cef/libcef/renderer/browser_impl.cc

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// Copyright (c) 2012 The Chromium Embedded Framework Authors.
// Portions 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 "cef/libcef/renderer/browser_impl.h"
#include <memory>
#include <string>
#include <vector>
#include "base/strings/string_util.h"
#include "base/strings/utf_string_conversions.h"
#include "cef/libcef/common/app_manager.h"
#include "cef/libcef/renderer/blink_glue.h"
#include "cef/libcef/renderer/render_frame_util.h"
#include "cef/libcef/renderer/render_manager.h"
#include "cef/libcef/renderer/thread_util.h"
#include "content/public/renderer/render_frame.h"
#include "content/renderer/document_state.h"
#include "content/renderer/navigation_state.h"
#include "third_party/blink/public/platform/web_string.h"
#include "third_party/blink/public/platform/web_url_error.h"
#include "third_party/blink/public/platform/web_url_response.h"
#include "third_party/blink/public/web/web_document.h"
#include "third_party/blink/public/web/web_frame.h"
#include "third_party/blink/public/web/web_frame_content_dumper.h"
#include "third_party/blink/public/web/web_local_frame.h"
#include "third_party/blink/public/web/web_security_policy.h"
#include "third_party/blink/public/web/web_view.h"
// CefBrowserImpl static methods.
// -----------------------------------------------------------------------------
// static
CefRefPtr<CefBrowserImpl> CefBrowserImpl::GetBrowserForView(
blink::WebView* view) {
return CefRenderManager::Get()->GetBrowserForView(view);
}
// static
CefRefPtr<CefBrowserImpl> CefBrowserImpl::GetBrowserForMainFrame(
blink::WebFrame* frame) {
return CefRenderManager::Get()->GetBrowserForMainFrame(frame);
}
// CefBrowser methods.
// -----------------------------------------------------------------------------
bool CefBrowserImpl::IsValid() {
CEF_REQUIRE_RT_RETURN(false);
return !!GetWebView();
}
CefRefPtr<CefBrowserHost> CefBrowserImpl::GetHost() {
DCHECK(false) << "GetHost cannot be called from the render process";
return nullptr;
}
bool CefBrowserImpl::CanGoBack() {
CEF_REQUIRE_RT_RETURN(false);
return blink_glue::CanGoBack(GetWebView());
}
void CefBrowserImpl::GoBack() {
CEF_REQUIRE_RT_RETURN_VOID();
blink_glue::GoBack(GetWebView());
}
bool CefBrowserImpl::CanGoForward() {
CEF_REQUIRE_RT_RETURN(false);
return blink_glue::CanGoForward(GetWebView());
}
void CefBrowserImpl::GoForward() {
CEF_REQUIRE_RT_RETURN_VOID();
blink_glue::GoForward(GetWebView());
}
bool CefBrowserImpl::IsLoading() {
CEF_REQUIRE_RT_RETURN(false);
if (GetWebView()) {
blink::WebFrame* main_frame = GetWebView()->MainFrame();
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if (main_frame) {
return main_frame->ToWebLocalFrame()->IsLoading();
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}
}
return false;
}
void CefBrowserImpl::Reload() {
CEF_REQUIRE_RT_RETURN_VOID();
if (GetWebView()) {
blink::WebFrame* main_frame = GetWebView()->MainFrame();
if (main_frame && main_frame->IsWebLocalFrame()) {
main_frame->ToWebLocalFrame()->StartReload(
blink::WebFrameLoadType::kReload);
}
}
}
void CefBrowserImpl::ReloadIgnoreCache() {
CEF_REQUIRE_RT_RETURN_VOID();
if (GetWebView()) {
blink::WebFrame* main_frame = GetWebView()->MainFrame();
if (main_frame && main_frame->IsWebLocalFrame()) {
main_frame->ToWebLocalFrame()->StartReload(
blink::WebFrameLoadType::kReloadBypassingCache);
}
}
}
void CefBrowserImpl::StopLoad() {
CEF_REQUIRE_RT_RETURN_VOID();
if (GetWebView()) {
blink::WebFrame* main_frame = GetWebView()->MainFrame();
if (main_frame && main_frame->IsWebLocalFrame()) {
main_frame->ToWebLocalFrame()->DeprecatedStopLoading();
}
}
}
int CefBrowserImpl::GetIdentifier() {
CEF_REQUIRE_RT_RETURN(0);
return browser_id();
}
bool CefBrowserImpl::IsSame(CefRefPtr<CefBrowser> that) {
CEF_REQUIRE_RT_RETURN(false);
CefBrowserImpl* impl = static_cast<CefBrowserImpl*>(that.get());
return (impl == this);
}
bool CefBrowserImpl::IsPopup() {
CEF_REQUIRE_RT_RETURN(false);
return is_popup();
}
bool CefBrowserImpl::HasDocument() {
CEF_REQUIRE_RT_RETURN(false);
if (GetWebView()) {
blink::WebFrame* main_frame = GetWebView()->MainFrame();
if (main_frame && main_frame->IsWebLocalFrame()) {
return !main_frame->ToWebLocalFrame()->GetDocument().IsNull();
}
}
return false;
}
CefRefPtr<CefFrame> CefBrowserImpl::GetMainFrame() {
CEF_REQUIRE_RT_RETURN(nullptr);
if (GetWebView()) {
blink::WebFrame* main_frame = GetWebView()->MainFrame();
if (main_frame && main_frame->IsWebLocalFrame()) {
return GetWebFrameImpl(main_frame->ToWebLocalFrame()).get();
}
}
return nullptr;
}
CefRefPtr<CefFrame> CefBrowserImpl::GetFocusedFrame() {
CEF_REQUIRE_RT_RETURN(nullptr);
if (GetWebView() && GetWebView()->FocusedFrame()) {
return GetWebFrameImpl(GetWebView()->FocusedFrame()).get();
}
return nullptr;
}
CefRefPtr<CefFrame> CefBrowserImpl::GetFrameByIdentifier(
const CefString& identifier) {
CEF_REQUIRE_RT_RETURN(nullptr);
return GetWebFrameImpl(identifier).get();
}
CefRefPtr<CefFrame> CefBrowserImpl::GetFrameByName(const CefString& name) {
CEF_REQUIRE_RT_RETURN(nullptr);
blink::WebView* web_view = GetWebView();
if (web_view) {
const blink::WebString& frame_name =
blink::WebString::FromUTF16(name.ToString16());
// Search by assigned frame name (Frame::name).
Move message routing from CefBrowser to CefFrame (see issue #2498). This change moves the SendProcessMessage method from CefBrowser to CefFrame and adds CefBrowser parameters to OnProcessMessageReceived and OnDraggableRegionsChanged. The internal implementation has changed as follows: - Frame IDs are now a 64-bit combination of the 32-bit render_process_id and render_routing_id values that uniquely identify a RenderFrameHost (RFH). - CefFrameHostImpl objects are now managed by CefBrowserInfo with life span tied to RFH expectations. Specifically, a CefFrameHostImpl object representing a sub-frame will be created when a RenderFrame is created in the renderer process and detached when the associated RenderFrame is deleted or the renderer process in which it runs has died. - The CefFrameHostImpl object representing the main frame will always be valid but the underlying RFH (and associated frame ID) may change over time as a result of cross-origin navigations. Despite these changes calling LoadURL on the main frame object in the browser process will always navigate as expected. - Speculative RFHs, which may be created as a result of a cross-origin navigation and discarded if that navigation is not committed, are now handled correctly (e.g. ignored in most cases until they're committed). - It is less likely, but still possible, to receive a CefFrame object with an invalid frame ID (ID < 0). This can happen in cases where a RFH has not yet been created for a sub-frame. For example, when OnBeforeBrowse is called before initiating navigation in a previously nonexisting sub-frame. To test: All tests pass with NetworkService enabled and disabled.
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blink::WebFrame* frame = web_view->MainFrame();
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if (frame && frame->IsWebLocalFrame()) {
frame = frame->ToWebLocalFrame()->FindFrameByName(frame_name);
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}
if (!frame) {
// Search by unique frame name (Frame::uniqueName).
const std::string& searchname = name;
Move message routing from CefBrowser to CefFrame (see issue #2498). This change moves the SendProcessMessage method from CefBrowser to CefFrame and adds CefBrowser parameters to OnProcessMessageReceived and OnDraggableRegionsChanged. The internal implementation has changed as follows: - Frame IDs are now a 64-bit combination of the 32-bit render_process_id and render_routing_id values that uniquely identify a RenderFrameHost (RFH). - CefFrameHostImpl objects are now managed by CefBrowserInfo with life span tied to RFH expectations. Specifically, a CefFrameHostImpl object representing a sub-frame will be created when a RenderFrame is created in the renderer process and detached when the associated RenderFrame is deleted or the renderer process in which it runs has died. - The CefFrameHostImpl object representing the main frame will always be valid but the underlying RFH (and associated frame ID) may change over time as a result of cross-origin navigations. Despite these changes calling LoadURL on the main frame object in the browser process will always navigate as expected. - Speculative RFHs, which may be created as a result of a cross-origin navigation and discarded if that navigation is not committed, are now handled correctly (e.g. ignored in most cases until they're committed). - It is less likely, but still possible, to receive a CefFrame object with an invalid frame ID (ID < 0). This can happen in cases where a RFH has not yet been created for a sub-frame. For example, when OnBeforeBrowse is called before initiating navigation in a previously nonexisting sub-frame. To test: All tests pass with NetworkService enabled and disabled.
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for (blink::WebFrame* cur_frame = web_view->MainFrame(); cur_frame;
cur_frame = cur_frame->TraverseNext()) {
if (cur_frame->IsWebLocalFrame() &&
render_frame_util::GetName(cur_frame->ToWebLocalFrame()) ==
searchname) {
frame = cur_frame;
break;
}
}
}
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if (frame && frame->IsWebLocalFrame()) {
return GetWebFrameImpl(frame->ToWebLocalFrame()).get();
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}
}
return nullptr;
}
size_t CefBrowserImpl::GetFrameCount() {
CEF_REQUIRE_RT_RETURN(0);
int count = 0;
if (GetWebView()) {
for (blink::WebFrame* frame = GetWebView()->MainFrame(); frame;
frame = frame->TraverseNext()) {
count++;
}
}
return count;
}
void CefBrowserImpl::GetFrameIdentifiers(std::vector<CefString>& identifiers) {
CEF_REQUIRE_RT_RETURN_VOID();
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if (identifiers.size() > 0) {
identifiers.clear();
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}
if (GetWebView()) {
for (blink::WebFrame* frame = GetWebView()->MainFrame(); frame;
frame = frame->TraverseNext()) {
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if (frame->IsWebLocalFrame()) {
identifiers.push_back(
render_frame_util::GetIdentifier(frame->ToWebLocalFrame()));
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}
}
}
}
void CefBrowserImpl::GetFrameNames(std::vector<CefString>& names) {
CEF_REQUIRE_RT_RETURN_VOID();
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if (names.size() > 0) {
names.clear();
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}
if (GetWebView()) {
for (blink::WebFrame* frame = GetWebView()->MainFrame(); frame;
frame = frame->TraverseNext()) {
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if (frame->IsWebLocalFrame()) {
names.push_back(render_frame_util::GetName(frame->ToWebLocalFrame()));
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}
}
}
}
// CefBrowserImpl public methods.
// -----------------------------------------------------------------------------
CefBrowserImpl::CefBrowserImpl(blink::WebView* web_view,
int browser_id,
Implement off-screen rendering support using delegated rendering (issue #1257). This implementation supports both GPU compositing and software compositing (used when GPU is not supported or when passing `--disable-gpu --disable-gpu-compositing` command-line flags). GPU-accelerated features (WebGL and 3D CSS) that did not work with the previous off-screen rendering implementation do work with this implementation when GPU support is available. Rendering now operates on a per-frame basis. The frame rate is configurable via CefBrowserSettings.windowless_frame_rate up to a maximum of 60fps (potentially limited by how fast the system can generate new frames). CEF generates a bitmap from the compositor backing and passes it to CefRenderHandler::OnPaint. The previous CefRenderHandler/CefBrowserHost API for off-screen rendering has been restored mostly as-is with some minor changes: - CefBrowserHost::Invalidate no longer accepts a CefRect region argument. Instead of invalidating a specific region it now triggers generation of a new frame. - The |dirtyRects| argument to CefRenderHandler::OnPaint will now always be a single CefRect representing the whole view (frame) size. Previously, invalidated regions were listed separately. - Linux: CefBrowserHost::SendKeyEvent now expects X11 event information instead of GTK event information. See cefclient for an example of converting GTK events to the necessary format. - Sizes passed to the CefRenderHandler OnPaint and OnPopupSize methods are now already DPI scaled. Previously, the client had to perform DPI scaling. - Includes drag&drop implementation from issue #1032. - Includes unit test fixes from issue #1245. git-svn-id: https://chromiumembedded.googlecode.com/svn/trunk@1751 5089003a-bbd8-11dd-ad1f-f1f9622dbc98
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bool is_popup,
chrome: Add support for Alloy style browsers and windows (see #3681) Split the Alloy runtime into bootstrap and style components. Support creation of Alloy style browsers and windows with the Chrome runtime. Chrome runtime (`--enable-chrome-runtime`) + Alloy style (`--use-alloy-style`) supports Views (`--use-views`), native parent (`--use-native`) and windowless rendering (`--off-screen-rendering-enabled`). Print preview is supported in all cases except with windowless rendering on all platforms and native parent on MacOS. It is disabled by default with Alloy style for legacy compatibility. Where supported it can be enabled or disabled globally using `--[enable|disable]-print-preview` or configured on a per-RequestContext basis using the `printing.print_preview_disabled` preference. It also behaves as expected when triggered via the PDF viewer print button. Chrome runtime + Alloy style behavior differs from Alloy runtime in the following significant ways: - Supports Chrome error pages by default. - DevTools popups are Chrome style only (cannot be windowless). - The Alloy extension API will not supported. Chrome runtime + Alloy style passes all expected Alloy ceftests except the following: - `DisplayTest.AutoResize` (Alloy extension API not supported) - `DownloadTest.*` (Download API not yet supported) - `ExtensionTest.*` (Alloy extension API not supported) This change also adds Chrome runtime support for CefContextMenuHandler::RunContextMenu (see #3293). This change also explicitly blocks (and doesn't retry) FrameAttached requests from PDF viewer and print preview excluded frames (see #3664). Known issues specific to Chrome runtime + Alloy style: - DevTools popup with windowless rendering doesn't load successfully. Use windowed rendering or remote debugging as a workaround. - Chrome style Window with Alloy style BrowserView (`--use-alloy-style --use-chrome-style-window`) does not show Chrome theme changes. To test: - Run `ceftests --enable-chrome-runtime --use-alloy-style [--use-chrome-style-window] [--use-views|--use-native] --gtest_filter=...` - Run `cefclient --enable-chrome-runtime --use-alloy-style [--use-chrome-style-window] [--use-views|--use-native|--off-screen-rendering-enabled]` - Run `cefsimple --enable-chrome-runtime --use-alloy-style [--use-views]`
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bool is_windowless,
bool print_preview_enabled)
: blink::WebViewObserver(web_view),
browser_id_(browser_id),
is_popup_(is_popup),
chrome: Add support for Alloy style browsers and windows (see #3681) Split the Alloy runtime into bootstrap and style components. Support creation of Alloy style browsers and windows with the Chrome runtime. Chrome runtime (`--enable-chrome-runtime`) + Alloy style (`--use-alloy-style`) supports Views (`--use-views`), native parent (`--use-native`) and windowless rendering (`--off-screen-rendering-enabled`). Print preview is supported in all cases except with windowless rendering on all platforms and native parent on MacOS. It is disabled by default with Alloy style for legacy compatibility. Where supported it can be enabled or disabled globally using `--[enable|disable]-print-preview` or configured on a per-RequestContext basis using the `printing.print_preview_disabled` preference. It also behaves as expected when triggered via the PDF viewer print button. Chrome runtime + Alloy style behavior differs from Alloy runtime in the following significant ways: - Supports Chrome error pages by default. - DevTools popups are Chrome style only (cannot be windowless). - The Alloy extension API will not supported. Chrome runtime + Alloy style passes all expected Alloy ceftests except the following: - `DisplayTest.AutoResize` (Alloy extension API not supported) - `DownloadTest.*` (Download API not yet supported) - `ExtensionTest.*` (Alloy extension API not supported) This change also adds Chrome runtime support for CefContextMenuHandler::RunContextMenu (see #3293). This change also explicitly blocks (and doesn't retry) FrameAttached requests from PDF viewer and print preview excluded frames (see #3664). Known issues specific to Chrome runtime + Alloy style: - DevTools popup with windowless rendering doesn't load successfully. Use windowed rendering or remote debugging as a workaround. - Chrome style Window with Alloy style BrowserView (`--use-alloy-style --use-chrome-style-window`) does not show Chrome theme changes. To test: - Run `ceftests --enable-chrome-runtime --use-alloy-style [--use-chrome-style-window] [--use-views|--use-native] --gtest_filter=...` - Run `cefclient --enable-chrome-runtime --use-alloy-style [--use-chrome-style-window] [--use-views|--use-native|--off-screen-rendering-enabled]` - Run `cefsimple --enable-chrome-runtime --use-alloy-style [--use-views]`
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is_windowless_(is_windowless),
print_preview_enabled_(print_preview_enabled) {}
CefBrowserImpl::~CefBrowserImpl() = default;
CefRefPtr<CefFrameImpl> CefBrowserImpl::GetWebFrameImpl(
blink::WebLocalFrame* frame) {
DCHECK(frame);
const auto& frame_token = frame->GetLocalFrameToken();
// Frames are re-used between page loads. Only add the frame to the map once.
FrameMap::const_iterator it = frames_.find(frame_token);
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if (it != frames_.end()) {
return it->second;
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}
CefRefPtr<CefFrameImpl> framePtr(new CefFrameImpl(this, frame));
frames_.insert(std::make_pair(frame_token, framePtr));
return framePtr;
}
CefRefPtr<CefFrameImpl> CefBrowserImpl::GetWebFrameImpl(
const std::string& identifier) {
const auto& frame_token =
render_frame_util::ParseFrameTokenFromIdentifier(identifier);
if (!frame_token) {
return nullptr;
}
// Check if we already know about the frame.
FrameMap::const_iterator it = frames_.find(*frame_token);
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if (it != frames_.end()) {
return it->second;
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}
if (GetWebView()) {
// Check if the frame exists but we don't know about it yet.
if (auto* local_frame =
blink::WebLocalFrame::FromFrameToken(*frame_token)) {
return GetWebFrameImpl(local_frame);
}
}
return nullptr;
}
// RenderViewObserver methods.
// -----------------------------------------------------------------------------
void CefBrowserImpl::OnDestruct() {
// Notify that the browser window has been destroyed.
CefRefPtr<CefApp> app = CefAppManager::Get()->GetApplication();
if (app.get()) {
CefRefPtr<CefRenderProcessHandler> handler = app->GetRenderProcessHandler();
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if (handler.get()) {
handler->OnBrowserDestroyed(this);
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}
}
CefRenderManager::Get()->OnBrowserDestroyed(this);
}
void CefBrowserImpl::FrameDetached(blink::WebLocalFrame* frame) {
frames_.erase(frame->GetLocalFrameToken());
}
void CefBrowserImpl::OnLoadingStateChange(bool isLoading) {
CefRefPtr<CefApp> app = CefAppManager::Get()->GetApplication();
if (app.get()) {
CefRefPtr<CefRenderProcessHandler> handler = app->GetRenderProcessHandler();
if (handler.get()) {
CefRefPtr<CefLoadHandler> load_handler = handler->GetLoadHandler();
if (load_handler.get()) {
blink::WebView* web_view = GetWebView();
const bool canGoBack = blink_glue::CanGoBack(web_view);
const bool canGoForward = blink_glue::CanGoForward(web_view);
Move message routing from CefBrowser to CefFrame (see issue #2498). This change moves the SendProcessMessage method from CefBrowser to CefFrame and adds CefBrowser parameters to OnProcessMessageReceived and OnDraggableRegionsChanged. The internal implementation has changed as follows: - Frame IDs are now a 64-bit combination of the 32-bit render_process_id and render_routing_id values that uniquely identify a RenderFrameHost (RFH). - CefFrameHostImpl objects are now managed by CefBrowserInfo with life span tied to RFH expectations. Specifically, a CefFrameHostImpl object representing a sub-frame will be created when a RenderFrame is created in the renderer process and detached when the associated RenderFrame is deleted or the renderer process in which it runs has died. - The CefFrameHostImpl object representing the main frame will always be valid but the underlying RFH (and associated frame ID) may change over time as a result of cross-origin navigations. Despite these changes calling LoadURL on the main frame object in the browser process will always navigate as expected. - Speculative RFHs, which may be created as a result of a cross-origin navigation and discarded if that navigation is not committed, are now handled correctly (e.g. ignored in most cases until they're committed). - It is less likely, but still possible, to receive a CefFrame object with an invalid frame ID (ID < 0). This can happen in cases where a RFH has not yet been created for a sub-frame. For example, when OnBeforeBrowse is called before initiating navigation in a previously nonexisting sub-frame. To test: All tests pass with NetworkService enabled and disabled.
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// Don't call OnLoadingStateChange multiple times with the same status.
// This can occur in cases where there are multiple highest-level
// LocalFrames in-process for the same browser.
if (last_loading_state_ &&
last_loading_state_->IsMatch(isLoading, canGoBack, canGoForward)) {
return;
}
if (was_in_bfcache_) {
// Send the expected callbacks when exiting the BFCache.
DCHECK(!isLoading);
load_handler->OnLoadingStateChange(this, /*isLoading=*/true,
canGoBack, canGoForward);
auto main_frame = GetMainFrame();
load_handler->OnLoadStart(this, main_frame, TT_EXPLICIT);
load_handler->OnLoadEnd(this, main_frame, 0);
was_in_bfcache_ = false;
}
load_handler->OnLoadingStateChange(this, isLoading, canGoBack,
canGoForward);
last_loading_state_ =
std::make_unique<LoadingState>(isLoading, canGoBack, canGoForward);
}
}
}
}
void CefBrowserImpl::OnEnterBFCache() {
// Reset loading state so that notifications will be resent if/when exiting
// BFCache.
was_in_bfcache_ = true;
last_loading_state_.reset();
}