// 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 "base/bind.h" #include "base/logging.h" #include "base/run_loop.h" #include "components/mus/public/cpp/tests/view_manager_test_base.h" #include "components/mus/public/cpp/util.h" #include "components/mus/public/cpp/view_observer.h" #include "components/mus/public/cpp/view_tree_connection.h" #include "components/mus/public/cpp/view_tree_delegate.h" #include "mojo/application/public/cpp/application_connection.h" #include "mojo/application/public/cpp/application_impl.h" #include "mojo/application/public/cpp/application_test_base.h" #include "ui/mojo/geometry/geometry_util.h" namespace mus { namespace { class BoundsChangeObserver : public ViewObserver { public: explicit BoundsChangeObserver(View* view) : view_(view) { view_->AddObserver(this); } ~BoundsChangeObserver() override { view_->RemoveObserver(this); } private: // Overridden from ViewObserver: void OnViewBoundsChanged(View* view, const mojo::Rect& old_bounds, const mojo::Rect& new_bounds) override { DCHECK_EQ(view, view_); EXPECT_TRUE(ViewManagerTestBase::QuitRunLoop()); } View* view_; MOJO_DISALLOW_COPY_AND_ASSIGN(BoundsChangeObserver); }; // Wait until the bounds of the supplied view change; returns false on timeout. bool WaitForBoundsToChange(View* view) { BoundsChangeObserver observer(view); return ViewManagerTestBase::DoRunLoopWithTimeout(); } // Spins a run loop until the tree beginning at |root| has |tree_size| views // (including |root|). class TreeSizeMatchesObserver : public ViewObserver { public: TreeSizeMatchesObserver(View* tree, size_t tree_size) : tree_(tree), tree_size_(tree_size) { tree_->AddObserver(this); } ~TreeSizeMatchesObserver() override { tree_->RemoveObserver(this); } bool IsTreeCorrectSize() { return CountViews(tree_) == tree_size_; } private: // Overridden from ViewObserver: void OnTreeChanged(const TreeChangeParams& params) override { if (IsTreeCorrectSize()) EXPECT_TRUE(ViewManagerTestBase::QuitRunLoop()); } size_t CountViews(const View* view) const { size_t count = 1; View::Children::const_iterator it = view->children().begin(); for (; it != view->children().end(); ++it) count += CountViews(*it); return count; } View* tree_; size_t tree_size_; MOJO_DISALLOW_COPY_AND_ASSIGN(TreeSizeMatchesObserver); }; // Wait until |view| has |tree_size| descendants; returns false on timeout. The // count includes |view|. For example, if you want to wait for |view| to have // a single child, use a |tree_size| of 2. bool WaitForTreeSizeToMatch(View* view, size_t tree_size) { TreeSizeMatchesObserver observer(view, tree_size); return observer.IsTreeCorrectSize() || ViewManagerTestBase::DoRunLoopWithTimeout(); } class OrderChangeObserver : public ViewObserver { public: OrderChangeObserver(View* view) : view_(view) { view_->AddObserver(this); } ~OrderChangeObserver() override { view_->RemoveObserver(this); } private: // Overridden from ViewObserver: void OnViewReordered(View* view, View* relative_view, mojo::OrderDirection direction) override { DCHECK_EQ(view, view_); EXPECT_TRUE(ViewManagerTestBase::QuitRunLoop()); } View* view_; MOJO_DISALLOW_COPY_AND_ASSIGN(OrderChangeObserver); }; // Wait until |view|'s tree size matches |tree_size|; returns false on timeout. bool WaitForOrderChange(ViewTreeConnection* connection, View* view) { OrderChangeObserver observer(view); return ViewManagerTestBase::DoRunLoopWithTimeout(); } // Tracks a view's destruction. Query is_valid() for current state. class ViewTracker : public ViewObserver { public: explicit ViewTracker(View* view) : view_(view) { view_->AddObserver(this); } ~ViewTracker() override { if (view_) view_->RemoveObserver(this); } bool is_valid() const { return !!view_; } private: // Overridden from ViewObserver: void OnViewDestroyed(View* view) override { DCHECK_EQ(view, view_); view_ = nullptr; } View* view_; MOJO_DISALLOW_COPY_AND_ASSIGN(ViewTracker); }; } // namespace // ViewManager ----------------------------------------------------------------- struct EmbedResult { EmbedResult(ViewTreeConnection* connection, ConnectionSpecificId id) : connection(connection), connection_id(id) {} EmbedResult() : connection(nullptr), connection_id(0) {} ViewTreeConnection* connection; // The id supplied to the callback from OnEmbed(). Depending upon the // access policy this may or may not match the connection id of // |connection|. ConnectionSpecificId connection_id; }; // These tests model synchronization of two peer connections to the view manager // service, that are given access to some root view. class ViewManagerTest : public ViewManagerTestBase { public: ViewManagerTest() {} // Embeds another version of the test app @ view. This runs a run loop until // a response is received, or a timeout. On success the new ViewManager is // returned. EmbedResult Embed(View* view) { return Embed(view, mojo::ViewTree::ACCESS_POLICY_DEFAULT); } EmbedResult Embed(View* view, uint32_t access_policy_bitmask) { DCHECK(!embed_details_); embed_details_.reset(new EmbedDetails); view->Embed(ConnectToApplicationAndGetViewManagerClient(), access_policy_bitmask, base::Bind(&ViewManagerTest::EmbedCallbackImpl, base::Unretained(this))); embed_details_->waiting = true; if (!ViewManagerTestBase::DoRunLoopWithTimeout()) return EmbedResult(); const EmbedResult result(embed_details_->connection, embed_details_->connection_id); embed_details_.reset(); return result; } // Establishes a connection to this application and asks for a // ViewTreeClient. mojo::ViewTreeClientPtr ConnectToApplicationAndGetViewManagerClient() { mojo::URLRequestPtr request(mojo::URLRequest::New()); request->url = mojo::String::From(application_impl()->url()); scoped_ptr connection = application_impl()->ConnectToApplication(request.Pass()); mojo::ViewTreeClientPtr client; connection->ConnectToService(&client); return client.Pass(); } // ViewManagerTestBase: void OnEmbed(View* root) override { if (!embed_details_) { ViewManagerTestBase::OnEmbed(root); return; } embed_details_->connection = root->connection(); if (embed_details_->callback_run) EXPECT_TRUE(ViewManagerTestBase::QuitRunLoop()); } private: // Used to track the state of a call to view->Embed(). struct EmbedDetails { EmbedDetails() : callback_run(false), result(false), waiting(false), connection_id(0), connection(nullptr) {} // The callback supplied to Embed() was received. bool callback_run; // The boolean supplied to the Embed() callback. bool result; // Whether a MessageLoop is running. bool waiting; // Connection id supplied to the Embed() callback. ConnectionSpecificId connection_id; // The ViewTreeConnection that resulted from the Embed(). null if |result| // is false. ViewTreeConnection* connection; }; void EmbedCallbackImpl(bool result, ConnectionSpecificId connection_id) { embed_details_->callback_run = true; embed_details_->result = result; embed_details_->connection_id = connection_id; if (embed_details_->waiting && (!result || embed_details_->connection)) EXPECT_TRUE(ViewManagerTestBase::QuitRunLoop()); } scoped_ptr embed_details_; MOJO_DISALLOW_COPY_AND_ASSIGN(ViewManagerTest); }; TEST_F(ViewManagerTest, RootView) { ASSERT_NE(nullptr, window_manager()); EXPECT_NE(nullptr, window_manager()->GetRoot()); } TEST_F(ViewManagerTest, Embed) { View* view = window_manager()->CreateView(); ASSERT_NE(nullptr, view); view->SetVisible(true); window_manager()->GetRoot()->AddChild(view); ViewTreeConnection* embedded = Embed(view).connection; ASSERT_NE(nullptr, embedded); View* view_in_embedded = embedded->GetRoot(); ASSERT_NE(nullptr, view_in_embedded); EXPECT_EQ(view->id(), view_in_embedded->id()); EXPECT_EQ(nullptr, view_in_embedded->parent()); EXPECT_TRUE(view_in_embedded->children().empty()); } // Window manager has two views, N1 and N11. Embeds A at N1. A should not see // N11. TEST_F(ViewManagerTest, EmbeddedDoesntSeeChild) { View* view = window_manager()->CreateView(); ASSERT_NE(nullptr, view); view->SetVisible(true); window_manager()->GetRoot()->AddChild(view); View* nested = window_manager()->CreateView(); ASSERT_NE(nullptr, nested); nested->SetVisible(true); view->AddChild(nested); ViewTreeConnection* embedded = Embed(view).connection; ASSERT_NE(nullptr, embedded); View* view_in_embedded = embedded->GetRoot(); EXPECT_EQ(view->id(), view_in_embedded->id()); EXPECT_EQ(nullptr, view_in_embedded->parent()); EXPECT_TRUE(view_in_embedded->children().empty()); } // TODO(beng): write a replacement test for the one that once existed here: // This test validates the following scenario: // - a view originating from one connection // - a view originating from a second connection // + the connection originating the view is destroyed // -> the view should still exist (since the second connection is live) but // should be disconnected from any views. // http://crbug.com/396300 // // TODO(beng): The new test should validate the scenario as described above // except that the second connection still has a valid tree. // Verifies that bounds changes applied to a view hierarchy in one connection // are reflected to another. TEST_F(ViewManagerTest, SetBounds) { View* view = window_manager()->CreateView(); view->SetVisible(true); window_manager()->GetRoot()->AddChild(view); ViewTreeConnection* embedded = Embed(view).connection; ASSERT_NE(nullptr, embedded); View* view_in_embedded = embedded->GetViewById(view->id()); EXPECT_EQ(view->bounds(), view_in_embedded->bounds()); mojo::Rect rect; rect.width = rect.height = 100; view->SetBounds(rect); ASSERT_TRUE(WaitForBoundsToChange(view_in_embedded)); EXPECT_EQ(view->bounds(), view_in_embedded->bounds()); } // Verifies that bounds changes applied to a view owned by a different // connection are refused. TEST_F(ViewManagerTest, SetBoundsSecurity) { View* view = window_manager()->CreateView(); view->SetVisible(true); window_manager()->GetRoot()->AddChild(view); ViewTreeConnection* embedded = Embed(view).connection; ASSERT_NE(nullptr, embedded); View* view_in_embedded = embedded->GetViewById(view->id()); mojo::Rect rect; rect.width = 800; rect.height = 600; view->SetBounds(rect); ASSERT_TRUE(WaitForBoundsToChange(view_in_embedded)); rect.width = 1024; rect.height = 768; view_in_embedded->SetBounds(rect); // Bounds change should have been rejected. EXPECT_EQ(view->bounds(), view_in_embedded->bounds()); } // Verifies that a view can only be destroyed by the connection that created it. TEST_F(ViewManagerTest, DestroySecurity) { View* view = window_manager()->CreateView(); view->SetVisible(true); window_manager()->GetRoot()->AddChild(view); ViewTreeConnection* embedded = Embed(view).connection; ASSERT_NE(nullptr, embedded); View* view_in_embedded = embedded->GetViewById(view->id()); ViewTracker tracker2(view_in_embedded); view_in_embedded->Destroy(); // View should not have been destroyed. EXPECT_TRUE(tracker2.is_valid()); ViewTracker tracker1(view); view->Destroy(); EXPECT_FALSE(tracker1.is_valid()); } TEST_F(ViewManagerTest, MultiRoots) { View* view1 = window_manager()->CreateView(); view1->SetVisible(true); window_manager()->GetRoot()->AddChild(view1); View* view2 = window_manager()->CreateView(); view2->SetVisible(true); window_manager()->GetRoot()->AddChild(view2); ViewTreeConnection* embedded1 = Embed(view1).connection; ASSERT_NE(nullptr, embedded1); ViewTreeConnection* embedded2 = Embed(view2).connection; ASSERT_NE(nullptr, embedded2); EXPECT_NE(embedded1, embedded2); } // TODO(alhaad): Currently, the RunLoop gets stuck waiting for order change. // Debug and re-enable this. TEST_F(ViewManagerTest, DISABLED_Reorder) { View* view1 = window_manager()->CreateView(); view1->SetVisible(true); window_manager()->GetRoot()->AddChild(view1); ViewTreeConnection* embedded = Embed(view1).connection; ASSERT_NE(nullptr, embedded); View* view11 = embedded->CreateView(); view11->SetVisible(true); embedded->GetRoot()->AddChild(view11); View* view12 = embedded->CreateView(); view12->SetVisible(true); embedded->GetRoot()->AddChild(view12); View* root_in_embedded = embedded->GetRoot(); { ASSERT_TRUE(WaitForTreeSizeToMatch(root_in_embedded, 3u)); view11->MoveToFront(); ASSERT_TRUE(WaitForOrderChange(embedded, root_in_embedded)); EXPECT_EQ(root_in_embedded->children().front(), embedded->GetViewById(view12->id())); EXPECT_EQ(root_in_embedded->children().back(), embedded->GetViewById(view11->id())); } { view11->MoveToBack(); ASSERT_TRUE( WaitForOrderChange(embedded, embedded->GetViewById(view11->id()))); EXPECT_EQ(root_in_embedded->children().front(), embedded->GetViewById(view11->id())); EXPECT_EQ(root_in_embedded->children().back(), embedded->GetViewById(view12->id())); } } namespace { class VisibilityChangeObserver : public ViewObserver { public: explicit VisibilityChangeObserver(View* view) : view_(view) { view_->AddObserver(this); } ~VisibilityChangeObserver() override { view_->RemoveObserver(this); } private: // Overridden from ViewObserver: void OnViewVisibilityChanged(View* view) override { EXPECT_EQ(view, view_); EXPECT_TRUE(ViewManagerTestBase::QuitRunLoop()); } View* view_; MOJO_DISALLOW_COPY_AND_ASSIGN(VisibilityChangeObserver); }; } // namespace TEST_F(ViewManagerTest, Visible) { View* view1 = window_manager()->CreateView(); view1->SetVisible(true); window_manager()->GetRoot()->AddChild(view1); // Embed another app and verify initial state. ViewTreeConnection* embedded = Embed(view1).connection; ASSERT_NE(nullptr, embedded); ASSERT_NE(nullptr, embedded->GetRoot()); View* embedded_root = embedded->GetRoot(); EXPECT_TRUE(embedded_root->visible()); EXPECT_TRUE(embedded_root->IsDrawn()); // Change the visible state from the first connection and verify its mirrored // correctly to the embedded app. { VisibilityChangeObserver observer(embedded_root); view1->SetVisible(false); ASSERT_TRUE(ViewManagerTestBase::DoRunLoopWithTimeout()); } EXPECT_FALSE(view1->visible()); EXPECT_FALSE(view1->IsDrawn()); EXPECT_FALSE(embedded_root->visible()); EXPECT_FALSE(embedded_root->IsDrawn()); // Make the node visible again. { VisibilityChangeObserver observer(embedded_root); view1->SetVisible(true); ASSERT_TRUE(ViewManagerTestBase::DoRunLoopWithTimeout()); } EXPECT_TRUE(view1->visible()); EXPECT_TRUE(view1->IsDrawn()); EXPECT_TRUE(embedded_root->visible()); EXPECT_TRUE(embedded_root->IsDrawn()); } namespace { class DrawnChangeObserver : public ViewObserver { public: explicit DrawnChangeObserver(View* view) : view_(view) { view_->AddObserver(this); } ~DrawnChangeObserver() override { view_->RemoveObserver(this); } private: // Overridden from ViewObserver: void OnViewDrawnChanged(View* view) override { EXPECT_EQ(view, view_); EXPECT_TRUE(ViewManagerTestBase::QuitRunLoop()); } View* view_; MOJO_DISALLOW_COPY_AND_ASSIGN(DrawnChangeObserver); }; } // namespace TEST_F(ViewManagerTest, Drawn) { View* view1 = window_manager()->CreateView(); view1->SetVisible(true); window_manager()->GetRoot()->AddChild(view1); // Embed another app and verify initial state. ViewTreeConnection* embedded = Embed(view1).connection; ASSERT_NE(nullptr, embedded); ASSERT_NE(nullptr, embedded->GetRoot()); View* embedded_root = embedded->GetRoot(); EXPECT_TRUE(embedded_root->visible()); EXPECT_TRUE(embedded_root->IsDrawn()); // Change the visibility of the root, this should propagate a drawn state // change to |embedded|. { DrawnChangeObserver observer(embedded_root); window_manager()->GetRoot()->SetVisible(false); ASSERT_TRUE(DoRunLoopWithTimeout()); } EXPECT_TRUE(view1->visible()); EXPECT_FALSE(view1->IsDrawn()); EXPECT_TRUE(embedded_root->visible()); EXPECT_FALSE(embedded_root->IsDrawn()); } // TODO(beng): tests for view event dispatcher. // - verify that we see events for all views. namespace { class FocusChangeObserver : public ViewObserver { public: explicit FocusChangeObserver(View* view) : view_(view), last_gained_focus_(nullptr), last_lost_focus_(nullptr) { view_->AddObserver(this); } ~FocusChangeObserver() override { view_->RemoveObserver(this); } View* last_gained_focus() { return last_gained_focus_; } View* last_lost_focus() { return last_lost_focus_; } private: // Overridden from ViewObserver. void OnViewFocusChanged(View* gained_focus, View* lost_focus) override { EXPECT_TRUE(!gained_focus || gained_focus->HasFocus()); EXPECT_FALSE(lost_focus && lost_focus->HasFocus()); last_gained_focus_ = gained_focus; last_lost_focus_ = lost_focus; EXPECT_TRUE(ViewManagerTestBase::QuitRunLoop()); } View* view_; View* last_gained_focus_; View* last_lost_focus_; MOJO_DISALLOW_COPY_AND_ASSIGN(FocusChangeObserver); }; } // namespace TEST_F(ViewManagerTest, Focus) { View* view1 = window_manager()->CreateView(); view1->SetVisible(true); window_manager()->GetRoot()->AddChild(view1); ViewTreeConnection* embedded = Embed(view1).connection; ASSERT_NE(nullptr, embedded); View* view11 = embedded->CreateView(); view11->SetVisible(true); embedded->GetRoot()->AddChild(view11); // TODO(alhaad): Figure out why switching focus between views from different // connections is causing the tests to crash and add tests for that. { View* embedded_root = embedded->GetRoot(); FocusChangeObserver observer(embedded_root); embedded_root->SetFocus(); ASSERT_TRUE(DoRunLoopWithTimeout()); ASSERT_NE(nullptr, observer.last_gained_focus()); EXPECT_EQ(embedded_root->id(), observer.last_gained_focus()->id()); } { FocusChangeObserver observer(view11); view11->SetFocus(); ASSERT_TRUE(DoRunLoopWithTimeout()); ASSERT_NE(nullptr, observer.last_gained_focus()); ASSERT_NE(nullptr, observer.last_lost_focus()); EXPECT_EQ(view11->id(), observer.last_gained_focus()->id()); EXPECT_EQ(embedded->GetRoot()->id(), observer.last_lost_focus()->id()); } { // Add an observer on the View that loses focus, and make sure the observer // sees the right values. FocusChangeObserver observer(view11); embedded->GetRoot()->SetFocus(); ASSERT_TRUE(DoRunLoopWithTimeout()); ASSERT_NE(nullptr, observer.last_gained_focus()); ASSERT_NE(nullptr, observer.last_lost_focus()); EXPECT_EQ(view11->id(), observer.last_lost_focus()->id()); EXPECT_EQ(embedded->GetRoot()->id(), observer.last_gained_focus()->id()); } } namespace { class DestroyedChangedObserver : public ViewObserver { public: DestroyedChangedObserver(ViewManagerTestBase* test, View* view, bool* got_destroy) : test_(test), view_(view), got_destroy_(got_destroy) { view_->AddObserver(this); } ~DestroyedChangedObserver() override { if (view_) view_->RemoveObserver(this); } private: // Overridden from ViewObserver: void OnViewDestroyed(View* view) override { EXPECT_EQ(view, view_); view_->RemoveObserver(this); *got_destroy_ = true; view_ = nullptr; // We should always get OnViewDestroyed() before OnConnectionLost(). EXPECT_FALSE(test_->view_tree_connection_destroyed()); } ViewManagerTestBase* test_; View* view_; bool* got_destroy_; MOJO_DISALLOW_COPY_AND_ASSIGN(DestroyedChangedObserver); }; } // namespace // Verifies deleting a ViewManager sends the right notifications. TEST_F(ViewManagerTest, DeleteViewManager) { View* view = window_manager()->CreateView(); ASSERT_NE(nullptr, view); view->SetVisible(true); window_manager()->GetRoot()->AddChild(view); ViewTreeConnection* connection = Embed(view).connection; ASSERT_TRUE(connection); bool got_destroy = false; DestroyedChangedObserver observer(this, connection->GetRoot(), &got_destroy); delete connection; EXPECT_TRUE(view_tree_connection_destroyed()); EXPECT_TRUE(got_destroy); } // Verifies two Embed()s in the same view trigger deletion of the first // ViewManager. TEST_F(ViewManagerTest, DisconnectTriggersDelete) { View* view = window_manager()->CreateView(); ASSERT_NE(nullptr, view); view->SetVisible(true); window_manager()->GetRoot()->AddChild(view); ViewTreeConnection* connection = Embed(view).connection; EXPECT_NE(connection, window_manager()); View* embedded_view = connection->CreateView(); // Embed again, this should trigger disconnect and deletion of connection. bool got_destroy; DestroyedChangedObserver observer(this, embedded_view, &got_destroy); EXPECT_FALSE(view_tree_connection_destroyed()); Embed(view); EXPECT_TRUE(view_tree_connection_destroyed()); } class ViewRemovedFromParentObserver : public ViewObserver { public: explicit ViewRemovedFromParentObserver(View* view) : view_(view), was_removed_(false) { view_->AddObserver(this); } ~ViewRemovedFromParentObserver() override { view_->RemoveObserver(this); } bool was_removed() const { return was_removed_; } private: // Overridden from ViewObserver: void OnTreeChanged(const TreeChangeParams& params) override { if (params.target == view_ && !params.new_parent) was_removed_ = true; } View* view_; bool was_removed_; MOJO_DISALLOW_COPY_AND_ASSIGN(ViewRemovedFromParentObserver); }; TEST_F(ViewManagerTest, EmbedRemovesChildren) { View* view1 = window_manager()->CreateView(); View* view2 = window_manager()->CreateView(); window_manager()->GetRoot()->AddChild(view1); view1->AddChild(view2); ViewRemovedFromParentObserver observer(view2); view1->Embed(ConnectToApplicationAndGetViewManagerClient()); EXPECT_TRUE(observer.was_removed()); EXPECT_EQ(nullptr, view2->parent()); EXPECT_TRUE(view1->children().empty()); // Run the message loop so the Embed() call above completes. Without this // we may end up reconnecting to the test and rerunning the test, which is // problematic since the other services don't shut down. ASSERT_TRUE(DoRunLoopWithTimeout()); } namespace { class DestroyObserver : public ViewObserver { public: DestroyObserver(ViewManagerTestBase* test, ViewTreeConnection* connection, bool* got_destroy) : test_(test), got_destroy_(got_destroy) { connection->GetRoot()->AddObserver(this); } ~DestroyObserver() override {} private: // Overridden from ViewObserver: void OnViewDestroyed(View* view) override { *got_destroy_ = true; view->RemoveObserver(this); // We should always get OnViewDestroyed() before OnViewManagerDestroyed(). EXPECT_FALSE(test_->view_tree_connection_destroyed()); EXPECT_TRUE(ViewManagerTestBase::QuitRunLoop()); } ViewManagerTestBase* test_; bool* got_destroy_; MOJO_DISALLOW_COPY_AND_ASSIGN(DestroyObserver); }; } // namespace // Verifies deleting a View that is the root of another connection notifies // observers in the right order (OnViewDestroyed() before // OnViewManagerDestroyed()). TEST_F(ViewManagerTest, ViewManagerDestroyedAfterRootObserver) { View* embed_view = window_manager()->CreateView(); window_manager()->GetRoot()->AddChild(embed_view); ViewTreeConnection* embedded_connection = Embed(embed_view).connection; bool got_destroy = false; DestroyObserver observer(this, embedded_connection, &got_destroy); // Delete the view |embedded_connection| is embedded in. This is async, // but will eventually trigger deleting |embedded_connection|. embed_view->Destroy(); EXPECT_TRUE(DoRunLoopWithTimeout()); EXPECT_TRUE(got_destroy); } // Verifies an embed root sees views created beneath it from another // connection. TEST_F(ViewManagerTest, EmbedRootSeesHierarchyChanged) { View* embed_view = window_manager()->CreateView(); window_manager()->GetRoot()->AddChild(embed_view); ViewTreeConnection* vm2 = Embed(embed_view, mojo::ViewTree::ACCESS_POLICY_EMBED_ROOT).connection; View* vm2_v1 = vm2->CreateView(); vm2->GetRoot()->AddChild(vm2_v1); ViewTreeConnection* vm3 = Embed(vm2_v1).connection; View* vm3_v1 = vm3->CreateView(); vm3->GetRoot()->AddChild(vm3_v1); // As |vm2| is an embed root it should get notified about |vm3_v1|. ASSERT_TRUE(WaitForTreeSizeToMatch(vm2_v1, 2)); } TEST_F(ViewManagerTest, EmbedFromEmbedRoot) { View* embed_view = window_manager()->CreateView(); window_manager()->GetRoot()->AddChild(embed_view); // Give the connection embedded at |embed_view| embed root powers. const EmbedResult result1 = Embed(embed_view, mojo::ViewTree::ACCESS_POLICY_EMBED_ROOT); ViewTreeConnection* vm2 = result1.connection; EXPECT_EQ(result1.connection_id, vm2->GetConnectionId()); View* vm2_v1 = vm2->CreateView(); vm2->GetRoot()->AddChild(vm2_v1); const EmbedResult result2 = Embed(vm2_v1); ViewTreeConnection* vm3 = result2.connection; EXPECT_EQ(result2.connection_id, vm3->GetConnectionId()); View* vm3_v1 = vm3->CreateView(); vm3->GetRoot()->AddChild(vm3_v1); // Embed from v3, the callback should not get the connection id as vm3 is not // an embed root. const EmbedResult result3 = Embed(vm3_v1); ASSERT_TRUE(result3.connection); EXPECT_EQ(0, result3.connection_id); // As |vm2| is an embed root it should get notified about |vm3_v1|. ASSERT_TRUE(WaitForTreeSizeToMatch(vm2_v1, 2)); // Embed() from vm2 in vm3_v1. This is allowed as vm2 is an embed root, and // further the callback should see the connection id. ASSERT_EQ(1u, vm2_v1->children().size()); View* vm3_v1_in_vm2 = vm2_v1->children()[0]; const EmbedResult result4 = Embed(vm3_v1_in_vm2); ASSERT_TRUE(result4.connection); EXPECT_EQ(result4.connection_id, result4.connection->GetConnectionId()); } } // namespace mus