// 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 "media/midi/midi_manager.h" #include #include "base/bind.h" #include "base/logging.h" #include "base/memory/scoped_ptr.h" #include "base/memory/scoped_vector.h" #include "base/message_loop/message_loop.h" #include "base/run_loop.h" #include "testing/gtest/include/gtest/gtest.h" namespace media { namespace { class FakeMidiManager : public MidiManager { public: FakeMidiManager() : start_initialization_is_called_(false) {} ~FakeMidiManager() override {} // MidiManager implementation. void StartInitialization() override { start_initialization_is_called_ = true; } void DispatchSendMidiData(MidiManagerClient* client, uint32 port_index, const std::vector& data, double timestamp) override {} // Utility functions for testing. void CallCompleteInitialization(MidiResult result) { CompleteInitialization(result); } size_t GetClientCount() const { return clients_size_for_testing(); } size_t GetPendingClientCount() const { return pending_clients_size_for_testing(); } bool start_initialization_is_called_; private: DISALLOW_COPY_AND_ASSIGN(FakeMidiManager); }; class FakeMidiManagerClient : public MidiManagerClient { public: FakeMidiManagerClient() : result_(MIDI_NOT_SUPPORTED), wait_for_result_(true) {} ~FakeMidiManagerClient() override {} // MidiManagerClient implementation. void AddInputPort(const MidiPortInfo& info) override {} void AddOutputPort(const MidiPortInfo& info) override {} void SetInputPortState(uint32 port_index, MidiPortState state) override {} void SetOutputPortState(uint32 port_index, MidiPortState state) override {} void CompleteStartSession(MidiResult result) override { EXPECT_TRUE(wait_for_result_); result_ = result; wait_for_result_ = false; } void ReceiveMidiData(uint32 port_index, const uint8* data, size_t size, double timestamp) override {} void AccumulateMidiBytesSent(size_t size) override {} MidiResult result() const { return result_; } MidiResult WaitForResult() { while (wait_for_result_) { base::RunLoop run_loop; run_loop.RunUntilIdle(); } return result(); } private: MidiResult result_; bool wait_for_result_; DISALLOW_COPY_AND_ASSIGN(FakeMidiManagerClient); }; class MidiManagerTest : public ::testing::Test { public: MidiManagerTest() : manager_(new FakeMidiManager), message_loop_(new base::MessageLoop) {} ~MidiManagerTest() override {} protected: void StartTheFirstSession(FakeMidiManagerClient* client) { EXPECT_FALSE(manager_->start_initialization_is_called_); EXPECT_EQ(0U, manager_->GetClientCount()); EXPECT_EQ(0U, manager_->GetPendingClientCount()); manager_->StartSession(client); EXPECT_EQ(0U, manager_->GetClientCount()); EXPECT_EQ(1U, manager_->GetPendingClientCount()); EXPECT_TRUE(manager_->start_initialization_is_called_); EXPECT_EQ(0U, manager_->GetClientCount()); EXPECT_EQ(1U, manager_->GetPendingClientCount()); EXPECT_TRUE(manager_->start_initialization_is_called_); } void StartTheNthSession(FakeMidiManagerClient* client, size_t nth) { EXPECT_EQ(nth != 1, manager_->start_initialization_is_called_); EXPECT_EQ(0U, manager_->GetClientCount()); EXPECT_EQ(nth - 1, manager_->GetPendingClientCount()); // StartInitialization() should not be called for the second and later // sessions. manager_->start_initialization_is_called_ = false; manager_->StartSession(client); EXPECT_EQ(nth == 1, manager_->start_initialization_is_called_); manager_->start_initialization_is_called_ = true; } void EndSession(FakeMidiManagerClient* client, size_t before, size_t after) { EXPECT_EQ(before, manager_->GetClientCount()); manager_->EndSession(client); EXPECT_EQ(after, manager_->GetClientCount()); } void CompleteInitialization(MidiResult result) { manager_->CallCompleteInitialization(result); } void RunLoopUntilIdle() { base::RunLoop run_loop; run_loop.RunUntilIdle(); } protected: scoped_ptr manager_; private: scoped_ptr message_loop_; DISALLOW_COPY_AND_ASSIGN(MidiManagerTest); }; TEST_F(MidiManagerTest, StartAndEndSession) { scoped_ptr client; client.reset(new FakeMidiManagerClient); StartTheFirstSession(client.get()); CompleteInitialization(MIDI_OK); EXPECT_EQ(MIDI_OK, client->WaitForResult()); EndSession(client.get(), 1U, 0U); } TEST_F(MidiManagerTest, StartAndEndSessionWithError) { scoped_ptr client; client.reset(new FakeMidiManagerClient); StartTheFirstSession(client.get()); CompleteInitialization(MIDI_INITIALIZATION_ERROR); EXPECT_EQ(MIDI_INITIALIZATION_ERROR, client->WaitForResult()); EndSession(client.get(), 0U, 0U); } TEST_F(MidiManagerTest, StartMultipleSessions) { scoped_ptr client1; scoped_ptr client2; scoped_ptr client3; client1.reset(new FakeMidiManagerClient); client2.reset(new FakeMidiManagerClient); client3.reset(new FakeMidiManagerClient); StartTheFirstSession(client1.get()); StartTheNthSession(client2.get(), 2); StartTheNthSession(client3.get(), 3); CompleteInitialization(MIDI_OK); EXPECT_EQ(MIDI_OK, client1->WaitForResult()); EXPECT_EQ(MIDI_OK, client2->WaitForResult()); EXPECT_EQ(MIDI_OK, client3->WaitForResult()); EndSession(client1.get(), 3U, 2U); EndSession(client2.get(), 2U, 1U); EndSession(client3.get(), 1U, 0U); } // TODO(toyoshim): Add a test for a MidiManagerClient that has multiple // sessions with multiple client_id. TEST_F(MidiManagerTest, TooManyPendingSessions) { // Push as many client requests for starting session as possible. ScopedVector many_existing_clients; many_existing_clients.resize(MidiManager::kMaxPendingClientCount); for (size_t i = 0; i < MidiManager::kMaxPendingClientCount; ++i) { many_existing_clients[i] = new FakeMidiManagerClient; StartTheNthSession(many_existing_clients[i], i + 1); } // Push the last client that should be rejected for too many pending requests. scoped_ptr additional_client( new FakeMidiManagerClient); manager_->start_initialization_is_called_ = false; manager_->StartSession(additional_client.get()); EXPECT_FALSE(manager_->start_initialization_is_called_); EXPECT_EQ(MIDI_INITIALIZATION_ERROR, additional_client->result()); // Other clients still should not receive a result. RunLoopUntilIdle(); for (size_t i = 0; i < many_existing_clients.size(); ++i) EXPECT_EQ(MIDI_NOT_SUPPORTED, many_existing_clients[i]->result()); // The result MIDI_OK should be distributed to other clients. CompleteInitialization(MIDI_OK); for (size_t i = 0; i < many_existing_clients.size(); ++i) EXPECT_EQ(MIDI_OK, many_existing_clients[i]->WaitForResult()); // Close all successful sessions in FIFO order. size_t sessions = many_existing_clients.size(); for (size_t i = 0; i < many_existing_clients.size(); ++i, --sessions) EndSession(many_existing_clients[i], sessions, sessions - 1); } TEST_F(MidiManagerTest, AbortSession) { // A client starting a session can be destructed while an asynchronous // initialization is performed. scoped_ptr client; client.reset(new FakeMidiManagerClient); StartTheFirstSession(client.get()); EndSession(client.get(), 0, 0); client.reset(); // Following function should not call the destructed |client| function. CompleteInitialization(MIDI_OK); base::RunLoop run_loop; run_loop.RunUntilIdle(); } TEST_F(MidiManagerTest, CreateMidiManager) { scoped_ptr client; client.reset(new FakeMidiManagerClient); scoped_ptr manager(MidiManager::Create()); manager->StartSession(client.get()); MidiResult result = client->WaitForResult(); // This #ifdef needs to be identical to the one in media/midi/midi_manager.cc. // Do not change the condition for disabling this test. #if !defined(OS_MACOSX) && !defined(OS_WIN) && !defined(USE_ALSA) && \ !defined(OS_ANDROID) && !defined(OS_CHROMEOS) EXPECT_EQ(MIDI_NOT_SUPPORTED, result); #elif defined(USE_ALSA) // Temporary until http://crbug.com/371230 is resolved. EXPECT_TRUE((result == MIDI_OK) || (result == MIDI_INITIALIZATION_ERROR)); #else EXPECT_EQ(MIDI_OK, result); #endif } } // namespace } // namespace media