/* * Copyright (c) 2012 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 "modules/audio_coding/neteq/decoder_database.h" #include #include #include #include #include #include "absl/strings/match.h" #include "api/audio_codecs/audio_decoder.h" #include "rtc_base/checks.h" #include "rtc_base/logging.h" #include "rtc_base/strings/audio_format_to_string.h" namespace webrtc { DecoderDatabase::DecoderDatabase( const rtc::scoped_refptr& decoder_factory, absl::optional codec_pair_id) : active_decoder_type_(-1), active_cng_decoder_type_(-1), decoder_factory_(decoder_factory), codec_pair_id_(codec_pair_id) {} DecoderDatabase::~DecoderDatabase() = default; DecoderDatabase::DecoderInfo::DecoderInfo( const SdpAudioFormat& audio_format, absl::optional codec_pair_id, AudioDecoderFactory* factory, const std::string& codec_name) : name_(codec_name), audio_format_(audio_format), codec_pair_id_(codec_pair_id), factory_(factory), cng_decoder_(CngDecoder::Create(audio_format)), subtype_(SubtypeFromFormat(audio_format)) {} DecoderDatabase::DecoderInfo::DecoderInfo( const SdpAudioFormat& audio_format, absl::optional codec_pair_id, AudioDecoderFactory* factory) : DecoderInfo(audio_format, codec_pair_id, factory, audio_format.name) {} DecoderDatabase::DecoderInfo::DecoderInfo(DecoderInfo&&) = default; DecoderDatabase::DecoderInfo::~DecoderInfo() = default; AudioDecoder* DecoderDatabase::DecoderInfo::GetDecoder() const { if (subtype_ != Subtype::kNormal) { // These are handled internally, so they have no AudioDecoder objects. return nullptr; } if (!decoder_) { // TODO(ossu): Keep a check here for now, since a number of tests create // DecoderInfos without factories. RTC_DCHECK(factory_); decoder_ = factory_->MakeAudioDecoder(audio_format_, codec_pair_id_); } RTC_DCHECK(decoder_) << "Failed to create: " << rtc::ToString(audio_format_); return decoder_.get(); } bool DecoderDatabase::DecoderInfo::IsType(const char* name) const { return absl::EqualsIgnoreCase(audio_format_.name, name); } bool DecoderDatabase::DecoderInfo::IsType(const std::string& name) const { return IsType(name.c_str()); } absl::optional DecoderDatabase::DecoderInfo::CngDecoder::Create(const SdpAudioFormat& format) { if (absl::EqualsIgnoreCase(format.name, "CN")) { // CN has a 1:1 RTP clock rate to sample rate ratio. const int sample_rate_hz = format.clockrate_hz; RTC_DCHECK(sample_rate_hz == 8000 || sample_rate_hz == 16000 || sample_rate_hz == 32000 || sample_rate_hz == 48000); return DecoderDatabase::DecoderInfo::CngDecoder{sample_rate_hz}; } else { return absl::nullopt; } } DecoderDatabase::DecoderInfo::Subtype DecoderDatabase::DecoderInfo::SubtypeFromFormat(const SdpAudioFormat& format) { if (absl::EqualsIgnoreCase(format.name, "CN")) { return Subtype::kComfortNoise; } else if (absl::EqualsIgnoreCase(format.name, "telephone-event")) { return Subtype::kDtmf; } else if (absl::EqualsIgnoreCase(format.name, "red")) { return Subtype::kRed; } return Subtype::kNormal; } bool DecoderDatabase::Empty() const { return decoders_.empty(); } int DecoderDatabase::Size() const { return static_cast(decoders_.size()); } void DecoderDatabase::Reset() { decoders_.clear(); active_decoder_type_ = -1; active_cng_decoder_type_ = -1; } std::vector DecoderDatabase::SetCodecs( const std::map& codecs) { // First collect all payload types that we'll remove or reassign, then remove // them from the database. std::vector changed_payload_types; for (const std::pair kv : decoders_) { auto i = codecs.find(kv.first); if (i == codecs.end() || i->second != kv.second.GetFormat()) { changed_payload_types.push_back(kv.first); } } for (int pl_type : changed_payload_types) { Remove(pl_type); } // Enter the new and changed payload type mappings into the database. for (const auto& kv : codecs) { const int& rtp_payload_type = kv.first; const SdpAudioFormat& audio_format = kv.second; RTC_DCHECK_GE(rtp_payload_type, 0); RTC_DCHECK_LE(rtp_payload_type, 0x7f); if (decoders_.count(rtp_payload_type) == 0) { decoders_.insert(std::make_pair( rtp_payload_type, DecoderInfo(audio_format, codec_pair_id_, decoder_factory_.get()))); } else { // The mapping for this payload type hasn't changed. } } return changed_payload_types; } int DecoderDatabase::RegisterPayload(int rtp_payload_type, const SdpAudioFormat& audio_format) { if (rtp_payload_type < 0 || rtp_payload_type > 0x7f) { return kInvalidRtpPayloadType; } const auto ret = decoders_.insert(std::make_pair( rtp_payload_type, DecoderInfo(audio_format, codec_pair_id_, decoder_factory_.get()))); if (ret.second == false) { // Database already contains a decoder with type |rtp_payload_type|. return kDecoderExists; } return kOK; } int DecoderDatabase::Remove(uint8_t rtp_payload_type) { if (decoders_.erase(rtp_payload_type) == 0) { // No decoder with that |rtp_payload_type|. return kDecoderNotFound; } if (active_decoder_type_ == rtp_payload_type) { active_decoder_type_ = -1; // No active decoder. } if (active_cng_decoder_type_ == rtp_payload_type) { active_cng_decoder_type_ = -1; // No active CNG decoder. } return kOK; } void DecoderDatabase::RemoveAll() { decoders_.clear(); active_decoder_type_ = -1; // No active decoder. active_cng_decoder_type_ = -1; // No active CNG decoder. } const DecoderDatabase::DecoderInfo* DecoderDatabase::GetDecoderInfo( uint8_t rtp_payload_type) const { DecoderMap::const_iterator it = decoders_.find(rtp_payload_type); if (it == decoders_.end()) { // Decoder not found. return NULL; } return &it->second; } int DecoderDatabase::SetActiveDecoder(uint8_t rtp_payload_type, bool* new_decoder) { // Check that |rtp_payload_type| exists in the database. const DecoderInfo* info = GetDecoderInfo(rtp_payload_type); if (!info) { // Decoder not found. return kDecoderNotFound; } RTC_CHECK(!info->IsComfortNoise()); RTC_DCHECK(new_decoder); *new_decoder = false; if (active_decoder_type_ < 0) { // This is the first active decoder. *new_decoder = true; } else if (active_decoder_type_ != rtp_payload_type) { // Moving from one active decoder to another. Delete the first one. const DecoderInfo* old_info = GetDecoderInfo(active_decoder_type_); RTC_DCHECK(old_info); old_info->DropDecoder(); *new_decoder = true; } active_decoder_type_ = rtp_payload_type; return kOK; } AudioDecoder* DecoderDatabase::GetActiveDecoder() const { if (active_decoder_type_ < 0) { // No active decoder. return NULL; } return GetDecoder(active_decoder_type_); } int DecoderDatabase::SetActiveCngDecoder(uint8_t rtp_payload_type) { // Check that |rtp_payload_type| exists in the database. const DecoderInfo* info = GetDecoderInfo(rtp_payload_type); if (!info) { // Decoder not found. return kDecoderNotFound; } if (active_cng_decoder_type_ >= 0 && active_cng_decoder_type_ != rtp_payload_type) { // Moving from one active CNG decoder to another. Delete the first one. RTC_DCHECK(active_cng_decoder_); active_cng_decoder_.reset(); } active_cng_decoder_type_ = rtp_payload_type; return kOK; } ComfortNoiseDecoder* DecoderDatabase::GetActiveCngDecoder() const { if (active_cng_decoder_type_ < 0) { // No active CNG decoder. return NULL; } if (!active_cng_decoder_) { active_cng_decoder_.reset(new ComfortNoiseDecoder); } return active_cng_decoder_.get(); } AudioDecoder* DecoderDatabase::GetDecoder(uint8_t rtp_payload_type) const { const DecoderInfo* info = GetDecoderInfo(rtp_payload_type); return info ? info->GetDecoder() : nullptr; } bool DecoderDatabase::IsType(uint8_t rtp_payload_type, const char* name) const { const DecoderInfo* info = GetDecoderInfo(rtp_payload_type); return info && info->IsType(name); } bool DecoderDatabase::IsType(uint8_t rtp_payload_type, const std::string& name) const { return IsType(rtp_payload_type, name.c_str()); } bool DecoderDatabase::IsComfortNoise(uint8_t rtp_payload_type) const { const DecoderInfo* info = GetDecoderInfo(rtp_payload_type); return info && info->IsComfortNoise(); } bool DecoderDatabase::IsDtmf(uint8_t rtp_payload_type) const { const DecoderInfo* info = GetDecoderInfo(rtp_payload_type); return info && info->IsDtmf(); } bool DecoderDatabase::IsRed(uint8_t rtp_payload_type) const { const DecoderInfo* info = GetDecoderInfo(rtp_payload_type); return info && info->IsRed(); } int DecoderDatabase::CheckPayloadTypes(const PacketList& packet_list) const { PacketList::const_iterator it; for (it = packet_list.begin(); it != packet_list.end(); ++it) { if (!GetDecoderInfo(it->payload_type)) { // Payload type is not found. RTC_LOG(LS_WARNING) << "CheckPayloadTypes: unknown RTP payload type " << static_cast(it->payload_type); return kDecoderNotFound; } } return kOK; } } // namespace webrtc