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/*
* Copyright 2017 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/rtp_transceiver.h"
#include <string>
#include <utility>
#include <vector>
#include "absl/algorithm/container.h"
#include "api/rtp_parameters.h"
#include "pc/channel_manager.h"
#include "pc/rtp_media_utils.h"
#include "pc/rtp_parameters_conversion.h"
#include "pc/session_description.h"
#include "rtc_base/checks.h"
#include "rtc_base/logging.h"
namespace webrtc {
namespace {
template <class T>
RTCError VerifyCodecPreferences(const std::vector<RtpCodecCapability>& codecs,
const std::vector<T>& send_codecs,
const std::vector<T>& recv_codecs) {
// If the intersection between codecs and
// RTCRtpSender.getCapabilities(kind).codecs or the intersection between
// codecs and RTCRtpReceiver.getCapabilities(kind).codecs only contains RTX,
// RED or FEC codecs or is an empty set, throw InvalidModificationError.
// This ensures that we always have something to offer, regardless of
// transceiver.direction.
if (!absl::c_any_of(codecs, [&recv_codecs](const RtpCodecCapability& codec) {
return codec.name != cricket::kRtxCodecName &&
codec.name != cricket::kRedCodecName &&
codec.name != cricket::kFlexfecCodecName &&
absl::c_any_of(recv_codecs, [&codec](const T& recv_codec) {
return recv_codec.MatchesCapability(codec);
});
})) {
return RTCError(RTCErrorType::INVALID_MODIFICATION,
"Invalid codec preferences: Missing codec from recv "
"codec capabilities.");
}
if (!absl::c_any_of(codecs, [&send_codecs](const RtpCodecCapability& codec) {
return codec.name != cricket::kRtxCodecName &&
codec.name != cricket::kRedCodecName &&
codec.name != cricket::kFlexfecCodecName &&
absl::c_any_of(send_codecs, [&codec](const T& send_codec) {
return send_codec.MatchesCapability(codec);
});
})) {
return RTCError(RTCErrorType::INVALID_MODIFICATION,
"Invalid codec preferences: Missing codec from send "
"codec capabilities.");
}
// Let codecCapabilities be the union of
// RTCRtpSender.getCapabilities(kind).codecs and
// RTCRtpReceiver.getCapabilities(kind).codecs. For each codec in codecs, If
// codec is not in codecCapabilities, throw InvalidModificationError.
for (const auto& codec_preference : codecs) {
bool is_recv_codec =
absl::c_any_of(recv_codecs, [&codec_preference](const T& codec) {
return codec.MatchesCapability(codec_preference);
});
bool is_send_codec =
absl::c_any_of(send_codecs, [&codec_preference](const T& codec) {
return codec.MatchesCapability(codec_preference);
});
if (!is_recv_codec && !is_send_codec) {
return RTCError(
RTCErrorType::INVALID_MODIFICATION,
std::string("Invalid codec preferences: invalid codec with name \"") +
codec_preference.name + "\".");
}
}
// Check we have a real codec (not just rtx, red or fec)
if (absl::c_all_of(codecs, [](const RtpCodecCapability& codec) {
return codec.name == cricket::kRtxCodecName ||
codec.name == cricket::kRedCodecName ||
codec.name == cricket::kUlpfecCodecName;
})) {
return RTCError(RTCErrorType::INVALID_MODIFICATION,
"Invalid codec preferences: codec list must have a non "
"RTX, RED or FEC entry.");
}
return RTCError::OK();
}
TaskQueueBase* GetCurrentTaskQueueOrThread() {
TaskQueueBase* current = TaskQueueBase::Current();
if (!current)
current = rtc::ThreadManager::Instance()->CurrentThread();
return current;
}
} // namespace
RtpTransceiver::RtpTransceiver(cricket::MediaType media_type)
: thread_(GetCurrentTaskQueueOrThread()),
unified_plan_(false),
media_type_(media_type) {
RTC_DCHECK(media_type == cricket::MEDIA_TYPE_AUDIO ||
media_type == cricket::MEDIA_TYPE_VIDEO);
}
RtpTransceiver::RtpTransceiver(
rtc::scoped_refptr<RtpSenderProxyWithInternal<RtpSenderInternal>> sender,
rtc::scoped_refptr<RtpReceiverProxyWithInternal<RtpReceiverInternal>>
receiver,
cricket::ChannelManager* channel_manager,
std::vector<RtpHeaderExtensionCapability> header_extensions_offered,
std::function<void()> on_negotiation_needed)
: thread_(GetCurrentTaskQueueOrThread()),
unified_plan_(true),
media_type_(sender->media_type()),
channel_manager_(channel_manager),
header_extensions_to_offer_(std::move(header_extensions_offered)),
on_negotiation_needed_(std::move(on_negotiation_needed)) {
RTC_DCHECK(media_type_ == cricket::MEDIA_TYPE_AUDIO ||
media_type_ == cricket::MEDIA_TYPE_VIDEO);
RTC_DCHECK_EQ(sender->media_type(), receiver->media_type());
senders_.push_back(sender);
receivers_.push_back(receiver);
}
RtpTransceiver::~RtpTransceiver() {
StopInternal();
}
void RtpTransceiver::SetChannel(cricket::ChannelInterface* channel) {
// Cannot set a non-null channel on a stopped transceiver.
if (stopped_ && channel) {
return;
}
if (channel) {
RTC_DCHECK_EQ(media_type(), channel->media_type());
}
if (channel_) {
channel_->SignalFirstPacketReceived().disconnect(this);
}
channel_ = channel;
if (channel_) {
channel_->SignalFirstPacketReceived().connect(
this, &RtpTransceiver::OnFirstPacketReceived);
}
for (const auto& sender : senders_) {
sender->internal()->SetMediaChannel(channel_ ? channel_->media_channel()
: nullptr);
}
for (const auto& receiver : receivers_) {
if (!channel_) {
receiver->internal()->Stop();
}
receiver->internal()->SetMediaChannel(channel_ ? channel_->media_channel()
: nullptr);
}
}
void RtpTransceiver::AddSender(
rtc::scoped_refptr<RtpSenderProxyWithInternal<RtpSenderInternal>> sender) {
RTC_DCHECK(!stopped_);
RTC_DCHECK(!unified_plan_);
RTC_DCHECK(sender);
RTC_DCHECK_EQ(media_type(), sender->media_type());
RTC_DCHECK(!absl::c_linear_search(senders_, sender));
senders_.push_back(sender);
}
bool RtpTransceiver::RemoveSender(RtpSenderInterface* sender) {
RTC_DCHECK(!unified_plan_);
if (sender) {
RTC_DCHECK_EQ(media_type(), sender->media_type());
}
auto it = absl::c_find(senders_, sender);
if (it == senders_.end()) {
return false;
}
(*it)->internal()->Stop();
senders_.erase(it);
return true;
}
void RtpTransceiver::AddReceiver(
rtc::scoped_refptr<RtpReceiverProxyWithInternal<RtpReceiverInternal>>
receiver) {
RTC_DCHECK(!stopped_);
RTC_DCHECK(!unified_plan_);
RTC_DCHECK(receiver);
RTC_DCHECK_EQ(media_type(), receiver->media_type());
RTC_DCHECK(!absl::c_linear_search(receivers_, receiver));
receivers_.push_back(receiver);
}
bool RtpTransceiver::RemoveReceiver(RtpReceiverInterface* receiver) {
RTC_DCHECK(!unified_plan_);
if (receiver) {
RTC_DCHECK_EQ(media_type(), receiver->media_type());
}
auto it = absl::c_find(receivers_, receiver);
if (it == receivers_.end()) {
return false;
}
(*it)->internal()->Stop();
// After the receiver has been removed, there's no guarantee that the
// contained media channel isn't deleted shortly after this. To make sure that
// the receiver doesn't spontaneously try to use it's (potentially stale)
// media channel reference, we clear it out.
(*it)->internal()->SetMediaChannel(nullptr);
receivers_.erase(it);
return true;
}
rtc::scoped_refptr<RtpSenderInternal> RtpTransceiver::sender_internal() const {
RTC_DCHECK(unified_plan_);
RTC_CHECK_EQ(1u, senders_.size());
return senders_[0]->internal();
}
rtc::scoped_refptr<RtpReceiverInternal> RtpTransceiver::receiver_internal()
const {
RTC_DCHECK(unified_plan_);
RTC_CHECK_EQ(1u, receivers_.size());
return receivers_[0]->internal();
}
cricket::MediaType RtpTransceiver::media_type() const {
return media_type_;
}
absl::optional<std::string> RtpTransceiver::mid() const {
return mid_;
}
void RtpTransceiver::OnFirstPacketReceived(cricket::ChannelInterface*) {
for (const auto& receiver : receivers_) {
receiver->internal()->NotifyFirstPacketReceived();
}
}
rtc::scoped_refptr<RtpSenderInterface> RtpTransceiver::sender() const {
RTC_DCHECK(unified_plan_);
RTC_CHECK_EQ(1u, senders_.size());
return senders_[0];
}
rtc::scoped_refptr<RtpReceiverInterface> RtpTransceiver::receiver() const {
RTC_DCHECK(unified_plan_);
RTC_CHECK_EQ(1u, receivers_.size());
return receivers_[0];
}
void RtpTransceiver::set_current_direction(RtpTransceiverDirection direction) {
RTC_LOG(LS_INFO) << "Changing transceiver (MID=" << mid_.value_or("<not set>")
<< ") current direction from "
<< (current_direction_ ? RtpTransceiverDirectionToString(
*current_direction_)
: "<not set>")
<< " to " << RtpTransceiverDirectionToString(direction)
<< ".";
current_direction_ = direction;
if (RtpTransceiverDirectionHasSend(*current_direction_)) {
has_ever_been_used_to_send_ = true;
}
}
void RtpTransceiver::set_fired_direction(RtpTransceiverDirection direction) {
fired_direction_ = direction;
}
bool RtpTransceiver::stopped() const {
return stopped_;
}
bool RtpTransceiver::stopping() const {
RTC_DCHECK_RUN_ON(thread_);
return stopping_;
}
RtpTransceiverDirection RtpTransceiver::direction() const {
if (unified_plan_ && stopping())
return webrtc::RtpTransceiverDirection::kStopped;
return direction_;
}
RTCError RtpTransceiver::SetDirectionWithError(
RtpTransceiverDirection new_direction) {
if (unified_plan_ && stopping()) {
LOG_AND_RETURN_ERROR(RTCErrorType::INVALID_STATE,
"Cannot set direction on a stopping transceiver.");
}
if (new_direction == direction_)
return RTCError::OK();
if (new_direction == RtpTransceiverDirection::kStopped) {
LOG_AND_RETURN_ERROR(RTCErrorType::INVALID_PARAMETER,
"The set direction 'stopped' is invalid.");
}
direction_ = new_direction;
on_negotiation_needed_();
return RTCError::OK();
}
absl::optional<RtpTransceiverDirection> RtpTransceiver::current_direction()
const {
if (unified_plan_ && stopped())
return webrtc::RtpTransceiverDirection::kStopped;
return current_direction_;
}
absl::optional<RtpTransceiverDirection> RtpTransceiver::fired_direction()
const {
return fired_direction_;
}
void RtpTransceiver::StopSendingAndReceiving() {
// 1. Let sender be transceiver.[[Sender]].
// 2. Let receiver be transceiver.[[Receiver]].
//
// 3. Stop sending media with sender.
//
// 4. Send an RTCP BYE for each RTP stream that was being sent by sender, as
// specified in [RFC3550].
RTC_DCHECK_RUN_ON(thread_);
for (const auto& sender : senders_)
sender->internal()->Stop();
// 5. Stop receiving media with receiver.
for (const auto& receiver : receivers_)
receiver->internal()->StopAndEndTrack();
stopping_ = true;
direction_ = webrtc::RtpTransceiverDirection::kInactive;
}
RTCError RtpTransceiver::StopStandard() {
RTC_DCHECK_RUN_ON(thread_);
// If we're on Plan B, do what Stop() used to do there.
if (!unified_plan_) {
StopInternal();
return RTCError::OK();
}
// 1. Let transceiver be the RTCRtpTransceiver object on which the method is
// invoked.
//
// 2. Let connection be the RTCPeerConnection object associated with
// transceiver.
//
// 3. If connection.[[IsClosed]] is true, throw an InvalidStateError.
if (is_pc_closed_) {
LOG_AND_RETURN_ERROR(RTCErrorType::INVALID_STATE,
"PeerConnection is closed.");
}
// 4. If transceiver.[[Stopping]] is true, abort these steps.
if (stopping_)
return RTCError::OK();
// 5. Stop sending and receiving given transceiver, and update the
// negotiation-needed flag for connection.
StopSendingAndReceiving();
on_negotiation_needed_();
return RTCError::OK();
}
void RtpTransceiver::StopInternal() {
StopTransceiverProcedure();
}
void RtpTransceiver::StopTransceiverProcedure() {
RTC_DCHECK_RUN_ON(thread_);
// As specified in the "Stop the RTCRtpTransceiver" procedure
// 1. If transceiver.[[Stopping]] is false, stop sending and receiving given
// transceiver.
if (!stopping_)
StopSendingAndReceiving();
// 2. Set transceiver.[[Stopped]] to true.
stopped_ = true;
// Signal the updated change to the senders.
for (const auto& sender : senders_)
sender->internal()->SetTransceiverAsStopped();
// 3. Set transceiver.[[Receptive]] to false.
// 4. Set transceiver.[[CurrentDirection]] to null.
current_direction_ = absl::nullopt;
}
RTCError RtpTransceiver::SetCodecPreferences(
rtc::ArrayView<RtpCodecCapability> codec_capabilities) {
RTC_DCHECK(unified_plan_);
// 3. If codecs is an empty list, set transceiver's [[PreferredCodecs]] slot
// to codecs and abort these steps.
if (codec_capabilities.empty()) {
codec_preferences_.clear();
return RTCError::OK();
}
// 4. Remove any duplicate values in codecs.
std::vector<RtpCodecCapability> codecs;
absl::c_remove_copy_if(codec_capabilities, std::back_inserter(codecs),
[&codecs](const RtpCodecCapability& codec) {
return absl::c_linear_search(codecs, codec);
});
// 6. to 8.
RTCError result;
if (media_type_ == cricket::MEDIA_TYPE_AUDIO) {
std::vector<cricket::AudioCodec> recv_codecs, send_codecs;
channel_manager_->GetSupportedAudioReceiveCodecs(&recv_codecs);
channel_manager_->GetSupportedAudioSendCodecs(&send_codecs);
result = VerifyCodecPreferences(codecs, send_codecs, recv_codecs);
} else if (media_type_ == cricket::MEDIA_TYPE_VIDEO) {
std::vector<cricket::VideoCodec> recv_codecs, send_codecs;
channel_manager_->GetSupportedVideoReceiveCodecs(&recv_codecs);
channel_manager_->GetSupportedVideoSendCodecs(&send_codecs);
result = VerifyCodecPreferences(codecs, send_codecs, recv_codecs);
}
if (result.ok()) {
codec_preferences_ = codecs;
}
return result;
}
std::vector<RtpHeaderExtensionCapability>
RtpTransceiver::HeaderExtensionsToOffer() const {
return header_extensions_to_offer_;
}
std::vector<RtpHeaderExtensionCapability>
RtpTransceiver::HeaderExtensionsNegotiated() const {
if (!channel_)
return {};
std::vector<RtpHeaderExtensionCapability> result;
for (const auto& ext : channel_->GetNegotiatedRtpHeaderExtensions()) {
result.emplace_back(ext.uri, ext.id, RtpTransceiverDirection::kSendRecv);
}
return result;
}
RTCError RtpTransceiver::SetOfferedRtpHeaderExtensions(
rtc::ArrayView<const RtpHeaderExtensionCapability>
header_extensions_to_offer) {
for (const auto& entry : header_extensions_to_offer) {
// Handle unsupported requests for mandatory extensions as per
// https://w3c.github.io/webrtc-extensions/#rtcrtptransceiver-interface.
// Note:
// - We do not handle setOfferedRtpHeaderExtensions algorithm step 2.1,
// this has to be checked on a higher level. We naturally error out
// in the handling of Step 2.2 if an unset URI is encountered.
// Step 2.2.
// Handle unknown extensions.
auto it = std::find_if(
header_extensions_to_offer_.begin(), header_extensions_to_offer_.end(),
[&entry](const auto& offered) { return entry.uri == offered.uri; });
if (it == header_extensions_to_offer_.end()) {
return RTCError(RTCErrorType::INVALID_PARAMETER,
"Attempted to modify an unoffered extension.");
}
// Step 2.4-2.5.
// - Use of the transceiver interface indicates unified plan is in effect,
// hence the MID extension needs to be enabled.
// - Also handle the mandatory video orientation extensions.
if ((entry.uri == RtpExtension::kMidUri ||
entry.uri == RtpExtension::kVideoRotationUri) &&
entry.direction != RtpTransceiverDirection::kSendRecv) {
return RTCError(RTCErrorType::INVALID_MODIFICATION,
"Attempted to stop a mandatory extension.");
}
}
// Apply mutation after error checking.
for (const auto& entry : header_extensions_to_offer) {
auto it = std::find_if(
header_extensions_to_offer_.begin(), header_extensions_to_offer_.end(),
[&entry](const auto& offered) { return entry.uri == offered.uri; });
it->direction = entry.direction;
}
return RTCError::OK();
}
void RtpTransceiver::SetPeerConnectionClosed() {
is_pc_closed_ = true;
}
} // namespace webrtc