pc/session_description.cc - src - Git at Google

 /*
  *  Copyright 2010 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/session_description.h"

 #include <algorithm>
 #include <utility>

 #include "absl/algorithm/container.h"
 #include "absl/memory/memory.h"
 #include "pc/media_protocol_names.h"
 #include "rtc_base/checks.h"

 namespace cricket {
 namespace {

 ContentInfo* FindContentInfoByName(ContentInfos* contents,
                                    const std::string& name) {
   RTC_DCHECK(contents);
   for (ContentInfo& content : *contents) {
     if (content.name == name) {
       return &content;
     }
   }
   return nullptr;
 }

 }  // namespace

 const ContentInfo* FindContentInfoByName(const ContentInfos& contents,
                                          const std::string& name) {
   for (ContentInfos::const_iterator content = contents.begin();
        content != contents.end(); ++content) {
     if (content->name == name) {
       return &(*content);
     }
   }
   return NULL;
 }

 const ContentInfo* FindContentInfoByType(const ContentInfos& contents,
                                          MediaProtocolType type) {
   for (const auto& content : contents) {
     if (content.type == type) {
       return &content;
     }
   }
   return nullptr;
 }

 ContentGroup::ContentGroup(const std::string& semantics)
     : semantics_(semantics) {}

 ContentGroup::ContentGroup(const ContentGroup&) = default;
 ContentGroup::ContentGroup(ContentGroup&&) = default;
 ContentGroup& ContentGroup::operator=(const ContentGroup&) = default;
 ContentGroup& ContentGroup::operator=(ContentGroup&&) = default;
 ContentGroup::~ContentGroup() = default;

 const std::string* ContentGroup::FirstContentName() const {
   return (!content_names_.empty()) ? &(*content_names_.begin()) : NULL;
 }

 bool ContentGroup::HasContentName(const std::string& content_name) const {
   return absl::c_linear_search(content_names_, content_name);
 }

 void ContentGroup::AddContentName(const std::string& content_name) {
   if (!HasContentName(content_name)) {
     content_names_.push_back(content_name);
   }
 }

 bool ContentGroup::RemoveContentName(const std::string& content_name) {
   ContentNames::iterator iter = absl::c_find(content_names_, content_name);
   if (iter == content_names_.end()) {
     return false;
   }
   content_names_.erase(iter);
   return true;
 }

 SessionDescription::SessionDescription() = default;
 SessionDescription::SessionDescription(const SessionDescription&) = default;

 SessionDescription::~SessionDescription() {
   for (ContentInfos::iterator content = contents_.begin();
        content != contents_.end(); ++content) {
     delete content->description;
   }
 }

 std::unique_ptr<SessionDescription> SessionDescription::Clone() const {
   // Copy the non-special portions using the private copy constructor.
   auto copy = absl::WrapUnique(new SessionDescription(*this));
   // Copy all ContentDescriptions.
   for (ContentInfos::iterator content = copy->contents_.begin();
        content != copy->contents().end(); ++content) {
     content->description = content->description->Copy();
   }
   return copy;
 }

 SessionDescription* SessionDescription::Copy() const {
   return Clone().release();
 }

 const ContentInfo* SessionDescription::GetContentByName(
     const std::string& name) const {
   return FindContentInfoByName(contents_, name);
 }

 ContentInfo* SessionDescription::GetContentByName(const std::string& name) {
   return FindContentInfoByName(&contents_, name);
 }

 const MediaContentDescription* SessionDescription::GetContentDescriptionByName(
     const std::string& name) const {
   const ContentInfo* cinfo = FindContentInfoByName(contents_, name);
   if (cinfo == NULL) {
     return NULL;
   }

   return cinfo->media_description();
 }

 MediaContentDescription* SessionDescription::GetContentDescriptionByName(
     const std::string& name) {
   ContentInfo* cinfo = FindContentInfoByName(&contents_, name);
   if (cinfo == NULL) {
     return NULL;
   }

   return cinfo->media_description();
 }

 const ContentInfo* SessionDescription::FirstContentByType(
     MediaProtocolType type) const {
   return FindContentInfoByType(contents_, type);
 }

 const ContentInfo* SessionDescription::FirstContent() const {
   return (contents_.empty()) ? NULL : &(*contents_.begin());
 }

 void SessionDescription::AddContent(const std::string& name,
                                     MediaProtocolType type,
                                     MediaContentDescription* description) {
   ContentInfo content(type);
   content.name = name;
   content.description = description;
   AddContent(&content);
 }

 void SessionDescription::AddContent(const std::string& name,
                                     MediaProtocolType type,
                                     bool rejected,
                                     MediaContentDescription* description) {
   ContentInfo content(type);
   content.name = name;
   content.rejected = rejected;
   content.description = description;
   AddContent(&content);
 }

 void SessionDescription::AddContent(const std::string& name,
                                     MediaProtocolType type,
                                     bool rejected,
                                     bool bundle_only,
                                     MediaContentDescription* description) {
   ContentInfo content(type);
   content.name = name;
   content.rejected = rejected;
   content.bundle_only = bundle_only;
   content.description = description;
   AddContent(&content);
 }

 void SessionDescription::AddContent(ContentInfo* content) {
   // Unwrap the as_data shim layer before using.
   auto* description = content->media_description();
   bool should_delete = false;
   if (description->as_rtp_data()) {
     if (description->as_rtp_data() != description) {
       content->set_media_description(
           description->as_data()->Unshim(&should_delete));
     }
   }
   if (description->as_sctp()) {
     if (description->as_sctp() != description) {
       content->set_media_description(
           description->as_data()->Unshim(&should_delete));
     }
   }
   if (should_delete) {
     delete description;
   }
   if (extmap_allow_mixed()) {
     // Mixed support on session level overrides setting on media level.
     content->description->set_extmap_allow_mixed_enum(
         MediaContentDescription::kSession);
   }
   contents_.push_back(std::move(*content));
 }

 bool SessionDescription::RemoveContentByName(const std::string& name) {
   for (ContentInfos::iterator content = contents_.begin();
        content != contents_.end(); ++content) {
     if (content->name == name) {
       delete content->description;
       contents_.erase(content);
       return true;
     }
   }

   return false;
 }

 void SessionDescription::AddTransportInfo(const TransportInfo& transport_info) {
   transport_infos_.push_back(transport_info);
 }

 bool SessionDescription::RemoveTransportInfoByName(const std::string& name) {
   for (TransportInfos::iterator transport_info = transport_infos_.begin();
        transport_info != transport_infos_.end(); ++transport_info) {
     if (transport_info->content_name == name) {
       transport_infos_.erase(transport_info);
       return true;
     }
   }
   return false;
 }

 const TransportInfo* SessionDescription::GetTransportInfoByName(
     const std::string& name) const {
   for (TransportInfos::const_iterator iter = transport_infos_.begin();
        iter != transport_infos_.end(); ++iter) {
     if (iter->content_name == name) {
       return &(*iter);
     }
   }
   return NULL;
 }

 TransportInfo* SessionDescription::GetTransportInfoByName(
     const std::string& name) {
   for (TransportInfos::iterator iter = transport_infos_.begin();
        iter != transport_infos_.end(); ++iter) {
     if (iter->content_name == name) {
       return &(*iter);
     }
   }
   return NULL;
 }

 void SessionDescription::RemoveGroupByName(const std::string& name) {
   for (ContentGroups::iterator iter = content_groups_.begin();
        iter != content_groups_.end(); ++iter) {
     if (iter->semantics() == name) {
       content_groups_.erase(iter);
       break;
     }
   }
 }

 bool SessionDescription::HasGroup(const std::string& name) const {
   for (ContentGroups::const_iterator iter = content_groups_.begin();
        iter != content_groups_.end(); ++iter) {
     if (iter->semantics() == name) {
       return true;
     }
   }
   return false;
 }

 const ContentGroup* SessionDescription::GetGroupByName(
     const std::string& name) const {
   for (ContentGroups::const_iterator iter = content_groups_.begin();
        iter != content_groups_.end(); ++iter) {
     if (iter->semantics() == name) {
       return &(*iter);
     }
   }
   return NULL;
 }

 // DataContentDescription shim creation
 DataContentDescription* RtpDataContentDescription::as_data() {
   if (!shim_) {
     shim_.reset(new DataContentDescription(this));
   }
   return shim_.get();
 }

 const DataContentDescription* RtpDataContentDescription::as_data() const {
   return const_cast<RtpDataContentDescription*>(this)->as_data();
 }

 DataContentDescription* SctpDataContentDescription::as_data() {
   if (!shim_) {
     shim_.reset(new DataContentDescription(this));
   }
   return shim_.get();
 }

 const DataContentDescription* SctpDataContentDescription::as_data() const {
   return const_cast<SctpDataContentDescription*>(this)->as_data();
 }

 DataContentDescription::DataContentDescription() {
   // In this case, we will initialize |owned_description_| as soon as
   // we are told what protocol to use via set_protocol or another function
   // calling CreateShimTarget.
 }

 DataContentDescription::DataContentDescription(
     SctpDataContentDescription* wrapped)
     : real_description_(wrapped) {
   // SctpDataContentDescription doesn't contain codecs, but code
   // using DataContentDescription expects to see one.
   Super::AddCodec(
       cricket::DataCodec(kGoogleSctpDataCodecPlType, kGoogleSctpDataCodecName));
 }

 DataContentDescription::DataContentDescription(
     RtpDataContentDescription* wrapped)
     : real_description_(wrapped) {}

 DataContentDescription::DataContentDescription(
     const DataContentDescription* o) {
   if (o->real_description_) {
     owned_description_ = absl::WrapUnique(o->real_description_->Copy());
     real_description_ = owned_description_.get();
   } else {
     // Copy all information collected so far, including codecs.
     Super::operator=(*o);
   }
 }

 void DataContentDescription::CreateShimTarget(bool is_sctp) {
   RTC_LOG(LS_INFO) << "Creating shim target, is_sctp is " << is_sctp;
   RTC_CHECK(!owned_description_.get());
   if (is_sctp) {
     owned_description_ = absl::make_unique<SctpDataContentDescription>();
     // Copy all information collected so far, except codecs.
     owned_description_->MediaContentDescription::operator=(*this);
   } else {
     owned_description_ = absl::make_unique<RtpDataContentDescription>();
     // Copy all information collected so far, including codecs.
     owned_description_->as_rtp_data()
         ->MediaContentDescriptionImpl<RtpDataCodec>::operator=(*this);
   }
   real_description_ = owned_description_.get();
 }

 MediaContentDescription* DataContentDescription::Unshim(bool* should_delete) {
   // If protocol isn't decided at this point, we have a problem.
   RTC_CHECK(real_description_);
   if (owned_description_) {
     // Pass ownership to caller, and remove myself.
     // Since caller can't know if I was owner or owned, tell them.
     MediaContentDescription* to_return = owned_description_.release();
     *should_delete = true;
     return to_return;
   }
   // Real object is owner, and presumably referenced from elsewhere.
   *should_delete = false;
   return real_description_;
 }

 void DataContentDescription::set_protocol(const std::string& protocol) {
   if (!real_description_) {
     CreateShimTarget(IsSctpProtocol(protocol));
   }
   real_description_->set_protocol(protocol);
 }

 bool DataContentDescription::IsSctp() const {
   return (real_description_ && real_description_->as_sctp());
 }

 void DataContentDescription::EnsureIsRtp() {
   RTC_CHECK(real_description_);
   RTC_CHECK(real_description_->as_rtp_data());
 }

 RtpDataContentDescription* DataContentDescription::as_rtp_data() {
   if (real_description_) {
     return real_description_->as_rtp_data();
   }
   return nullptr;
 }

 SctpDataContentDescription* DataContentDescription::as_sctp() {
   if (real_description_) {
     return real_description_->as_sctp();
   }
   return nullptr;
 }

 // Override all methods defined in MediaContentDescription.
 bool DataContentDescription::has_codecs() const {
   if (!real_description_) {
     return Super::has_codecs();
   }
   return real_description_->has_codecs();
 }
 std::string DataContentDescription::protocol() const {
   if (!real_description_) {
     return Super::protocol();
   }
   return real_description_->protocol();
 }

 webrtc::RtpTransceiverDirection DataContentDescription::direction() const {
   if (!real_description_) {
     return Super::direction();
   }
   return real_description_->direction();
 }
 void DataContentDescription::set_direction(
     webrtc::RtpTransceiverDirection direction) {
   if (!real_description_) {
     return Super::set_direction(direction);
   }
   return real_description_->set_direction(direction);
 }
 bool DataContentDescription::rtcp_mux() const {
   if (!real_description_) {
     return Super::rtcp_mux();
   }
   return real_description_->rtcp_mux();
 }
 void DataContentDescription::set_rtcp_mux(bool mux) {
   if (!real_description_) {
     Super::set_rtcp_mux(mux);
     return;
   }
   real_description_->set_rtcp_mux(mux);
 }
 bool DataContentDescription::rtcp_reduced_size() const {
   if (!real_description_) {
     return Super::rtcp_reduced_size();
   }
   return real_description_->rtcp_reduced_size();
 }
 void DataContentDescription::set_rtcp_reduced_size(bool reduced_size) {
   if (!real_description_) {
     return Super::set_rtcp_reduced_size(reduced_size);
   }

   return real_description_->set_rtcp_reduced_size(reduced_size);
 }
 int DataContentDescription::bandwidth() const {
   if (!real_description_) {
     return Super::bandwidth();
   }

   return real_description_->bandwidth();
 }
 void DataContentDescription::set_bandwidth(int bandwidth) {
   if (!real_description_) {
     return Super::set_bandwidth(bandwidth);
   }

   return real_description_->set_bandwidth(bandwidth);
 }
 const std::vector<CryptoParams>& DataContentDescription::cryptos() const {
   if (!real_description_) {
     return Super::cryptos();
   }

   return real_description_->cryptos();
 }
 void DataContentDescription::AddCrypto(const CryptoParams& params) {
   if (!real_description_) {
     return Super::AddCrypto(params);
   }

   return real_description_->AddCrypto(params);
 }
 void DataContentDescription::set_cryptos(
     const std::vector<CryptoParams>& cryptos) {
   if (!real_description_) {
     return Super::set_cryptos(cryptos);
   }

   return real_description_->set_cryptos(cryptos);
 }
 const RtpHeaderExtensions& DataContentDescription::rtp_header_extensions()
     const {
   if (!real_description_) {
     return Super::rtp_header_extensions();
   }

   return real_description_->rtp_header_extensions();
 }
 void DataContentDescription::set_rtp_header_extensions(
     const RtpHeaderExtensions& extensions) {
   if (!real_description_) {
     return Super::set_rtp_header_extensions(extensions);
   }

   return real_description_->set_rtp_header_extensions(extensions);
 }
 void DataContentDescription::AddRtpHeaderExtension(
     const webrtc::RtpExtension& ext) {
   if (!real_description_) {
     return Super::AddRtpHeaderExtension(ext);
   }
   return real_description_->AddRtpHeaderExtension(ext);
 }
 void DataContentDescription::AddRtpHeaderExtension(
     const cricket::RtpHeaderExtension& ext) {
   if (!real_description_) {
     return Super::AddRtpHeaderExtension(ext);
   }
   return real_description_->AddRtpHeaderExtension(ext);
 }
 void DataContentDescription::ClearRtpHeaderExtensions() {
   if (!real_description_) {
     return Super::ClearRtpHeaderExtensions();
   }
   return real_description_->ClearRtpHeaderExtensions();
 }
 bool DataContentDescription::rtp_header_extensions_set() const {
   if (!real_description_) {
     return Super::rtp_header_extensions_set();
   }
   return real_description_->rtp_header_extensions_set();
 }
 const StreamParamsVec& DataContentDescription::streams() const {
   if (!real_description_) {
     return Super::streams();
   }
   return real_description_->streams();
 }
 StreamParamsVec& DataContentDescription::mutable_streams() {
   if (!real_description_) {
     return Super::mutable_streams();
   }
   return real_description_->mutable_streams();
 }
 void DataContentDescription::AddStream(const StreamParams& stream) {
   if (!real_description_) {
     return Super::AddStream(stream);
   }
   return real_description_->AddStream(stream);
 }
 void DataContentDescription::SetCnameIfEmpty(const std::string& cname) {
   if (!real_description_) {
     return Super::SetCnameIfEmpty(cname);
   }
   return real_description_->SetCnameIfEmpty(cname);
 }
 uint32_t DataContentDescription::first_ssrc() const {
   if (!real_description_) {
     return Super::first_ssrc();
   }
   return real_description_->first_ssrc();
 }
 bool DataContentDescription::has_ssrcs() const {
   if (!real_description_) {
     return Super::has_ssrcs();
   }
   return real_description_->has_ssrcs();
 }
 void DataContentDescription::set_conference_mode(bool enable) {
   if (!real_description_) {
     return Super::set_conference_mode(enable);
   }
   return real_description_->set_conference_mode(enable);
 }
 bool DataContentDescription::conference_mode() const {
   if (!real_description_) {
     return Super::conference_mode();
   }
   return real_description_->conference_mode();
 }
 void DataContentDescription::set_connection_address(
     const rtc::SocketAddress& address) {
   if (!real_description_) {
     return Super::set_connection_address(address);
   }
   return real_description_->set_connection_address(address);
 }
 const rtc::SocketAddress& DataContentDescription::connection_address() const {
   if (!real_description_) {
     return Super::connection_address();
   }
   return real_description_->connection_address();
 }
 void DataContentDescription::set_extmap_allow_mixed_enum(
     ExtmapAllowMixed mixed) {
   if (!real_description_) {
     return Super::set_extmap_allow_mixed_enum(mixed);
   }
   return real_description_->set_extmap_allow_mixed_enum(mixed);
 }
 MediaContentDescription::ExtmapAllowMixed
 DataContentDescription::extmap_allow_mixed_enum() const {
   if (!real_description_) {
     return Super::extmap_allow_mixed_enum();
   }
   return real_description_->extmap_allow_mixed_enum();
 }
 bool DataContentDescription::HasSimulcast() const {
   if (!real_description_) {
     return Super::HasSimulcast();
   }
   return real_description_->HasSimulcast();
 }
 SimulcastDescription& DataContentDescription::simulcast_description() {
   if (!real_description_) {
     return Super::simulcast_description();
   }
   return real_description_->simulcast_description();
 }
 const SimulcastDescription& DataContentDescription::simulcast_description()
     const {
   if (!real_description_) {
     return Super::simulcast_description();
   }
   return real_description_->simulcast_description();
 }
 void DataContentDescription::set_simulcast_description(
     const SimulcastDescription& simulcast) {
   if (!real_description_) {
     return Super::set_simulcast_description(simulcast);
   }
   return real_description_->set_simulcast_description(simulcast);
 }

 // Methods defined in MediaContentDescriptionImpl.
 // For SCTP, we implement codec handling.
 // For RTP, we pass the codecs.
 // In the cases where type hasn't been decided yet, we return dummies.

 const std::vector<DataCodec>& DataContentDescription::codecs() const {
   if (IsSctp() || !real_description_) {
     return Super::codecs();
   }
   return real_description_->as_rtp_data()->codecs();
 }

 void DataContentDescription::set_codecs(const std::vector<DataCodec>& codecs) {
   if (IsSctp() || !real_description_) {
     Super::set_codecs(codecs);
   } else {
     EnsureIsRtp();
     real_description_->as_rtp_data()->set_codecs(codecs);
   }
 }

 bool DataContentDescription::HasCodec(int id) {
   if (IsSctp() || !real_description_) {
     return Super::HasCodec(id);
   }
   return real_description_->as_rtp_data()->HasCodec(id);
 }

 void DataContentDescription::AddCodec(const DataCodec& codec) {
   if (IsSctp() || !real_description_) {
     Super::AddCodec(codec);
   } else {
     EnsureIsRtp();
     real_description_->as_rtp_data()->AddCodec(codec);
   }
 }

 void DataContentDescription::AddOrReplaceCodec(const DataCodec& codec) {
   if (IsSctp() || real_description_) {
     Super::AddOrReplaceCodec(codec);
   } else {
     EnsureIsRtp();
     real_description_->as_rtp_data()->AddOrReplaceCodec(codec);
   }
 }

 void DataContentDescription::AddCodecs(const std::vector<DataCodec>& codecs) {
   if (IsSctp() || !real_description_) {
     Super::AddCodecs(codecs);
   } else {
     EnsureIsRtp();
     real_description_->as_rtp_data()->AddCodecs(codecs);
   }
 }

 }  // namespace cricket
	/*
	* Copyright 2010 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/session_description.h"

	#include <algorithm>
	#include <utility>

	#include "absl/algorithm/container.h"
	#include "absl/memory/memory.h"
	#include "pc/media_protocol_names.h"
	#include "rtc_base/checks.h"

	namespace cricket {
	namespace {

	ContentInfo* FindContentInfoByName(ContentInfos* contents,
	const std::string& name) {
	RTC_DCHECK(contents);
	for (ContentInfo& content : *contents) {
	if (content.name == name) {
	return &content;
	}
	}
	return nullptr;
	}

	} // namespace

	const ContentInfo* FindContentInfoByName(const ContentInfos& contents,
	const std::string& name) {
	for (ContentInfos::const_iterator content = contents.begin();
	content != contents.end(); ++content) {
	if (content->name == name) {
	return &(*content);
	}
	}
	return NULL;
	}

	const ContentInfo* FindContentInfoByType(const ContentInfos& contents,
	MediaProtocolType type) {
	for (const auto& content : contents) {
	if (content.type == type) {
	return &content;
	}
	}
	return nullptr;
	}

	ContentGroup::ContentGroup(const std::string& semantics)
	: semantics_(semantics) {}

	ContentGroup::ContentGroup(const ContentGroup&) = default;
	ContentGroup::ContentGroup(ContentGroup&&) = default;
	ContentGroup& ContentGroup::operator=(const ContentGroup&) = default;
	ContentGroup& ContentGroup::operator=(ContentGroup&&) = default;
	ContentGroup::~ContentGroup() = default;

	const std::string* ContentGroup::FirstContentName() const {
	return (!content_names_.empty()) ? &(*content_names_.begin()) : NULL;
	}

	bool ContentGroup::HasContentName(const std::string& content_name) const {
	return absl::c_linear_search(content_names_, content_name);
	}

	void ContentGroup::AddContentName(const std::string& content_name) {
	if (!HasContentName(content_name)) {
	content_names_.push_back(content_name);
	}
	}

	bool ContentGroup::RemoveContentName(const std::string& content_name) {
	ContentNames::iterator iter = absl::c_find(content_names_, content_name);
	if (iter == content_names_.end()) {
	return false;
	}
	content_names_.erase(iter);
	return true;
	}

	SessionDescription::SessionDescription() = default;
	SessionDescription::SessionDescription(const SessionDescription&) = default;

	SessionDescription::~SessionDescription() {
	for (ContentInfos::iterator content = contents_.begin();
	content != contents_.end(); ++content) {
	delete content->description;
	}
	}

	std::unique_ptr<SessionDescription> SessionDescription::Clone() const {
	// Copy the non-special portions using the private copy constructor.
	auto copy = absl::WrapUnique(new SessionDescription(*this));
	// Copy all ContentDescriptions.
	for (ContentInfos::iterator content = copy->contents_.begin();
	content != copy->contents().end(); ++content) {
	content->description = content->description->Copy();
	}
	return copy;
	}

	SessionDescription* SessionDescription::Copy() const {
	return Clone().release();
	}

	const ContentInfo* SessionDescription::GetContentByName(
	const std::string& name) const {
	return FindContentInfoByName(contents_, name);
	}

	ContentInfo* SessionDescription::GetContentByName(const std::string& name) {
	return FindContentInfoByName(&contents_, name);
	}

	const MediaContentDescription* SessionDescription::GetContentDescriptionByName(
	const std::string& name) const {
	const ContentInfo* cinfo = FindContentInfoByName(contents_, name);
	if (cinfo == NULL) {
	return NULL;
	}

	return cinfo->media_description();
	}

	MediaContentDescription* SessionDescription::GetContentDescriptionByName(
	const std::string& name) {
	ContentInfo* cinfo = FindContentInfoByName(&contents_, name);
	if (cinfo == NULL) {
	return NULL;
	}

	return cinfo->media_description();
	}

	const ContentInfo* SessionDescription::FirstContentByType(
	MediaProtocolType type) const {
	return FindContentInfoByType(contents_, type);
	}

	const ContentInfo* SessionDescription::FirstContent() const {
	return (contents_.empty()) ? NULL : &(*contents_.begin());
	}

	void SessionDescription::AddContent(const std::string& name,
	MediaProtocolType type,
	MediaContentDescription* description) {
	ContentInfo content(type);
	content.name = name;
	content.description = description;
	AddContent(&content);
	}

	void SessionDescription::AddContent(const std::string& name,
	MediaProtocolType type,
	bool rejected,
	MediaContentDescription* description) {
	ContentInfo content(type);
	content.name = name;
	content.rejected = rejected;
	content.description = description;
	AddContent(&content);
	}

	void SessionDescription::AddContent(const std::string& name,
	MediaProtocolType type,
	bool rejected,
	bool bundle_only,
	MediaContentDescription* description) {
	ContentInfo content(type);
	content.name = name;
	content.rejected = rejected;
	content.bundle_only = bundle_only;
	content.description = description;
	AddContent(&content);
	}

	void SessionDescription::AddContent(ContentInfo* content) {
	// Unwrap the as_data shim layer before using.
	auto* description = content->media_description();
	bool should_delete = false;
	if (description->as_rtp_data()) {
	if (description->as_rtp_data() != description) {
	content->set_media_description(
	description->as_data()->Unshim(&should_delete));
	}
	}
	if (description->as_sctp()) {
	if (description->as_sctp() != description) {
	content->set_media_description(
	description->as_data()->Unshim(&should_delete));
	}
	}
	if (should_delete) {
	delete description;
	}
	if (extmap_allow_mixed()) {
	// Mixed support on session level overrides setting on media level.
	content->description->set_extmap_allow_mixed_enum(
	MediaContentDescription::kSession);
	}
	contents_.push_back(std::move(*content));
	}

	bool SessionDescription::RemoveContentByName(const std::string& name) {
	for (ContentInfos::iterator content = contents_.begin();
	content != contents_.end(); ++content) {
	if (content->name == name) {
	delete content->description;
	contents_.erase(content);
	return true;
	}
	}

	return false;
	}

	void SessionDescription::AddTransportInfo(const TransportInfo& transport_info) {
	transport_infos_.push_back(transport_info);
	}

	bool SessionDescription::RemoveTransportInfoByName(const std::string& name) {
	for (TransportInfos::iterator transport_info = transport_infos_.begin();
	transport_info != transport_infos_.end(); ++transport_info) {
	if (transport_info->content_name == name) {
	transport_infos_.erase(transport_info);
	return true;
	}
	}
	return false;
	}

	const TransportInfo* SessionDescription::GetTransportInfoByName(
	const std::string& name) const {
	for (TransportInfos::const_iterator iter = transport_infos_.begin();
	iter != transport_infos_.end(); ++iter) {
	if (iter->content_name == name) {
	return &(*iter);
	}
	}
	return NULL;
	}

	TransportInfo* SessionDescription::GetTransportInfoByName(
	const std::string& name) {
	for (TransportInfos::iterator iter = transport_infos_.begin();
	iter != transport_infos_.end(); ++iter) {
	if (iter->content_name == name) {
	return &(*iter);
	}
	}
	return NULL;
	}

	void SessionDescription::RemoveGroupByName(const std::string& name) {
	for (ContentGroups::iterator iter = content_groups_.begin();
	iter != content_groups_.end(); ++iter) {
	if (iter->semantics() == name) {
	content_groups_.erase(iter);
	break;
	}
	}
	}

	bool SessionDescription::HasGroup(const std::string& name) const {
	for (ContentGroups::const_iterator iter = content_groups_.begin();
	iter != content_groups_.end(); ++iter) {
	if (iter->semantics() == name) {
	return true;
	}
	}
	return false;
	}

	const ContentGroup* SessionDescription::GetGroupByName(
	const std::string& name) const {
	for (ContentGroups::const_iterator iter = content_groups_.begin();
	iter != content_groups_.end(); ++iter) {
	if (iter->semantics() == name) {
	return &(*iter);
	}
	}
	return NULL;
	}

	// DataContentDescription shim creation
	DataContentDescription* RtpDataContentDescription::as_data() {
	if (!shim_) {
	shim_.reset(new DataContentDescription(this));
	}
	return shim_.get();
	}

	const DataContentDescription* RtpDataContentDescription::as_data() const {
	return const_cast<RtpDataContentDescription*>(this)->as_data();
	}

	DataContentDescription* SctpDataContentDescription::as_data() {
	if (!shim_) {
	shim_.reset(new DataContentDescription(this));
	}
	return shim_.get();
	}

	const DataContentDescription* SctpDataContentDescription::as_data() const {
	return const_cast<SctpDataContentDescription*>(this)->as_data();
	}

	DataContentDescription::DataContentDescription() {
	// In this case, we will initialize \|owned_description_\| as soon as
	// we are told what protocol to use via set_protocol or another function
	// calling CreateShimTarget.
	}

	DataContentDescription::DataContentDescription(
	SctpDataContentDescription* wrapped)
	: real_description_(wrapped) {
	// SctpDataContentDescription doesn't contain codecs, but code
	// using DataContentDescription expects to see one.
	Super::AddCodec(
	cricket::DataCodec(kGoogleSctpDataCodecPlType, kGoogleSctpDataCodecName));
	}

	DataContentDescription::DataContentDescription(
	RtpDataContentDescription* wrapped)
	: real_description_(wrapped) {}

	DataContentDescription::DataContentDescription(
	const DataContentDescription* o) {
	if (o->real_description_) {
	owned_description_ = absl::WrapUnique(o->real_description_->Copy());
	real_description_ = owned_description_.get();
	} else {
	// Copy all information collected so far, including codecs.
	Super::operator=(*o);
	}
	}

	void DataContentDescription::CreateShimTarget(bool is_sctp) {
	RTC_LOG(LS_INFO) << "Creating shim target, is_sctp is " << is_sctp;
	RTC_CHECK(!owned_description_.get());
	if (is_sctp) {
	owned_description_ = absl::make_unique<SctpDataContentDescription>();
	// Copy all information collected so far, except codecs.
	owned_description_->MediaContentDescription::operator=(*this);
	} else {
	owned_description_ = absl::make_unique<RtpDataContentDescription>();
	// Copy all information collected so far, including codecs.
	owned_description_->as_rtp_data()
	->MediaContentDescriptionImpl<RtpDataCodec>::operator=(*this);
	}
	real_description_ = owned_description_.get();
	}

	MediaContentDescription* DataContentDescription::Unshim(bool* should_delete) {
	// If protocol isn't decided at this point, we have a problem.
	RTC_CHECK(real_description_);
	if (owned_description_) {
	// Pass ownership to caller, and remove myself.
	// Since caller can't know if I was owner or owned, tell them.
	MediaContentDescription* to_return = owned_description_.release();
	*should_delete = true;
	return to_return;
	}
	// Real object is owner, and presumably referenced from elsewhere.
	*should_delete = false;
	return real_description_;
	}

	void DataContentDescription::set_protocol(const std::string& protocol) {
	if (!real_description_) {
	CreateShimTarget(IsSctpProtocol(protocol));
	}
	real_description_->set_protocol(protocol);
	}

	bool DataContentDescription::IsSctp() const {
	return (real_description_ && real_description_->as_sctp());
	}

	void DataContentDescription::EnsureIsRtp() {
	RTC_CHECK(real_description_);
	RTC_CHECK(real_description_->as_rtp_data());
	}

	RtpDataContentDescription* DataContentDescription::as_rtp_data() {
	if (real_description_) {
	return real_description_->as_rtp_data();
	}
	return nullptr;
	}

	SctpDataContentDescription* DataContentDescription::as_sctp() {
	if (real_description_) {
	return real_description_->as_sctp();
	}
	return nullptr;
	}

	// Override all methods defined in MediaContentDescription.
	bool DataContentDescription::has_codecs() const {
	if (!real_description_) {
	return Super::has_codecs();
	}
	return real_description_->has_codecs();
	}
	std::string DataContentDescription::protocol() const {
	if (!real_description_) {
	return Super::protocol();
	}
	return real_description_->protocol();
	}

	webrtc::RtpTransceiverDirection DataContentDescription::direction() const {
	if (!real_description_) {
	return Super::direction();
	}
	return real_description_->direction();
	}
	void DataContentDescription::set_direction(
	webrtc::RtpTransceiverDirection direction) {
	if (!real_description_) {
	return Super::set_direction(direction);
	}
	return real_description_->set_direction(direction);
	}
	bool DataContentDescription::rtcp_mux() const {
	if (!real_description_) {
	return Super::rtcp_mux();
	}
	return real_description_->rtcp_mux();
	}
	void DataContentDescription::set_rtcp_mux(bool mux) {
	if (!real_description_) {
	Super::set_rtcp_mux(mux);
	return;
	}
	real_description_->set_rtcp_mux(mux);
	}
	bool DataContentDescription::rtcp_reduced_size() const {
	if (!real_description_) {
	return Super::rtcp_reduced_size();
	}
	return real_description_->rtcp_reduced_size();
	}
	void DataContentDescription::set_rtcp_reduced_size(bool reduced_size) {
	if (!real_description_) {
	return Super::set_rtcp_reduced_size(reduced_size);
	}

	return real_description_->set_rtcp_reduced_size(reduced_size);
	}
	int DataContentDescription::bandwidth() const {
	if (!real_description_) {
	return Super::bandwidth();
	}

	return real_description_->bandwidth();
	}
	void DataContentDescription::set_bandwidth(int bandwidth) {
	if (!real_description_) {
	return Super::set_bandwidth(bandwidth);
	}

	return real_description_->set_bandwidth(bandwidth);
	}
	const std::vector<CryptoParams>& DataContentDescription::cryptos() const {
	if (!real_description_) {
	return Super::cryptos();
	}

	return real_description_->cryptos();
	}
	void DataContentDescription::AddCrypto(const CryptoParams& params) {
	if (!real_description_) {
	return Super::AddCrypto(params);
	}

	return real_description_->AddCrypto(params);
	}
	void DataContentDescription::set_cryptos(
	const std::vector<CryptoParams>& cryptos) {
	if (!real_description_) {
	return Super::set_cryptos(cryptos);
	}

	return real_description_->set_cryptos(cryptos);
	}
	const RtpHeaderExtensions& DataContentDescription::rtp_header_extensions()
	const {
	if (!real_description_) {
	return Super::rtp_header_extensions();
	}

	return real_description_->rtp_header_extensions();
	}
	void DataContentDescription::set_rtp_header_extensions(
	const RtpHeaderExtensions& extensions) {
	if (!real_description_) {
	return Super::set_rtp_header_extensions(extensions);
	}

	return real_description_->set_rtp_header_extensions(extensions);
	}
	void DataContentDescription::AddRtpHeaderExtension(
	const webrtc::RtpExtension& ext) {
	if (!real_description_) {
	return Super::AddRtpHeaderExtension(ext);
	}
	return real_description_->AddRtpHeaderExtension(ext);
	}
	void DataContentDescription::AddRtpHeaderExtension(
	const cricket::RtpHeaderExtension& ext) {
	if (!real_description_) {
	return Super::AddRtpHeaderExtension(ext);
	}
	return real_description_->AddRtpHeaderExtension(ext);
	}
	void DataContentDescription::ClearRtpHeaderExtensions() {
	if (!real_description_) {
	return Super::ClearRtpHeaderExtensions();
	}
	return real_description_->ClearRtpHeaderExtensions();
	}
	bool DataContentDescription::rtp_header_extensions_set() const {
	if (!real_description_) {
	return Super::rtp_header_extensions_set();
	}
	return real_description_->rtp_header_extensions_set();
	}
	const StreamParamsVec& DataContentDescription::streams() const {
	if (!real_description_) {
	return Super::streams();
	}
	return real_description_->streams();
	}
	StreamParamsVec& DataContentDescription::mutable_streams() {
	if (!real_description_) {
	return Super::mutable_streams();
	}
	return real_description_->mutable_streams();
	}
	void DataContentDescription::AddStream(const StreamParams& stream) {
	if (!real_description_) {
	return Super::AddStream(stream);
	}
	return real_description_->AddStream(stream);
	}
	void DataContentDescription::SetCnameIfEmpty(const std::string& cname) {
	if (!real_description_) {
	return Super::SetCnameIfEmpty(cname);
	}
	return real_description_->SetCnameIfEmpty(cname);
	}
	uint32_t DataContentDescription::first_ssrc() const {
	if (!real_description_) {
	return Super::first_ssrc();
	}
	return real_description_->first_ssrc();
	}
	bool DataContentDescription::has_ssrcs() const {
	if (!real_description_) {
	return Super::has_ssrcs();
	}
	return real_description_->has_ssrcs();
	}
	void DataContentDescription::set_conference_mode(bool enable) {
	if (!real_description_) {
	return Super::set_conference_mode(enable);
	}
	return real_description_->set_conference_mode(enable);
	}
	bool DataContentDescription::conference_mode() const {
	if (!real_description_) {
	return Super::conference_mode();
	}
	return real_description_->conference_mode();
	}
	void DataContentDescription::set_connection_address(
	const rtc::SocketAddress& address) {
	if (!real_description_) {
	return Super::set_connection_address(address);
	}
	return real_description_->set_connection_address(address);
	}
	const rtc::SocketAddress& DataContentDescription::connection_address() const {
	if (!real_description_) {
	return Super::connection_address();
	}
	return real_description_->connection_address();
	}
	void DataContentDescription::set_extmap_allow_mixed_enum(
	ExtmapAllowMixed mixed) {
	if (!real_description_) {
	return Super::set_extmap_allow_mixed_enum(mixed);
	}
	return real_description_->set_extmap_allow_mixed_enum(mixed);
	}
	MediaContentDescription::ExtmapAllowMixed
	DataContentDescription::extmap_allow_mixed_enum() const {
	if (!real_description_) {
	return Super::extmap_allow_mixed_enum();
	}
	return real_description_->extmap_allow_mixed_enum();
	}
	bool DataContentDescription::HasSimulcast() const {
	if (!real_description_) {
	return Super::HasSimulcast();
	}
	return real_description_->HasSimulcast();
	}
	SimulcastDescription& DataContentDescription::simulcast_description() {
	if (!real_description_) {
	return Super::simulcast_description();
	}
	return real_description_->simulcast_description();
	}
	const SimulcastDescription& DataContentDescription::simulcast_description()
	const {
	if (!real_description_) {
	return Super::simulcast_description();
	}
	return real_description_->simulcast_description();
	}
	void DataContentDescription::set_simulcast_description(
	const SimulcastDescription& simulcast) {
	if (!real_description_) {
	return Super::set_simulcast_description(simulcast);
	}
	return real_description_->set_simulcast_description(simulcast);
	}

	// Methods defined in MediaContentDescriptionImpl.
	// For SCTP, we implement codec handling.
	// For RTP, we pass the codecs.
	// In the cases where type hasn't been decided yet, we return dummies.

	const std::vector<DataCodec>& DataContentDescription::codecs() const {
	if (IsSctp() \|\| !real_description_) {
	return Super::codecs();
	}
	return real_description_->as_rtp_data()->codecs();
	}

	void DataContentDescription::set_codecs(const std::vector<DataCodec>& codecs) {
	if (IsSctp() \|\| !real_description_) {
	Super::set_codecs(codecs);
	} else {
	EnsureIsRtp();
	real_description_->as_rtp_data()->set_codecs(codecs);
	}
	}

	bool DataContentDescription::HasCodec(int id) {
	if (IsSctp() \|\| !real_description_) {
	return Super::HasCodec(id);
	}
	return real_description_->as_rtp_data()->HasCodec(id);
	}

	void DataContentDescription::AddCodec(const DataCodec& codec) {
	if (IsSctp() \|\| !real_description_) {
	Super::AddCodec(codec);
	} else {
	EnsureIsRtp();
	real_description_->as_rtp_data()->AddCodec(codec);
	}
	}

	void DataContentDescription::AddOrReplaceCodec(const DataCodec& codec) {
	if (IsSctp() \|\| real_description_) {
	Super::AddOrReplaceCodec(codec);
	} else {
	EnsureIsRtp();
	real_description_->as_rtp_data()->AddOrReplaceCodec(codec);
	}
	}

	void DataContentDescription::AddCodecs(const std::vector<DataCodec>& codecs) {
	if (IsSctp() \|\| !real_description_) {
	Super::AddCodecs(codecs);
	} else {
	EnsureIsRtp();
	real_description_->as_rtp_data()->AddCodecs(codecs);
	}
	}

	} // namespace cricket