// Copyright 2014 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/renderer/render_frame_proxy.h" #include #include #include #include "base/command_line.h" #include "base/lazy_instance.h" #include "components/viz/common/features.h" #include "content/common/content_switches_internal.h" #include "content/common/frame_message_structs.h" #include "content/common/frame_owner_properties.h" #include "content/common/frame_replication_state.h" #include "content/common/input_messages.h" #include "content/common/page_messages.h" #include "content/common/swapped_out_messages.h" #include "content/common/view_messages.h" #include "content/public/common/content_client.h" #include "content/public/common/content_switches.h" #include "content/public/common/screen_info.h" #include "content/public/common/use_zoom_for_dsf_policy.h" #include "content/public/renderer/content_renderer_client.h" #include "content/renderer/child_frame_compositing_helper.h" #include "content/renderer/frame_owner_properties.h" #include "content/renderer/loader/web_url_request_util.h" #include "content/renderer/render_frame_impl.h" #include "content/renderer/render_thread_impl.h" #include "content/renderer/render_view_impl.h" #include "content/renderer/render_widget.h" #include "content/renderer/resource_timing_info_conversions.h" #include "ipc/ipc_message_macros.h" #include "printing/buildflags/buildflags.h" #include "third_party/blink/public/common/feature_policy/feature_policy.h" #include "third_party/blink/public/common/frame/frame_policy.h" #include "third_party/blink/public/platform/url_conversion.h" #include "third_party/blink/public/platform/web_rect.h" #include "third_party/blink/public/platform/web_resource_timing_info.h" #include "third_party/blink/public/platform/web_string.h" #include "third_party/blink/public/web/web_local_frame.h" #include "third_party/blink/public/web/web_triggering_event_info.h" #include "third_party/blink/public/web/web_user_gesture_indicator.h" #include "third_party/blink/public/web/web_view.h" #include "ui/base/ui_base_features.h" #include "ui/gfx/geometry/size_conversions.h" #if defined(USE_AURA) && !defined(TOOLKIT_QT) #include "content/renderer/mus/mus_embedded_frame.h" #include "content/renderer/mus/renderer_window_tree_client.h" #endif #if BUILDFLAG(ENABLE_PRINTING) // nogncheck because dependency on //printing is conditional upon // enable_basic_printing or enable_print_preview flags. #include "printing/metafile_skia_wrapper.h" // nogncheck #include "printing/pdf_metafile_skia.h" // nogncheck #endif namespace content { namespace { // Facilitates lookup of RenderFrameProxy by routing_id. typedef std::map RoutingIDProxyMap; static base::LazyInstance::DestructorAtExit g_routing_id_proxy_map = LAZY_INSTANCE_INITIALIZER; // Facilitates lookup of RenderFrameProxy by WebRemoteFrame. typedef std::map FrameProxyMap; base::LazyInstance::DestructorAtExit g_frame_proxy_map = LAZY_INSTANCE_INITIALIZER; } // namespace // static RenderFrameProxy* RenderFrameProxy::CreateProxyToReplaceFrame( RenderFrameImpl* frame_to_replace, int routing_id, blink::WebTreeScopeType scope) { CHECK_NE(routing_id, MSG_ROUTING_NONE); std::unique_ptr proxy(new RenderFrameProxy(routing_id)); proxy->unique_name_ = frame_to_replace->unique_name(); proxy->devtools_frame_token_ = frame_to_replace->GetDevToolsFrameToken(); // When a RenderFrame is replaced by a RenderProxy, the WebRemoteFrame should // always come from WebRemoteFrame::create and a call to WebFrame::swap must // follow later. blink::WebRemoteFrame* web_frame = blink::WebRemoteFrame::Create(scope, proxy.get()); // If frame_to_replace has a RenderFrameProxy parent, then its // RenderWidget will be destroyed along with it, so the new // RenderFrameProxy uses its parent's RenderWidget. RenderWidget* widget = (!frame_to_replace->GetWebFrame()->Parent() || frame_to_replace->GetWebFrame()->Parent()->IsWebLocalFrame()) ? frame_to_replace->GetRenderWidget() : RenderFrameProxy::FromWebFrame( frame_to_replace->GetWebFrame()->Parent()->ToWebRemoteFrame()) ->render_widget(); proxy->Init(web_frame, frame_to_replace->render_view(), widget); return proxy.release(); } RenderFrameProxy* RenderFrameProxy::CreateFrameProxy( int routing_id, int render_view_routing_id, blink::WebFrame* opener, int parent_routing_id, const FrameReplicationState& replicated_state, const base::UnguessableToken& devtools_frame_token) { RenderFrameProxy* parent = nullptr; if (parent_routing_id != MSG_ROUTING_NONE) { parent = RenderFrameProxy::FromRoutingID(parent_routing_id); // It is possible that the parent proxy has been detached in this renderer // process, just as the parent's real frame was creating this child frame. // In this case, do not create the proxy. See https://crbug.com/568670. if (!parent) return nullptr; } std::unique_ptr proxy(new RenderFrameProxy(routing_id)); proxy->devtools_frame_token_ = devtools_frame_token; RenderViewImpl* render_view = nullptr; RenderWidget* render_widget = nullptr; blink::WebRemoteFrame* web_frame = nullptr; if (!parent) { // Create a top level WebRemoteFrame. render_view = RenderViewImpl::FromRoutingID(render_view_routing_id); web_frame = blink::WebRemoteFrame::CreateMainFrame( render_view->GetWebView(), proxy.get(), opener); render_widget = render_view->GetWidget(); // If the RenderView is reused by this proxy after having been used for a // pending RenderFrame that was discarded, its swapped out state needs to // be updated, as the OnSwapOut flow which normally does this won't happen // in that case. See https://crbug.com/653746 and // https://crbug.com/651980. if (!render_view->is_swapped_out()) render_view->SetSwappedOut(true); } else { // Create a frame under an existing parent. The parent is always expected // to be a RenderFrameProxy, because navigations initiated by local frames // should not wind up here. web_frame = parent->web_frame()->CreateRemoteChild( replicated_state.scope, blink::WebString::FromUTF8(replicated_state.name), replicated_state.frame_policy.sandbox_flags, replicated_state.frame_policy.container_policy, proxy.get(), opener); proxy->unique_name_ = replicated_state.unique_name; render_view = parent->render_view(); render_widget = parent->render_widget(); } proxy->Init(web_frame, render_view, render_widget); // Initialize proxy's WebRemoteFrame with the security origin and other // replicated information. // TODO(dcheng): Calling this when parent_routing_id != MSG_ROUTING_NONE is // mostly redundant, since we already pass the name and sandbox flags in // createLocalChild(). We should update the Blink interface so it also takes // the origin. Then it will be clear that the replication call is only needed // for the case of setting up a main frame proxy. proxy->SetReplicatedState(replicated_state); return proxy.release(); } // static RenderFrameProxy* RenderFrameProxy::FromRoutingID(int32_t routing_id) { RoutingIDProxyMap* proxies = g_routing_id_proxy_map.Pointer(); RoutingIDProxyMap::iterator it = proxies->find(routing_id); return it == proxies->end() ? NULL : it->second; } // static RenderFrameProxy* RenderFrameProxy::FromWebFrame( blink::WebRemoteFrame* web_frame) { // TODO(dcheng): Turn this into a DCHECK() if it doesn't crash on canary. CHECK(web_frame); FrameProxyMap::iterator iter = g_frame_proxy_map.Get().find(web_frame); if (iter != g_frame_proxy_map.Get().end()) { RenderFrameProxy* proxy = iter->second; DCHECK_EQ(web_frame, proxy->web_frame()); return proxy; } // Reaching this is not expected: this implies that the |web_frame| in // question is not managed by the content API, or the associated // RenderFrameProxy is already deleted--in which case, it's not safe to touch // |web_frame|. NOTREACHED(); return nullptr; } RenderFrameProxy::RenderFrameProxy(int routing_id) : routing_id_(routing_id), provisional_frame_routing_id_(MSG_ROUTING_NONE), web_frame_(nullptr), render_view_(nullptr), render_widget_(nullptr) { std::pair result = g_routing_id_proxy_map.Get().insert(std::make_pair(routing_id_, this)); CHECK(result.second) << "Inserting a duplicate item."; RenderThread::Get()->AddRoute(routing_id_, this); } RenderFrameProxy::~RenderFrameProxy() { render_widget_->UnregisterRenderFrameProxy(this); CHECK(!web_frame_); RenderThread::Get()->RemoveRoute(routing_id_); g_routing_id_proxy_map.Get().erase(routing_id_); } void RenderFrameProxy::Init(blink::WebRemoteFrame* web_frame, RenderViewImpl* render_view, RenderWidget* render_widget) { CHECK(web_frame); CHECK(render_view); CHECK(render_widget); web_frame_ = web_frame; render_view_ = render_view; render_widget_ = render_widget; render_widget_->RegisterRenderFrameProxy(this); std::pair result = g_frame_proxy_map.Get().insert(std::make_pair(web_frame_, this)); CHECK(result.second) << "Inserted a duplicate item."; enable_surface_synchronization_ = features::IsSurfaceSynchronizationEnabled(); compositing_helper_ = std::make_unique(this); pending_resize_params_.screen_info = render_widget_->GetOriginalScreenInfo(); #if defined(USE_AURA) && !defined(TOOLKIT_QT) if (features::IsMusEnabled()) { RendererWindowTreeClient* renderer_window_tree_client = RendererWindowTreeClient::Get(render_widget_->routing_id()); // It's possible a MusEmbeddedFrame has already been scheduled for creation // (that is, RendererWindowTreeClient::Embed() was called). Call to // OnRenderFrameProxyCreated() to potentially get the MusEmbeddedFrame. // OnRenderFrameProxyCreated() returns null if Embed() was not called. mus_embedded_frame_ = renderer_window_tree_client->OnRenderFrameProxyCreated(this); } #endif } void RenderFrameProxy::ResendResizeParams() { // Reset |sent_resize_params_| in order to allocate a new viz::LocalSurfaceId. sent_resize_params_ = base::nullopt; WasResized(); } void RenderFrameProxy::WillBeginCompositorFrame() { if (compositing_helper_->primary_surface_id().is_valid()) { FrameHostMsg_HittestData_Params params; params.surface_id = compositing_helper_->primary_surface_id(); params.ignored_for_hittest = web_frame_->IsIgnoredForHitTest(); render_widget_->QueueMessage( new FrameHostMsg_HittestData(render_widget_->routing_id(), params), MESSAGE_DELIVERY_POLICY_WITH_VISUAL_STATE); } } void RenderFrameProxy::OnScreenInfoChanged(const ScreenInfo& screen_info) { pending_resize_params_.screen_info = screen_info; if (crashed_) { // Update the sad page to match the current ScreenInfo. compositing_helper_->ChildFrameGone(local_frame_size(), screen_info.device_scale_factor); return; } WasResized(); } void RenderFrameProxy::SetReplicatedState(const FrameReplicationState& state) { DCHECK(web_frame_); web_frame_->SetReplicatedOrigin( state.origin, state.has_potentially_trustworthy_unique_origin); #if DCHECK_IS_ON() blink::WebSecurityOrigin security_origin_before_sandbox_flags = web_frame_->GetSecurityOrigin(); #endif web_frame_->SetReplicatedSandboxFlags(state.active_sandbox_flags); #if DCHECK_IS_ON() // If |state.has_potentially_trustworthy_unique_origin| is set, // - |state.origin| should be unique (this is checked in // blink::SecurityOrigin::SetUniqueOriginIsPotentiallyTrustworthy() in // SetReplicatedOrigin()), and thus // - The security origin is not updated by SetReplicatedSandboxFlags() and // thus we don't have to apply |has_potentially_trustworthy_unique_origin| // flag after SetReplicatedSandboxFlags(). if (state.has_potentially_trustworthy_unique_origin) DCHECK(security_origin_before_sandbox_flags == web_frame_->GetSecurityOrigin()); #endif web_frame_->SetReplicatedName(blink::WebString::FromUTF8(state.name)); web_frame_->SetReplicatedInsecureRequestPolicy(state.insecure_request_policy); web_frame_->SetReplicatedInsecureNavigationsSet( state.insecure_navigations_set); web_frame_->SetReplicatedFeaturePolicyHeader(state.feature_policy_header); if (state.has_received_user_gesture) web_frame_->SetHasReceivedUserGesture(); web_frame_->SetHasReceivedUserGestureBeforeNavigation( state.has_received_user_gesture_before_nav); web_frame_->ResetReplicatedContentSecurityPolicy(); OnAddContentSecurityPolicies(state.accumulated_csp_headers); } // Update the proxy's FrameOwner with new sandbox flags and container policy // that were set by its parent in another process. // // Normally, when a frame's sandbox attribute is changed dynamically, the // frame's FrameOwner is updated with the new sandbox flags right away, while // the frame's SecurityContext is updated when the frame is navigated and the // new sandbox flags take effect. // // Currently, there is no use case for a proxy's pending FrameOwner sandbox // flags, so there's no message sent to proxies when the sandbox attribute is // first updated. Instead, the active flags are updated when they take effect, // by OnDidSetActiveSandboxFlags. The proxy's FrameOwner flags are updated here // with the caveat that the FrameOwner won't learn about updates to its flags // until they take effect. void RenderFrameProxy::OnDidUpdateFramePolicy( const blink::FramePolicy& frame_policy) { DCHECK(web_frame()->Parent()); web_frame_->SetFrameOwnerPolicy(frame_policy.sandbox_flags, frame_policy.container_policy); } // Update the proxy's SecurityContext with new sandbox flags or feature policy // that were set during navigation. Unlike changes to the FrameOwner, which are // handled by OnDidUpdateFramePolicy, these changes should be considered // effective immediately. // // These flags / policy are needed on the remote frame's SecurityContext to // ensure that sandbox flags and feature policy are inherited properly if this // proxy ever parents a local frame. void RenderFrameProxy::OnDidSetFramePolicyHeaders( blink::WebSandboxFlags active_sandbox_flags, blink::ParsedFeaturePolicy feature_policy_header) { web_frame_->SetReplicatedSandboxFlags(active_sandbox_flags); web_frame_->SetReplicatedFeaturePolicyHeader(feature_policy_header); } void RenderFrameProxy::SetChildFrameSurface( const viz::SurfaceInfo& surface_info) { // If this WebFrame has already been detached, its parent will be null. This // can happen when swapping a WebRemoteFrame with a WebLocalFrame, where this // message may arrive after the frame was removed from the frame tree, but // before the frame has been destroyed. http://crbug.com/446575. if (!web_frame()->Parent()) return; if (!enable_surface_synchronization_) { compositing_helper_->SetPrimarySurfaceId( surface_info.id(), local_frame_size(), cc::DeadlinePolicy::UseDefaultDeadline()); } compositing_helper_->SetFallbackSurfaceId(surface_info.id(), local_frame_size()); } bool RenderFrameProxy::OnMessageReceived(const IPC::Message& msg) { // Forward Page IPCs to the RenderView. if ((IPC_MESSAGE_CLASS(msg) == PageMsgStart)) { if (render_view()) return render_view()->OnMessageReceived(msg); return false; } bool handled = true; IPC_BEGIN_MESSAGE_MAP(RenderFrameProxy, msg) IPC_MESSAGE_HANDLER(FrameMsg_DeleteProxy, OnDeleteProxy) IPC_MESSAGE_HANDLER(FrameMsg_ChildFrameProcessGone, OnChildFrameProcessGone) IPC_MESSAGE_HANDLER(FrameMsg_SetChildFrameSurface, OnSetChildFrameSurface) IPC_MESSAGE_HANDLER(FrameMsg_IntrinsicSizingInfoOfChildChanged, OnIntrinsicSizingInfoOfChildChanged) IPC_MESSAGE_HANDLER(FrameMsg_UpdateOpener, OnUpdateOpener) IPC_MESSAGE_HANDLER(FrameMsg_ViewChanged, OnViewChanged) IPC_MESSAGE_HANDLER(FrameMsg_DidStartLoading, OnDidStartLoading) IPC_MESSAGE_HANDLER(FrameMsg_DidStopLoading, OnDidStopLoading) IPC_MESSAGE_HANDLER(FrameMsg_DidUpdateFramePolicy, OnDidUpdateFramePolicy) IPC_MESSAGE_HANDLER(FrameMsg_DidSetFramePolicyHeaders, OnDidSetFramePolicyHeaders) IPC_MESSAGE_HANDLER(FrameMsg_ForwardResourceTimingToParent, OnForwardResourceTimingToParent) IPC_MESSAGE_HANDLER(FrameMsg_DispatchLoad, OnDispatchLoad) IPC_MESSAGE_HANDLER(FrameMsg_Collapse, OnCollapse) IPC_MESSAGE_HANDLER(FrameMsg_DidUpdateName, OnDidUpdateName) IPC_MESSAGE_HANDLER(FrameMsg_AddContentSecurityPolicies, OnAddContentSecurityPolicies) IPC_MESSAGE_HANDLER(FrameMsg_ResetContentSecurityPolicy, OnResetContentSecurityPolicy) IPC_MESSAGE_HANDLER(FrameMsg_EnforceInsecureRequestPolicy, OnEnforceInsecureRequestPolicy) IPC_MESSAGE_HANDLER(FrameMsg_EnforceInsecureNavigationsSet, OnEnforceInsecureNavigationsSet) IPC_MESSAGE_HANDLER(FrameMsg_SetFrameOwnerProperties, OnSetFrameOwnerProperties) IPC_MESSAGE_HANDLER(FrameMsg_DidUpdateOrigin, OnDidUpdateOrigin) IPC_MESSAGE_HANDLER(InputMsg_SetFocus, OnSetPageFocus) IPC_MESSAGE_HANDLER(FrameMsg_ResizeDueToAutoResize, OnResizeDueToAutoResize) IPC_MESSAGE_HANDLER(FrameMsg_EnableAutoResize, OnEnableAutoResize) IPC_MESSAGE_HANDLER(FrameMsg_DisableAutoResize, OnDisableAutoResize) IPC_MESSAGE_HANDLER(FrameMsg_SetFocusedFrame, OnSetFocusedFrame) IPC_MESSAGE_HANDLER(FrameMsg_WillEnterFullscreen, OnWillEnterFullscreen) IPC_MESSAGE_HANDLER(FrameMsg_SetHasReceivedUserGesture, OnSetHasReceivedUserGesture) IPC_MESSAGE_HANDLER(FrameMsg_ScrollRectToVisible, OnScrollRectToVisible) IPC_MESSAGE_HANDLER(FrameMsg_SetHasReceivedUserGestureBeforeNavigation, OnSetHasReceivedUserGestureBeforeNavigation) IPC_MESSAGE_UNHANDLED(handled = false) IPC_END_MESSAGE_MAP() // Note: If |handled| is true, |this| may have been deleted. return handled; } bool RenderFrameProxy::Send(IPC::Message* message) { return RenderThread::Get()->Send(message); } void RenderFrameProxy::OnDeleteProxy() { DCHECK(web_frame_); web_frame_->Detach(); } void RenderFrameProxy::OnChildFrameProcessGone() { crashed_ = true; compositing_helper_->ChildFrameGone(local_frame_size(), screen_info().device_scale_factor); } void RenderFrameProxy::OnSetChildFrameSurface( const viz::SurfaceInfo& surface_info) { SetChildFrameSurface(surface_info); } void RenderFrameProxy::OnIntrinsicSizingInfoOfChildChanged( blink::WebIntrinsicSizingInfo sizing_info) { web_frame()->IntrinsicSizingInfoChanged(sizing_info); } void RenderFrameProxy::OnUpdateOpener(int opener_routing_id) { blink::WebFrame* opener = RenderFrameImpl::ResolveOpener(opener_routing_id); web_frame_->SetOpener(opener); } void RenderFrameProxy::OnDidStartLoading() { web_frame_->DidStartLoading(); } void RenderFrameProxy::OnViewChanged( const FrameMsg_ViewChanged_Params& params) { crashed_ = false; // In mash the FrameSinkId comes from RendererWindowTreeClient. if (!base::FeatureList::IsEnabled(features::kMash)) frame_sink_id_ = *params.frame_sink_id; // Resend the FrameRects and allocate a new viz::LocalSurfaceId when the view // changes. ResendResizeParams(); } void RenderFrameProxy::OnDidStopLoading() { web_frame_->DidStopLoading(); } void RenderFrameProxy::OnForwardResourceTimingToParent( const ResourceTimingInfo& info) { web_frame_->ForwardResourceTimingToParent( ResourceTimingInfoToWebResourceTimingInfo(info)); } void RenderFrameProxy::OnDispatchLoad() { web_frame_->DispatchLoadEventForFrameOwner(); } void RenderFrameProxy::OnCollapse(bool collapsed) { web_frame_->Collapse(collapsed); } void RenderFrameProxy::OnDidUpdateName(const std::string& name, const std::string& unique_name) { web_frame_->SetReplicatedName(blink::WebString::FromUTF8(name)); unique_name_ = unique_name; } void RenderFrameProxy::OnAddContentSecurityPolicies( const std::vector& headers) { for (const auto& header : headers) { web_frame_->AddReplicatedContentSecurityPolicyHeader( blink::WebString::FromUTF8(header.header_value), header.type, header.source); } } void RenderFrameProxy::OnResetContentSecurityPolicy() { web_frame_->ResetReplicatedContentSecurityPolicy(); } void RenderFrameProxy::OnEnforceInsecureRequestPolicy( blink::WebInsecureRequestPolicy policy) { web_frame_->SetReplicatedInsecureRequestPolicy(policy); } void RenderFrameProxy::OnEnforceInsecureNavigationsSet( const std::vector& set) { web_frame_->SetReplicatedInsecureNavigationsSet(set); } void RenderFrameProxy::OnSetFrameOwnerProperties( const FrameOwnerProperties& properties) { web_frame_->SetFrameOwnerProperties( ConvertFrameOwnerPropertiesToWebFrameOwnerProperties(properties)); } void RenderFrameProxy::OnDidUpdateOrigin( const url::Origin& origin, bool is_potentially_trustworthy_unique_origin) { web_frame_->SetReplicatedOrigin(origin, is_potentially_trustworthy_unique_origin); } void RenderFrameProxy::OnSetPageFocus(bool is_focused) { render_view_->SetFocus(is_focused); } void RenderFrameProxy::OnSetFocusedFrame() { // This uses focusDocumentView rather than setFocusedFrame so that blur // events are properly dispatched on any currently focused elements. render_view_->webview()->FocusDocumentView(web_frame_); } void RenderFrameProxy::OnWillEnterFullscreen() { web_frame_->WillEnterFullscreen(); } void RenderFrameProxy::OnSetHasReceivedUserGesture() { web_frame_->SetHasReceivedUserGesture(); } void RenderFrameProxy::OnScrollRectToVisible( const gfx::Rect& rect_to_scroll, const blink::WebScrollIntoViewParams& params) { web_frame_->ScrollRectToVisible(rect_to_scroll, params); } void RenderFrameProxy::OnResizeDueToAutoResize(uint64_t sequence_number) { pending_resize_params_.auto_resize_sequence_number = sequence_number; WasResized(); } void RenderFrameProxy::OnEnableAutoResize(const gfx::Size& min_size, const gfx::Size& max_size) { pending_resize_params_.auto_resize_enabled = true; pending_resize_params_.min_size_for_auto_resize = min_size; pending_resize_params_.max_size_for_auto_resize = max_size; WasResized(); } void RenderFrameProxy::OnDisableAutoResize() { pending_resize_params_.auto_resize_enabled = false; WasResized(); } #if defined(USE_AURA) && !defined(TOOLKIT_QT) void RenderFrameProxy::SetMusEmbeddedFrame( std::unique_ptr mus_embedded_frame) { mus_embedded_frame_ = std::move(mus_embedded_frame); } #endif void RenderFrameProxy::WasResized() { if (!frame_sink_id_.is_valid() || crashed_) return; bool synchronized_params_changed = !sent_resize_params_ || sent_resize_params_->auto_resize_enabled != pending_resize_params_.auto_resize_enabled || sent_resize_params_->min_size_for_auto_resize != pending_resize_params_.min_size_for_auto_resize || sent_resize_params_->max_size_for_auto_resize != pending_resize_params_.max_size_for_auto_resize || sent_resize_params_->local_frame_size != pending_resize_params_.local_frame_size || sent_resize_params_->screen_space_rect.size() != pending_resize_params_.screen_space_rect.size() || sent_resize_params_->screen_info != pending_resize_params_.screen_info || sent_resize_params_->auto_resize_sequence_number != pending_resize_params_.auto_resize_sequence_number; if (synchronized_params_changed) local_surface_id_ = parent_local_surface_id_allocator_.GenerateId(); viz::SurfaceId surface_id(frame_sink_id_, local_surface_id_); if (enable_surface_synchronization_) { // TODO(vmpstr): When capture_sequence_number is available, the deadline // should be infinite if the sequence number has changed. compositing_helper_->SetPrimarySurfaceId( surface_id, local_frame_size(), cc::DeadlinePolicy::UseDefaultDeadline()); } bool rect_changed = !sent_resize_params_ || sent_resize_params_->screen_space_rect != pending_resize_params_.screen_space_rect; bool resize_params_changed = synchronized_params_changed || rect_changed; #if defined(USE_AURA) && !defined(TOOLKIT_QT) if (rect_changed && mus_embedded_frame_) { mus_embedded_frame_->SetWindowBounds(local_surface_id_, gfx::Rect(local_frame_size())); } #endif if (!resize_params_changed) return; // Let the browser know about the updated view rect. Send(new FrameHostMsg_UpdateResizeParams(routing_id_, surface_id, pending_resize_params_)); sent_resize_params_ = pending_resize_params_; // The visible rect that the OOPIF needs to raster depends partially on // parameters that might have changed. If they affect the raster area, resend // the intersection rects. gfx::Rect new_compositor_visible_rect = web_frame_->GetCompositingRect(); if (new_compositor_visible_rect != last_compositor_visible_rect_) UpdateRemoteViewportIntersection(last_intersection_rect_); } void RenderFrameProxy::OnSetHasReceivedUserGestureBeforeNavigation(bool value) { web_frame_->SetHasReceivedUserGestureBeforeNavigation(value); } void RenderFrameProxy::FrameDetached(DetachType type) { #if defined(USE_AURA) && !defined(TOOLKIT_QT) mus_embedded_frame_.reset(); #endif if (type == DetachType::kRemove && web_frame_->Parent()) { // Let the browser process know this subframe is removed, so that it is // destroyed in its current process. Send(new FrameHostMsg_Detach(routing_id_)); } web_frame_->Close(); // If this proxy was associated with a provisional RenderFrame, and we're not // in the process of swapping with it, clean it up as well. if (type == DetachType::kRemove && provisional_frame_routing_id_ != MSG_ROUTING_NONE) { RenderFrameImpl* provisional_frame = RenderFrameImpl::FromRoutingID(provisional_frame_routing_id_); // |provisional_frame| should always exist. If it was deleted via // FrameMsg_Delete right before this proxy was removed, // RenderFrameImpl::frameDetached would've cleared this proxy's // |provisional_frame_routing_id_| and we wouldn't get here. CHECK(provisional_frame); provisional_frame->GetWebFrame()->Detach(); } // Remove the entry in the WebFrame->RenderFrameProxy map, as the |web_frame_| // is no longer valid. FrameProxyMap::iterator it = g_frame_proxy_map.Get().find(web_frame_); CHECK(it != g_frame_proxy_map.Get().end()); CHECK_EQ(it->second, this); g_frame_proxy_map.Get().erase(it); web_frame_ = nullptr; delete this; } void RenderFrameProxy::CheckCompleted() { Send(new FrameHostMsg_CheckCompleted(routing_id_)); } void RenderFrameProxy::ForwardPostMessage( blink::WebLocalFrame* source_frame, blink::WebRemoteFrame* target_frame, blink::WebSecurityOrigin target_origin, blink::WebDOMMessageEvent event, bool has_user_gesture) { DCHECK(!web_frame_ || web_frame_ == target_frame); FrameMsg_PostMessage_Params params; params.is_data_raw_string = false; params.message = new base::RefCountedData(event.AsMessage()); params.message->data.has_user_gesture = has_user_gesture; params.source_origin = event.Origin().Utf16(); if (!target_origin.IsNull()) params.target_origin = target_origin.ToString().Utf16(); // Include the routing ID for the source frame (if one exists), which the // browser process will translate into the routing ID for the equivalent // frame in the target process. params.source_routing_id = MSG_ROUTING_NONE; if (source_frame) { RenderFrameImpl* source_render_frame = RenderFrameImpl::FromWebFrame(source_frame); if (source_render_frame) params.source_routing_id = source_render_frame->GetRoutingID(); } Send(new FrameHostMsg_RouteMessageEvent(routing_id_, params)); } void RenderFrameProxy::Navigate(const blink::WebURLRequest& request, bool should_replace_current_entry) { FrameHostMsg_OpenURL_Params params; params.url = request.Url(); params.uses_post = request.HttpMethod().Utf8() == "POST"; params.resource_request_body = GetRequestBodyForWebURLRequest(request); params.extra_headers = GetWebURLRequestHeadersAsString(request); params.referrer = Referrer(blink::WebStringToGURL(request.HttpHeaderField( blink::WebString::FromUTF8("Referer"))), request.GetReferrerPolicy()); params.disposition = WindowOpenDisposition::CURRENT_TAB; params.should_replace_current_entry = should_replace_current_entry; params.user_gesture = request.HasUserGesture(); params.triggering_event_info = blink::WebTriggeringEventInfo::kUnknown; params.suggested_filename = request.GetSuggestedFilename().has_value() ? base::Optional(request.GetSuggestedFilename()->Utf8()) : base::nullopt; Send(new FrameHostMsg_OpenURL(routing_id_, params)); } void RenderFrameProxy::FrameRectsChanged( const blink::WebRect& local_frame_rect, const blink::WebRect& screen_space_rect) { pending_resize_params_.screen_space_rect = gfx::Rect(screen_space_rect); pending_resize_params_.local_frame_size = gfx::Size(local_frame_rect.width, local_frame_rect.height); pending_resize_params_.screen_info = render_widget_->GetOriginalScreenInfo(); if (crashed_) { // Update the sad page to match the current size. compositing_helper_->ChildFrameGone(local_frame_size(), screen_info().device_scale_factor); return; } WasResized(); } void RenderFrameProxy::UpdateRemoteViewportIntersection( const blink::WebRect& viewport_intersection) { last_intersection_rect_ = viewport_intersection; last_compositor_visible_rect_ = web_frame_->GetCompositingRect(); Send(new FrameHostMsg_UpdateViewportIntersection( routing_id_, gfx::Rect(viewport_intersection), last_compositor_visible_rect_)); } void RenderFrameProxy::VisibilityChanged(bool visible) { Send(new FrameHostMsg_VisibilityChanged(routing_id_, visible)); } void RenderFrameProxy::SetIsInert(bool inert) { Send(new FrameHostMsg_SetIsInert(routing_id_, inert)); } void RenderFrameProxy::UpdateRenderThrottlingStatus(bool is_throttled, bool subtree_throttled) { Send(new FrameHostMsg_UpdateRenderThrottlingStatus(routing_id_, is_throttled, subtree_throttled)); } void RenderFrameProxy::DidChangeOpener(blink::WebFrame* opener) { // A proxy shouldn't normally be disowning its opener. It is possible to get // here when a proxy that is being detached clears its opener, in which case // there is no need to notify the browser process. if (!opener) return; // Only a LocalFrame (i.e., the caller of window.open) should be able to // update another frame's opener. DCHECK(opener->IsWebLocalFrame()); int opener_routing_id = RenderFrameImpl::FromWebFrame(opener->ToWebLocalFrame())->GetRoutingID(); Send(new FrameHostMsg_DidChangeOpener(routing_id_, opener_routing_id)); } void RenderFrameProxy::AdvanceFocus(blink::WebFocusType type, blink::WebLocalFrame* source) { int source_routing_id = RenderFrameImpl::FromWebFrame(source)->GetRoutingID(); Send(new FrameHostMsg_AdvanceFocus(routing_id_, type, source_routing_id)); } void RenderFrameProxy::FrameFocused() { Send(new FrameHostMsg_FrameFocused(routing_id_)); } base::UnguessableToken RenderFrameProxy::GetDevToolsFrameToken() { return devtools_frame_token_; } #if defined(USE_AURA) && !defined(TOOLKIT_QT) void RenderFrameProxy::OnMusEmbeddedFrameSurfaceChanged( const viz::SurfaceInfo& surface_info) { SetChildFrameSurface(surface_info); } void RenderFrameProxy::OnMusEmbeddedFrameSinkIdAllocated( const viz::FrameSinkId& frame_sink_id) { // RendererWindowTreeClient should only call this when mus is hosting viz. DCHECK(base::FeatureList::IsEnabled(features::kMash)); frame_sink_id_ = frame_sink_id; // Resend the FrameRects and allocate a new viz::LocalSurfaceId when the view // changes. ResendResizeParams(); } #endif blink::WebLayer* RenderFrameProxy::GetLayer() { return web_layer_.get(); } void RenderFrameProxy::SetLayer(std::unique_ptr web_layer) { if (web_frame()) web_frame()->SetWebLayer(web_layer.get()); web_layer_ = std::move(web_layer); } SkBitmap* RenderFrameProxy::GetSadPageBitmap() { return GetContentClient()->renderer()->GetSadWebViewBitmap(); } uint32_t RenderFrameProxy::Print(const blink::WebRect& rect, blink::WebCanvas* canvas) { #if BUILDFLAG(ENABLE_PRINTING) printing::PdfMetafileSkia* metafile = printing::MetafileSkiaWrapper::GetMetafileFromCanvas(canvas); DCHECK(metafile); // Create a place holder content for the remote frame so it can be replaced // with actual content later. uint32_t content_id = metafile->CreateContentForRemoteFrame(rect, routing_id_); // Inform browser to print the remote subframe. Send(new FrameHostMsg_PrintCrossProcessSubframe( routing_id_, rect, metafile->GetDocumentCookie())); return content_id; #else return 0; #endif } } // namespace content