| /* |
| * Copyright 2019 The WebRTC project authors. All Rights Reserved. |
| * |
| * Use of this source code is governed by a BSD-style license |
| * that can be found in the LICENSE file in the root of the source |
| * tree. An additional intellectual property rights grant can be found |
| * in the file PATENTS. All contributing project authors may |
| * be found in the AUTHORS file in the root of the source tree. |
| */ |
| |
| #include "test/network/network_emulation.h" |
| |
| #include <atomic> |
| #include <functional> |
| #include <map> |
| #include <memory> |
| #include <set> |
| |
| #include "api/task_queue/task_queue_base.h" |
| #include "api/test/create_time_controller.h" |
| #include "api/test/simulated_network.h" |
| #include "api/units/time_delta.h" |
| #include "api/units/timestamp.h" |
| #include "rtc_base/event.h" |
| #include "rtc_base/gunit.h" |
| #include "rtc_base/synchronization/mutex.h" |
| #include "rtc_base/task_queue_for_test.h" |
| #include "test/gmock.h" |
| #include "test/gtest.h" |
| #include "test/network/network_emulation_manager.h" |
| #include "test/network/simulated_network.h" |
| |
| namespace webrtc { |
| namespace test { |
| namespace { |
| |
| using ::testing::ElementsAreArray; |
| |
| constexpr TimeDelta kNetworkPacketWaitTimeout = TimeDelta::Millis(100); |
| constexpr TimeDelta kStatsWaitTimeout = TimeDelta::Seconds(1); |
| constexpr int kOverheadIpv4Udp = 20 + 8; |
| |
| class SocketReader : public sigslot::has_slots<> { |
| public: |
| explicit SocketReader(rtc::Socket* socket, rtc::Thread* network_thread) |
| : socket_(socket), network_thread_(network_thread) { |
| socket_->SignalReadEvent.connect(this, &SocketReader::OnReadEvent); |
| size_ = 128 * 1024; |
| buf_ = new char[size_]; |
| } |
| ~SocketReader() override { delete[] buf_; } |
| |
| void OnReadEvent(rtc::Socket* socket) { |
| RTC_DCHECK(socket_ == socket); |
| RTC_DCHECK(network_thread_->IsCurrent()); |
| int64_t timestamp; |
| len_ = socket_->Recv(buf_, size_, ×tamp); |
| |
| MutexLock lock(&lock_); |
| received_count_++; |
| } |
| |
| int ReceivedCount() { |
| MutexLock lock(&lock_); |
| return received_count_; |
| } |
| |
| private: |
| rtc::Socket* const socket_; |
| rtc::Thread* const network_thread_; |
| char* buf_; |
| size_t size_; |
| int len_; |
| |
| Mutex lock_; |
| int received_count_ RTC_GUARDED_BY(lock_) = 0; |
| }; |
| |
| class MockReceiver : public EmulatedNetworkReceiverInterface { |
| public: |
| MOCK_METHOD(void, OnPacketReceived, (EmulatedIpPacket packet), (override)); |
| }; |
| |
| class MockNetworkBehaviourInterface : public NetworkBehaviorInterface { |
| public: |
| MOCK_METHOD(bool, EnqueuePacket, (PacketInFlightInfo), (override)); |
| MOCK_METHOD(std::vector<PacketDeliveryInfo>, |
| DequeueDeliverablePackets, |
| (int64_t), |
| (override)); |
| MOCK_METHOD(std::optional<int64_t>, NextDeliveryTimeUs, (), |
| (const, override)); |
| MOCK_METHOD(void, |
| RegisterDeliveryTimeChangedCallback, |
| (absl::AnyInvocable<void()>), |
| (override)); |
| }; |
| |
| class NetworkEmulationManagerThreeNodesRoutingTest : public ::testing::Test { |
| public: |
| NetworkEmulationManagerThreeNodesRoutingTest() { |
| e1_ = emulation_.CreateEndpoint(EmulatedEndpointConfig()); |
| e2_ = emulation_.CreateEndpoint(EmulatedEndpointConfig()); |
| e3_ = emulation_.CreateEndpoint(EmulatedEndpointConfig()); |
| } |
| |
| void SetupRouting( |
| std::function<void(EmulatedEndpoint*, |
| EmulatedEndpoint*, |
| EmulatedEndpoint*, |
| NetworkEmulationManager*)> create_routing_func) { |
| create_routing_func(e1_, e2_, e3_, &emulation_); |
| } |
| |
| void SendPacketsAndValidateDelivery() { |
| EXPECT_CALL(r_e1_e2_, OnPacketReceived(::testing::_)).Times(1); |
| EXPECT_CALL(r_e2_e1_, OnPacketReceived(::testing::_)).Times(1); |
| EXPECT_CALL(r_e1_e3_, OnPacketReceived(::testing::_)).Times(1); |
| EXPECT_CALL(r_e3_e1_, OnPacketReceived(::testing::_)).Times(1); |
| |
| uint16_t common_send_port = 80; |
| uint16_t r_e1_e2_port = e2_->BindReceiver(0, &r_e1_e2_).value(); |
| uint16_t r_e2_e1_port = e1_->BindReceiver(0, &r_e2_e1_).value(); |
| uint16_t r_e1_e3_port = e3_->BindReceiver(0, &r_e1_e3_).value(); |
| uint16_t r_e3_e1_port = e1_->BindReceiver(0, &r_e3_e1_).value(); |
| |
| // Next code is using API of EmulatedEndpoint, that is visible only for |
| // internals of network emulation layer. Don't use this API in other tests. |
| // Send packet from e1 to e2. |
| e1_->SendPacket( |
| rtc::SocketAddress(e1_->GetPeerLocalAddress(), common_send_port), |
| rtc::SocketAddress(e2_->GetPeerLocalAddress(), r_e1_e2_port), |
| rtc::CopyOnWriteBuffer(10)); |
| |
| // Send packet from e2 to e1. |
| e2_->SendPacket( |
| rtc::SocketAddress(e2_->GetPeerLocalAddress(), common_send_port), |
| rtc::SocketAddress(e1_->GetPeerLocalAddress(), r_e2_e1_port), |
| rtc::CopyOnWriteBuffer(10)); |
| |
| // Send packet from e1 to e3. |
| e1_->SendPacket( |
| rtc::SocketAddress(e1_->GetPeerLocalAddress(), common_send_port), |
| rtc::SocketAddress(e3_->GetPeerLocalAddress(), r_e1_e3_port), |
| rtc::CopyOnWriteBuffer(10)); |
| |
| // Send packet from e3 to e1. |
| e3_->SendPacket( |
| rtc::SocketAddress(e3_->GetPeerLocalAddress(), common_send_port), |
| rtc::SocketAddress(e1_->GetPeerLocalAddress(), r_e3_e1_port), |
| rtc::CopyOnWriteBuffer(10)); |
| |
| // Sleep at the end to wait for async packets delivery. |
| emulation_.time_controller()->AdvanceTime(kNetworkPacketWaitTimeout); |
| } |
| |
| private: |
| // Receivers: r_<source endpoint>_<destination endpoint> |
| // They must be destroyed after emulation, so they should be declared before. |
| MockReceiver r_e1_e2_; |
| MockReceiver r_e2_e1_; |
| MockReceiver r_e1_e3_; |
| MockReceiver r_e3_e1_; |
| |
| NetworkEmulationManagerImpl emulation_{ |
| NetworkEmulationManagerConfig{.time_mode = TimeMode::kRealTime}}; |
| EmulatedEndpoint* e1_; |
| EmulatedEndpoint* e2_; |
| EmulatedEndpoint* e3_; |
| }; |
| |
| EmulatedNetworkNode* CreateEmulatedNodeWithDefaultBuiltInConfig( |
| NetworkEmulationManager* emulation) { |
| return emulation->CreateEmulatedNode( |
| std::make_unique<SimulatedNetwork>(BuiltInNetworkBehaviorConfig())); |
| } |
| |
| } // namespace |
| |
| TEST(NetworkEmulationManagerTest, GeneratedIpv4AddressDoesNotCollide) { |
| NetworkEmulationManagerImpl network_manager( |
| {.time_mode = TimeMode::kRealTime}); |
| std::set<rtc::IPAddress> ips; |
| EmulatedEndpointConfig config; |
| config.generated_ip_family = EmulatedEndpointConfig::IpAddressFamily::kIpv4; |
| for (int i = 0; i < 1000; i++) { |
| EmulatedEndpoint* endpoint = network_manager.CreateEndpoint(config); |
| ASSERT_EQ(endpoint->GetPeerLocalAddress().family(), AF_INET); |
| bool result = ips.insert(endpoint->GetPeerLocalAddress()).second; |
| ASSERT_TRUE(result); |
| } |
| } |
| |
| TEST(NetworkEmulationManagerTest, GeneratedIpv6AddressDoesNotCollide) { |
| NetworkEmulationManagerImpl network_manager( |
| {.time_mode = TimeMode::kRealTime}); |
| std::set<rtc::IPAddress> ips; |
| EmulatedEndpointConfig config; |
| config.generated_ip_family = EmulatedEndpointConfig::IpAddressFamily::kIpv6; |
| for (int i = 0; i < 1000; i++) { |
| EmulatedEndpoint* endpoint = network_manager.CreateEndpoint(config); |
| ASSERT_EQ(endpoint->GetPeerLocalAddress().family(), AF_INET6); |
| bool result = ips.insert(endpoint->GetPeerLocalAddress()).second; |
| ASSERT_TRUE(result); |
| } |
| } |
| |
| TEST(NetworkEmulationManagerTest, Run) { |
| NetworkEmulationManagerImpl network_manager( |
| {.time_mode = TimeMode::kRealTime}); |
| |
| EmulatedNetworkNode* alice_node = network_manager.CreateEmulatedNode( |
| std::make_unique<SimulatedNetwork>(BuiltInNetworkBehaviorConfig())); |
| EmulatedNetworkNode* bob_node = network_manager.CreateEmulatedNode( |
| std::make_unique<SimulatedNetwork>(BuiltInNetworkBehaviorConfig())); |
| EmulatedEndpoint* alice_endpoint = |
| network_manager.CreateEndpoint(EmulatedEndpointConfig()); |
| EmulatedEndpoint* bob_endpoint = |
| network_manager.CreateEndpoint(EmulatedEndpointConfig()); |
| network_manager.CreateRoute(alice_endpoint, {alice_node}, bob_endpoint); |
| network_manager.CreateRoute(bob_endpoint, {bob_node}, alice_endpoint); |
| |
| EmulatedNetworkManagerInterface* nt1 = |
| network_manager.CreateEmulatedNetworkManagerInterface({alice_endpoint}); |
| EmulatedNetworkManagerInterface* nt2 = |
| network_manager.CreateEmulatedNetworkManagerInterface({bob_endpoint}); |
| |
| rtc::Thread* t1 = nt1->network_thread(); |
| rtc::Thread* t2 = nt2->network_thread(); |
| |
| rtc::CopyOnWriteBuffer data("Hello"); |
| for (uint64_t j = 0; j < 2; j++) { |
| rtc::Socket* s1 = nullptr; |
| rtc::Socket* s2 = nullptr; |
| SendTask(t1, [&] { |
| s1 = t1->socketserver()->CreateSocket(AF_INET, SOCK_DGRAM); |
| }); |
| SendTask(t2, [&] { |
| s2 = t2->socketserver()->CreateSocket(AF_INET, SOCK_DGRAM); |
| }); |
| |
| SocketReader r1(s1, t1); |
| SocketReader r2(s2, t2); |
| |
| rtc::SocketAddress a1(alice_endpoint->GetPeerLocalAddress(), 0); |
| rtc::SocketAddress a2(bob_endpoint->GetPeerLocalAddress(), 0); |
| |
| SendTask(t1, [&] { |
| s1->Bind(a1); |
| a1 = s1->GetLocalAddress(); |
| }); |
| SendTask(t2, [&] { |
| s2->Bind(a2); |
| a2 = s2->GetLocalAddress(); |
| }); |
| |
| SendTask(t1, [&] { s1->Connect(a2); }); |
| SendTask(t2, [&] { s2->Connect(a1); }); |
| |
| for (uint64_t i = 0; i < 1000; i++) { |
| t1->PostTask([&]() { s1->Send(data.data(), data.size()); }); |
| t2->PostTask([&]() { s2->Send(data.data(), data.size()); }); |
| } |
| |
| network_manager.time_controller()->AdvanceTime(TimeDelta::Seconds(1)); |
| |
| EXPECT_EQ(r1.ReceivedCount(), 1000); |
| EXPECT_EQ(r2.ReceivedCount(), 1000); |
| |
| SendTask(t1, [&] { delete s1; }); |
| SendTask(t2, [&] { delete s2; }); |
| } |
| |
| const int64_t single_packet_size = data.size() + kOverheadIpv4Udp; |
| std::atomic<int> received_stats_count{0}; |
| nt1->GetStats([&](EmulatedNetworkStats st) { |
| EXPECT_EQ(st.PacketsSent(), 2000l); |
| EXPECT_EQ(st.BytesSent().bytes(), single_packet_size * 2000l); |
| EXPECT_THAT(st.local_addresses, |
| ElementsAreArray({alice_endpoint->GetPeerLocalAddress()})); |
| EXPECT_EQ(st.PacketsReceived(), 2000l); |
| EXPECT_EQ(st.BytesReceived().bytes(), single_packet_size * 2000l); |
| EXPECT_EQ(st.PacketsDiscardedNoReceiver(), 0l); |
| EXPECT_EQ(st.BytesDiscardedNoReceiver().bytes(), 0l); |
| |
| rtc::IPAddress bob_ip = bob_endpoint->GetPeerLocalAddress(); |
| std::map<rtc::IPAddress, EmulatedNetworkIncomingStats> source_st = |
| st.incoming_stats_per_source; |
| ASSERT_EQ(source_st.size(), 1lu); |
| EXPECT_EQ(source_st.at(bob_ip).packets_received, 2000l); |
| EXPECT_EQ(source_st.at(bob_ip).bytes_received.bytes(), |
| single_packet_size * 2000l); |
| EXPECT_EQ(source_st.at(bob_ip).packets_discarded_no_receiver, 0l); |
| EXPECT_EQ(source_st.at(bob_ip).bytes_discarded_no_receiver.bytes(), 0l); |
| |
| std::map<rtc::IPAddress, EmulatedNetworkOutgoingStats> dest_st = |
| st.outgoing_stats_per_destination; |
| ASSERT_EQ(dest_st.size(), 1lu); |
| EXPECT_EQ(dest_st.at(bob_ip).packets_sent, 2000l); |
| EXPECT_EQ(dest_st.at(bob_ip).bytes_sent.bytes(), |
| single_packet_size * 2000l); |
| |
| // No debug stats are collected by default. |
| EXPECT_TRUE(st.SentPacketsSizeCounter().IsEmpty()); |
| EXPECT_TRUE(st.sent_packets_queue_wait_time_us.IsEmpty()); |
| EXPECT_TRUE(st.ReceivedPacketsSizeCounter().IsEmpty()); |
| EXPECT_TRUE(st.PacketsDiscardedNoReceiverSizeCounter().IsEmpty()); |
| EXPECT_TRUE(dest_st.at(bob_ip).sent_packets_size.IsEmpty()); |
| EXPECT_TRUE(source_st.at(bob_ip).received_packets_size.IsEmpty()); |
| EXPECT_TRUE( |
| source_st.at(bob_ip).packets_discarded_no_receiver_size.IsEmpty()); |
| |
| received_stats_count++; |
| }); |
| nt2->GetStats([&](EmulatedNetworkStats st) { |
| EXPECT_EQ(st.PacketsSent(), 2000l); |
| EXPECT_EQ(st.BytesSent().bytes(), single_packet_size * 2000l); |
| EXPECT_THAT(st.local_addresses, |
| ElementsAreArray({bob_endpoint->GetPeerLocalAddress()})); |
| EXPECT_EQ(st.PacketsReceived(), 2000l); |
| EXPECT_EQ(st.BytesReceived().bytes(), single_packet_size * 2000l); |
| EXPECT_EQ(st.PacketsDiscardedNoReceiver(), 0l); |
| EXPECT_EQ(st.BytesDiscardedNoReceiver().bytes(), 0l); |
| EXPECT_GT(st.FirstReceivedPacketSize(), DataSize::Zero()); |
| EXPECT_TRUE(st.FirstPacketReceivedTime().IsFinite()); |
| EXPECT_TRUE(st.LastPacketReceivedTime().IsFinite()); |
| |
| rtc::IPAddress alice_ip = alice_endpoint->GetPeerLocalAddress(); |
| std::map<rtc::IPAddress, EmulatedNetworkIncomingStats> source_st = |
| st.incoming_stats_per_source; |
| ASSERT_EQ(source_st.size(), 1lu); |
| EXPECT_EQ(source_st.at(alice_ip).packets_received, 2000l); |
| EXPECT_EQ(source_st.at(alice_ip).bytes_received.bytes(), |
| single_packet_size * 2000l); |
| EXPECT_EQ(source_st.at(alice_ip).packets_discarded_no_receiver, 0l); |
| EXPECT_EQ(source_st.at(alice_ip).bytes_discarded_no_receiver.bytes(), 0l); |
| |
| std::map<rtc::IPAddress, EmulatedNetworkOutgoingStats> dest_st = |
| st.outgoing_stats_per_destination; |
| ASSERT_EQ(dest_st.size(), 1lu); |
| EXPECT_EQ(dest_st.at(alice_ip).packets_sent, 2000l); |
| EXPECT_EQ(dest_st.at(alice_ip).bytes_sent.bytes(), |
| single_packet_size * 2000l); |
| |
| // No debug stats are collected by default. |
| EXPECT_TRUE(st.SentPacketsSizeCounter().IsEmpty()); |
| EXPECT_TRUE(st.sent_packets_queue_wait_time_us.IsEmpty()); |
| EXPECT_TRUE(st.ReceivedPacketsSizeCounter().IsEmpty()); |
| EXPECT_TRUE(st.PacketsDiscardedNoReceiverSizeCounter().IsEmpty()); |
| EXPECT_TRUE(dest_st.at(alice_ip).sent_packets_size.IsEmpty()); |
| EXPECT_TRUE(source_st.at(alice_ip).received_packets_size.IsEmpty()); |
| EXPECT_TRUE( |
| source_st.at(alice_ip).packets_discarded_no_receiver_size.IsEmpty()); |
| |
| received_stats_count++; |
| }); |
| ASSERT_EQ_SIMULATED_WAIT(received_stats_count.load(), 2, |
| kStatsWaitTimeout.ms(), |
| *network_manager.time_controller()); |
| } |
| |
| TEST(NetworkEmulationManagerTest, DebugStatsCollectedInDebugMode) { |
| NetworkEmulationManagerImpl network_manager( |
| {.time_mode = TimeMode::kSimulated, |
| .stats_gathering_mode = EmulatedNetworkStatsGatheringMode::kDebug}); |
| |
| EmulatedNetworkNode* alice_node = network_manager.CreateEmulatedNode( |
| std::make_unique<SimulatedNetwork>(BuiltInNetworkBehaviorConfig())); |
| EmulatedNetworkNode* bob_node = network_manager.CreateEmulatedNode( |
| std::make_unique<SimulatedNetwork>(BuiltInNetworkBehaviorConfig())); |
| EmulatedEndpoint* alice_endpoint = |
| network_manager.CreateEndpoint(EmulatedEndpointConfig()); |
| EmulatedEndpoint* bob_endpoint = |
| network_manager.CreateEndpoint(EmulatedEndpointConfig()); |
| network_manager.CreateRoute(alice_endpoint, {alice_node}, bob_endpoint); |
| network_manager.CreateRoute(bob_endpoint, {bob_node}, alice_endpoint); |
| |
| EmulatedNetworkManagerInterface* nt1 = |
| network_manager.CreateEmulatedNetworkManagerInterface({alice_endpoint}); |
| EmulatedNetworkManagerInterface* nt2 = |
| network_manager.CreateEmulatedNetworkManagerInterface({bob_endpoint}); |
| |
| rtc::Thread* t1 = nt1->network_thread(); |
| rtc::Thread* t2 = nt2->network_thread(); |
| |
| rtc::CopyOnWriteBuffer data("Hello"); |
| for (uint64_t j = 0; j < 2; j++) { |
| rtc::Socket* s1 = nullptr; |
| rtc::Socket* s2 = nullptr; |
| SendTask(t1, [&] { |
| s1 = t1->socketserver()->CreateSocket(AF_INET, SOCK_DGRAM); |
| }); |
| SendTask(t2, [&] { |
| s2 = t2->socketserver()->CreateSocket(AF_INET, SOCK_DGRAM); |
| }); |
| |
| SocketReader r1(s1, t1); |
| SocketReader r2(s2, t2); |
| |
| rtc::SocketAddress a1(alice_endpoint->GetPeerLocalAddress(), 0); |
| rtc::SocketAddress a2(bob_endpoint->GetPeerLocalAddress(), 0); |
| |
| SendTask(t1, [&] { |
| s1->Bind(a1); |
| a1 = s1->GetLocalAddress(); |
| }); |
| SendTask(t2, [&] { |
| s2->Bind(a2); |
| a2 = s2->GetLocalAddress(); |
| }); |
| |
| SendTask(t1, [&] { s1->Connect(a2); }); |
| SendTask(t2, [&] { s2->Connect(a1); }); |
| |
| for (uint64_t i = 0; i < 1000; i++) { |
| t1->PostTask([&]() { s1->Send(data.data(), data.size()); }); |
| t2->PostTask([&]() { s2->Send(data.data(), data.size()); }); |
| } |
| |
| network_manager.time_controller()->AdvanceTime(TimeDelta::Seconds(1)); |
| |
| EXPECT_EQ(r1.ReceivedCount(), 1000); |
| EXPECT_EQ(r2.ReceivedCount(), 1000); |
| |
| SendTask(t1, [&] { delete s1; }); |
| SendTask(t2, [&] { delete s2; }); |
| } |
| |
| const int64_t single_packet_size = data.size() + kOverheadIpv4Udp; |
| std::atomic<int> received_stats_count{0}; |
| nt1->GetStats([&](EmulatedNetworkStats st) { |
| rtc::IPAddress bob_ip = bob_endpoint->GetPeerLocalAddress(); |
| std::map<rtc::IPAddress, EmulatedNetworkIncomingStats> source_st = |
| st.incoming_stats_per_source; |
| ASSERT_EQ(source_st.size(), 1lu); |
| |
| std::map<rtc::IPAddress, EmulatedNetworkOutgoingStats> dest_st = |
| st.outgoing_stats_per_destination; |
| ASSERT_EQ(dest_st.size(), 1lu); |
| |
| // No debug stats are collected by default. |
| EXPECT_EQ(st.SentPacketsSizeCounter().NumSamples(), 2000l); |
| EXPECT_EQ(st.ReceivedPacketsSizeCounter().GetAverage(), single_packet_size); |
| EXPECT_EQ(st.sent_packets_queue_wait_time_us.NumSamples(), 2000l); |
| EXPECT_LT(st.sent_packets_queue_wait_time_us.GetMax(), 1); |
| EXPECT_TRUE(st.PacketsDiscardedNoReceiverSizeCounter().IsEmpty()); |
| EXPECT_EQ(dest_st.at(bob_ip).sent_packets_size.NumSamples(), 2000l); |
| EXPECT_EQ(dest_st.at(bob_ip).sent_packets_size.GetAverage(), |
| single_packet_size); |
| EXPECT_EQ(source_st.at(bob_ip).received_packets_size.NumSamples(), 2000l); |
| EXPECT_EQ(source_st.at(bob_ip).received_packets_size.GetAverage(), |
| single_packet_size); |
| EXPECT_TRUE( |
| source_st.at(bob_ip).packets_discarded_no_receiver_size.IsEmpty()); |
| |
| received_stats_count++; |
| }); |
| ASSERT_EQ_SIMULATED_WAIT(received_stats_count.load(), 1, |
| kStatsWaitTimeout.ms(), |
| *network_manager.time_controller()); |
| } |
| |
| TEST(NetworkEmulationManagerTest, ThroughputStats) { |
| NetworkEmulationManagerImpl network_manager( |
| {.time_mode = TimeMode::kRealTime}); |
| |
| EmulatedNetworkNode* alice_node = network_manager.CreateEmulatedNode( |
| std::make_unique<SimulatedNetwork>(BuiltInNetworkBehaviorConfig())); |
| EmulatedNetworkNode* bob_node = network_manager.CreateEmulatedNode( |
| std::make_unique<SimulatedNetwork>(BuiltInNetworkBehaviorConfig())); |
| EmulatedEndpoint* alice_endpoint = |
| network_manager.CreateEndpoint(EmulatedEndpointConfig()); |
| EmulatedEndpoint* bob_endpoint = |
| network_manager.CreateEndpoint(EmulatedEndpointConfig()); |
| network_manager.CreateRoute(alice_endpoint, {alice_node}, bob_endpoint); |
| network_manager.CreateRoute(bob_endpoint, {bob_node}, alice_endpoint); |
| |
| EmulatedNetworkManagerInterface* nt1 = |
| network_manager.CreateEmulatedNetworkManagerInterface({alice_endpoint}); |
| EmulatedNetworkManagerInterface* nt2 = |
| network_manager.CreateEmulatedNetworkManagerInterface({bob_endpoint}); |
| |
| rtc::Thread* t1 = nt1->network_thread(); |
| rtc::Thread* t2 = nt2->network_thread(); |
| |
| constexpr int64_t kUdpPayloadSize = 100; |
| constexpr int64_t kSinglePacketSize = kUdpPayloadSize + kOverheadIpv4Udp; |
| rtc::CopyOnWriteBuffer data(kUdpPayloadSize); |
| |
| rtc::Socket* s1 = nullptr; |
| rtc::Socket* s2 = nullptr; |
| SendTask(t1, |
| [&] { s1 = t1->socketserver()->CreateSocket(AF_INET, SOCK_DGRAM); }); |
| SendTask(t2, |
| [&] { s2 = t2->socketserver()->CreateSocket(AF_INET, SOCK_DGRAM); }); |
| |
| SocketReader r1(s1, t1); |
| SocketReader r2(s2, t2); |
| |
| rtc::SocketAddress a1(alice_endpoint->GetPeerLocalAddress(), 0); |
| rtc::SocketAddress a2(bob_endpoint->GetPeerLocalAddress(), 0); |
| |
| SendTask(t1, [&] { |
| s1->Bind(a1); |
| a1 = s1->GetLocalAddress(); |
| }); |
| SendTask(t2, [&] { |
| s2->Bind(a2); |
| a2 = s2->GetLocalAddress(); |
| }); |
| |
| SendTask(t1, [&] { s1->Connect(a2); }); |
| SendTask(t2, [&] { s2->Connect(a1); }); |
| |
| // Send 11 packets, totalizing 1 second between the first and the last-> |
| const int kNumPacketsSent = 11; |
| const TimeDelta kDelay = TimeDelta::Millis(100); |
| for (int i = 0; i < kNumPacketsSent; i++) { |
| t1->PostTask([&]() { s1->Send(data.data(), data.size()); }); |
| t2->PostTask([&]() { s2->Send(data.data(), data.size()); }); |
| network_manager.time_controller()->AdvanceTime(kDelay); |
| } |
| |
| std::atomic<int> received_stats_count{0}; |
| nt1->GetStats([&](EmulatedNetworkStats st) { |
| EXPECT_EQ(st.PacketsSent(), kNumPacketsSent); |
| EXPECT_EQ(st.BytesSent().bytes(), kSinglePacketSize * kNumPacketsSent); |
| |
| const double tolerance = 0.95; // Accept 5% tolerance for timing. |
| EXPECT_GE(st.LastPacketSentTime() - st.FirstPacketSentTime(), |
| (kNumPacketsSent - 1) * kDelay * tolerance); |
| EXPECT_GT(st.AverageSendRate().bps(), 0); |
| received_stats_count++; |
| }); |
| |
| ASSERT_EQ_SIMULATED_WAIT(received_stats_count.load(), 1, |
| kStatsWaitTimeout.ms(), |
| *network_manager.time_controller()); |
| |
| EXPECT_EQ(r1.ReceivedCount(), 11); |
| EXPECT_EQ(r2.ReceivedCount(), 11); |
| |
| SendTask(t1, [&] { delete s1; }); |
| SendTask(t2, [&] { delete s2; }); |
| } |
| |
| // Testing that packets are delivered via all routes using a routing scheme as |
| // follows: |
| // * e1 -> n1 -> e2 |
| // * e2 -> n2 -> e1 |
| // * e1 -> n3 -> e3 |
| // * e3 -> n4 -> e1 |
| TEST_F(NetworkEmulationManagerThreeNodesRoutingTest, |
| PacketsAreDeliveredInBothWaysWhenConnectedToTwoPeers) { |
| SetupRouting([](EmulatedEndpoint* e1, EmulatedEndpoint* e2, |
| EmulatedEndpoint* e3, NetworkEmulationManager* emulation) { |
| auto* node1 = CreateEmulatedNodeWithDefaultBuiltInConfig(emulation); |
| auto* node2 = CreateEmulatedNodeWithDefaultBuiltInConfig(emulation); |
| auto* node3 = CreateEmulatedNodeWithDefaultBuiltInConfig(emulation); |
| auto* node4 = CreateEmulatedNodeWithDefaultBuiltInConfig(emulation); |
| |
| emulation->CreateRoute(e1, {node1}, e2); |
| emulation->CreateRoute(e2, {node2}, e1); |
| |
| emulation->CreateRoute(e1, {node3}, e3); |
| emulation->CreateRoute(e3, {node4}, e1); |
| }); |
| SendPacketsAndValidateDelivery(); |
| } |
| |
| // Testing that packets are delivered via all routes using a routing scheme as |
| // follows: |
| // * e1 -> n1 -> e2 |
| // * e2 -> n2 -> e1 |
| // * e1 -> n1 -> e3 |
| // * e3 -> n4 -> e1 |
| TEST_F(NetworkEmulationManagerThreeNodesRoutingTest, |
| PacketsAreDeliveredInBothWaysWhenConnectedToTwoPeersOverSameSendLink) { |
| SetupRouting([](EmulatedEndpoint* e1, EmulatedEndpoint* e2, |
| EmulatedEndpoint* e3, NetworkEmulationManager* emulation) { |
| auto* node1 = CreateEmulatedNodeWithDefaultBuiltInConfig(emulation); |
| auto* node2 = CreateEmulatedNodeWithDefaultBuiltInConfig(emulation); |
| auto* node3 = CreateEmulatedNodeWithDefaultBuiltInConfig(emulation); |
| |
| emulation->CreateRoute(e1, {node1}, e2); |
| emulation->CreateRoute(e2, {node2}, e1); |
| |
| emulation->CreateRoute(e1, {node1}, e3); |
| emulation->CreateRoute(e3, {node3}, e1); |
| }); |
| SendPacketsAndValidateDelivery(); |
| } |
| |
| TEST(NetworkEmulationManagerTest, EndpointLoopback) { |
| NetworkEmulationManagerImpl network_manager( |
| {.time_mode = TimeMode::kSimulated}); |
| auto endpoint = network_manager.CreateEndpoint(EmulatedEndpointConfig()); |
| |
| MockReceiver receiver; |
| EXPECT_CALL(receiver, OnPacketReceived(::testing::_)).Times(1); |
| ASSERT_EQ(endpoint->BindReceiver(80, &receiver), 80); |
| |
| endpoint->SendPacket(rtc::SocketAddress(endpoint->GetPeerLocalAddress(), 80), |
| rtc::SocketAddress(endpoint->GetPeerLocalAddress(), 80), |
| "Hello"); |
| network_manager.time_controller()->AdvanceTime(TimeDelta::Seconds(1)); |
| } |
| |
| TEST(NetworkEmulationManagerTest, EndpointCanSendWithDifferentSourceIp) { |
| constexpr uint32_t kEndpointIp = 0xC0A80011; // 192.168.0.17 |
| constexpr uint32_t kSourceIp = 0xC0A80012; // 192.168.0.18 |
| NetworkEmulationManagerImpl network_manager( |
| {.time_mode = TimeMode::kSimulated}); |
| EmulatedEndpointConfig endpoint_config; |
| endpoint_config.ip = rtc::IPAddress(kEndpointIp); |
| endpoint_config.allow_send_packet_with_different_source_ip = true; |
| auto endpoint = network_manager.CreateEndpoint(endpoint_config); |
| |
| MockReceiver receiver; |
| EXPECT_CALL(receiver, OnPacketReceived(::testing::_)).Times(1); |
| ASSERT_EQ(endpoint->BindReceiver(80, &receiver), 80); |
| |
| endpoint->SendPacket(rtc::SocketAddress(kSourceIp, 80), |
| rtc::SocketAddress(endpoint->GetPeerLocalAddress(), 80), |
| "Hello"); |
| network_manager.time_controller()->AdvanceTime(TimeDelta::Seconds(1)); |
| } |
| |
| TEST(NetworkEmulationManagerTest, |
| EndpointCanReceiveWithDifferentDestIpThroughDefaultRoute) { |
| constexpr uint32_t kDestEndpointIp = 0xC0A80011; // 192.168.0.17 |
| constexpr uint32_t kDestIp = 0xC0A80012; // 192.168.0.18 |
| NetworkEmulationManagerImpl network_manager( |
| {.time_mode = TimeMode::kSimulated}); |
| auto sender_endpoint = |
| network_manager.CreateEndpoint(EmulatedEndpointConfig()); |
| EmulatedEndpointConfig endpoint_config; |
| endpoint_config.ip = rtc::IPAddress(kDestEndpointIp); |
| endpoint_config.allow_receive_packets_with_different_dest_ip = true; |
| auto receiver_endpoint = network_manager.CreateEndpoint(endpoint_config); |
| |
| MockReceiver receiver; |
| EXPECT_CALL(receiver, OnPacketReceived(::testing::_)).Times(1); |
| ASSERT_EQ(receiver_endpoint->BindReceiver(80, &receiver), 80); |
| |
| network_manager.CreateDefaultRoute( |
| sender_endpoint, {network_manager.NodeBuilder().Build().node}, |
| receiver_endpoint); |
| |
| sender_endpoint->SendPacket( |
| rtc::SocketAddress(sender_endpoint->GetPeerLocalAddress(), 80), |
| rtc::SocketAddress(kDestIp, 80), "Hello"); |
| network_manager.time_controller()->AdvanceTime(TimeDelta::Seconds(1)); |
| } |
| |
| TEST(NetworkEmulationManagerTURNTest, GetIceServerConfig) { |
| NetworkEmulationManagerImpl network_manager( |
| {.time_mode = TimeMode::kRealTime}); |
| auto turn = network_manager.CreateTURNServer(EmulatedTURNServerConfig()); |
| |
| EXPECT_GT(turn->GetIceServerConfig().username.size(), 0u); |
| EXPECT_GT(turn->GetIceServerConfig().password.size(), 0u); |
| EXPECT_NE(turn->GetIceServerConfig().url.find( |
| turn->GetClientEndpoint()->GetPeerLocalAddress().ToString()), |
| std::string::npos); |
| } |
| |
| TEST(NetworkEmulationManagerTURNTest, ClientTraffic) { |
| NetworkEmulationManagerImpl emulation({.time_mode = TimeMode::kSimulated}); |
| auto* ep = emulation.CreateEndpoint(EmulatedEndpointConfig()); |
| auto* turn = emulation.CreateTURNServer(EmulatedTURNServerConfig()); |
| auto* node = CreateEmulatedNodeWithDefaultBuiltInConfig(&emulation); |
| emulation.CreateRoute(ep, {node}, turn->GetClientEndpoint()); |
| emulation.CreateRoute(turn->GetClientEndpoint(), {node}, ep); |
| |
| MockReceiver recv; |
| int port = ep->BindReceiver(0, &recv).value(); |
| |
| // Construct a STUN BINDING. |
| cricket::StunMessage ping(cricket::STUN_BINDING_REQUEST); |
| rtc::ByteBufferWriter buf; |
| ping.Write(&buf); |
| rtc::CopyOnWriteBuffer packet(buf.Data(), buf.Length()); |
| |
| // We expect to get a ping reply. |
| EXPECT_CALL(recv, OnPacketReceived(::testing::_)).Times(1); |
| |
| ep->SendPacket(rtc::SocketAddress(ep->GetPeerLocalAddress(), port), |
| turn->GetClientEndpointAddress(), packet); |
| emulation.time_controller()->AdvanceTime(TimeDelta::Seconds(1)); |
| } |
| |
| TEST(LinkEmulationTest, HandlesDeliveryTimeChangedCallback) { |
| constexpr uint32_t kEndpointIp = 0xC0A80011; // 192.168.0.17 |
| NetworkEmulationManagerImpl network_manager( |
| {.time_mode = TimeMode::kSimulated}); |
| auto mock_behaviour = |
| std::make_unique<::testing::NiceMock<MockNetworkBehaviourInterface>>(); |
| MockNetworkBehaviourInterface* mock_behaviour_ptr = mock_behaviour.get(); |
| absl::AnyInvocable<void()> delivery_time_changed_callback = nullptr; |
| TaskQueueBase* emulation_task_queue = nullptr; |
| EXPECT_CALL(*mock_behaviour_ptr, RegisterDeliveryTimeChangedCallback) |
| .WillOnce([&](absl::AnyInvocable<void()> callback) { |
| delivery_time_changed_callback = std::move(callback); |
| emulation_task_queue = TaskQueueBase::Current(); |
| }); |
| LinkEmulation* link = |
| network_manager.CreateEmulatedNode(std::move(mock_behaviour))->link(); |
| network_manager.time_controller()->AdvanceTime(TimeDelta::Zero()); |
| ASSERT_TRUE(delivery_time_changed_callback); |
| |
| EXPECT_CALL(*mock_behaviour_ptr, EnqueuePacket); |
| EXPECT_CALL(*mock_behaviour_ptr, NextDeliveryTimeUs) |
| .WillOnce(::testing::Return( |
| network_manager.time_controller()->GetClock()->TimeInMicroseconds() + |
| 10)); |
| link->OnPacketReceived(EmulatedIpPacket( |
| rtc::SocketAddress(kEndpointIp, 50), rtc::SocketAddress(kEndpointIp, 79), |
| rtc::CopyOnWriteBuffer(10), Timestamp::Millis(1))); |
| network_manager.time_controller()->AdvanceTime(TimeDelta::Zero()); |
| |
| // Test that NetworkBehaviour can reschedule time for delivery. When |
| // delivery_time_changed_callback is triggered, LinkEmulation re-query the |
| // next delivery time. |
| EXPECT_CALL(*mock_behaviour_ptr, NextDeliveryTimeUs) |
| .WillOnce(::testing::Return( |
| network_manager.time_controller()->GetClock()->TimeInMicroseconds() + |
| 20)); |
| emulation_task_queue->PostTask([&]() { delivery_time_changed_callback(); }); |
| network_manager.time_controller()->AdvanceTime(TimeDelta::Zero()); |
| } |
| |
| } // namespace test |
| } // namespace webrtc |