// Copyright 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "content/browser/frame_host/frame_tree.h" #include "base/run_loop.h" #include "base/strings/string_number_conversions.h" #include "content/browser/frame_host/navigator_impl.h" #include "content/browser/frame_host/render_frame_host_factory.h" #include "content/browser/frame_host/render_frame_host_impl.h" #include "content/browser/renderer_host/render_view_host_impl.h" #include "content/browser/web_contents/web_contents_impl.h" #include "content/public/test/mock_render_process_host.h" #include "content/public/test/test_browser_context.h" #include "content/public/test/test_browser_thread_bundle.h" #include "content/public/test/test_renderer_host.h" #include "testing/gtest/include/gtest/gtest.h" namespace content { namespace { class FrameTreeTest : public RenderViewHostTestHarness { protected: // Prints a FrameTree, for easy assertions of the tree hierarchy. std::string GetTreeState(FrameTree* frame_tree) { std::string result; AppendTreeNodeState(frame_tree->root(), &result); return result; } private: void AppendTreeNodeState(FrameTreeNode* node, std::string* result) { result->append(base::Int64ToString(node->frame_id())); if (!node->frame_name().empty()) { result->append(" '"); result->append(node->frame_name()); result->append("'"); } result->append(": ["); const char* separator = ""; for (size_t i = 0; i < node->child_count(); i++) { result->append(separator); AppendTreeNodeState(node->child_at(i), result); separator = ", "; } result->append("]"); } }; // Test that swapping the main frame resets the renderer-assigned frame id. // - On creation, frame id is unassigned. // - After a swap, frame id is unassigned. TEST_F(FrameTreeTest, FirstNavigationAfterSwap) { FrameTree frame_tree(new NavigatorImpl(NULL, NULL), NULL, NULL, NULL, NULL); EXPECT_TRUE(frame_tree.IsFirstNavigationAfterSwap()); EXPECT_EQ(FrameTreeNode::kInvalidFrameId, frame_tree.root()->frame_id()); frame_tree.OnFirstNavigationAfterSwap(1); EXPECT_FALSE(frame_tree.IsFirstNavigationAfterSwap()); EXPECT_EQ(1, frame_tree.root()->frame_id()); frame_tree.ResetForMainFrameSwap(); EXPECT_TRUE(frame_tree.IsFirstNavigationAfterSwap()); EXPECT_EQ(FrameTreeNode::kInvalidFrameId, frame_tree.root()->frame_id()); } // Exercise tree manipulation routines. // - Add a series of nodes and verify tree structure. // - Remove a series of nodes and verify tree structure. TEST_F(FrameTreeTest, Shape) { // Use the FrameTree of the WebContents so that it has all the delegates it // needs. We may want to consider a test version of this. FrameTree* frame_tree = static_cast(web_contents())->GetFrameTree(); std::string no_children_node("no children node"); std::string deep_subtree("node with deep subtree"); frame_tree->OnFirstNavigationAfterSwap(5); ASSERT_EQ("5: []", GetTreeState(frame_tree)); // Simulate attaching a series of frames to build the frame tree. frame_tree->AddFrame(process()->GetNextRoutingID(), 5, 14, std::string()); frame_tree->AddFrame(process()->GetNextRoutingID(), 5, 15, std::string()); frame_tree->AddFrame(process()->GetNextRoutingID(), 5, 16, std::string()); frame_tree->AddFrame(process()->GetNextRoutingID(), 14, 244, std::string()); frame_tree->AddFrame(process()->GetNextRoutingID(), 15, 255, no_children_node); frame_tree->AddFrame(process()->GetNextRoutingID(), 14, 245, std::string()); ASSERT_EQ("5: [14: [244: [], 245: []], " "15: [255 'no children node': []], " "16: []]", GetTreeState(frame_tree)); frame_tree->AddFrame(process()->GetNextRoutingID(), 16, 264, std::string()); frame_tree->AddFrame(process()->GetNextRoutingID(), 16, 265, std::string()); frame_tree->AddFrame(process()->GetNextRoutingID(), 16, 266, std::string()); frame_tree->AddFrame(process()->GetNextRoutingID(), 16, 267, deep_subtree); frame_tree->AddFrame(process()->GetNextRoutingID(), 16, 268, std::string()); frame_tree->AddFrame(process()->GetNextRoutingID(), 267, 365, std::string()); frame_tree->AddFrame(process()->GetNextRoutingID(), 365, 455, std::string()); frame_tree->AddFrame(process()->GetNextRoutingID(), 455, 555, std::string()); frame_tree->AddFrame(process()->GetNextRoutingID(), 555, 655, std::string()); // Now that's it's fully built, verify the tree structure is as expected. ASSERT_EQ("5: [14: [244: [], 245: []], " "15: [255 'no children node': []], " "16: [264: [], 265: [], 266: [], " "267 'node with deep subtree': " "[365: [455: [555: [655: []]]]], 268: []]]", GetTreeState(frame_tree)); // Test removing of nodes. Clear the frame removal listener so we can pass a // NULL RFH here. frame_tree->ClearFrameRemoveListenerForTesting(); frame_tree->RemoveFrame(NULL, 555, 655); ASSERT_EQ("5: [14: [244: [], 245: []], " "15: [255 'no children node': []], " "16: [264: [], 265: [], 266: [], " "267 'node with deep subtree': " "[365: [455: [555: []]]], 268: []]]", GetTreeState(frame_tree)); frame_tree->RemoveFrame(NULL, 16, 265); ASSERT_EQ("5: [14: [244: [], 245: []], " "15: [255 'no children node': []], " "16: [264: [], 266: [], " "267 'node with deep subtree': " "[365: [455: [555: []]]], 268: []]]", GetTreeState(frame_tree)); frame_tree->RemoveFrame(NULL, 5, 15); ASSERT_EQ("5: [14: [244: [], 245: []], " "16: [264: [], 266: [], " "267 'node with deep subtree': " "[365: [455: [555: []]]], 268: []]]", GetTreeState(frame_tree)); } } // namespace } // namespace content