& callback) {
url_handlers_.push_back(callback);
}
void BrowserModule::RemoveURLHandler(
const URLHandler::URLHandlerCallback& callback) {
for (URLHandlerCollection::iterator iter = url_handlers_.begin();
iter != url_handlers_.end(); ++iter) {
if (iter->Equals(callback)) {
url_handlers_.erase(iter);
return;
}
}
}
bool BrowserModule::TryURLHandlers(const GURL& url) {
for (URLHandlerCollection::const_iterator iter = url_handlers_.begin();
iter != url_handlers_.end(); ++iter) {
if (iter->Run(url)) {
return true;
}
}
// No registered handler handled the URL, let the caller handle it.
return false;
}
void BrowserModule::DestroySplashScreen(base::TimeDelta close_time) {
TRACE_EVENT0("cobalt::browser", "BrowserModule::DestroySplashScreen()");
if (MessageLoop::current() != self_message_loop_) {
self_message_loop_->PostTask(
FROM_HERE, base::Bind(&BrowserModule::DestroySplashScreen, weak_this_,
close_time));
return;
}
if (splash_screen_) {
lifecycle_observers_.RemoveObserver(splash_screen_.get());
if (!close_time.is_zero() && renderer_module_) {
// Ensure that the renderer renders each frame up until the window.close()
// is called on the splash screen's timeline, in order to ensure that the
// splash screen shutdown transition plays out completely.
renderer_module_->pipeline()->TimeFence(close_time);
}
splash_screen_layer_->Reset();
SubmitCurrentRenderTreeToRenderer();
splash_screen_.reset(NULL);
}
}
#if defined(ENABLE_WEBDRIVER)
scoped_ptr<webdriver::SessionDriver> BrowserModule::CreateSessionDriver(
const webdriver::protocol::SessionId& session_id) {
return make_scoped_ptr(new webdriver::SessionDriver(
session_id,
base::Bind(&BrowserModule::CreateWindowDriver, base::Unretained(this)),
base::Bind(&BrowserModule::WaitForLoad, base::Unretained(this))));
}
scoped_ptr<webdriver::WindowDriver> BrowserModule::CreateWindowDriver(
const webdriver::protocol::WindowId& window_id) {
// Repost to our message loop to ensure synchronous access to |web_module_|.
scoped_ptr<webdriver::WindowDriver> window_driver;
self_message_loop_->PostBlockingTask(
FROM_HERE, base::Bind(&BrowserModule::CreateWindowDriverInternal,
base::Unretained(this), window_id,
base::Unretained(&window_driver)));
// This log is relied on by the webdriver benchmark tests, so it shouldn't be
// changed unless the corresponding benchmark logic is changed as well.
LOG(INFO) << "Created WindowDriver: ID=" << window_id.id();
DCHECK(window_driver);
return window_driver.Pass();
}
void BrowserModule::CreateWindowDriverInternal(
const webdriver::protocol::WindowId& window_id,
scoped_ptr<webdriver::WindowDriver>* out_window_driver) {
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
DCHECK(web_module_);
*out_window_driver = web_module_->CreateWindowDriver(window_id);
}
#endif // defined(ENABLE_WEBDRIVER)
#if defined(ENABLE_DEBUG_CONSOLE)
debug::DebugServer* BrowserModule::GetDebugServer() {
// Repost to our message loop to ensure synchronous access to |web_module_|.
debug::DebugServer* debug_server = NULL;
self_message_loop_->PostBlockingTask(
FROM_HERE,
base::Bind(&BrowserModule::GetDebugServerInternal, base::Unretained(this),
base::Unretained(&debug_server)));
DCHECK(debug_server);
return debug_server;
}
void BrowserModule::GetDebugServerInternal(
debug::DebugServer** out_debug_server) {
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
DCHECK(web_module_);
*out_debug_server = web_module_->GetDebugServer();
}
#endif // ENABLE_DEBUG_CONSOLE
void BrowserModule::SetProxy(const std::string& proxy_rules) {
// NetworkModule will ensure this happens on the correct thread.
network_module_.SetProxy(proxy_rules);
}
void BrowserModule::Start() {
TRACE_EVENT0("cobalt::browser", "BrowserModule::Start()");
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
DCHECK(application_state_ == base::kApplicationStatePreloading);
SuspendInternal(true /*is_start*/);
StartOrResumeInternalPreStateUpdate(true /*is_start*/);
application_state_ = base::kApplicationStateStarted;
StartOrResumeInternalPostStateUpdate();
}
void BrowserModule::Pause() {
TRACE_EVENT0("cobalt::browser", "BrowserModule::Pause()");
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
DCHECK(application_state_ == base::kApplicationStateStarted);
FOR_EACH_OBSERVER(LifecycleObserver, lifecycle_observers_, Pause());
application_state_ = base::kApplicationStatePaused;
}
void BrowserModule::Unpause() {
TRACE_EVENT0("cobalt::browser", "BrowserModule::Unpause()");
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
DCHECK(application_state_ == base::kApplicationStatePaused);
FOR_EACH_OBSERVER(LifecycleObserver, lifecycle_observers_, Unpause());
application_state_ = base::kApplicationStateStarted;
}
void BrowserModule::Suspend() {
TRACE_EVENT0("cobalt::browser", "BrowserModule::Suspend()");
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
DCHECK(application_state_ == base::kApplicationStatePaused ||
application_state_ == base::kApplicationStatePreloading);
SuspendInternal(false /*is_start*/);
application_state_ = base::kApplicationStateSuspended;
}
void BrowserModule::Resume() {
TRACE_EVENT0("cobalt::browser", "BrowserModule::Resume()");
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
DCHECK(application_state_ == base::kApplicationStateSuspended);
StartOrResumeInternalPreStateUpdate(false /*is_start*/);
application_state_ = base::kApplicationStatePaused;
StartOrResumeInternalPostStateUpdate();
}
void BrowserModule::ReduceMemory() {
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
if (splash_screen_) {
splash_screen_->ReduceMemory();
}
#if defined(ENABLE_DEBUG_CONSOLE)
if (debug_console_) {
debug_console_->ReduceMemory();
}
#endif // defined(ENABLE_DEBUG_CONSOLE)
if (web_module_) {
web_module_->ReduceMemory();
}
}
void BrowserModule::CheckMemory(
const int64_t& used_cpu_memory,
const base::optional<int64_t>& used_gpu_memory) {
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
if (!auto_mem_) {
return;
}
memory_settings_checker_.RunChecks(*auto_mem_, used_cpu_memory,
used_gpu_memory);
}
void BrowserModule::UpdateJavaScriptHeapStatistics() {
web_module_->RequestJavaScriptHeapStatistics(base::Bind(
&BrowserModule::GetHeapStatisticsCallback, base::Unretained(this)));
}
void BrowserModule::OnRendererSubmissionRasterized() {
TRACE_EVENT0("cobalt::browser",
"BrowserModule::OnRendererSubmissionRasterized()");
if (!is_rendered_) {
// Hide the system splash screen when the first render has completed.
is_rendered_ = true;
SbSystemHideSplashScreen();
}
}
#if defined(COBALT_CHECK_RENDER_TIMEOUT)
void BrowserModule::OnPollForRenderTimeout(const GURL& url) {
SbTime last_render_timestamp = static_cast<SbTime>(SbAtomicAcquire_Load64(
non_trivial_global_variables.Get().last_render_timestamp));
base::Time last_render = base::Time::FromSbTime(last_render_timestamp);
bool timeout_expiration = base::Time::Now() - base::TimeDelta::FromSeconds(
kLastRenderTimeoutSeconds) >
last_render;
bool timeout_response_trigger = false;
if (timeout_expiration) {
// The timeout only triggers if the timeout expiration has been detected
// without interruption at least kMinimumContinuousRenderTimeoutExpirations
// times.
++render_timeout_count_;
timeout_response_trigger =
render_timeout_count_ >= kMinimumContinuousRenderTimeoutExpirations;
} else {
render_timeout_count_ = 0;
}
if (timeout_response_trigger) {
#if SB_HAS(CORE_DUMP_HANDLER_SUPPORT)
timeout_response_trigger_count_++;
#endif
SbAtomicNoBarrier_Exchange64(
non_trivial_global_variables.Get().last_render_timestamp,
static_cast<SbAtomic64>(kSbTimeMax));
if (SbSystemGetRandomUInt64() <
kRenderTimeoutErrorPercentage * (UINT64_MAX / 100)) {
OnError(url, std::string("Rendering Timeout"));
#if SB_HAS(CORE_DUMP_HANDLER_SUPPORT)
recovery_mechanism_triggered_count_++;
#endif
} else {
SB_DLOG(INFO) << "Received OnRenderTimeout, ignoring by random chance.";
}
} else {
timeout_polling_thread_.message_loop()->PostDelayedTask(
FROM_HERE,
base::Bind(&BrowserModule::OnPollForRenderTimeout,
base::Unretained(this), url),
base::TimeDelta::FromSeconds(kRenderTimeOutPollingDelaySeconds));
}
}
#endif
render_tree::ResourceProvider* BrowserModule::GetResourceProvider() {
if (!renderer_module_) {
if (resource_provider_stub_) {
DCHECK(application_state_ == base::kApplicationStatePreloading);
return &(resource_provider_stub_.value());
}
return NULL;
}
return renderer_module_->resource_provider();
}
void BrowserModule::InitializeSystemWindow() {
TRACE_EVENT0("cobalt::browser", "BrowserModule::InitializeSystemWindow()");
resource_provider_stub_ = base::nullopt;
DCHECK(!system_window_);
system_window_.reset(new system_window::SystemWindow(
event_dispatcher_, options_.requested_viewport_size));
// Reapply automem settings now that we may have a different viewport size.
ApplyAutoMemSettings();
input_device_manager_ =
input::InputDeviceManager::CreateFromWindow(
base::Bind(&BrowserModule::OnKeyEventProduced,
base::Unretained(this)),
base::Bind(&BrowserModule::OnPointerEventProduced,
base::Unretained(this)),
base::Bind(&BrowserModule::OnWheelEventProduced,
base::Unretained(this)),
#if SB_HAS(ON_SCREEN_KEYBOARD)
base::Bind(&BrowserModule::OnOnScreenKeyboardInputEventProduced,
base::Unretained(this)),
#endif // SB_HAS(ON_SCREEN_KEYBOARD)
system_window_.get())
.Pass();
InstantiateRendererModule();
#if SB_API_VERSION >= SB_ALLOW_DISABLE_RESUME_VERSION
options_.media_module_options.allow_resume_after_suspend =
SbSystemSupportsResume();
#endif // SB_API_VERSION >= SB_ALLOW_DISABLE_RESUME_VERSION
media_module_ =
media::MediaModule::Create(system_window_.get(), GetResourceProvider(),
options_.media_module_options);
if (web_module_) {
web_module_->SetCamera3D(input_device_manager_->camera_3d());
web_module_->SetWebMediaPlayerFactory(media_module_.get());
}
}
void BrowserModule::InstantiateRendererModule() {
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
DCHECK(system_window_);
DCHECK(!renderer_module_);
renderer_module_.reset(new renderer::RendererModule(
system_window_.get(),
RendererModuleWithCameraOptions(options_.renderer_module_options,
input_device_manager_->camera_3d())));
screen_shot_writer_.reset(new ScreenShotWriter(renderer_module_->pipeline()));
}
void BrowserModule::DestroyRendererModule() {
DCHECK_EQ(MessageLoop::current(), self_message_loop_);
DCHECK(renderer_module_);
screen_shot_writer_.reset();
renderer_module_.reset();
}
void BrowserModule::UpdateScreenSize() {
math::Size size = GetViewportSize();
float video_pixel_ratio = system_window_->GetVideoPixelRatio();
#if defined(ENABLE_DEBUG_CONSOLE)
if (debug_console_) {
debug_console_->SetSize(size, video_pixel_ratio);
}
#endif // defined(ENABLE_DEBUG_CONSOLE)
if (splash_screen_) {
splash_screen_->SetSize(size, video_pixel_ratio);
}
if (web_module_) {
web_module_->SetSize(size, video_pixel_ratio);
}
if (qr_code_overlay_) {
qr_code_overlay_->SetSize(size);
}
}
void BrowserModule::SuspendInternal(bool is_start) {
TRACE_EVENT1("cobalt::browser", "BrowserModule::SuspendInternal", "is_start",
is_start ? "true" : "false");
// First suspend all our web modules which implies that they will release
// their resource provider and all resources created through it.
if (is_start) {
FOR_EACH_OBSERVER(LifecycleObserver, lifecycle_observers_, Prestart());
} else {
FOR_EACH_OBSERVER(LifecycleObserver, lifecycle_observers_, Suspend());
}
if (qr_code_overlay_) {
qr_code_overlay_->SetResourceProvider(NULL);
}
// Flush out any submitted render trees pushed since we started shutting down
// the web modules above.
render_tree_submission_queue_.ProcessAll();
// Clear out the render tree combiner so that it doesn't hold on to any
// render tree resources either.
main_web_module_layer_->Reset();
splash_screen_layer_->Reset();
#if defined(ENABLE_DEBUG_CONSOLE)
debug_console_layer_->Reset();
#endif // defined(ENABLE_DEBUG_CONSOLE)
if (qr_overlay_info_layer_) {
qr_overlay_info_layer_->Reset();
}
if (media_module_) {
media_module_->Suspend();
}
if (renderer_module_) {
// Destroy the renderer module into so that it releases all its graphical
// resources.
DestroyRendererModule();
}
}
void BrowserModule::StartOrResumeInternalPreStateUpdate(bool is_start) {
TRACE_EVENT1("cobalt::browser",
"BrowserModule::StartOrResumeInternalPreStateUpdate", "is_start",
is_start ? "true" : "false");
if (!system_window_) {
InitializeSystemWindow();
} else {
InstantiateRendererModule();
media_module_->Resume(GetResourceProvider());
}
// Propagate the current screen size.
UpdateScreenSize();
if (is_start) {
FOR_EACH_OBSERVER(LifecycleObserver, lifecycle_observers_,
Start(GetResourceProvider()));
} else {
FOR_EACH_OBSERVER(LifecycleObserver, lifecycle_observers_,
Resume(GetResourceProvider()));
}
if (qr_code_overlay_) {
qr_code_overlay_->SetResourceProvider(GetResourceProvider());
}
}
void BrowserModule::StartOrResumeInternalPostStateUpdate() {
TRACE_EVENT0("cobalt::browser",
"BrowserModule::StartOrResumeInternalPostStateUpdate");
// If there's a navigation that's pending, then attempt to navigate to its
// specified URL now, unless we're still waiting for an error retry.
if (!pending_navigate_url_.empty() && !waiting_for_error_retry_) {
Navigate(GURL(pending_navigate_url_));
}
}
math::Size BrowserModule::GetViewportSize() {
// We trust the renderer module the most, if it exists.
if (renderer_module_) {
return renderer_module_->render_target_size();
}
// If the system window exists, that's almost just as good.
if (system_window_) {
return system_window_->GetWindowSize();
}
// Otherwise, we assume we'll get the viewport size that was requested.
if (options_.requested_viewport_size) {
return *options_.requested_viewport_size;
}
// TODO: Allow platforms to define the default window size and return that
// here.
// No window and no viewport size was requested, so we return a conservative
// default.
return math::Size(1280, 720);
}
void BrowserModule::ApplyAutoMemSettings() {
TRACE_EVENT0("cobalt::browser", "BrowserModule::ApplyAutoMemSettings()");
auto_mem_.reset(new memory_settings::AutoMem(
GetViewportSize(), options_.command_line_auto_mem_settings,
options_.build_auto_mem_settings));
LOG(INFO) << "\n\n" << auto_mem_->ToPrettyPrintString(SbLogIsTty()) << "\n\n";
if (javascript_gc_threshold_in_bytes_) {
DCHECK_EQ(*javascript_gc_threshold_in_bytes_,
auto_mem_->javascript_gc_threshold_in_bytes()->value());
} else {
javascript_gc_threshold_in_bytes_ =
auto_mem_->javascript_gc_threshold_in_bytes()->value();
}
// Web Module options.
options_.web_module_options.image_cache_capacity =
static_cast<int>(auto_mem_->image_cache_size_in_bytes()->value());
options_.web_module_options.remote_typeface_cache_capacity = static_cast<int>(
auto_mem_->remote_typeface_cache_size_in_bytes()->value());
options_.web_module_options.javascript_engine_options.gc_threshold_bytes =
static_cast<size_t>(
auto_mem_->javascript_gc_threshold_in_bytes()->value());
if (web_module_) {
web_module_->SetImageCacheCapacity(
auto_mem_->image_cache_size_in_bytes()->value());
web_module_->SetRemoteTypefaceCacheCapacity(
auto_mem_->remote_typeface_cache_size_in_bytes()->value());
}
// Renderer Module options.
options_.renderer_module_options.skia_cache_size_in_bytes =
static_cast<int>(auto_mem_->skia_cache_size_in_bytes()->value());
options_.renderer_module_options.software_surface_cache_size_in_bytes =
static_cast<int>(
auto_mem_->software_surface_cache_size_in_bytes()->value());
options_.renderer_module_options.offscreen_target_cache_size_in_bytes =
static_cast<int>(
auto_mem_->offscreen_target_cache_size_in_bytes()->value());
const memory_settings::TextureDimensions skia_glyph_atlas_texture_dimensions =
auto_mem_->skia_atlas_texture_dimensions()->value();
if (skia_glyph_atlas_texture_dimensions.bytes_per_pixel() > 0) {
// Right now the bytes_per_pixel is assumed in the engine. Any other value
// is currently forbidden.
DCHECK_EQ(2, skia_glyph_atlas_texture_dimensions.bytes_per_pixel());
options_.renderer_module_options.skia_glyph_texture_atlas_dimensions =
math::Size(skia_glyph_atlas_texture_dimensions.width(),
skia_glyph_atlas_texture_dimensions.height());
}
}
void BrowserModule::GetHeapStatisticsCallback(
const script::HeapStatistics& heap_statistics) {
if (MessageLoop::current() != self_message_loop_) {
self_message_loop_->PostTask(
FROM_HERE, base::Bind(&BrowserModule::GetHeapStatisticsCallback,
base::Unretained(this), heap_statistics));
return;
}
javascript_reserved_memory_ = heap_statistics.total_heap_size;
}
void BrowserModule::SubmitCurrentRenderTreeToRenderer() {
if (!renderer_module_) {
return;
}
base::optional<renderer::Submission> submission =
render_tree_combiner_.GetCurrentSubmission();
if (submission) {
renderer_module_->pipeline()->Submit(*submission);
}
}
SbWindow BrowserModule::GetSbWindow() {
if (!system_window_) {
return NULL;
}
return system_window_->GetSbWindow();
}
} // namespace browser
} // namespace cobalt