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webrtc / src / / 0f4f802f841de2a7dc591be2005f397766d46baf / . / pc / codec_vendor.cc
blob: 0ab676a9cda0b6bd28918415c2cf00cbcdf63f9c [file] [log] [blame]
/*
* Copyright 2004 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/codec_vendor.h"
#include <stddef.h>
#include <algorithm>
#include <map>
#include <optional>
#include <string>
#include <unordered_map>
#include <utility>
#include <vector>
#include "absl/algorithm/container.h"
#include "absl/strings/match.h"
#include "absl/strings/string_view.h"
#include "api/media_types.h"
#include "api/rtc_error.h"
#include "api/rtp_parameters.h"
#include "api/rtp_transceiver_direction.h"
#include "media/base/codec.h"
#include "media/base/codec_comparators.h"
#include "media/base/codec_list.h"
#include "media/base/media_constants.h"
#include "media/base/media_engine.h"
#include "media/base/sdp_video_format_utils.h"
#include "pc/media_options.h"
#include "pc/rtp_media_utils.h"
#include "pc/session_description.h"
#include "pc/used_ids.h"
#include "rtc_base/checks.h"
#include "rtc_base/logging.h"
#include "rtc_base/string_encode.h"
#include "rtc_base/unique_id_generator.h"
#ifdef RTC_ENABLE_H265
#include "api/video_codecs/h265_profile_tier_level.h"
#endif
namespace cricket {
namespace {
using rtc::UniqueRandomIdGenerator;
using webrtc::RTCError;
using webrtc::RTCErrorType;
using webrtc::RtpTransceiverDirection;
bool IsRtxCodec(const webrtc::RtpCodecCapability& capability) {
return absl::EqualsIgnoreCase(capability.name, kRtxCodecName);
}
bool IsRedCodec(const webrtc::RtpCodecCapability& capability) {
return absl::EqualsIgnoreCase(capability.name, kRedCodecName);
}
bool IsComfortNoiseCodec(const Codec& codec) {
return absl::EqualsIgnoreCase(codec.name, kComfortNoiseCodecName);
}
// Wrapper for FindMatchingCodecs that uses CodecList
std::optional<Codec> FindMatchingCodec(const CodecList& codecs1,
const CodecList& codecs2,
const Codec& codec_to_match) {
return webrtc::FindMatchingCodec(codecs1.codecs(), codecs2.codecs(),
codec_to_match);
}
void StripCNCodecs(CodecList& audio_codecs) {
audio_codecs.writable_codecs().erase(
std::remove_if(
audio_codecs.begin(), audio_codecs.end(),
[](const Codec& codec) { return IsComfortNoiseCodec(codec); }),
audio_codecs.end());
}
bool IsMediaContentOfType(const ContentInfo* content, MediaType media_type) {
if (!content || !content->media_description()) {
return false;
}
return content->media_description()->type() == media_type;
}
// Find the codec in `codec_list` that `rtx_codec` is associated with.
const Codec* GetAssociatedCodecForRtx(const CodecList& codec_list,
const Codec& rtx_codec) {
std::string associated_pt_str;
if (!rtx_codec.GetParam(kCodecParamAssociatedPayloadType,
&associated_pt_str)) {
RTC_LOG(LS_WARNING) << "RTX codec " << rtx_codec.id
<< " is missing an associated payload type.";
return nullptr;
}
int associated_pt;
if (!rtc::FromString(associated_pt_str, &associated_pt)) {
RTC_LOG(LS_WARNING) << "Couldn't convert payload type " << associated_pt_str
<< " of RTX codec " << rtx_codec.id
<< " to an integer.";
return nullptr;
}
// Find the associated codec for the RTX codec.
const Codec* associated_codec =
FindCodecById(codec_list.codecs(), associated_pt);
if (!associated_codec) {
RTC_LOG(LS_WARNING) << "Couldn't find associated codec with payload type "
<< associated_pt << " for RTX codec " << rtx_codec.id
<< ".";
}
return associated_codec;
}
// Find the codec in `codec_list` that `red_codec` is associated with.
const Codec* GetAssociatedCodecForRed(const CodecList& codec_list,
const Codec& red_codec) {
std::string fmtp;
if (!red_codec.GetParam(kCodecParamNotInNameValueFormat, &fmtp)) {
// Don't log for video/RED where this is normal.
if (red_codec.type == Codec::Type::kAudio) {
RTC_LOG(LS_WARNING) << "RED codec " << red_codec.id
<< " is missing an associated payload type.";
}
return nullptr;
}
std::vector<absl::string_view> redundant_payloads = rtc::split(fmtp, '/');
if (redundant_payloads.size() < 2) {
return nullptr;
}
absl::string_view associated_pt_str = redundant_payloads[0];
int associated_pt;
if (!rtc::FromString(associated_pt_str, &associated_pt)) {
RTC_LOG(LS_WARNING) << "Couldn't convert first payload type "
<< associated_pt_str << " of RED codec " << red_codec.id
<< " to an integer.";
return nullptr;
}
// Find the associated codec for the RED codec.
const Codec* associated_codec =
FindCodecById(codec_list.codecs(), associated_pt);
if (!associated_codec) {
RTC_LOG(LS_WARNING) << "Couldn't find associated codec with payload type "
<< associated_pt << " for RED codec " << red_codec.id
<< ".";
}
return associated_codec;
}
// Adds all codecs from `reference_codecs` to `offered_codecs` that don't
// already exist in `offered_codecs` and ensure the payload types don't
// collide.
void MergeCodecs(const CodecList& reference_codecs,
CodecList& offered_codecs,
UsedPayloadTypes* used_pltypes) {
// Add all new codecs that are not RTX/RED codecs.
// The two-pass splitting of the loops means preferring payload types
// of actual codecs with respect to collisions.
for (const Codec& reference_codec : reference_codecs) {
if (reference_codec.GetResiliencyType() != Codec::ResiliencyType::kRtx &&
reference_codec.GetResiliencyType() != Codec::ResiliencyType::kRed &&
!FindMatchingCodec(reference_codecs, offered_codecs, reference_codec)) {
Codec codec = reference_codec;
used_pltypes->FindAndSetIdUsed(&codec);
offered_codecs.push_back(codec);
}
}
// Add all new RTX or RED codecs.
for (const Codec& reference_codec : reference_codecs) {
if (reference_codec.GetResiliencyType() == Codec::ResiliencyType::kRtx &&
!FindMatchingCodec(reference_codecs, offered_codecs, reference_codec)) {
Codec rtx_codec = reference_codec;
const Codec* associated_codec =
GetAssociatedCodecForRtx(reference_codecs, rtx_codec);
if (!associated_codec) {
continue;
}
// Find a codec in the offered list that matches the reference codec.
// Its payload type may be different than the reference codec.
std::optional<Codec> matching_codec = FindMatchingCodec(
reference_codecs, offered_codecs, *associated_codec);
if (!matching_codec) {
RTC_LOG(LS_WARNING)
<< "Couldn't find matching " << associated_codec->name << " codec.";
continue;
}
rtx_codec.params[kCodecParamAssociatedPayloadType] =
rtc::ToString(matching_codec->id);
used_pltypes->FindAndSetIdUsed(&rtx_codec);
offered_codecs.push_back(rtx_codec);
} else if (reference_codec.GetResiliencyType() ==
Codec::ResiliencyType::kRed &&
!FindMatchingCodec(reference_codecs, offered_codecs,
reference_codec)) {
Codec red_codec = reference_codec;
const Codec* associated_codec =
GetAssociatedCodecForRed(reference_codecs, red_codec);
if (associated_codec) {
std::optional<Codec> matching_codec = FindMatchingCodec(
reference_codecs, offered_codecs, *associated_codec);
if (!matching_codec) {
RTC_LOG(LS_WARNING) << "Couldn't find matching "
<< associated_codec->name << " codec.";
continue;
}
red_codec.params[kCodecParamNotInNameValueFormat] =
rtc::ToString(matching_codec->id) + "/" +
rtc::ToString(matching_codec->id);
}
used_pltypes->FindAndSetIdUsed(&red_codec);
offered_codecs.push_back(red_codec);
}
}
offered_codecs.CheckConsistency();
}
// `codecs` is a full list of codecs with correct payload type mappings, which
// don't conflict with mappings of the other media type; `supported_codecs` is
// a list filtered for the media section`s direction but with default payload
// types.
// static
CodecList MatchCodecPreference(
const std::vector<webrtc::RtpCodecCapability>& codec_preferences,
const CodecList& codecs,
const CodecList& supported_codecs) {
CodecList filtered_codecs;
bool want_rtx = false;
bool want_red = false;
for (const auto& codec_preference : codec_preferences) {
if (IsRtxCodec(codec_preference)) {
want_rtx = true;
} else if (IsRedCodec(codec_preference)) {
want_red = true;
}
}
bool red_was_added = false;
for (const auto& codec_preference : codec_preferences) {
auto found_codec = absl::c_find_if(
supported_codecs, [&codec_preference](const Codec& codec) {
// We should not filter out the codec in |codec_preferences| if it
// has a higher level than the codec in |supported_codecs|, as the
// codec in |supported_codecs| may be only with lower level in
// |send_codecs_| and |recv_codecs_| for the same codec.
return IsSameRtpCodecIgnoringLevel(codec, codec_preference);
});
if (found_codec != supported_codecs.end()) {
std::optional<Codec> found_codec_with_correct_pt =
FindMatchingCodec(supported_codecs, codecs, *found_codec);
if (found_codec_with_correct_pt) {
// RED may already have been added if its primary codec is before RED
// in the codec list.
bool is_red_codec = found_codec_with_correct_pt->GetResiliencyType() ==
Codec::ResiliencyType::kRed;
if (!is_red_codec || !red_was_added) {
filtered_codecs.push_back(*found_codec_with_correct_pt);
red_was_added = is_red_codec ? true : red_was_added;
}
std::string id = rtc::ToString(found_codec_with_correct_pt->id);
// Search for the matching rtx or red codec.
if (want_red || want_rtx) {
for (const auto& codec : codecs) {
if (want_rtx &&
codec.GetResiliencyType() == Codec::ResiliencyType::kRtx) {
const auto apt =
codec.params.find(cricket::kCodecParamAssociatedPayloadType);
if (apt != codec.params.end() && apt->second == id) {
filtered_codecs.push_back(codec);
break;
}
} else if (want_red && codec.GetResiliencyType() ==
Codec::ResiliencyType::kRed) {
// For RED, do not insert the codec again if it was already
// inserted. audio/red for opus gets enabled by having RED before
// the primary codec.
const auto fmtp =
codec.params.find(cricket::kCodecParamNotInNameValueFormat);
if (fmtp != codec.params.end()) {
std::vector<absl::string_view> redundant_payloads =
rtc::split(fmtp->second, '/');
if (!redundant_payloads.empty() &&
redundant_payloads[0] == id) {
if (!red_was_added) {
filtered_codecs.push_back(codec);
red_was_added = true;
}
break;
}
}
}
}
}
}
}
}
return filtered_codecs;
}
// Compute the union of `codecs1` and `codecs2`.
CodecList ComputeCodecsUnion(const CodecList codecs1, const CodecList codecs2) {
CodecList all_codecs;
UsedPayloadTypes used_payload_types;
for (const Codec& codec : codecs1) {
Codec codec_mutable = codec;
used_payload_types.FindAndSetIdUsed(&codec_mutable);
all_codecs.push_back(codec_mutable);
}
// Use MergeCodecs to merge the second half of our list as it already checks
// and fixes problems with duplicate payload types.
MergeCodecs(codecs2, all_codecs, &used_payload_types);
return all_codecs;
}
void MergeCodecsFromDescription(
const std::vector<const ContentInfo*>& current_active_contents,
CodecList& audio_codecs,
CodecList& video_codecs,
UsedPayloadTypes* used_pltypes) {
for (const ContentInfo* content : current_active_contents) {
if (IsMediaContentOfType(content, MEDIA_TYPE_AUDIO)) {
MergeCodecs(CodecList{content->media_description()->codecs()},
audio_codecs, used_pltypes);
} else if (IsMediaContentOfType(content, MEDIA_TYPE_VIDEO)) {
MergeCodecs(CodecList{content->media_description()->codecs()},
video_codecs, used_pltypes);
}
}
}
void NegotiatePacketization(const Codec& local_codec,
const Codec& remote_codec,
Codec* negotiated_codec) {
negotiated_codec->packetization =
(local_codec.packetization == remote_codec.packetization)
? local_codec.packetization
: std::nullopt;
}
#ifdef RTC_ENABLE_H265
void NegotiateTxMode(const Codec& local_codec,
const Codec& remote_codec,
Codec* negotiated_codec) {
negotiated_codec->tx_mode = (local_codec.tx_mode == remote_codec.tx_mode)
? local_codec.tx_mode
: std::nullopt;
}
#endif
// For offer, negotiated codec must have the same level-id as that in
// |supported_codecs| with same profile.
void NegotiateVideoCodecLevelsForOffer(
const MediaDescriptionOptions& media_description_options,
const CodecList& supported_codecs,
CodecList& filtered_codecs) {
if (filtered_codecs.empty() || supported_codecs.empty()) {
return;
}
// TODO(http://crbugs.com/376306259): We should handle level-idx for AV1.
// Ideally this should be done for all codecs, but RFCs of other codecs
// do not clear define the expected behavior for the level in the offer.
#ifdef RTC_ENABLE_H265
if (media_description_options.type == MEDIA_TYPE_VIDEO) {
std::unordered_map<webrtc::H265Profile, webrtc::H265Level>
supported_h265_profiles;
// The assumption here is that H.265 codecs with the same profile and tier
// are already with highest level for that profile in both
// |supported_codecs| and |filtered_codecs|.
for (const Codec& supported_codec : supported_codecs) {
if (absl::EqualsIgnoreCase(supported_codec.name, kH265CodecName)) {
std::optional<webrtc::H265ProfileTierLevel> supported_ptl =
webrtc::ParseSdpForH265ProfileTierLevel(supported_codec.params);
if (supported_ptl.has_value()) {
supported_h265_profiles[supported_ptl->profile] =
supported_ptl->level;
}
}
}
if (supported_h265_profiles.empty()) {
return;
}
for (auto& filtered_codec : filtered_codecs) {
if (absl::EqualsIgnoreCase(filtered_codec.name, kH265CodecName)) {
std::optional<webrtc::H265ProfileTierLevel> filtered_ptl =
webrtc::ParseSdpForH265ProfileTierLevel(filtered_codec.params);
if (filtered_ptl.has_value()) {
auto it = supported_h265_profiles.find(filtered_ptl->profile);
if (it != supported_h265_profiles.end() &&
filtered_ptl->level != it->second) {
filtered_codec.params[kH265FmtpLevelId] =
webrtc::H265LevelToString(it->second);
}
}
}
}
}
#endif
}
} // namespace
webrtc::RTCErrorOr<std::vector<Codec>> CodecVendor::GetNegotiatedCodecsForOffer(
const MediaDescriptionOptions& media_description_options,
const MediaSessionOptions& session_options,
const ContentInfo* current_content,
const CodecList& codecs) {
CodecList filtered_codecs;
CodecList supported_codecs =
media_description_options.type == MEDIA_TYPE_AUDIO
? GetAudioCodecsForOffer(media_description_options.direction)
: GetVideoCodecsForOffer(media_description_options.direction);
if (!media_description_options.codec_preferences.empty()) {
// Add the codecs from the current transceiver's codec preferences.
// They override any existing codecs from previous negotiations.
filtered_codecs = MatchCodecPreference(
media_description_options.codec_preferences, codecs, supported_codecs);
} else {
// Add the codecs from current content if it exists and is not rejected nor
// recycled.
if (current_content && !current_content->rejected &&
current_content->mid() == media_description_options.mid) {
if (!IsMediaContentOfType(current_content,
media_description_options.type)) {
// Can happen if the remote side re-uses a MID while recycling.
LOG_AND_RETURN_ERROR(RTCErrorType::INTERNAL_ERROR,
"Media type for content with mid='" +
current_content->mid() +
"' does not match previous type.");
}
const MediaContentDescription* mcd = current_content->media_description();
for (const Codec& codec : mcd->codecs()) {
if (webrtc::FindMatchingCodec(mcd->codecs(), codecs.codecs(), codec)) {
filtered_codecs.push_back(codec);
}
}
}
// Add other supported codecs.
for (const Codec& codec : supported_codecs) {
std::optional<Codec> found_codec =
FindMatchingCodec(supported_codecs, codecs, codec);
if (found_codec &&
!FindMatchingCodec(supported_codecs, filtered_codecs, codec)) {
// Use the `found_codec` from `codecs` because it has the
// correctly mapped payload type.
// This is only done for video since we do not yet have rtx for audio.
if (media_description_options.type == MEDIA_TYPE_VIDEO &&
found_codec->GetResiliencyType() == Codec::ResiliencyType::kRtx) {
// For RTX we might need to adjust the apt parameter if we got a
// remote offer without RTX for a codec for which we support RTX.
auto referenced_codec =
GetAssociatedCodecForRtx(supported_codecs, codec);
RTC_DCHECK(referenced_codec);
// Find the codec we should be referencing and point to it.
std::optional<Codec> changed_referenced_codec = FindMatchingCodec(
supported_codecs, filtered_codecs, *referenced_codec);
if (changed_referenced_codec) {
found_codec->SetParam(kCodecParamAssociatedPayloadType,
changed_referenced_codec->id);
}
}
filtered_codecs.push_back(*found_codec);
}
}
}
if (media_description_options.type == MEDIA_TYPE_AUDIO &&
!session_options.vad_enabled) {
// If application doesn't want CN codecs in offer.
StripCNCodecs(filtered_codecs);
} else if (media_description_options.type == MEDIA_TYPE_VIDEO &&
session_options.raw_packetization_for_video) {
for (Codec& codec : filtered_codecs) {
if (codec.IsMediaCodec()) {
codec.packetization = kPacketizationParamRaw;
}
}
}
NegotiateVideoCodecLevelsForOffer(media_description_options, supported_codecs,
filtered_codecs);
return filtered_codecs.codecs();
}
webrtc::RTCErrorOr<Codecs> CodecVendor::GetNegotiatedCodecsForAnswer(
const MediaDescriptionOptions& media_description_options,
const MediaSessionOptions& session_options,
webrtc::RtpTransceiverDirection offer_rtd,
webrtc::RtpTransceiverDirection answer_rtd,
const ContentInfo* current_content,
const CodecList& codecs) {
CodecList filtered_codecs;
const CodecList& supported_codecs =
media_description_options.type == MEDIA_TYPE_AUDIO
? GetAudioCodecsForAnswer(offer_rtd, answer_rtd)
: GetVideoCodecsForAnswer(offer_rtd, answer_rtd);
if (!media_description_options.codec_preferences.empty()) {
filtered_codecs = MatchCodecPreference(
media_description_options.codec_preferences, codecs, supported_codecs);
} else {
// Add the codecs from current content if it exists and is not rejected nor
// recycled.
if (current_content && !current_content->rejected &&
current_content->mid() == media_description_options.mid) {
if (!IsMediaContentOfType(current_content,
media_description_options.type)) {
// Can happen if the remote side re-uses a MID while recycling.
LOG_AND_RETURN_ERROR(RTCErrorType::INTERNAL_ERROR,
"Media type for content with mid='" +
current_content->mid() +
"' does not match previous type.");
}
const MediaContentDescription* mcd = current_content->media_description();
for (const Codec& codec : mcd->codecs()) {
if (webrtc::FindMatchingCodec(mcd->codecs(), codecs.codecs(), codec)) {
filtered_codecs.push_back(codec);
}
}
}
// Add other supported codecs.
CodecList other_codecs;
for (const Codec& codec : supported_codecs) {
if (FindMatchingCodec(supported_codecs, codecs, codec) &&
!FindMatchingCodec(supported_codecs, filtered_codecs, codec)) {
// We should use the local codec with local parameters and the codec id
// would be correctly mapped in `NegotiateCodecs`.
other_codecs.push_back(codec);
}
}
// Use ComputeCodecsUnion to avoid having duplicate payload IDs.
// This is a no-op for audio until RTX is added.
filtered_codecs = ComputeCodecsUnion(filtered_codecs, other_codecs);
}
if (media_description_options.type == MEDIA_TYPE_AUDIO &&
!session_options.vad_enabled) {
// If application doesn't want CN codecs in offer.
StripCNCodecs(filtered_codecs);
} else if (media_description_options.type == MEDIA_TYPE_VIDEO &&
session_options.raw_packetization_for_video) {
for (Codec& codec : filtered_codecs) {
if (codec.IsMediaCodec()) {
codec.packetization = kPacketizationParamRaw;
}
}
}
return filtered_codecs.codecs();
}
void CodecVendor::NegotiateCodecs(const CodecList& local_codecs,
const CodecList& offered_codecs,
std::vector<Codec>* negotiated_codecs,
bool keep_offer_order) {
for (const Codec& ours : local_codecs) {
std::optional<Codec> theirs =
FindMatchingCodec(local_codecs, offered_codecs, ours);
// Note that we intentionally only find one matching codec for each of our
// local codecs, in case the remote offer contains duplicate codecs.
if (theirs) {
Codec negotiated = ours;
NegotiatePacketization(ours, *theirs, &negotiated);
negotiated.IntersectFeedbackParams(*theirs);
if (negotiated.GetResiliencyType() == Codec::ResiliencyType::kRtx) {
const auto apt_it =
theirs->params.find(kCodecParamAssociatedPayloadType);
// webrtc::FindMatchingCodec shouldn't return something with no apt
// value.
RTC_DCHECK(apt_it != theirs->params.end());
negotiated.SetParam(kCodecParamAssociatedPayloadType, apt_it->second);
// We support parsing the declarative rtx-time parameter.
const auto rtx_time_it = theirs->params.find(kCodecParamRtxTime);
if (rtx_time_it != theirs->params.end()) {
negotiated.SetParam(kCodecParamRtxTime, rtx_time_it->second);
}
} else if (negotiated.GetResiliencyType() ==
Codec::ResiliencyType::kRed) {
const auto red_it =
theirs->params.find(kCodecParamNotInNameValueFormat);
if (red_it != theirs->params.end()) {
negotiated.SetParam(kCodecParamNotInNameValueFormat, red_it->second);
}
}
if (absl::EqualsIgnoreCase(ours.name, kH264CodecName)) {
webrtc::H264GenerateProfileLevelIdForAnswer(ours.params, theirs->params,
&negotiated.params);
}
#ifdef RTC_ENABLE_H265
if (absl::EqualsIgnoreCase(ours.name, kH265CodecName)) {
webrtc::H265GenerateProfileTierLevelForAnswer(
ours.params, theirs->params, &negotiated.params);
NegotiateTxMode(ours, *theirs, &negotiated);
}
#endif
negotiated.id = theirs->id;
negotiated.name = theirs->name;
negotiated_codecs->push_back(std::move(negotiated));
}
}
if (keep_offer_order) {
// RFC3264: Although the answerer MAY list the formats in their desired
// order of preference, it is RECOMMENDED that unless there is a
// specific reason, the answerer list formats in the same relative order
// they were present in the offer.
// This can be skipped when the transceiver has any codec preferences.
std::unordered_map<int, int> payload_type_preferences;
int preference = static_cast<int>(offered_codecs.size() + 1);
for (const Codec& codec : offered_codecs) {
payload_type_preferences[codec.id] = preference--;
}
absl::c_sort(*negotiated_codecs, [&payload_type_preferences](
const Codec& a, const Codec& b) {
return payload_type_preferences[a.id] > payload_type_preferences[b.id];
});
}
}
CodecVendor::CodecVendor(MediaEngineInterface* media_engine, bool rtx_enabled) {
// Null media_engine is permitted in order to allow unit testing where
// the codecs are explicitly set by the test.
if (media_engine) {
audio_send_codecs_ = CodecList(media_engine->voice().send_codecs());
audio_recv_codecs_ = CodecList(media_engine->voice().recv_codecs());
video_send_codecs_ =
CodecList(media_engine->video().send_codecs(rtx_enabled));
video_recv_codecs_ =
CodecList(media_engine->video().recv_codecs(rtx_enabled));
ComputeAudioCodecsIntersectionAndUnion();
ComputeVideoCodecsIntersectionAndUnion();
}
}
const CodecList& CodecVendor::audio_sendrecv_codecs() const {
return audio_sendrecv_codecs_;
}
const CodecList& CodecVendor::audio_send_codecs() const {
return audio_send_codecs_;
}
const CodecList& CodecVendor::audio_recv_codecs() const {
return audio_recv_codecs_;
}
void CodecVendor::set_audio_codecs(const CodecList& send_codecs,
const CodecList& recv_codecs) {
audio_send_codecs_ = send_codecs;
audio_recv_codecs_ = recv_codecs;
ComputeAudioCodecsIntersectionAndUnion();
}
const CodecList& CodecVendor::video_sendrecv_codecs() const {
return video_sendrecv_codecs_;
}
const CodecList& CodecVendor::video_send_codecs() const {
return video_send_codecs_;
}
const CodecList& CodecVendor::video_recv_codecs() const {
return video_recv_codecs_;
}
void CodecVendor::set_video_codecs(const CodecList& send_codecs,
const CodecList& recv_codecs) {
video_send_codecs_ = send_codecs;
video_recv_codecs_ = recv_codecs;
ComputeVideoCodecsIntersectionAndUnion();
}
// Getting codecs for an offer involves these steps:
//
// 1. Construct payload type -> codec mappings for current description.
// 2. Add any reference codecs that weren't already present
// 3. For each individual media description (m= section), filter codecs based
// on the directional attribute (happens in another method).
void CodecVendor::GetCodecsForOffer(
const std::vector<const ContentInfo*>& current_active_contents,
Codecs* audio_codecs,
Codecs* video_codecs) const {
// First - get all codecs from the current description if the media type
// is used. Add them to `used_pltypes` so the payload type is not reused if a
// new media type is added.
UsedPayloadTypes used_pltypes;
CodecList video_codec_list(*video_codecs);
CodecList audio_codec_list(*audio_codecs);
MergeCodecsFromDescription(current_active_contents, audio_codec_list,
video_codec_list, &used_pltypes);
// Add our codecs that are not in the current description.
MergeCodecs(CodecList{all_audio_codecs_}, audio_codec_list, &used_pltypes);
MergeCodecs(CodecList{all_video_codecs_}, video_codec_list, &used_pltypes);
*audio_codecs = audio_codec_list.codecs();
*video_codecs = video_codec_list.codecs();
}
// Getting codecs for an answer involves these steps:
//
// 1. Construct payload type -> codec mappings for current description.
// 2. Add any codecs from the offer that weren't already present.
// 3. Add any remaining codecs that weren't already present.
// 4. For each individual media description (m= section), filter codecs based
// on the directional attribute (happens in another method).
void CodecVendor::GetCodecsForAnswer(
const std::vector<const ContentInfo*>& current_active_contents,
const SessionDescription& remote_offer,
Codecs* audio_codecs,
Codecs* video_codecs) const {
// First - get all codecs from the current description if the media type
// is used. Add them to `used_pltypes` so the payload type is not reused if a
// new media type is added.
UsedPayloadTypes used_pltypes;
CodecList video_codec_list(*video_codecs);
CodecList audio_codec_list(*audio_codecs);
MergeCodecsFromDescription(current_active_contents, audio_codec_list,
video_codec_list, &used_pltypes);
// Second - filter out codecs that we don't support at all and should ignore.
CodecList filtered_offered_audio_codecs;
CodecList filtered_offered_video_codecs;
for (const ContentInfo& content : remote_offer.contents()) {
if (IsMediaContentOfType(&content, MEDIA_TYPE_AUDIO)) {
CodecList offered_codecs(content.media_description()->codecs());
for (const Codec& offered_audio_codec : offered_codecs) {
if (!FindMatchingCodec(offered_codecs, filtered_offered_audio_codecs,
offered_audio_codec) &&
FindMatchingCodec(offered_codecs, all_audio_codecs_,
offered_audio_codec)) {
filtered_offered_audio_codecs.push_back(offered_audio_codec);
}
}
} else if (IsMediaContentOfType(&content, MEDIA_TYPE_VIDEO)) {
CodecList offered_codecs(content.media_description()->codecs());
for (const Codec& offered_video_codec : offered_codecs) {
if (!FindMatchingCodec(offered_codecs, filtered_offered_video_codecs,
offered_video_codec) &&
FindMatchingCodec(offered_codecs, all_video_codecs_,
offered_video_codec)) {
filtered_offered_video_codecs.push_back(offered_video_codec);
}
}
}
}
// Add codecs that are not in the current description but were in
// `remote_offer`.
MergeCodecs(filtered_offered_audio_codecs, audio_codec_list, &used_pltypes);
MergeCodecs(filtered_offered_video_codecs, video_codec_list, &used_pltypes);
*audio_codecs = audio_codec_list.codecs();
*video_codecs = video_codec_list.codecs();
}
const CodecList& CodecVendor::GetVideoCodecsForOffer(
const RtpTransceiverDirection& direction) const {
switch (direction) {
// If stream is inactive - generate list as if sendrecv.
case RtpTransceiverDirection::kSendRecv:
case RtpTransceiverDirection::kStopped:
case RtpTransceiverDirection::kInactive:
return video_sendrecv_codecs_;
case RtpTransceiverDirection::kSendOnly:
return video_send_codecs_;
case RtpTransceiverDirection::kRecvOnly:
return video_recv_codecs_;
}
RTC_CHECK_NOTREACHED();
}
const CodecList& CodecVendor::GetVideoCodecsForAnswer(
const RtpTransceiverDirection& offer,
const RtpTransceiverDirection& answer) const {
switch (answer) {
// For inactive and sendrecv answers, generate lists as if we were to accept
// the offer's direction. See RFC 3264 Section 6.1.
case RtpTransceiverDirection::kSendRecv:
case RtpTransceiverDirection::kStopped:
case RtpTransceiverDirection::kInactive:
return GetVideoCodecsForOffer(
webrtc::RtpTransceiverDirectionReversed(offer));
case RtpTransceiverDirection::kSendOnly:
return video_send_codecs_;
case RtpTransceiverDirection::kRecvOnly:
return video_recv_codecs_;
}
RTC_CHECK_NOTREACHED();
}
const CodecList& CodecVendor::GetAudioCodecsForOffer(
const RtpTransceiverDirection& direction) const {
switch (direction) {
// If stream is inactive - generate list as if sendrecv.
case RtpTransceiverDirection::kSendRecv:
case RtpTransceiverDirection::kStopped:
case RtpTransceiverDirection::kInactive:
return audio_sendrecv_codecs_;
case RtpTransceiverDirection::kSendOnly:
return audio_send_codecs_;
case RtpTransceiverDirection::kRecvOnly:
return audio_recv_codecs_;
}
RTC_CHECK_NOTREACHED();
}
const CodecList& CodecVendor::GetAudioCodecsForAnswer(
const RtpTransceiverDirection& offer,
const RtpTransceiverDirection& answer) const {
switch (answer) {
// For inactive and sendrecv answers, generate lists as if we were to accept
// the offer's direction. See RFC 3264 Section 6.1.
case RtpTransceiverDirection::kSendRecv:
case RtpTransceiverDirection::kStopped:
case RtpTransceiverDirection::kInactive:
return GetAudioCodecsForOffer(
webrtc::RtpTransceiverDirectionReversed(offer));
case RtpTransceiverDirection::kSendOnly:
return audio_send_codecs_;
case RtpTransceiverDirection::kRecvOnly:
return audio_recv_codecs_;
}
RTC_CHECK_NOTREACHED();
}
void CodecVendor::ComputeAudioCodecsIntersectionAndUnion() {
audio_sendrecv_codecs_.clear();
all_audio_codecs_.clear();
// Compute the audio codecs union.
for (const Codec& send : audio_send_codecs_) {
all_audio_codecs_.push_back(send);
if (!FindMatchingCodec(audio_send_codecs_, audio_recv_codecs_, send)) {
// It doesn't make sense to have an RTX codec we support sending but not
// receiving.
RTC_DCHECK(send.GetResiliencyType() != Codec::ResiliencyType::kRtx);
}
}
for (const Codec& recv : audio_recv_codecs_) {
if (!FindMatchingCodec(audio_recv_codecs_, audio_send_codecs_, recv)) {
all_audio_codecs_.push_back(recv);
}
}
// Use NegotiateCodecs to merge our codec lists, since the operation is
// essentially the same. Put send_codecs as the offered_codecs, which is the
// order we'd like to follow. The reasoning is that encoding is usually more
// expensive than decoding, and prioritizing a codec in the send list probably
// means it's a codec we can handle efficiently.
std::vector<Codec> audio_sendrecv_codecs_vector;
NegotiateCodecs(audio_recv_codecs_, audio_send_codecs_,
&audio_sendrecv_codecs_vector, true);
audio_sendrecv_codecs_ = CodecList(audio_sendrecv_codecs_vector);
}
void CodecVendor::ComputeVideoCodecsIntersectionAndUnion() {
video_sendrecv_codecs_.clear();
// Use ComputeCodecsUnion to avoid having duplicate payload IDs
all_video_codecs_ = ComputeCodecsUnion(CodecList(video_recv_codecs_),
CodecList(video_send_codecs_));
// Use NegotiateCodecs to merge our codec lists, since the operation is
// essentially the same. Put send_codecs as the offered_codecs, which is the
// order we'd like to follow. The reasoning is that encoding is usually more
// expensive than decoding, and prioritizing a codec in the send list probably
// means it's a codec we can handle efficiently.
// Also for the same profile of a codec, if there are different levels in the
// send and receive codecs, |video_sendrecv_codecs_| will contain the lower
// level of the two for that profile.
std::vector<Codec> video_sendrecv_codecs_vector;
NegotiateCodecs(video_recv_codecs_, video_send_codecs_,
&video_sendrecv_codecs_vector, true);
video_sendrecv_codecs_ = CodecList(video_sendrecv_codecs_vector);
}
} // namespace cricket