// Copyright (c) 2012 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 #include "base/synchronization/waitable_event.h" #include "ppapi/c/pp_var.h" #include "ppapi/c/ppb_var.h" #include "ppapi/c/ppp_messaging.h" #include "ppapi/proxy/ppapi_proxy_test.h" #include "ppapi/shared_impl/var.h" namespace ppapi { namespace proxy { namespace { // This is a poor man's mock of PPP_Messaging using global variables. Eventually // we should generalize making PPAPI interface mocks by using IDL or macro/ // template magic. PP_Instance received_instance; PP_Var received_var; base::WaitableEvent handle_message_called(false, false); void HandleMessage(PP_Instance instance, PP_Var message_data) { received_instance = instance; received_var = message_data; handle_message_called.Signal(); } // Clear all the 'received' values for our mock. Call this before you expect // one of the functions to be invoked. void ResetReceived() { received_instance = 0; received_var.type = PP_VARTYPE_UNDEFINED; received_var.value.as_id = 0; } PPP_Messaging ppp_messaging_mock = { &HandleMessage }; } // namespace class PPP_Messaging_ProxyTest : public TwoWayTest { public: PPP_Messaging_ProxyTest() : TwoWayTest(TwoWayTest::TEST_PPP_INTERFACE) { plugin().RegisterTestInterface(PPP_MESSAGING_INTERFACE, &ppp_messaging_mock); } }; TEST_F(PPP_Messaging_ProxyTest, SendMessages) { // Grab the host-side proxy of ppp_messaging. const PPP_Messaging* ppp_messaging = static_cast( host().host_dispatcher()->GetProxiedInterface( PPP_MESSAGING_INTERFACE)); PP_Instance expected_instance = pp_instance(); PP_Var expected_var = PP_MakeUndefined(); ResetReceived(); ppp_messaging->HandleMessage(expected_instance, expected_var); handle_message_called.Wait(); EXPECT_EQ(expected_instance, received_instance); EXPECT_EQ(expected_var.type, received_var.type); expected_var = PP_MakeNull(); ResetReceived(); ppp_messaging->HandleMessage(expected_instance, expected_var); handle_message_called.Wait(); EXPECT_EQ(expected_instance, received_instance); EXPECT_EQ(expected_var.type, received_var.type); expected_var = PP_MakeBool(PP_TRUE); ResetReceived(); ppp_messaging->HandleMessage(expected_instance, expected_var); handle_message_called.Wait(); EXPECT_EQ(expected_instance, received_instance); EXPECT_EQ(expected_var.type, received_var.type); EXPECT_EQ(expected_var.value.as_bool, received_var.value.as_bool); expected_var = PP_MakeInt32(12345); ResetReceived(); ppp_messaging->HandleMessage(expected_instance, expected_var); handle_message_called.Wait(); EXPECT_EQ(expected_instance, received_instance); EXPECT_EQ(expected_var.type, received_var.type); EXPECT_EQ(expected_var.value.as_int, received_var.value.as_int); expected_var = PP_MakeDouble(3.1415); ResetReceived(); ppp_messaging->HandleMessage(expected_instance, expected_var); handle_message_called.Wait(); EXPECT_EQ(expected_instance, received_instance); EXPECT_EQ(expected_var.type, received_var.type); EXPECT_EQ(expected_var.value.as_double, received_var.value.as_double); const std::string kTestString("Hello world!"); expected_var = StringVar::StringToPPVar(kTestString); ResetReceived(); ppp_messaging->HandleMessage(expected_instance, expected_var); // Now release the var, and the string should go away (because the ref // count should be one). host().var_tracker().ReleaseVar(expected_var); EXPECT_FALSE(StringVar::FromPPVar(expected_var)); handle_message_called.Wait(); EXPECT_EQ(expected_instance, received_instance); EXPECT_EQ(expected_var.type, received_var.type); Var* received_string = plugin().var_tracker().GetVar(received_var); ASSERT_TRUE(received_string); ASSERT_TRUE(received_string->AsStringVar()); EXPECT_EQ(kTestString, received_string->AsStringVar()->value()); // Now release the var, and the string should go away (because the ref // count should be one). plugin().var_tracker().ReleaseVar(received_var); EXPECT_FALSE(StringVar::FromPPVar(received_var)); } } // namespace proxy } // namespace ppapi