// Copyright 2021 The Chromium Embedded Framework 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 #include #include #include #include #include #include "include/base/cef_callback.h" #include "include/wrapper/cef_closure_task.h" #include "tests/ceftests/routing_test_handler.h" #include "tests/ceftests/test_handler.h" #include "tests/gtest/include/gtest/gtest.h" // Set to 1 to enable verbose debugging info logging. #define VERBOSE_DEBUGGING 0 namespace { // Must match CefFrameHostImpl::kInvalidFrameId. const int kInvalidFrameId = -4; // Tracks callback status for a single frame object. struct FrameStatus { // Callbacks in expected order. Not all callbacks are executed in all cases // (see IsExpectedCallback). enum CallbackType { FRAME_CREATED, MAIN_FRAME_INITIAL_ASSIGNED, AFTER_CREATED, FRAME_ATTACHED, MAIN_FRAME_CHANGED_ASSIGNED, LOAD_START, LOAD_END, BEFORE_CLOSE, FRAME_DETACHED, MAIN_FRAME_CHANGED_REMOVED, MAIN_FRAME_FINAL_REMOVED, CALLBACK_LAST = MAIN_FRAME_FINAL_REMOVED, }; static const char* GetCallbackName(int type) { switch (type) { case FRAME_CREATED: return "OnFrameCreated"; case MAIN_FRAME_INITIAL_ASSIGNED: return "OnMainFrameChanged(initial_assigned)"; case AFTER_CREATED: return "OnAfterCreated"; case FRAME_ATTACHED: return "OnFrameAttached"; case MAIN_FRAME_CHANGED_ASSIGNED: return "OnMainFrameChanged(changed_assigned)"; case LOAD_START: return "OnLoadStart"; case LOAD_END: return "OnLoadEnd"; case BEFORE_CLOSE: return "OnBeforeClose"; case FRAME_DETACHED: return "OnFrameDetached"; case MAIN_FRAME_CHANGED_REMOVED: return "OnMainFrameChanged(changed_removed)"; case MAIN_FRAME_FINAL_REMOVED: return "OnMainFrameChanged(final_removed)"; } NOTREACHED(); return "Unknown"; } // Returns true for callbacks that should only execute for main frames. static bool IsMainFrameOnlyCallback(int type) { return (type == MAIN_FRAME_INITIAL_ASSIGNED || type == AFTER_CREATED || type == MAIN_FRAME_CHANGED_ASSIGNED || type == BEFORE_CLOSE || type == MAIN_FRAME_CHANGED_REMOVED || type == MAIN_FRAME_FINAL_REMOVED); } static std::string GetFrameDebugString(CefRefPtr frame) { // Match the logic in frame_util::GetFrameDebugString. // Specific formulation of the frame ID is an implementation detail that // should generally not be relied upon, but this decomposed format makes the // debug logging easier to follow. uint64 frame_id = frame->GetIdentifier(); uint32_t process_id = frame_id >> 32; uint32_t routing_id = std::numeric_limits::max() & frame_id; std::stringstream ss; ss << (frame->IsMain() ? "main" : " sub") << "[" << process_id << "," << routing_id << "]"; return ss.str(); } FrameStatus(CefRefPtr frame) : frame_id_(frame->GetIdentifier()), is_main_(frame->IsMain()), ident_str_(GetFrameDebugString(frame)) {} int64 frame_id() const { return frame_id_; } bool is_main() const { return is_main_; } bool AllQueriesDelivered(std::string* msg = nullptr) const { EXPECT_UI_THREAD(); const int expected_ct = is_temporary_ ? 0 : expected_query_ct_; #if VERBOSE_DEBUGGING if (msg) { std::stringstream ss; ss << ident_str_ << "(expected=" << expected_ct << " delivered=" << delivered_query_ct_ << ")"; *msg += ss.str(); } #endif return delivered_query_ct_ == expected_ct; } int QueriesDeliveredCount() const { EXPECT_UI_THREAD(); return delivered_query_ct_; } bool IsSame(CefRefPtr frame) const { return frame->GetIdentifier() == frame_id(); } bool IsLoaded(std::string* msg = nullptr) const { #if VERBOSE_DEBUGGING if (msg) { std::stringstream ss; ss << ident_str_ << "("; for (int i = 0; i <= LOAD_END; ++i) { ss << GetCallbackName(i) << "=" << got_callback_[i]; if (i < LOAD_END) ss << " "; } ss << ")"; *msg += ss.str(); } #endif return got_callback_[LOAD_END]; } bool IsDetached() const { return got_callback_[FRAME_DETACHED]; } void SetIsFirstMain(bool val) { EXPECT_TRUE(is_main_); is_first_main_ = val; if (is_first_main_) { // Also expect OnAfterCreated expected_query_ct_++; } } void SetIsLastMain(bool val) { EXPECT_TRUE(is_main_); is_last_main_ = val; } void SetIsTemporary(bool val) { EXPECT_FALSE(is_main_); is_temporary_ = val; } bool IsTemporary() const { return is_temporary_; } void SetAdditionalDebugInfo(const std::string& debug_info) { debug_info_ = debug_info; } std::string GetDebugString() const { return debug_info_ + ident_str_; } // The main frame will be reused for same-origin navigations. void ResetMainLoadStatus() { EXPECT_TRUE(is_main_); ResetCallbackStatus(LOAD_START, /*expect_query=*/true); ResetCallbackStatus(LOAD_END, /*expect_query=*/true); } void OnFrameCreated(CefRefPtr browser, CefRefPtr frame) { EXPECT_UI_THREAD(); VerifyBrowser(__FUNCTION__, browser); VerifyFrame(__FUNCTION__, frame); GotCallback(__FUNCTION__, FRAME_CREATED); // Test delivery of messages using a frame that isn't connected yet. // This tests queuing of messages in the browser process and possibly the // renderer process. ExecuteQuery(frame, FRAME_CREATED); } void OnFrameAttached(CefRefPtr browser, CefRefPtr frame) { EXPECT_UI_THREAD(); VerifyBrowser(__FUNCTION__, browser); VerifyFrame(__FUNCTION__, frame); GotCallback(__FUNCTION__, FRAME_ATTACHED); // Test delivery of messages using a frame that just connected. // This tests queuing of messages in the browser process and possibly the // renderer process. ExecuteQuery(frame, FRAME_ATTACHED); } void OnFrameDetached(CefRefPtr browser, CefRefPtr frame) { EXPECT_UI_THREAD(); VerifyBrowser(__FUNCTION__, browser); // A frame is never valid after it's detached. VerifyFrame(__FUNCTION__, frame, /*expect_valid=*/false); GotCallback(__FUNCTION__, FRAME_DETACHED); } void OnMainFrameChanged(CefRefPtr browser, CefRefPtr old_frame, CefRefPtr new_frame) { EXPECT_UI_THREAD(); EXPECT_TRUE(is_main_); VerifyBrowser(__FUNCTION__, browser); bool got_match = false; if (old_frame && new_frame) { EXPECT_NE(old_frame->GetIdentifier(), new_frame->GetIdentifier()); } if (old_frame && IsSame(old_frame)) { got_match = true; // A frame is never valid after it's detached. VerifyFrame(__FUNCTION__, old_frame, /*expect_valid=*/false); GotCallback(__FUNCTION__, new_frame ? MAIN_FRAME_CHANGED_REMOVED : MAIN_FRAME_FINAL_REMOVED); if (is_last_main_) { EXPECT_FALSE(new_frame); } } if (new_frame && IsSame(new_frame)) { got_match = true; VerifyFrame(__FUNCTION__, new_frame); GotCallback(__FUNCTION__, old_frame ? MAIN_FRAME_CHANGED_ASSIGNED : MAIN_FRAME_INITIAL_ASSIGNED); if (is_first_main_) { EXPECT_FALSE(old_frame); } } EXPECT_TRUE(got_match); } void OnAfterCreated(CefRefPtr browser) { EXPECT_UI_THREAD(); VerifyBrowser(__FUNCTION__, browser); auto frame = browser->GetMainFrame(); VerifyFrame(__FUNCTION__, frame); GotCallback(__FUNCTION__, AFTER_CREATED); ExecuteQuery(frame, AFTER_CREATED); } // Called for all existing frames, not just the target frame. // We need to track this status to know if the browser should be valid in // following calls to OnFrameDetached. void OnBeforeClose(CefRefPtr browser) { EXPECT_UI_THREAD(); VerifyBrowser(__FUNCTION__, browser); auto frame = browser->GetMainFrame(); EXPECT_TRUE(frame->IsValid()); got_before_close_ = true; if (IsSame(frame)) { VerifyFrame(__FUNCTION__, frame); GotCallback(__FUNCTION__, BEFORE_CLOSE); } } void OnLoadStart(CefRefPtr browser, CefRefPtr frame) { EXPECT_UI_THREAD(); VerifyBrowser(__FUNCTION__, browser); VerifyFrame(__FUNCTION__, frame); GotCallback(__FUNCTION__, LOAD_START); ExecuteQuery(frame, LOAD_START); } void OnLoadEnd(CefRefPtr browser, CefRefPtr frame) { EXPECT_UI_THREAD(); VerifyBrowser(__FUNCTION__, browser); VerifyFrame(__FUNCTION__, frame); GotCallback(__FUNCTION__, LOAD_END); ExecuteQuery(frame, LOAD_END); } void OnQuery(CefRefPtr browser, CefRefPtr frame, const CefString& request) { EXPECT_UI_THREAD(); const std::string& received_query = request; #if VERBOSE_DEBUGGING LOG(INFO) << GetDebugString() << " recv query " << received_query << " (" << (delivered_query_ct_ + 1) << " of " << expected_query_ct_ << ")"; #endif VerifyBrowser(__FUNCTION__, browser); VerifyFrame(__FUNCTION__, frame); EXPECT_GE(pending_queries_.size(), 1U); const std::string& expected_query = pending_queries_.front(); EXPECT_STREQ(expected_query.c_str(), received_query.c_str()); if (expected_query == received_query) pending_queries_.pop(); EXPECT_LT(delivered_query_ct_, expected_query_ct_); delivered_query_ct_++; } void VerifyTestResults() { EXPECT_UI_THREAD(); // Verify that all expected callbacks have executed. VerifyCallbackStatus(__FUNCTION__, CALLBACK_LAST + 1); if (is_temporary_) { // Should not receive any queries. EXPECT_FALSE(is_main_); EXPECT_EQ(0, delivered_query_ct_); } else { // Verify that all expected messages have been sent and received. EXPECT_EQ(expected_query_ct_, delivered_query_ct_); EXPECT_EQ(0U, pending_queries_.size()); while (!pending_queries_.empty()) { ADD_FAILURE() << "Query sent but not received: " << pending_queries_.front(); pending_queries_.pop(); } } } bool DidGetCallback(int callback) const { return got_callback_[callback]; } private: void GotCallback(const std::string& func, int callback) { #if VERBOSE_DEBUGGING LOG(INFO) << GetDebugString() << " callback " << GetCallbackName(callback); #endif EXPECT_TRUE(IsExpectedCallback(callback)) << func; VerifyCallbackStatus(func, callback); got_callback_[callback].yes(); } bool IsExpectedCallback(int callback) const { if (!is_main_ && IsMainFrameOnlyCallback(callback)) return false; if (is_main_) { if ((callback == MAIN_FRAME_INITIAL_ASSIGNED || callback == AFTER_CREATED) && !is_first_main_) { return false; } if ((callback == BEFORE_CLOSE || callback == MAIN_FRAME_FINAL_REMOVED) && !is_last_main_) { return false; } if (callback == MAIN_FRAME_CHANGED_ASSIGNED && is_first_main_) { return false; } if (callback == MAIN_FRAME_CHANGED_REMOVED && is_last_main_) { return false; } } else if (is_temporary_) { // For cross-process sub-frame navigation a sub-frame is first created in // the parent's renderer process. That sub-frame is then discarded after // the real cross-origin sub-frame is created in a different renderer // process. These discarded sub-frames will get OnFrameCreated/ // OnFrameAttached immediately followed by OnFrameDetached. return callback == FRAME_CREATED || callback == FRAME_ATTACHED || callback == FRAME_DETACHED; } return true; } void VerifyCallbackStatus(const std::string& func, int current_callback) const { EXPECT_UI_THREAD(); for (int i = 0; i <= CALLBACK_LAST; ++i) { if (i < current_callback && IsExpectedCallback(i)) { EXPECT_TRUE(got_callback_[i]) << "inside " << func << " should already have gotten " << GetCallbackName(i); } else { EXPECT_FALSE(got_callback_[i]) << "inside " << func << " should not already have gotten " << GetCallbackName(i); } } } void VerifyBrowser(const std::string& func, CefRefPtr browser) const { const bool expect_valid = !got_before_close_; if (expect_valid) { EXPECT_TRUE(browser->IsValid()) << func; } else { EXPECT_FALSE(browser->IsValid()) << func; } // Note that this might not be the same main frame as us when navigating // cross-origin, because the new main frame object is assigned to the // browser before the CefFrameHandler callbacks related to main frame change // have executed. This started out as an implementation detail but it fits // nicely with the concept that "GetMainFrame() always returns a frame that // can be used", which wouldn't be the case if we returned the old frame // when calling GetMainFrame() from inside OnFrameCreated (for the new // frame), OnFrameDetached (for the old frame) or OnMainFrameChanged. auto main_frame = browser->GetMainFrame(); if (expect_valid) { EXPECT_TRUE(main_frame) << func; EXPECT_TRUE(main_frame->IsValid()) << func; EXPECT_TRUE(main_frame->IsMain()) << func; } else { // GetMainFrame() returns nullptr after OnBeforeClose. EXPECT_FALSE(main_frame) << func; } } void VerifyFrame(const std::string& func, CefRefPtr frame, bool expect_valid = true) const { if (expect_valid) { EXPECT_TRUE(frame->IsValid()) << func; } else { EXPECT_FALSE(frame->IsValid()) << func; } // |frame| should be us. This checks the frame type and ID. EXPECT_STREQ(ident_str_.c_str(), GetFrameDebugString(frame).c_str()) << func; } void ExecuteQuery(CefRefPtr frame, int callback) { EXPECT_UI_THREAD(); const std::string& value = GetCallbackName(callback); std::string js_string; #if VERBOSE_DEBUGGING LOG(INFO) << GetDebugString() << " sent query " << value; js_string += "console.log('" + GetDebugString() + " exec query " + value + "');"; #endif js_string += "window.testQuery({request:'" + value + "'});"; pending_queries_.push(value); // GetURL() will return an empty string for early callbacks, but that // doesn't appear to cause any issues. frame->ExecuteJavaScript(js_string, frame->GetURL(), 0); } // Reset state so we can get the same callback again. void ResetCallbackStatus(int callback, bool expect_query) { EXPECT_UI_THREAD(); EXPECT_TRUE(got_callback_[callback]) << GetCallbackName(callback); got_callback_[callback].reset(); if (expect_query) delivered_query_ct_--; } const int64 frame_id_; const bool is_main_; const std::string ident_str_; bool is_first_main_ = false; bool is_last_main_ = false; bool is_temporary_ = false; std::string debug_info_; bool got_before_close_ = false; TrackCallback got_callback_[CALLBACK_LAST + 1]; std::queue pending_queries_; // Expect OnCreated, OnAttached, OnLoadStart, OnLoadEnd. int expected_query_ct_ = 4; int delivered_query_ct_ = 0; }; const char kOrderMainUrl[] = "http://tests-frame-handler/main-order.html"; class OrderMainTestHandler : public RoutingTestHandler, public CefFrameHandler { public: OrderMainTestHandler(CompletionState* completion_state = nullptr) : RoutingTestHandler(completion_state) {} CefRefPtr GetFrameHandler() override { get_frame_handler_ct_++; return this; } void RunTest() override { // Add the main resource that we will navigate to/from. AddResource(GetMainURL(), GetMainHtml(), "text/html"); // Create the browser. CreateBrowser(GetMainURL()); // Time out the test after a reasonable period of time. SetTestTimeout(); } void OnAfterCreated(CefRefPtr browser) override { EXPECT_UI_THREAD(); RoutingTestHandler::OnAfterCreated(browser); EXPECT_FALSE(got_after_created_); got_after_created_ = true; EXPECT_TRUE(current_main_frame_); current_main_frame_->OnAfterCreated(browser); } void OnLoadStart(CefRefPtr browser, CefRefPtr frame, TransitionType transition_type) override { EXPECT_UI_THREAD(); RoutingTestHandler::OnLoadStart(browser, frame, transition_type); EXPECT_TRUE(current_main_frame_); current_main_frame_->OnLoadStart(browser, frame); } void OnLoadEnd(CefRefPtr browser, CefRefPtr frame, int httpStatusCode) override { EXPECT_UI_THREAD(); RoutingTestHandler::OnLoadEnd(browser, frame, httpStatusCode); EXPECT_TRUE(current_main_frame_); current_main_frame_->OnLoadEnd(browser, frame); MaybeDestroyTest(); } void OnBeforeClose(CefRefPtr browser) override { EXPECT_UI_THREAD(); EXPECT_FALSE(got_before_close_); got_before_close_ = true; EXPECT_TRUE(current_main_frame_); current_main_frame_->OnBeforeClose(browser); RoutingTestHandler::OnBeforeClose(browser); } bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) override { EXPECT_UI_THREAD(); // Messages for the old and new frames are interleaved during cross-origin // navigation. if (pending_main_frame_) { EXPECT_TRUE(IsCrossOrigin()); pending_main_frame_->OnQuery(browser, frame, request); } else { EXPECT_TRUE(current_main_frame_); current_main_frame_->OnQuery(browser, frame, request); } MaybeDestroyTest(); return true; } void OnFrameCreated(CefRefPtr browser, CefRefPtr frame) override { EXPECT_UI_THREAD(); EXPECT_TRUE(frame->IsMain()); EXPECT_FALSE(pending_main_frame_); // First callback referencing the new frame. pending_main_frame_ = new FrameStatus(frame); pending_main_frame_->SetAdditionalDebugInfo(GetAdditionalDebugInfo()); pending_main_frame_->SetIsFirstMain(!got_after_created_); pending_main_frame_->SetIsLastMain(!IsCrossOrigin() || IsLastNavigation()); pending_main_frame_->OnFrameCreated(browser, frame); } void OnFrameAttached(CefRefPtr browser, CefRefPtr frame) override { EXPECT_UI_THREAD(); // May arrive before or after OnMainFrameChanged switches the frame (after // on initial browser creation, before on cross-origin navigation). if (pending_main_frame_) { EXPECT_TRUE(IsCrossOrigin()); pending_main_frame_->OnFrameAttached(browser, frame); } else { EXPECT_TRUE(current_main_frame_); current_main_frame_->OnFrameAttached(browser, frame); } } void OnFrameDetached(CefRefPtr browser, CefRefPtr frame) override { EXPECT_UI_THREAD(); EXPECT_TRUE(current_main_frame_); current_main_frame_->OnFrameDetached(browser, frame); } void OnMainFrameChanged(CefRefPtr browser, CefRefPtr old_frame, CefRefPtr new_frame) override { EXPECT_UI_THREAD(); EXPECT_TRUE(old_frame || new_frame); if (old_frame) { EXPECT_FALSE(old_frame->IsValid()); EXPECT_TRUE(old_frame->IsMain()); // May be nullptr with PopupOrderMainTestHandler. if (current_main_frame_) { // Last callback referencing the old frame. EXPECT_TRUE(current_main_frame_); current_main_frame_->OnMainFrameChanged(browser, old_frame, new_frame); current_main_frame_->VerifyTestResults(); delete current_main_frame_; current_main_frame_ = nullptr; } } if (new_frame) { EXPECT_TRUE(new_frame->IsValid()); EXPECT_TRUE(new_frame->IsMain()); // Always called after OnFrameCreated. See also comments in // OnFrameAttached. EXPECT_TRUE(pending_main_frame_); pending_main_frame_->OnMainFrameChanged(browser, old_frame, new_frame); // The pending frame becomes the current frame. EXPECT_FALSE(current_main_frame_); current_main_frame_ = pending_main_frame_; pending_main_frame_ = nullptr; } if (old_frame && new_frame) { // Main frame changed due to cross-origin navigation. EXPECT_TRUE(IsCrossOrigin()); main_frame_changed_ct_++; } if (old_frame && !new_frame) { // Very last callback. VerifyTestResults(); } } protected: virtual std::string GetMainURL() const { return kOrderMainUrl; } virtual std::string GetMainHtml() const { return "TEST"; } virtual std::string GetNextMainURL() { return std::string(); } virtual bool IsFirstNavigation() const { return true; } virtual bool IsLastNavigation() const { return true; } virtual bool IsCrossOrigin() const { return false; } virtual std::string GetAdditionalDebugInfo() const { return std::string(); } virtual bool AllQueriesDelivered(std::string* msg = nullptr) const { EXPECT_UI_THREAD(); if (pending_main_frame_) return false; return current_main_frame_->AllQueriesDelivered(msg); } virtual bool AllFramesLoaded(std::string* msg = nullptr) const { EXPECT_UI_THREAD(); if (pending_main_frame_) return false; return current_main_frame_->IsLoaded(msg); } void MaybeDestroyTest() { #if VERBOSE_DEBUGGING std::string delivered_msg, loaded_msg; const bool all_queries_delivered = AllQueriesDelivered(&delivered_msg); const bool all_frames_loaded = AllFramesLoaded(&loaded_msg); LOG(INFO) << (current_main_frame_ ? current_main_frame_->GetDebugString() : "") << " AllQueriesDelivered=" << all_queries_delivered << " {" << delivered_msg << "}" << " AllFramesLoaded=" << all_frames_loaded << " {" << loaded_msg << "}"; if (all_queries_delivered && all_frames_loaded) { #else if (AllQueriesDelivered() && AllFramesLoaded()) { #endif const std::string& next_url = GetNextMainURL(); if (!next_url.empty()) { if (!IsCrossOrigin()) { // Reusing the same main frame for same origin nav. current_main_frame_->ResetMainLoadStatus(); } #if VERBOSE_DEBUGGING LOG(INFO) << current_main_frame_->GetDebugString() << "--> Navigating to " << next_url; #endif GetBrowser()->GetMainFrame()->LoadURL(next_url); } else { #if VERBOSE_DEBUGGING LOG(INFO) << "--> Destroy test"; #endif DestroyTest(); } } } virtual void VerifyTestResults() { EXPECT_UI_THREAD(); // OnMainFrameChanged should have cleaned up. EXPECT_FALSE(pending_main_frame_); EXPECT_FALSE(current_main_frame_); EXPECT_TRUE(got_after_created_); EXPECT_TRUE(got_before_close_); // We document GetFrameHandler() as only being called a single time. EXPECT_EQ(1, get_frame_handler_ct_); // Make sure we get the expected number OnMainFrameChanged callbacks for the // main frame. EXPECT_EQ(expected_main_frame_changed_ct_, main_frame_changed_ct_); } // Number of times we expect the main frame to change (e.g. once per // cross-origin navigation). int expected_main_frame_changed_ct_ = 0; bool got_after_created_ = false; bool got_before_close_ = false; private: int get_frame_handler_ct_ = 0; int main_frame_changed_ct_ = 0; FrameStatus* current_main_frame_ = nullptr; FrameStatus* pending_main_frame_ = nullptr; IMPLEMENT_REFCOUNTING(OrderMainTestHandler); }; } // namespace // Test the ordering and behavior of main frame callbacks. TEST(FrameHandlerTest, OrderMain) { CefRefPtr handler = new OrderMainTestHandler(); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } namespace { const char kOrderMainUrlPrefix[] = "http://tests-frame-handler"; class NavigateOrderMainTestHandler : public OrderMainTestHandler { public: NavigateOrderMainTestHandler(bool cross_origin, int additional_nav_ct = 2) : cross_origin_(cross_origin), additional_nav_ct_(additional_nav_ct) { // Once for each cross-origin LoadURL call. expected_main_frame_changed_ct_ = cross_origin ? additional_nav_ct_ : 0; } void RunTest() override { // Resources for the 2nd+ navigation. for (int i = 1; i <= additional_nav_ct_; i++) { AddResource(GetURLForNav(i), GetMainHtmlForNav(i), "text/html"); } OrderMainTestHandler::RunTest(); } protected: // Loaded when the browser is created. std::string GetMainURL() const override { return GetURLForNav(0); } std::string GetMainHtml() const override { return GetMainHtmlForNav(0); } std::string GetNextMainURL() override { if (current_nav_ct_ == additional_nav_ct_) { // No more navigations. return std::string(); } return GetURLForNav(++current_nav_ct_); } bool IsFirstNavigation() const override { return current_nav_ct_ == 0U; } bool IsLastNavigation() const override { return current_nav_ct_ == additional_nav_ct_; } bool IsCrossOrigin() const override { return cross_origin_; } int additional_nav_ct() const { return additional_nav_ct_; } void VerifyTestResults() override { OrderMainTestHandler::VerifyTestResults(); EXPECT_TRUE(IsLastNavigation()); } virtual std::string GetMainHtmlForNav(int nav) const { return "TEST " + std::to_string(nav) + ""; } std::string GetURLForNav(int nav, const std::string& suffix = "") const { std::stringstream ss; if (cross_origin_) { ss << kOrderMainUrlPrefix << nav << "/cross-origin" << suffix << ".html"; } else { ss << kOrderMainUrlPrefix << "/" << nav << "same-origin" << suffix << ".html"; } return ss.str(); } private: const bool cross_origin_; const int additional_nav_ct_; int current_nav_ct_ = 0; }; } // namespace // Main frame navigating to different URLs with the same origin. TEST(FrameHandlerTest, OrderMainNavSameOrigin) { CefRefPtr handler = new NavigateOrderMainTestHandler(/*cross_origin=*/false); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } // Main frame navigating cross-origin. TEST(FrameHandlerTest, OrderMainNavCrossOrigin) { CefRefPtr handler = new NavigateOrderMainTestHandler(/*cross_origin=*/true); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } namespace { // Tracks sub-frames for a single main frame load. class FrameStatusMap { public: explicit FrameStatusMap(size_t expected_frame_ct) : expected_frame_ct_(expected_frame_ct) {} ~FrameStatusMap() { EXPECT_TRUE(frame_map_.empty()); } bool Contains(CefRefPtr frame) const { return frame_map_.find(frame->GetIdentifier()) != frame_map_.end(); } FrameStatus* CreateFrameStatus(CefRefPtr frame) { EXPECT_UI_THREAD(); EXPECT_LT(size(), expected_frame_ct_); const int64 id = frame->GetIdentifier(); EXPECT_NE(kInvalidFrameId, id); EXPECT_EQ(frame_map_.find(id), frame_map_.end()); FrameStatus* status = new FrameStatus(frame); frame_map_.insert(std::make_pair(id, status)); return status; } FrameStatus* GetFrameStatus(CefRefPtr frame) const { EXPECT_UI_THREAD(); const int64 id = frame->GetIdentifier(); EXPECT_NE(kInvalidFrameId, id); Map::const_iterator it = frame_map_.find(id); EXPECT_NE(it, frame_map_.end()); return it->second; } void RemoveFrameStatus(CefRefPtr frame) { const int64 id = frame->GetIdentifier(); Map::iterator it = frame_map_.find(id); EXPECT_NE(it, frame_map_.end()); frame_map_.erase(it); } void OnBeforeClose(CefRefPtr browser) { Map::const_iterator it = frame_map_.begin(); for (; it != frame_map_.end(); ++it) { it->second->OnBeforeClose(browser); } } bool AllQueriesDelivered(std::string* msg = nullptr) const { if (size() != expected_frame_ct_) { #if VERBOSE_DEBUGGING if (msg) { std::stringstream ss; ss << " SUB COUNT MISMATCH! size=" << size() << " expected=" << expected_frame_ct_; *msg += ss.str(); } #endif return false; } Map::const_iterator it = frame_map_.begin(); for (; it != frame_map_.end(); ++it) { if (!it->second->AllQueriesDelivered(msg)) { #if VERBOSE_DEBUGGING if (msg) { *msg += " " + it->second->GetDebugString() + " PENDING"; } #endif return false; } } return true; } bool AllFramesLoaded(std::string* msg = nullptr) const { if (size() != expected_frame_ct_) { #if VERBOSE_DEBUGGING if (msg) { std::stringstream ss; ss << " SUB COUNT MISMATCH! size=" << size() << " expected=" << expected_frame_ct_; *msg += ss.str(); } #endif return false; } Map::const_iterator it = frame_map_.begin(); for (; it != frame_map_.end(); ++it) { if (!it->second->IsTemporary() && !it->second->IsLoaded(msg)) { #if VERBOSE_DEBUGGING if (msg) { *msg += " " + it->second->GetDebugString() + " PENDING"; } #endif return false; } } return true; } bool AllFramesDetached() const { if (size() != expected_frame_ct_) return false; Map::const_iterator it = frame_map_.begin(); for (; it != frame_map_.end(); ++it) { if (!it->second->IsDetached()) return false; } return true; } void VerifyAndClearTestResults() { EXPECT_EQ(expected_frame_ct_, size()); Map::const_iterator it = frame_map_.begin(); for (; it != frame_map_.end(); ++it) { it->second->VerifyTestResults(); delete it->second; } frame_map_.clear(); } size_t size() const { return frame_map_.size(); } private: using Map = std::map; Map frame_map_; // The expected number of sub-frames. const size_t expected_frame_ct_; }; class OrderSubTestHandler : public NavigateOrderMainTestHandler { public: enum TestMode { // Two sub-frames at the same level. SUBFRAME_PEERS, // One sub-frame inside the other. SUBFRAME_CHILDREN, }; OrderSubTestHandler(bool cross_origin, int additional_nav_ct, TestMode mode, size_t expected_frame_ct = 2U) : NavigateOrderMainTestHandler(cross_origin, additional_nav_ct), test_mode_(mode), expected_frame_ct_(expected_frame_ct) {} ~OrderSubTestHandler() override { EXPECT_TRUE(frame_maps_.empty()); } void RunTest() override { for (int i = 0; i <= additional_nav_ct(); i++) { AddResource(GetSubURL1ForNav(i), GetSubFrameHtml1ForNav(i), "text/html"); AddResource(GetSubURL2ForNav(i), GetSubFrameHtml2ForNav(i), "text/html"); } NavigateOrderMainTestHandler::RunTest(); } void OnBeforeClose(CefRefPtr browser) override { NavigateOrderMainTestHandler::OnBeforeClose(browser); for (auto& map : frame_maps_) { // Also need to notify any sub-frames. map->OnBeforeClose(browser); } } bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) override { if (!frame->IsMain()) { auto map = GetFrameMap(frame); auto status = map->GetFrameStatus(frame); status->OnQuery(browser, frame, request); if (status->AllQueriesDelivered()) { MaybeDestroyTest(); } return true; } return NavigateOrderMainTestHandler::OnQuery(browser, frame, query_id, request, persistent, callback); } void OnFrameCreated(CefRefPtr browser, CefRefPtr frame) override { if (!frame->IsMain()) { // Potentially the first notification of a new sub-frame after navigation. auto map = GetOrCreateFrameMap(frame); auto status = map->CreateFrameStatus(frame); status->SetAdditionalDebugInfo(GetAdditionalDebugInfo()); status->OnFrameCreated(browser, frame); return; } NavigateOrderMainTestHandler::OnFrameCreated(browser, frame); } void OnFrameAttached(CefRefPtr browser, CefRefPtr frame) override { if (!frame->IsMain()) { auto map = GetFrameMap(frame); auto status = map->GetFrameStatus(frame); status->OnFrameAttached(browser, frame); return; } NavigateOrderMainTestHandler::OnFrameAttached(browser, frame); } void OnFrameDetached(CefRefPtr browser, CefRefPtr frame) override { if (!frame->IsMain()) { // Potentially the last notification for an old sub-frame after // navigation. auto map = GetFrameMap(frame); auto status = map->GetFrameStatus(frame); status->OnFrameDetached(browser, frame); if (map->AllFramesDetached()) { // Verify results from the previous navigation. VerifyAndClearSubFrameTestResults(map); } return; } NavigateOrderMainTestHandler::OnFrameDetached(browser, frame); } void OnLoadStart(CefRefPtr browser, CefRefPtr frame, TransitionType transition_type) override { if (!frame->IsMain()) { auto map = GetFrameMap(frame); auto status = map->GetFrameStatus(frame); status->OnLoadStart(browser, frame); return; } NavigateOrderMainTestHandler::OnLoadStart(browser, frame, transition_type); } void OnLoadEnd(CefRefPtr browser, CefRefPtr frame, int httpStatusCode) override { if (!frame->IsMain()) { auto map = GetFrameMap(frame); auto status = map->GetFrameStatus(frame); status->OnLoadEnd(browser, frame); return; } NavigateOrderMainTestHandler::OnLoadEnd(browser, frame, httpStatusCode); } protected: virtual std::string GetSubURL1ForNav(int nav) const { return GetURLForNav(nav, "sub1"); } std::string GetSubFrameHtml1ForNav(int nav) const { if (test_mode_ == SUBFRAME_CHILDREN) { return ""; } else if (test_mode_ == SUBFRAME_CHILDREN) { return ""; } NOTREACHED(); return std::string(); } bool AllQueriesDelivered(std::string* msg = nullptr) const override { if (!NavigateOrderMainTestHandler::AllQueriesDelivered(msg)) { #if VERBOSE_DEBUGGING if (msg) *msg += " MAIN PENDING"; #endif return false; } if (frame_maps_.empty()) { #if VERBOSE_DEBUGGING if (msg) *msg += " NO SUBS"; #endif return false; } if (!frame_maps_.back()->AllQueriesDelivered(msg)) { #if VERBOSE_DEBUGGING if (msg) *msg += " SUBS PENDING"; #endif return false; } return true; } bool AllFramesLoaded(std::string* msg = nullptr) const override { if (!NavigateOrderMainTestHandler::AllFramesLoaded(msg)) { #if VERBOSE_DEBUGGING if (msg) *msg += " MAIN PENDING"; #endif return false; } if (frame_maps_.empty()) { #if VERBOSE_DEBUGGING if (msg) *msg += " NO SUBS"; #endif return false; } if (!frame_maps_.back()->AllFramesLoaded(msg)) { #if VERBOSE_DEBUGGING if (msg) *msg += " SUBS PENDING"; #endif return false; } return true; } void VerifyTestResults() override { NavigateOrderMainTestHandler::VerifyTestResults(); EXPECT_TRUE(frame_maps_.empty()); } size_t expected_frame_ct() const { return expected_frame_ct_; } FrameStatusMap* GetFrameMap(CefRefPtr frame) const { for (auto& map : frame_maps_) { if (map->Contains(frame)) return map.get(); } return nullptr; } private: // All sub-frame objects should already have received all callbacks. void VerifyAndClearSubFrameTestResults(FrameStatusMap* map) { map->VerifyAndClearTestResults(); bool found = false; FrameStatusMapVector::iterator it = frame_maps_.begin(); for (; it != frame_maps_.end(); ++it) { if ((*it).get() == map) { frame_maps_.erase(it); found = true; break; } } EXPECT_TRUE(found); } FrameStatusMap* GetOrCreateFrameMap(CefRefPtr frame) { if (auto map = GetFrameMap(frame)) return map; if (frame_maps_.empty() || frame_maps_.back()->size() >= expected_frame_ct_) { // Start a new frame map. auto map = std::make_unique(expected_frame_ct_); frame_maps_.push_back(std::move(map)); } return frame_maps_.back().get(); } const TestMode test_mode_; // The expected number of sub-frames. const size_t expected_frame_ct_; using FrameStatusMapVector = std::vector>; FrameStatusMapVector frame_maps_; }; } // namespace // Main frame loads two sub-frames that are peers in the same origin. TEST(FrameHandlerTest, OrderSubSameOriginPeers) { CefRefPtr handler = new OrderSubTestHandler(/*cross_origin=*/false, /*additional_nav_ct=*/0, OrderSubTestHandler::SUBFRAME_PEERS); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } // Main frame loads two sub-frames that are peers in the same origin, then // navigates in the same origin and does it again twice. TEST(FrameHandlerTest, OrderSubSameOriginPeersNavSameOrigin) { CefRefPtr handler = new OrderSubTestHandler(/*cross_origin=*/false, /*additional_nav_ct=*/2, OrderSubTestHandler::SUBFRAME_PEERS); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } // Main frame loads two sub-frames that are peers in the same origin, then // navigates cross-origin and does it again twice. TEST(FrameHandlerTest, OrderSubSameOriginPeersNavCrossOrigin) { CefRefPtr handler = new OrderSubTestHandler(/*cross_origin=*/true, /*additional_nav_ct=*/2, OrderSubTestHandler::SUBFRAME_PEERS); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } // Main frame loads a sub-frame that then has it's own sub-frame. TEST(FrameHandlerTest, OrderSubSameOriginChildren) { CefRefPtr handler = new OrderSubTestHandler(/*cross_origin=*/false, /*additional_nav_ct=*/0, OrderSubTestHandler::SUBFRAME_CHILDREN); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } // Main frame loads a sub-frame that then has it's own sub-frame, then navigates // in the same origin and does it again twice. TEST(FrameHandlerTest, OrderSubSameOriginChildrenNavSameOrigin) { CefRefPtr handler = new OrderSubTestHandler(/*cross_origin=*/false, /*additional_nav_ct=*/2, OrderSubTestHandler::SUBFRAME_CHILDREN); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } // Main frame loads a sub-frame that then has it's own sub-frame, then navigates // cross-origin and does it again twice. TEST(FrameHandlerTest, OrderSubSameOriginChildrenNavCrossOrigin) { CefRefPtr handler = new OrderSubTestHandler(/*cross_origin=*/true, /*additional_nav_ct=*/2, OrderSubTestHandler::SUBFRAME_CHILDREN); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } namespace { // Like above, but also navigating the sub-frames cross-origin. class CrossOriginOrderSubTestHandler : public OrderSubTestHandler { public: CrossOriginOrderSubTestHandler(int additional_nav_ct, TestMode mode) : OrderSubTestHandler(/*cross_origin=*/true, additional_nav_ct, mode, /*expected_frame_ct=*/4U) {} void OnFrameDetached(CefRefPtr browser, CefRefPtr frame) override { // A sub-frame is first created in the parent's renderer process. That // sub-frame is then discarded after the real cross-origin sub-frame is // created in a different renderer process. These discarded sub-frames will // get OnFrameCreated/OnFrameAttached immediately followed by // OnFrameDetached. if (!frame->IsMain()) { auto map = GetFrameMap(frame); auto status = map->GetFrameStatus(frame); if (status && !status->DidGetCallback(FrameStatus::LOAD_START)) { status->SetIsTemporary(true); temp_frame_detached_ct_++; } } OrderSubTestHandler::OnFrameDetached(browser, frame); } protected: std::string GetSubURL1ForNav(int nav) const override { std::stringstream ss; ss << kOrderMainUrlPrefix << nav << "-sub1/sub-cross-origin.html"; return ss.str(); } std::string GetSubURL2ForNav(int nav) const override { std::stringstream ss; ss << kOrderMainUrlPrefix << nav << "-sub2/sub-cross-origin.html"; return ss.str(); } void VerifyTestResults() override { OrderSubTestHandler::VerifyTestResults(); const size_t expected_temp_ct = (expected_frame_ct() / 2U) * (1U + additional_nav_ct()); EXPECT_EQ(expected_temp_ct, temp_frame_detached_ct_); } private: size_t temp_frame_detached_ct_ = 0U; }; } // namespace // Main frame loads two sub-frames that are peers in a different origin. TEST(FrameHandlerTest, OrderSubCrossOriginPeers) { CefRefPtr handler = new CrossOriginOrderSubTestHandler( /*additional_nav_ct=*/0, CrossOriginOrderSubTestHandler::SUBFRAME_PEERS); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } // Main frame loads two sub-frames that are peers in a different origin, then // navigates cross-origin and does it again twice. TEST(FrameHandlerTest, OrderSubCrossOriginPeersNavCrossOrigin) { CefRefPtr handler = new CrossOriginOrderSubTestHandler( /*additional_nav_ct=*/2, CrossOriginOrderSubTestHandler::SUBFRAME_PEERS); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } // Main frame loads a sub-frame in a different origin that then has it's own // sub-frame in a different origin. TEST(FrameHandlerTest, OrderSubCrossOriginChildren) { CefRefPtr handler = new CrossOriginOrderSubTestHandler( /*additional_nav_ct=*/0, CrossOriginOrderSubTestHandler::SUBFRAME_CHILDREN); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } // Main frame loads a sub-frame in a different origin that then has it's own // sub-frame in a different origin, then navigates cross-origin and does it // again twice. TEST(FrameHandlerTest, OrderSubCrossOriginChildrenNavCrossOrigin) { CefRefPtr handler = new CrossOriginOrderSubTestHandler( /*additional_nav_ct=*/2, CrossOriginOrderSubTestHandler::SUBFRAME_CHILDREN); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } namespace { const char kOrderMainCrossUrl[] = "http://tests-frame-handler-cross/main-order.html"; // Will be assigned as popup handler via // ParentOrderMainTestHandler::OnBeforePopup. class PopupOrderMainTestHandler : public OrderMainTestHandler { public: PopupOrderMainTestHandler(CompletionState* completion_state, bool cross_origin) : OrderMainTestHandler(completion_state), cross_origin_(cross_origin) { expected_main_frame_changed_ct_ = cross_origin_ ? 1 : 0; } void SetupTest() override { // Proceed to RunTest(). SetupComplete(); } void RunTest() override { // Add the main resource that we will navigate to/from. AddResource(GetMainURL(), GetMainHtml(), "text/html"); // Time out the test after a reasonable period of time. SetTestTimeout(); } void OnFrameCreated(CefRefPtr browser, CefRefPtr frame) override { EXPECT_UI_THREAD(); EXPECT_TRUE(frame->IsMain()); if (cross_origin_ && !temp_main_frame_) { // The first main frame in the popup will be created in the parent // process. EXPECT_FALSE(got_temp_created_); got_temp_created_.yes(); temp_main_frame_ = new FrameStatus(frame); temp_main_frame_->SetAdditionalDebugInfo(GetAdditionalDebugInfo() + "temp "); temp_main_frame_->SetIsFirstMain(true); temp_main_frame_->OnFrameCreated(browser, frame); return; } OrderMainTestHandler::OnFrameCreated(browser, frame); } void OnAfterCreated(CefRefPtr browser) override { if (temp_main_frame_ && temp_main_frame_->IsSame(browser->GetMainFrame())) { EXPECT_FALSE(got_after_created_); got_after_created_ = true; EXPECT_TRUE(cross_origin_); temp_main_frame_->OnAfterCreated(browser); // Intentionally skipping the immediate parent class method. RoutingTestHandler::OnAfterCreated(browser); return; } OrderMainTestHandler::OnAfterCreated(browser); } void OnFrameAttached(CefRefPtr browser, CefRefPtr frame) override { if (temp_main_frame_ && temp_main_frame_->IsSame(frame)) { EXPECT_TRUE(cross_origin_); temp_main_frame_->OnFrameAttached(browser, frame); return; } OrderMainTestHandler::OnFrameAttached(browser, frame); } void OnMainFrameChanged(CefRefPtr browser, CefRefPtr old_frame, CefRefPtr new_frame) override { if (temp_main_frame_ && temp_main_frame_->IsSame(new_frame)) { EXPECT_TRUE(cross_origin_); temp_main_frame_->OnMainFrameChanged(browser, old_frame, new_frame); return; } OrderMainTestHandler::OnMainFrameChanged(browser, old_frame, new_frame); } void OnFrameDetached(CefRefPtr browser, CefRefPtr frame) override { if (temp_main_frame_ && temp_main_frame_->IsSame(frame)) { EXPECT_TRUE(cross_origin_); EXPECT_FALSE(got_temp_destroyed_); got_temp_destroyed_.yes(); #if VERBOSE_DEBUGGING LOG(INFO) << temp_main_frame_->GetDebugString() << " callback OnFrameDetached(discarded)"; #endif // All of the initial main frame callbacks go to the proxy. EXPECT_TRUE(temp_main_frame_->DidGetCallback(FrameStatus::AFTER_CREATED)); EXPECT_TRUE(temp_main_frame_->DidGetCallback( FrameStatus::MAIN_FRAME_INITIAL_ASSIGNED)); EXPECT_TRUE(!temp_main_frame_->DidGetCallback(FrameStatus::LOAD_START)); EXPECT_TRUE(temp_main_frame_->DidGetCallback(FrameStatus::FRAME_CREATED)); EXPECT_TRUE( temp_main_frame_->DidGetCallback(FrameStatus::FRAME_ATTACHED)); // Should receive queries for OnFrameCreated, OnAfterCreated, // OnFrameAttached. EXPECT_EQ(temp_main_frame_->QueriesDeliveredCount(), 3); delete temp_main_frame_; temp_main_frame_ = nullptr; return; } OrderMainTestHandler::OnFrameDetached(browser, frame); } bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) override { if (temp_main_frame_ && temp_main_frame_->IsSame(frame)) { EXPECT_TRUE(cross_origin_); temp_main_frame_->OnQuery(browser, frame, request); return true; } return OrderMainTestHandler::OnQuery(browser, frame, query_id, request, persistent, callback); } std::string GetMainURL() const override { return cross_origin_ ? kOrderMainCrossUrl : kOrderMainUrl; } protected: bool IsCrossOrigin() const override { return cross_origin_; } void VerifyTestResults() override { OrderMainTestHandler::VerifyTestResults(); if (cross_origin_) { EXPECT_TRUE(got_temp_created_); EXPECT_TRUE(got_temp_destroyed_); } else { EXPECT_FALSE(got_temp_created_); EXPECT_FALSE(got_temp_destroyed_); } EXPECT_FALSE(temp_main_frame_); } private: std::string GetAdditionalDebugInfo() const override { return " popup: "; } const bool cross_origin_; TrackCallback got_temp_created_; TrackCallback got_temp_destroyed_; FrameStatus* temp_main_frame_ = nullptr; }; class ParentOrderMainTestHandler : public OrderMainTestHandler { public: ParentOrderMainTestHandler(CompletionState* completion_state, CefRefPtr popup_handler) : OrderMainTestHandler(completion_state), popup_handler_(popup_handler) {} bool OnBeforePopup( CefRefPtr browser, CefRefPtr frame, const CefString& target_url, const CefString& target_frame_name, CefLifeSpanHandler::WindowOpenDisposition target_disposition, bool user_gesture, const CefPopupFeatures& popupFeatures, CefWindowInfo& windowInfo, CefRefPtr& client, CefBrowserSettings& settings, CefRefPtr& extra_info, bool* no_javascript_access) override { // Intentionally not calling the parent class method. EXPECT_FALSE(got_on_before_popup_); got_on_before_popup_.yes(); client = popup_handler_; popup_handler_ = nullptr; // Proceed with popup creation. return false; } void OnAfterCreated(CefRefPtr browser) override { OrderMainTestHandler::OnAfterCreated(browser); // Create the popup ASAP. browser->GetMainFrame()->ExecuteJavaScript( "window.open('" + popup_handler_->GetMainURL() + "');", CefString(), 0); } void SetupTest() override { // Proceed to RunTest(). SetupComplete(); } void DestroyTest() override { EXPECT_TRUE(got_on_before_popup_); OrderMainTestHandler::DestroyTest(); } private: std::string GetAdditionalDebugInfo() const override { return "parent: "; } CefRefPtr popup_handler_; TrackCallback got_on_before_popup_; }; void RunOrderMainPopupTest(bool cross_origin) { TestHandler::CompletionState completion_state(/*count=*/2); TestHandler::Collection collection(&completion_state); CefRefPtr popup_handler = new PopupOrderMainTestHandler(&completion_state, cross_origin); CefRefPtr parent_handler = new ParentOrderMainTestHandler(&completion_state, popup_handler); collection.AddTestHandler(popup_handler.get()); collection.AddTestHandler(parent_handler.get()); collection.ExecuteTests(); ReleaseAndWaitForDestructor(parent_handler); ReleaseAndWaitForDestructor(popup_handler); } } // namespace // Test the ordering and behavior of main frame callbacks in a popup with the // same origin. TEST(FrameHandlerTest, OrderMainPopupSameOrigin) { RunOrderMainPopupTest(/*cross_origin=*/false); } // Test the ordering and behavior of main frame callbacks in a popup with a // different origin. TEST(FrameHandlerTest, OrderMainPopupCrossOrigin) { RunOrderMainPopupTest(/*cross_origin=*/true); }