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/*
* 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 "pc/data_channel_controller.h"
#include <utility>
#include "pc/peer_connection.h"
#include "pc/sctp_utils.h"
namespace webrtc {
bool DataChannelController::HasDataChannels() const {
RTC_DCHECK_RUN_ON(signaling_thread());
return !rtp_data_channels_.empty() || !sctp_data_channels_.empty();
}
bool DataChannelController::SendData(const cricket::SendDataParams& params,
const rtc::CopyOnWriteBuffer& payload,
cricket::SendDataResult* result) {
if (data_channel_transport())
return DataChannelSendData(params, payload, result);
if (rtp_data_channel())
return rtp_data_channel()->SendData(params, payload, result);
RTC_LOG(LS_ERROR) << "SendData called before transport is ready";
return false;
}
bool DataChannelController::ConnectDataChannel(
RtpDataChannel* webrtc_data_channel) {
RTC_DCHECK_RUN_ON(signaling_thread());
if (!rtp_data_channel()) {
// Don't log an error here, because DataChannels are expected to call
// ConnectDataChannel in this state. It's the only way to initially tell
// whether or not the underlying transport is ready.
return false;
}
rtp_data_channel()->SignalReadyToSendData.connect(
webrtc_data_channel, &RtpDataChannel::OnChannelReady);
rtp_data_channel()->SignalDataReceived.connect(
webrtc_data_channel, &RtpDataChannel::OnDataReceived);
return true;
}
void DataChannelController::DisconnectDataChannel(
RtpDataChannel* webrtc_data_channel) {
RTC_DCHECK_RUN_ON(signaling_thread());
if (!rtp_data_channel()) {
RTC_LOG(LS_ERROR)
<< "DisconnectDataChannel called when rtp_data_channel_ is NULL.";
return;
}
rtp_data_channel()->SignalReadyToSendData.disconnect(webrtc_data_channel);
rtp_data_channel()->SignalDataReceived.disconnect(webrtc_data_channel);
}
bool DataChannelController::ConnectDataChannel(
SctpDataChannel* webrtc_data_channel) {
RTC_DCHECK_RUN_ON(signaling_thread());
if (!data_channel_transport()) {
// Don't log an error here, because DataChannels are expected to call
// ConnectDataChannel in this state. It's the only way to initially tell
// whether or not the underlying transport is ready.
return false;
}
SignalDataChannelTransportWritable_s.connect(
webrtc_data_channel, &SctpDataChannel::OnTransportReady);
SignalDataChannelTransportReceivedData_s.connect(
webrtc_data_channel, &SctpDataChannel::OnDataReceived);
SignalDataChannelTransportChannelClosing_s.connect(
webrtc_data_channel, &SctpDataChannel::OnClosingProcedureStartedRemotely);
SignalDataChannelTransportChannelClosed_s.connect(
webrtc_data_channel, &SctpDataChannel::OnClosingProcedureComplete);
return true;
}
void DataChannelController::DisconnectDataChannel(
SctpDataChannel* webrtc_data_channel) {
RTC_DCHECK_RUN_ON(signaling_thread());
if (!data_channel_transport()) {
RTC_LOG(LS_ERROR)
<< "DisconnectDataChannel called when sctp_transport_ is NULL.";
return;
}
SignalDataChannelTransportWritable_s.disconnect(webrtc_data_channel);
SignalDataChannelTransportReceivedData_s.disconnect(webrtc_data_channel);
SignalDataChannelTransportChannelClosing_s.disconnect(webrtc_data_channel);
SignalDataChannelTransportChannelClosed_s.disconnect(webrtc_data_channel);
}
void DataChannelController::AddSctpDataStream(int sid) {
if (data_channel_transport()) {
network_thread()->Invoke<void>(RTC_FROM_HERE, [this, sid] {
if (data_channel_transport()) {
data_channel_transport()->OpenChannel(sid);
}
});
}
}
void DataChannelController::RemoveSctpDataStream(int sid) {
if (data_channel_transport()) {
network_thread()->Invoke<void>(RTC_FROM_HERE, [this, sid] {
if (data_channel_transport()) {
data_channel_transport()->CloseChannel(sid);
}
});
}
}
bool DataChannelController::ReadyToSendData() const {
RTC_DCHECK_RUN_ON(signaling_thread());
return (rtp_data_channel() && rtp_data_channel()->ready_to_send_data()) ||
(data_channel_transport() && data_channel_transport_ready_to_send_);
}
void DataChannelController::OnDataReceived(
int channel_id,
DataMessageType type,
const rtc::CopyOnWriteBuffer& buffer) {
RTC_DCHECK_RUN_ON(network_thread());
cricket::ReceiveDataParams params;
params.sid = channel_id;
params.type = ToCricketDataMessageType(type);
data_channel_transport_invoker_->AsyncInvoke<void>(
RTC_FROM_HERE, signaling_thread(), [this, params, buffer] {
RTC_DCHECK_RUN_ON(signaling_thread());
// TODO(bugs.webrtc.org/11547): The data being received should be
// delivered on the network thread. The way HandleOpenMessage_s works
// right now is that it's called for all types of buffers and operates
// as a selector function. Change this so that it's only called for
// buffers that it should be able to handle. Once we do that, we can
// deliver all other buffers on the network thread (change
// SignalDataChannelTransportReceivedData_s to
// SignalDataChannelTransportReceivedData_n).
if (!HandleOpenMessage_s(params, buffer)) {
SignalDataChannelTransportReceivedData_s(params, buffer);
}
});
}
void DataChannelController::OnChannelClosing(int channel_id) {
RTC_DCHECK_RUN_ON(network_thread());
data_channel_transport_invoker_->AsyncInvoke<void>(
RTC_FROM_HERE, signaling_thread(), [this, channel_id] {
RTC_DCHECK_RUN_ON(signaling_thread());
SignalDataChannelTransportChannelClosing_s(channel_id);
});
}
void DataChannelController::OnChannelClosed(int channel_id) {
RTC_DCHECK_RUN_ON(network_thread());
data_channel_transport_invoker_->AsyncInvoke<void>(
RTC_FROM_HERE, signaling_thread(), [this, channel_id] {
RTC_DCHECK_RUN_ON(signaling_thread());
SignalDataChannelTransportChannelClosed_s(channel_id);
});
}
void DataChannelController::OnReadyToSend() {
RTC_DCHECK_RUN_ON(network_thread());
data_channel_transport_invoker_->AsyncInvoke<void>(
RTC_FROM_HERE, signaling_thread(), [this] {
RTC_DCHECK_RUN_ON(signaling_thread());
data_channel_transport_ready_to_send_ = true;
SignalDataChannelTransportWritable_s(
data_channel_transport_ready_to_send_);
});
}
void DataChannelController::OnTransportClosed() {
RTC_DCHECK_RUN_ON(network_thread());
data_channel_transport_invoker_->AsyncInvoke<void>(
RTC_FROM_HERE, signaling_thread(), [this] {
RTC_DCHECK_RUN_ON(signaling_thread());
OnTransportChannelClosed();
});
}
void DataChannelController::SetupDataChannelTransport_n() {
RTC_DCHECK_RUN_ON(network_thread());
data_channel_transport_invoker_ = std::make_unique<rtc::AsyncInvoker>();
// There's a new data channel transport. This needs to be signaled to the
// |sctp_data_channels_| so that they can reopen and reconnect. This is
// necessary when bundling is applied.
NotifyDataChannelsOfTransportCreated();
}
void DataChannelController::TeardownDataChannelTransport_n() {
RTC_DCHECK_RUN_ON(network_thread());
data_channel_transport_invoker_ = nullptr;
if (data_channel_transport()) {
data_channel_transport()->SetDataSink(nullptr);
}
set_data_channel_transport(nullptr);
}
void DataChannelController::OnTransportChanged(
DataChannelTransportInterface* new_data_channel_transport) {
RTC_DCHECK_RUN_ON(network_thread());
if (data_channel_transport() &&
data_channel_transport() != new_data_channel_transport) {
// Changed which data channel transport is used for |sctp_mid_| (eg. now
// it's bundled).
data_channel_transport()->SetDataSink(nullptr);
set_data_channel_transport(new_data_channel_transport);
if (new_data_channel_transport) {
new_data_channel_transport->SetDataSink(this);
// There's a new data channel transport. This needs to be signaled to the
// |sctp_data_channels_| so that they can reopen and reconnect. This is
// necessary when bundling is applied.
NotifyDataChannelsOfTransportCreated();
}
}
}
std::vector<DataChannelStats> DataChannelController::GetDataChannelStats()
const {
RTC_DCHECK_RUN_ON(signaling_thread());
std::vector<DataChannelStats> stats;
stats.reserve(sctp_data_channels_.size());
for (const auto& channel : sctp_data_channels_)
stats.push_back(channel->GetStats());
return stats;
}
bool DataChannelController::HandleOpenMessage_s(
const cricket::ReceiveDataParams& params,
const rtc::CopyOnWriteBuffer& buffer) {
if (params.type == cricket::DMT_CONTROL && IsOpenMessage(buffer)) {
// Received OPEN message; parse and signal that a new data channel should
// be created.
std::string label;
InternalDataChannelInit config;
config.id = params.ssrc;
if (!ParseDataChannelOpenMessage(buffer, &label, &config)) {
RTC_LOG(LS_WARNING) << "Failed to parse the OPEN message for ssrc "
<< params.ssrc;
return true;
}
config.open_handshake_role = InternalDataChannelInit::kAcker;
OnDataChannelOpenMessage(label, config);
return true;
}
return false;
}
void DataChannelController::OnDataChannelOpenMessage(
const std::string& label,
const InternalDataChannelInit& config) {
rtc::scoped_refptr<DataChannelInterface> channel(
InternalCreateDataChannelWithProxy(label, &config));
if (!channel.get()) {
RTC_LOG(LS_ERROR) << "Failed to create DataChannel from the OPEN message.";
return;
}
pc_->Observer()->OnDataChannel(std::move(channel));
pc_->NoteDataAddedEvent();
}
rtc::scoped_refptr<DataChannelInterface>
DataChannelController::InternalCreateDataChannelWithProxy(
const std::string& label,
const InternalDataChannelInit* config) {
RTC_DCHECK_RUN_ON(signaling_thread());
if (pc_->IsClosed()) {
return nullptr;
}
if (data_channel_type_ == cricket::DCT_NONE) {
RTC_LOG(LS_ERROR)
<< "InternalCreateDataChannel: Data is not supported in this call.";
return nullptr;
}
if (IsSctpLike(data_channel_type())) {
rtc::scoped_refptr<SctpDataChannel> channel =
InternalCreateSctpDataChannel(label, config);
if (channel) {
return SctpDataChannel::CreateProxy(channel);
}
} else if (data_channel_type() == cricket::DCT_RTP) {
rtc::scoped_refptr<RtpDataChannel> channel =
InternalCreateRtpDataChannel(label, config);
if (channel) {
return RtpDataChannel::CreateProxy(channel);
}
}
return nullptr;
}
rtc::scoped_refptr<RtpDataChannel>
DataChannelController::InternalCreateRtpDataChannel(
const std::string& label,
const DataChannelInit* config) {
RTC_DCHECK_RUN_ON(signaling_thread());
DataChannelInit new_config = config ? (*config) : DataChannelInit();
rtc::scoped_refptr<RtpDataChannel> channel(
RtpDataChannel::Create(this, label, new_config, signaling_thread()));
if (!channel) {
return nullptr;
}
if (rtp_data_channels_.find(channel->label()) != rtp_data_channels_.end()) {
RTC_LOG(LS_ERROR) << "DataChannel with label " << channel->label()
<< " already exists.";
return nullptr;
}
rtp_data_channels_[channel->label()] = channel;
SignalRtpDataChannelCreated_(channel.get());
return channel;
}
rtc::scoped_refptr<SctpDataChannel>
DataChannelController::InternalCreateSctpDataChannel(
const std::string& label,
const InternalDataChannelInit* config) {
RTC_DCHECK_RUN_ON(signaling_thread());
InternalDataChannelInit new_config =
config ? (*config) : InternalDataChannelInit();
if (new_config.id < 0) {
rtc::SSLRole role;
if ((pc_->GetSctpSslRole(&role)) &&
!sid_allocator_.AllocateSid(role, &new_config.id)) {
RTC_LOG(LS_ERROR) << "No id can be allocated for the SCTP data channel.";
return nullptr;
}
} else if (!sid_allocator_.ReserveSid(new_config.id)) {
RTC_LOG(LS_ERROR) << "Failed to create a SCTP data channel "
"because the id is already in use or out of range.";
return nullptr;
}
rtc::scoped_refptr<SctpDataChannel> channel(SctpDataChannel::Create(
this, label, new_config, signaling_thread(), network_thread()));
if (!channel) {
sid_allocator_.ReleaseSid(new_config.id);
return nullptr;
}
sctp_data_channels_.push_back(channel);
channel->SignalClosed.connect(pc_, &PeerConnection::OnSctpDataChannelClosed);
SignalSctpDataChannelCreated_(channel.get());
return channel;
}
void DataChannelController::AllocateSctpSids(rtc::SSLRole role) {
RTC_DCHECK_RUN_ON(signaling_thread());
std::vector<rtc::scoped_refptr<SctpDataChannel>> channels_to_close;
for (const auto& channel : sctp_data_channels_) {
if (channel->id() < 0) {
int sid;
if (!sid_allocator_.AllocateSid(role, &sid)) {
RTC_LOG(LS_ERROR) << "Failed to allocate SCTP sid, closing channel.";
channels_to_close.push_back(channel);
continue;
}
channel->SetSctpSid(sid);
}
}
// Since closing modifies the list of channels, we have to do the actual
// closing outside the loop.
for (const auto& channel : channels_to_close) {
channel->CloseAbruptlyWithDataChannelFailure("Failed to allocate SCTP SID");
}
}
void DataChannelController::OnSctpDataChannelClosed(SctpDataChannel* channel) {
RTC_DCHECK_RUN_ON(signaling_thread());
for (auto it = sctp_data_channels_.begin(); it != sctp_data_channels_.end();
++it) {
if (it->get() == channel) {
if (channel->id() >= 0) {
// After the closing procedure is done, it's safe to use this ID for
// another data channel.
sid_allocator_.ReleaseSid(channel->id());
}
// Since this method is triggered by a signal from the DataChannel,
// we can't free it directly here; we need to free it asynchronously.
sctp_data_channels_to_free_.push_back(*it);
sctp_data_channels_.erase(it);
signaling_thread()->PostTask(
RTC_FROM_HERE, [self = weak_factory_.GetWeakPtr()] {
if (self) {
RTC_DCHECK_RUN_ON(self->signaling_thread());
self->sctp_data_channels_to_free_.clear();
}
});
return;
}
}
}
void DataChannelController::OnTransportChannelClosed() {
RTC_DCHECK_RUN_ON(signaling_thread());
// Use a temporary copy of the RTP/SCTP DataChannel list because the
// DataChannel may callback to us and try to modify the list.
std::map<std::string, rtc::scoped_refptr<RtpDataChannel>> temp_rtp_dcs;
temp_rtp_dcs.swap(rtp_data_channels_);
for (const auto& kv : temp_rtp_dcs) {
kv.second->OnTransportChannelClosed();
}
std::vector<rtc::scoped_refptr<SctpDataChannel>> temp_sctp_dcs;
temp_sctp_dcs.swap(sctp_data_channels_);
for (const auto& channel : temp_sctp_dcs) {
channel->OnTransportChannelClosed();
}
}
SctpDataChannel* DataChannelController::FindDataChannelBySid(int sid) const {
RTC_DCHECK_RUN_ON(signaling_thread());
for (const auto& channel : sctp_data_channels_) {
if (channel->id() == sid) {
return channel;
}
}
return nullptr;
}
void DataChannelController::UpdateLocalRtpDataChannels(
const cricket::StreamParamsVec& streams) {
std::vector<std::string> existing_channels;
RTC_DCHECK_RUN_ON(signaling_thread());
// Find new and active data channels.
for (const cricket::StreamParams& params : streams) {
// |it->sync_label| is actually the data channel label. The reason is that
// we use the same naming of data channels as we do for
// MediaStreams and Tracks.
// For MediaStreams, the sync_label is the MediaStream label and the
// track label is the same as |streamid|.
const std::string& channel_label = params.first_stream_id();
auto data_channel_it = rtp_data_channels()->find(channel_label);
if (data_channel_it == rtp_data_channels()->end()) {
RTC_LOG(LS_ERROR) << "channel label not found";
continue;
}
// Set the SSRC the data channel should use for sending.
data_channel_it->second->SetSendSsrc(params.first_ssrc());
existing_channels.push_back(data_channel_it->first);
}
UpdateClosingRtpDataChannels(existing_channels, true);
}
void DataChannelController::UpdateRemoteRtpDataChannels(
const cricket::StreamParamsVec& streams) {
RTC_DCHECK_RUN_ON(signaling_thread());
std::vector<std::string> existing_channels;
// Find new and active data channels.
for (const cricket::StreamParams& params : streams) {
// The data channel label is either the mslabel or the SSRC if the mslabel
// does not exist. Ex a=ssrc:444330170 mslabel:test1.
std::string label = params.first_stream_id().empty()
? rtc::ToString(params.first_ssrc())
: params.first_stream_id();
auto data_channel_it = rtp_data_channels()->find(label);
if (data_channel_it == rtp_data_channels()->end()) {
// This is a new data channel.
CreateRemoteRtpDataChannel(label, params.first_ssrc());
} else {
data_channel_it->second->SetReceiveSsrc(params.first_ssrc());
}
existing_channels.push_back(label);
}
UpdateClosingRtpDataChannels(existing_channels, false);
}
cricket::DataChannelType DataChannelController::data_channel_type() const {
// TODO(bugs.webrtc.org/9987): Should be restricted to the signaling thread.
// RTC_DCHECK_RUN_ON(signaling_thread());
return data_channel_type_;
}
void DataChannelController::set_data_channel_type(
cricket::DataChannelType type) {
RTC_DCHECK_RUN_ON(signaling_thread());
data_channel_type_ = type;
}
DataChannelTransportInterface* DataChannelController::data_channel_transport()
const {
// TODO(bugs.webrtc.org/11547): Only allow this accessor to be called on the
// network thread.
// RTC_DCHECK_RUN_ON(network_thread());
return data_channel_transport_;
}
void DataChannelController::set_data_channel_transport(
DataChannelTransportInterface* transport) {
RTC_DCHECK_RUN_ON(network_thread());
data_channel_transport_ = transport;
}
const std::map<std::string, rtc::scoped_refptr<RtpDataChannel>>*
DataChannelController::rtp_data_channels() const {
RTC_DCHECK_RUN_ON(signaling_thread());
return &rtp_data_channels_;
}
void DataChannelController::UpdateClosingRtpDataChannels(
const std::vector<std::string>& active_channels,
bool is_local_update) {
auto it = rtp_data_channels_.begin();
while (it != rtp_data_channels_.end()) {
RtpDataChannel* data_channel = it->second;
if (absl::c_linear_search(active_channels, data_channel->label())) {
++it;
continue;
}
if (is_local_update) {
data_channel->SetSendSsrc(0);
} else {
data_channel->RemotePeerRequestClose();
}
if (data_channel->state() == RtpDataChannel::kClosed) {
rtp_data_channels_.erase(it);
it = rtp_data_channels_.begin();
} else {
++it;
}
}
}
void DataChannelController::CreateRemoteRtpDataChannel(const std::string& label,
uint32_t remote_ssrc) {
if (data_channel_type() != cricket::DCT_RTP) {
return;
}
rtc::scoped_refptr<RtpDataChannel> channel(
InternalCreateRtpDataChannel(label, nullptr));
if (!channel.get()) {
RTC_LOG(LS_WARNING) << "Remote peer requested a DataChannel but"
"CreateDataChannel failed.";
return;
}
channel->SetReceiveSsrc(remote_ssrc);
rtc::scoped_refptr<DataChannelInterface> proxy_channel =
RtpDataChannel::CreateProxy(std::move(channel));
pc_->Observer()->OnDataChannel(std::move(proxy_channel));
}
bool DataChannelController::DataChannelSendData(
const cricket::SendDataParams& params,
const rtc::CopyOnWriteBuffer& payload,
cricket::SendDataResult* result) {
// TODO(bugs.webrtc.org/11547): Expect method to be called on the network
// thread instead. Remove the Invoke() below and move assocated state to
// the network thread.
RTC_DCHECK_RUN_ON(signaling_thread());
RTC_DCHECK(data_channel_transport());
SendDataParams send_params;
send_params.type = ToWebrtcDataMessageType(params.type);
send_params.ordered = params.ordered;
if (params.max_rtx_count >= 0) {
send_params.max_rtx_count = params.max_rtx_count;
} else if (params.max_rtx_ms >= 0) {
send_params.max_rtx_ms = params.max_rtx_ms;
}
RTCError error = network_thread()->Invoke<RTCError>(
RTC_FROM_HERE, [this, params, send_params, payload] {
return data_channel_transport()->SendData(params.sid, send_params,
payload);
});
if (error.ok()) {
*result = cricket::SendDataResult::SDR_SUCCESS;
return true;
} else if (error.type() == RTCErrorType::RESOURCE_EXHAUSTED) {
// SCTP transport uses RESOURCE_EXHAUSTED when it's blocked.
// TODO(mellem): Stop using RTCError here and get rid of the mapping.
*result = cricket::SendDataResult::SDR_BLOCK;
return false;
}
*result = cricket::SendDataResult::SDR_ERROR;
return false;
}
void DataChannelController::NotifyDataChannelsOfTransportCreated() {
RTC_DCHECK_RUN_ON(network_thread());
data_channel_transport_invoker_->AsyncInvoke<void>(
RTC_FROM_HERE, signaling_thread(), [this] {
RTC_DCHECK_RUN_ON(signaling_thread());
for (const auto& channel : sctp_data_channels_) {
channel->OnTransportChannelCreated();
}
});
}
rtc::Thread* DataChannelController::network_thread() const {
return pc_->network_thread();
}
rtc::Thread* DataChannelController::signaling_thread() const {
return pc_->signaling_thread();
}
} // namespace webrtc