Nagram/TMessagesProj/jni/voip/tgcalls/group/GroupNetworkManager.cpp
2021-06-25 03:43:10 +03:00

494 lines
17 KiB
C++

#include "group/GroupNetworkManager.h"
#include "p2p/base/basic_packet_socket_factory.h"
#include "p2p/client/basic_port_allocator.h"
#include "p2p/base/p2p_transport_channel.h"
#include "p2p/base/basic_async_resolver_factory.h"
#include "api/packet_socket_factory.h"
#include "rtc_base/task_utils/to_queued_task.h"
#include "rtc_base/rtc_certificate_generator.h"
#include "p2p/base/ice_credentials_iterator.h"
#include "api/jsep_ice_candidate.h"
#include "p2p/base/dtls_transport.h"
#include "p2p/base/dtls_transport_factory.h"
#include "pc/dtls_srtp_transport.h"
#include "pc/dtls_transport.h"
#include "media/sctp/sctp_transport_factory.h"
#include "platform/PlatformInterface.h"
#include "StaticThreads.h"
namespace tgcalls {
class TurnCustomizerImpl : public webrtc::TurnCustomizer {
public:
TurnCustomizerImpl() {
}
virtual ~TurnCustomizerImpl() {
}
void MaybeModifyOutgoingStunMessage(cricket::PortInterface* port,
cricket::StunMessage* message) override {
message->AddAttribute(std::make_unique<cricket::StunByteStringAttribute>(cricket::STUN_ATTR_SOFTWARE, "Telegram "));
}
bool AllowChannelData(cricket::PortInterface* port, const void *data, size_t size, bool payload) override {
return true;
}
};
class SctpDataChannelProviderInterfaceImpl : public sigslot::has_slots<>, public webrtc::SctpDataChannelProviderInterface, public webrtc::DataChannelObserver {
public:
SctpDataChannelProviderInterfaceImpl(
cricket::DtlsTransport *transportChannel,
std::function<void(bool)> onStateChanged,
std::function<void(std::string const &)> onMessageReceived,
std::shared_ptr<Threads> threads
) :
_threads(std::move(threads)),
_onStateChanged(onStateChanged),
_onMessageReceived(onMessageReceived) {
assert(_threads->getNetworkThread()->IsCurrent());
_sctpTransportFactory.reset(new cricket::SctpTransportFactory(_threads->getNetworkThread()));
_sctpTransport = _sctpTransportFactory->CreateSctpTransport(transportChannel);
_sctpTransport->SignalReadyToSendData.connect(this, &SctpDataChannelProviderInterfaceImpl::sctpReadyToSendData);
_sctpTransport->SignalDataReceived.connect(this, &SctpDataChannelProviderInterfaceImpl::sctpDataReceived);
webrtc::InternalDataChannelInit dataChannelInit;
dataChannelInit.id = 0;
_dataChannel = webrtc::SctpDataChannel::Create(
this,
"data",
dataChannelInit,
_threads->getNetworkThread(),
_threads->getNetworkThread()
);
_dataChannel->RegisterObserver(this);
}
virtual ~SctpDataChannelProviderInterfaceImpl() {
assert(_threads->getNetworkThread()->IsCurrent());
_dataChannel->UnregisterObserver();
_dataChannel->Close();
_dataChannel = nullptr;
_sctpTransport = nullptr;
_sctpTransportFactory.reset();
}
void sendDataChannelMessage(std::string const &message) {
assert(_threads->getNetworkThread()->IsCurrent());
if (_isDataChannelOpen) {
RTC_LOG(LS_INFO) << "Outgoing DataChannel message: " << message;
webrtc::DataBuffer buffer(message);
_dataChannel->Send(buffer);
} else {
RTC_LOG(LS_INFO) << "Could not send an outgoing DataChannel message: the channel is not open";
}
}
virtual void OnStateChange() override {
assert(_threads->getNetworkThread()->IsCurrent());
auto state = _dataChannel->state();
bool isDataChannelOpen = state == webrtc::DataChannelInterface::DataState::kOpen;
if (_isDataChannelOpen != isDataChannelOpen) {
_isDataChannelOpen = isDataChannelOpen;
_onStateChanged(_isDataChannelOpen);
}
}
virtual void OnMessage(const webrtc::DataBuffer& buffer) override {
assert(_threads->getNetworkThread()->IsCurrent());
if (!buffer.binary) {
std::string messageText(buffer.data.data(), buffer.data.data() + buffer.data.size());
RTC_LOG(LS_INFO) << "Incoming DataChannel message: " << messageText;
_onMessageReceived(messageText);
}
}
void updateIsConnected(bool isConnected) {
assert(_threads->getNetworkThread()->IsCurrent());
if (isConnected) {
if (!_isSctpTransportStarted) {
_isSctpTransportStarted = true;
_sctpTransport->Start(5000, 5000, 262144);
}
}
}
void sctpReadyToSendData() {
assert(_threads->getNetworkThread()->IsCurrent());
_dataChannel->OnTransportReady(true);
}
void sctpDataReceived(const cricket::ReceiveDataParams& params, const rtc::CopyOnWriteBuffer& buffer) {
assert(_threads->getNetworkThread()->IsCurrent());
_dataChannel->OnDataReceived(params, buffer);
}
virtual bool SendData(int sid, const webrtc::SendDataParams& params, const rtc::CopyOnWriteBuffer& payload, cricket::SendDataResult* result) override {
assert(_threads->getNetworkThread()->IsCurrent());
return _sctpTransport->SendData(sid, params, payload);
}
virtual bool ConnectDataChannel(webrtc::SctpDataChannel *data_channel) override {
assert(_threads->getNetworkThread()->IsCurrent());
return true;
}
virtual void DisconnectDataChannel(webrtc::SctpDataChannel* data_channel) override {
assert(_threads->getNetworkThread()->IsCurrent());
return;
}
virtual void AddSctpDataStream(int sid) override {
assert(_threads->getNetworkThread()->IsCurrent());
_sctpTransport->OpenStream(sid);
}
virtual void RemoveSctpDataStream(int sid) override {
assert(_threads->getNetworkThread()->IsCurrent());
_threads->getNetworkThread()->Invoke<void>(RTC_FROM_HERE, [this, sid]() {
_sctpTransport->ResetStream(sid);
});
}
virtual bool ReadyToSendData() const override {
assert(_threads->getNetworkThread()->IsCurrent());
return _sctpTransport->ReadyToSendData();
}
private:
std::shared_ptr<Threads> _threads;
std::function<void(bool)> _onStateChanged;
std::function<void(std::string const &)> _onMessageReceived;
std::unique_ptr<cricket::SctpTransportFactory> _sctpTransportFactory;
std::unique_ptr<cricket::SctpTransportInternal> _sctpTransport;
rtc::scoped_refptr<webrtc::SctpDataChannel> _dataChannel;
bool _isSctpTransportStarted = false;
bool _isDataChannelOpen = false;
};
webrtc::CryptoOptions GroupNetworkManager::getDefaulCryptoOptions() {
auto options = webrtc::CryptoOptions();
options.srtp.enable_aes128_sha1_80_crypto_cipher = false;
options.srtp.enable_gcm_crypto_suites = true;
return options;
}
GroupNetworkManager::GroupNetworkManager(
std::function<void(const State &)> stateUpdated,
std::function<void(rtc::CopyOnWriteBuffer const &, bool)> transportMessageReceived,
std::function<void(bool)> dataChannelStateUpdated,
std::function<void(std::string const &)> dataChannelMessageReceived,
std::shared_ptr<Threads> threads) :
_threads(std::move(threads)),
_stateUpdated(std::move(stateUpdated)),
_transportMessageReceived(std::move(transportMessageReceived)),
_dataChannelStateUpdated(dataChannelStateUpdated),
_dataChannelMessageReceived(dataChannelMessageReceived) {
assert(_threads->getNetworkThread()->IsCurrent());
_localIceParameters = PeerIceParameters(rtc::CreateRandomString(cricket::ICE_UFRAG_LENGTH), rtc::CreateRandomString(cricket::ICE_PWD_LENGTH));
_localCertificate = rtc::RTCCertificateGenerator::GenerateCertificate(rtc::KeyParams(rtc::KT_ECDSA), absl::nullopt);
_networkMonitorFactory = PlatformInterface::SharedInstance()->createNetworkMonitorFactory();
_socketFactory.reset(new rtc::BasicPacketSocketFactory(_threads->getNetworkThread()));
_networkManager = std::make_unique<rtc::BasicNetworkManager>(_networkMonitorFactory.get());
_asyncResolverFactory = std::make_unique<webrtc::BasicAsyncResolverFactory>();
_dtlsSrtpTransport = std::make_unique<webrtc::DtlsSrtpTransport>(true);
_dtlsSrtpTransport->SetDtlsTransports(nullptr, nullptr);
_dtlsSrtpTransport->SetActiveResetSrtpParams(false);
_dtlsSrtpTransport->SignalReadyToSend.connect(this, &GroupNetworkManager::DtlsReadyToSend);
_dtlsSrtpTransport->SignalRtpPacketReceived.connect(this, &GroupNetworkManager::RtpPacketReceived_n);
resetDtlsSrtpTransport();
}
GroupNetworkManager::~GroupNetworkManager() {
assert(_threads->getNetworkThread()->IsCurrent());
RTC_LOG(LS_INFO) << "GroupNetworkManager::~GroupNetworkManager()";
_dtlsSrtpTransport.reset();
_dtlsTransport.reset();
_dataChannelInterface.reset();
_transportChannel.reset();
_asyncResolverFactory.reset();
_portAllocator.reset();
_networkManager.reset();
_socketFactory.reset();
}
void GroupNetworkManager::resetDtlsSrtpTransport() {
_portAllocator.reset(new cricket::BasicPortAllocator(_networkManager.get(), _socketFactory.get(), _turnCustomizer.get(), nullptr));
_portAllocator->set_flags(_portAllocator->flags());
_portAllocator->Initialize();
_portAllocator->SetConfiguration({}, {}, 2, webrtc::NO_PRUNE, _turnCustomizer.get());
_transportChannel.reset(new cricket::P2PTransportChannel("transport", 0, _portAllocator.get(), _asyncResolverFactory.get(), nullptr));
cricket::IceConfig iceConfig;
iceConfig.continual_gathering_policy = cricket::GATHER_ONCE;
iceConfig.prioritize_most_likely_candidate_pairs = true;
iceConfig.regather_on_failed_networks_interval = 8000;
_transportChannel->SetIceConfig(iceConfig);
cricket::IceParameters localIceParameters(
_localIceParameters.ufrag,
_localIceParameters.pwd,
false
);
_transportChannel->SetIceParameters(localIceParameters);
const bool isOutgoing = false;
_transportChannel->SetIceRole(isOutgoing ? cricket::ICEROLE_CONTROLLING : cricket::ICEROLE_CONTROLLED);
_transportChannel->SetRemoteIceMode(cricket::ICEMODE_LITE);
_transportChannel->SignalIceTransportStateChanged.connect(this, &GroupNetworkManager::transportStateChanged);
_transportChannel->SignalReadPacket.connect(this, &GroupNetworkManager::transportPacketReceived);
webrtc::CryptoOptions cryptoOptions = GroupNetworkManager::getDefaulCryptoOptions();
_dtlsTransport.reset(new cricket::DtlsTransport(_transportChannel.get(), cryptoOptions, nullptr));
_dtlsTransport->SignalWritableState.connect(
this, &GroupNetworkManager::OnTransportWritableState_n);
_dtlsTransport->SignalReceivingState.connect(
this, &GroupNetworkManager::OnTransportReceivingState_n);
_dtlsTransport->SetDtlsRole(rtc::SSLRole::SSL_SERVER);
_dtlsTransport->SetLocalCertificate(_localCertificate);
_dtlsSrtpTransport->SetDtlsTransports(_dtlsTransport.get(), nullptr);
}
void GroupNetworkManager::start() {
_transportChannel->MaybeStartGathering();
const auto weak = std::weak_ptr<GroupNetworkManager>(shared_from_this());
_dataChannelInterface.reset(new SctpDataChannelProviderInterfaceImpl(
_dtlsTransport.get(),
[weak, threads = _threads](bool state) {
assert(threads->getNetworkThread()->IsCurrent());
const auto strong = weak.lock();
if (!strong) {
return;
}
strong->_dataChannelStateUpdated(state);
},
[weak, threads = _threads](std::string const &message) {
assert(threads->getNetworkThread()->IsCurrent());
const auto strong = weak.lock();
if (!strong) {
return;
}
strong->_dataChannelMessageReceived(message);
},
_threads
));
}
void GroupNetworkManager::stop() {
_transportChannel->SignalIceTransportStateChanged.disconnect(this);
_transportChannel->SignalReadPacket.disconnect(this);
_dtlsTransport->SignalWritableState.disconnect(this);
_dtlsTransport->SignalReceivingState.disconnect(this);
_dtlsSrtpTransport->SetDtlsTransports(nullptr, nullptr);
_dataChannelInterface.reset();
_dtlsTransport.reset();
_transportChannel.reset();
_portAllocator.reset();
_localIceParameters = PeerIceParameters(rtc::CreateRandomString(cricket::ICE_UFRAG_LENGTH), rtc::CreateRandomString(cricket::ICE_PWD_LENGTH));
_localCertificate = rtc::RTCCertificateGenerator::GenerateCertificate(rtc::KeyParams(rtc::KT_ECDSA), absl::nullopt);
resetDtlsSrtpTransport();
}
PeerIceParameters GroupNetworkManager::getLocalIceParameters() {
return _localIceParameters;
}
std::unique_ptr<rtc::SSLFingerprint> GroupNetworkManager::getLocalFingerprint() {
auto certificate = _localCertificate;
if (!certificate) {
return nullptr;
}
return rtc::SSLFingerprint::CreateFromCertificate(*certificate);
}
void GroupNetworkManager::setRemoteParams(PeerIceParameters const &remoteIceParameters, std::vector<cricket::Candidate> const &iceCandidates, rtc::SSLFingerprint *fingerprint) {
_remoteIceParameters = remoteIceParameters;
cricket::IceParameters parameters(
remoteIceParameters.ufrag,
remoteIceParameters.pwd,
false
);
_transportChannel->SetRemoteIceParameters(parameters);
for (const auto &candidate : iceCandidates) {
_transportChannel->AddRemoteCandidate(candidate);
}
if (fingerprint) {
_dtlsTransport->SetRemoteFingerprint(fingerprint->algorithm, fingerprint->digest.data(), fingerprint->digest.size());
}
}
void GroupNetworkManager::sendDataChannelMessage(std::string const &message) {
if (_dataChannelInterface) {
_dataChannelInterface->sendDataChannelMessage(message);
}
}
webrtc::RtpTransport *GroupNetworkManager::getRtpTransport() {
return _dtlsSrtpTransport.get();
}
void GroupNetworkManager::checkConnectionTimeout() {
const auto weak = std::weak_ptr<GroupNetworkManager>(shared_from_this());
_threads->getNetworkThread()->PostDelayedTask(RTC_FROM_HERE, [weak]() {
auto strong = weak.lock();
if (!strong) {
return;
}
int64_t currentTimestamp = rtc::TimeMillis();
const int64_t maxTimeout = 20000;
if (strong->_lastNetworkActivityMs + maxTimeout < currentTimestamp) {
GroupNetworkManager::State emitState;
emitState.isReadyToSendData = false;
emitState.isFailed = true;
strong->_stateUpdated(emitState);
}
strong->checkConnectionTimeout();
}, 1000);
}
void GroupNetworkManager::candidateGathered(cricket::IceTransportInternal *transport, const cricket::Candidate &candidate) {
assert(_threads->getNetworkThread()->IsCurrent());
}
void GroupNetworkManager::candidateGatheringState(cricket::IceTransportInternal *transport) {
assert(_threads->getNetworkThread()->IsCurrent());
}
void GroupNetworkManager::OnTransportWritableState_n(rtc::PacketTransportInternal *transport) {
assert(_threads->getNetworkThread()->IsCurrent());
UpdateAggregateStates_n();
}
void GroupNetworkManager::OnTransportReceivingState_n(rtc::PacketTransportInternal *transport) {
assert(_threads->getNetworkThread()->IsCurrent());
UpdateAggregateStates_n();
}
void GroupNetworkManager::DtlsReadyToSend(bool isReadyToSend) {
UpdateAggregateStates_n();
if (isReadyToSend) {
const auto weak = std::weak_ptr<GroupNetworkManager>(shared_from_this());
_threads->getNetworkThread()->PostTask(RTC_FROM_HERE, [weak]() {
const auto strong = weak.lock();
if (!strong) {
return;
}
strong->UpdateAggregateStates_n();
});
}
}
void GroupNetworkManager::transportStateChanged(cricket::IceTransportInternal *transport) {
UpdateAggregateStates_n();
}
void GroupNetworkManager::transportReadyToSend(cricket::IceTransportInternal *transport) {
assert(_threads->getNetworkThread()->IsCurrent());
}
void GroupNetworkManager::transportPacketReceived(rtc::PacketTransportInternal *transport, const char *bytes, size_t size, const int64_t &timestamp, int unused) {
assert(_threads->getNetworkThread()->IsCurrent());
_lastNetworkActivityMs = rtc::TimeMillis();
}
void GroupNetworkManager::RtpPacketReceived_n(rtc::CopyOnWriteBuffer *packet, int64_t packet_time_us, bool isUnresolved) {
if (_transportMessageReceived) {
_transportMessageReceived(*packet, isUnresolved);
}
}
void GroupNetworkManager::UpdateAggregateStates_n() {
assert(_threads->getNetworkThread()->IsCurrent());
auto state = _transportChannel->GetIceTransportState();
bool isConnected = false;
switch (state) {
case webrtc::IceTransportState::kConnected:
case webrtc::IceTransportState::kCompleted:
isConnected = true;
break;
default:
break;
}
if (!_dtlsSrtpTransport->IsWritable(false)) {
isConnected = false;
}
if (_isConnected != isConnected) {
_isConnected = isConnected;
GroupNetworkManager::State emitState;
emitState.isReadyToSendData = isConnected;
_stateUpdated(emitState);
if (_dataChannelInterface) {
_dataChannelInterface->updateIsConnected(isConnected);
}
}
}
void GroupNetworkManager::sctpReadyToSendData() {
}
void GroupNetworkManager::sctpDataReceived(const cricket::ReceiveDataParams& params, const rtc::CopyOnWriteBuffer& buffer) {
}
} // namespace tgcalls