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397 lines
13 KiB
C++
397 lines
13 KiB
C++
#include "NetworkManager.h"
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#include "Message.h"
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#include "p2p/base/basic_packet_socket_factory.h"
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#include "v2/ReflectorRelayPortFactory.h"
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#include "p2p/client/basic_port_allocator.h"
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#include "p2p/base/p2p_transport_channel.h"
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#include "p2p/base/basic_async_resolver_factory.h"
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#include "api/packet_socket_factory.h"
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#include "p2p/base/ice_credentials_iterator.h"
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#include "api/jsep_ice_candidate.h"
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#include "rtc_base/network_monitor_factory.h"
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#include "TurnCustomizerImpl.h"
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#include "platform/PlatformInterface.h"
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extern "C" {
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#include <openssl/sha.h>
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#include <openssl/aes.h>
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#ifndef OPENSSL_IS_BORINGSSL
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#include <openssl/modes.h>
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#endif
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#include <openssl/rand.h>
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#include <openssl/crypto.h>
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} // extern "C"
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namespace tgcalls {
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class TgCallsCryptStringImpl : public rtc::CryptStringImpl {
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public:
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TgCallsCryptStringImpl(std::string const &value) :
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_value(value) {
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}
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virtual ~TgCallsCryptStringImpl() override {
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}
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virtual size_t GetLength() const override {
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return _value.size();
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}
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virtual void CopyTo(char* dest, bool nullterminate) const override {
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memcpy(dest, _value.data(), _value.size());
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if (nullterminate) {
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dest[_value.size()] = 0;
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}
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}
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virtual std::string UrlEncode() const override {
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return _value;
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}
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virtual CryptStringImpl* Copy() const override {
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return new TgCallsCryptStringImpl(_value);
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}
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virtual void CopyRawTo(std::vector<unsigned char>* dest) const override {
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dest->resize(_value.size());
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memcpy(dest->data(), _value.data(), _value.size());
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}
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private:
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std::string _value;
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};
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NetworkManager::NetworkManager(
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rtc::Thread *thread,
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EncryptionKey encryptionKey,
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bool enableP2P,
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bool enableTCP,
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bool enableStunMarking,
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std::vector<RtcServer> const &rtcServers,
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std::unique_ptr<Proxy> proxy,
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std::function<void(const NetworkManager::State &)> stateUpdated,
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std::function<void(DecryptedMessage &&)> transportMessageReceived,
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std::function<void(Message &&)> sendSignalingMessage,
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std::function<void(int delayMs, int cause)> sendTransportServiceAsync) :
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_thread(thread),
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_enableP2P(enableP2P),
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_enableTCP(enableTCP),
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_enableStunMarking(enableStunMarking),
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_rtcServers(rtcServers),
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_proxy(std::move(proxy)),
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_transport(
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EncryptedConnection::Type::Transport,
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encryptionKey,
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[=](int delayMs, int cause) { sendTransportServiceAsync(delayMs, cause); }),
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_isOutgoing(encryptionKey.isOutgoing),
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_stateUpdated(std::move(stateUpdated)),
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_transportMessageReceived(std::move(transportMessageReceived)),
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_sendSignalingMessage(std::move(sendSignalingMessage)),
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_localIceParameters(rtc::CreateRandomString(cricket::ICE_UFRAG_LENGTH), rtc::CreateRandomString(cricket::ICE_PWD_LENGTH), false) {
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assert(_thread->IsCurrent());
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_networkMonitorFactory = PlatformInterface::SharedInstance()->createNetworkMonitorFactory();
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}
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NetworkManager::~NetworkManager() {
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assert(_thread->IsCurrent());
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RTC_LOG(LS_INFO) << "NetworkManager::~NetworkManager()";
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_transportChannel.reset();
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_asyncResolverFactory.reset();
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_portAllocator.reset();
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_networkManager.reset();
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_socketFactory.reset();
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_networkMonitorFactory.reset();
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}
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void NetworkManager::start() {
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_socketFactory.reset(new rtc::BasicPacketSocketFactory(_thread->socketserver()));
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_networkManager = std::make_unique<rtc::BasicNetworkManager>(_networkMonitorFactory.get(), _thread->socketserver());
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if (_enableStunMarking) {
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_turnCustomizer.reset(new TurnCustomizerImpl());
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}
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_relayPortFactory.reset(new ReflectorRelayPortFactory(_rtcServers));
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_portAllocator.reset(new cricket::BasicPortAllocator(_networkManager.get(), _socketFactory.get(), _turnCustomizer.get(), _relayPortFactory.get()));
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uint32_t flags = _portAllocator->flags();
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flags |=
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//cricket::PORTALLOCATOR_ENABLE_SHARED_SOCKET |
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cricket::PORTALLOCATOR_ENABLE_IPV6 |
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cricket::PORTALLOCATOR_ENABLE_IPV6_ON_WIFI;
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if (!_enableTCP) {
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flags |= cricket::PORTALLOCATOR_DISABLE_TCP;
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}
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if (!_enableP2P) {
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flags |= cricket::PORTALLOCATOR_DISABLE_UDP;
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flags |= cricket::PORTALLOCATOR_DISABLE_STUN;
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uint32_t candidateFilter = _portAllocator->candidate_filter();
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candidateFilter &= ~(cricket::CF_REFLEXIVE);
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_portAllocator->SetCandidateFilter(candidateFilter);
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}
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_portAllocator->set_step_delay(cricket::kMinimumStepDelay);
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if (_proxy) {
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rtc::ProxyInfo proxyInfo;
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proxyInfo.type = rtc::ProxyType::PROXY_SOCKS5;
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proxyInfo.address = rtc::SocketAddress(_proxy->host, _proxy->port);
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proxyInfo.username = _proxy->login;
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proxyInfo.password = rtc::CryptString(TgCallsCryptStringImpl(_proxy->password));
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_portAllocator->set_proxy("t/1.0", proxyInfo);
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}
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_portAllocator->set_flags(flags);
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_portAllocator->Initialize();
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cricket::ServerAddresses stunServers;
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std::vector<cricket::RelayServerConfig> turnServers;
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for (auto &server : _rtcServers) {
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if (server.isTcp) {
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continue;
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}
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if (server.isTurn) {
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turnServers.push_back(cricket::RelayServerConfig(
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rtc::SocketAddress(server.host, server.port),
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server.login,
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server.password,
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cricket::PROTO_UDP
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));
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} else {
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rtc::SocketAddress stunAddress = rtc::SocketAddress(server.host, server.port);
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stunServers.insert(stunAddress);
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}
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}
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_portAllocator->SetConfiguration(stunServers, turnServers, 2, webrtc::NO_PRUNE, _turnCustomizer.get());
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_asyncResolverFactory = std::make_unique<webrtc::BasicAsyncResolverFactory>();
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webrtc::IceTransportInit iceTransportInit;
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iceTransportInit.set_port_allocator(_portAllocator.get());
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iceTransportInit.set_async_resolver_factory(_asyncResolverFactory.get());
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_transportChannel = cricket::P2PTransportChannel::Create("transport", 0, std::move(iceTransportInit));
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cricket::IceConfig iceConfig;
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iceConfig.continual_gathering_policy = cricket::GATHER_CONTINUALLY;
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iceConfig.prioritize_most_likely_candidate_pairs = true;
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iceConfig.regather_on_failed_networks_interval = 8000;
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_transportChannel->SetIceConfig(iceConfig);
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cricket::IceParameters localIceParameters(
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_localIceParameters.ufrag,
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_localIceParameters.pwd,
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false
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);
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_transportChannel->SetIceParameters(localIceParameters);
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_transportChannel->SetIceRole(_isOutgoing ? cricket::ICEROLE_CONTROLLING : cricket::ICEROLE_CONTROLLED);
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_transportChannel->SignalCandidateGathered.connect(this, &NetworkManager::candidateGathered);
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_transportChannel->SignalGatheringState.connect(this, &NetworkManager::candidateGatheringState);
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_transportChannel->SignalIceTransportStateChanged.connect(this, &NetworkManager::transportStateChanged);
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_transportChannel->SignalReadPacket.connect(this, &NetworkManager::transportPacketReceived);
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_transportChannel->SignalNetworkRouteChanged.connect(this, &NetworkManager::transportRouteChanged);
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_transportChannel->MaybeStartGathering();
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_transportChannel->SetRemoteIceMode(cricket::ICEMODE_FULL);
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_lastNetworkActivityMs = rtc::TimeMillis();
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checkConnectionTimeout();
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}
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void NetworkManager::receiveSignalingMessage(DecryptedMessage &&message) {
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const auto list = absl::get_if<CandidatesListMessage>(&message.message.data);
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assert(list != nullptr);
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if (!_remoteIceParameters.has_value()) {
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PeerIceParameters parameters(list->iceParameters.ufrag, list->iceParameters.pwd, false);
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_remoteIceParameters = parameters;
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cricket::IceParameters remoteIceParameters(
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parameters.ufrag,
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parameters.pwd,
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false
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);
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_transportChannel->SetRemoteIceParameters(remoteIceParameters);
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}
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for (const auto &candidate : list->candidates) {
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_transportChannel->AddRemoteCandidate(candidate);
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}
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}
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uint32_t NetworkManager::sendMessage(const Message &message) {
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if (const auto prepared = _transport.prepareForSending(message)) {
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rtc::PacketOptions packetOptions;
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_transportChannel->SendPacket((const char *)prepared->bytes.data(), prepared->bytes.size(), packetOptions, 0);
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addTrafficStats(prepared->bytes.size(), false);
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return prepared->counter;
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}
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return 0;
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}
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void NetworkManager::sendTransportService(int cause) {
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if (const auto prepared = _transport.prepareForSendingService(cause)) {
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rtc::PacketOptions packetOptions;
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_transportChannel->SendPacket((const char *)prepared->bytes.data(), prepared->bytes.size(), packetOptions, 0);
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addTrafficStats(prepared->bytes.size(), false);
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}
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}
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void NetworkManager::setIsLocalNetworkLowCost(bool isLocalNetworkLowCost) {
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_isLocalNetworkLowCost = isLocalNetworkLowCost;
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logCurrentNetworkState();
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}
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TrafficStats NetworkManager::getNetworkStats() {
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TrafficStats stats;
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stats.bytesSentWifi = _trafficStatsWifi.outgoing;
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stats.bytesReceivedWifi = _trafficStatsWifi.incoming;
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stats.bytesSentMobile = _trafficStatsCellular.outgoing;
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stats.bytesReceivedMobile = _trafficStatsCellular.incoming;
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return stats;
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}
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void NetworkManager::fillCallStats(CallStats &callStats) {
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callStats.networkRecords = _networkRecords;
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}
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void NetworkManager::logCurrentNetworkState() {
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if (!_currentEndpointType.has_value()) {
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return;
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}
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CallStatsNetworkRecord record;
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record.timestamp = (int32_t)(rtc::TimeMillis() / 1000);
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record.endpointType = *_currentEndpointType;
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record.isLowCost = _isLocalNetworkLowCost;
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_networkRecords.push_back(std::move(record));
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}
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void NetworkManager::checkConnectionTimeout() {
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const auto weak = std::weak_ptr<NetworkManager>(shared_from_this());
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_thread->PostDelayedTask([weak]() {
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auto strong = weak.lock();
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if (!strong) {
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return;
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}
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int64_t currentTimestamp = rtc::TimeMillis();
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const int64_t maxTimeout = 20000;
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if (strong->_lastNetworkActivityMs + maxTimeout < currentTimestamp) {
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NetworkManager::State emitState;
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emitState.isReadyToSendData = false;
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emitState.isFailed = true;
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strong->_stateUpdated(emitState);
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}
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strong->checkConnectionTimeout();
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}, webrtc::TimeDelta::Millis(1000));
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}
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void NetworkManager::candidateGathered(cricket::IceTransportInternal *transport, const cricket::Candidate &candidate) {
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assert(_thread->IsCurrent());
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_sendSignalingMessage({ CandidatesListMessage{ { 1, candidate }, _localIceParameters } });
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}
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void NetworkManager::candidateGatheringState(cricket::IceTransportInternal *transport) {
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assert(_thread->IsCurrent());
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}
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void NetworkManager::transportStateChanged(cricket::IceTransportInternal *transport) {
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assert(_thread->IsCurrent());
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auto state = transport->GetIceTransportState();
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bool isConnected = false;
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switch (state) {
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case webrtc::IceTransportState::kConnected:
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case webrtc::IceTransportState::kCompleted:
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isConnected = true;
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break;
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default:
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break;
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}
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NetworkManager::State emitState;
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emitState.isReadyToSendData = isConnected;
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_stateUpdated(emitState);
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}
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void NetworkManager::transportReadyToSend(cricket::IceTransportInternal *transport) {
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assert(_thread->IsCurrent());
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}
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void NetworkManager::transportPacketReceived(rtc::PacketTransportInternal *transport, const char *bytes, size_t size, const int64_t ×tamp, int unused) {
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assert(_thread->IsCurrent());
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_lastNetworkActivityMs = rtc::TimeMillis();
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addTrafficStats(size, true);
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if (auto decrypted = _transport.handleIncomingPacket(bytes, size)) {
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if (_transportMessageReceived) {
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_transportMessageReceived(std::move(decrypted->main));
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for (auto &message : decrypted->additional) {
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_transportMessageReceived(std::move(message));
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}
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}
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}
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}
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void NetworkManager::transportRouteChanged(absl::optional<rtc::NetworkRoute> route) {
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assert(_thread->IsCurrent());
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if (route.has_value()) {
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RTC_LOG(LS_INFO) << "NetworkManager route changed: " << route->DebugString();
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bool localIsWifi = route->local.adapter_type() == rtc::AdapterType::ADAPTER_TYPE_WIFI;
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bool remoteIsWifi = route->remote.adapter_type() == rtc::AdapterType::ADAPTER_TYPE_WIFI;
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RTC_LOG(LS_INFO) << "NetworkManager is wifi: local=" << localIsWifi << ", remote=" << remoteIsWifi;
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CallStatsConnectionEndpointType endpointType;
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if (route->local.uses_turn()) {
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endpointType = CallStatsConnectionEndpointType::ConnectionEndpointTURN;
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} else {
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endpointType = CallStatsConnectionEndpointType::ConnectionEndpointP2P;
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}
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if (!_currentEndpointType.has_value() || _currentEndpointType != endpointType) {
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_currentEndpointType = endpointType;
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logCurrentNetworkState();
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}
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}
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}
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void NetworkManager::addTrafficStats(int64_t byteCount, bool isIncoming) {
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if (_isLocalNetworkLowCost) {
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if (isIncoming) {
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_trafficStatsWifi.incoming += byteCount;
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} else {
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_trafficStatsWifi.outgoing += byteCount;
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}
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} else {
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if (isIncoming) {
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_trafficStatsCellular.incoming += byteCount;
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} else {
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_trafficStatsCellular.outgoing += byteCount;
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}
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}
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}
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} // namespace tgcalls
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