/* * Copyright 2013 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 "sdk/media_constraints.h" #include "absl/types/optional.h" #include "api/peer_connection_interface.h" namespace webrtc { namespace { // Find the highest-priority instance of the T-valued constraint named by // `key` and return its value as `value`. `constraints` can be null. // If `mandatory_constraints` is non-null, it is incremented if the key appears // among the mandatory constraints. // Returns true if the key was found and has a valid value for type T. // If the key appears multiple times as an optional constraint, appearances // after the first are ignored. // Note: Because this uses FindFirst, repeated optional constraints whose // first instance has an unrecognized value are not handled precisely in // accordance with the specification. template bool FindConstraint(const MediaConstraints* constraints, const std::string& key, T* value, size_t* mandatory_constraints) { std::string string_value; if (!FindConstraint(constraints, key, &string_value, mandatory_constraints)) { return false; } return rtc::FromString(string_value, value); } // Specialization for std::string, since a string doesn't need conversion. template <> bool FindConstraint(const MediaConstraints* constraints, const std::string& key, std::string* value, size_t* mandatory_constraints) { if (!constraints) { return false; } if (constraints->GetMandatory().FindFirst(key, value)) { if (mandatory_constraints) { ++*mandatory_constraints; } return true; } if (constraints->GetOptional().FindFirst(key, value)) { return true; } return false; } bool FindConstraint(const MediaConstraints* constraints, const std::string& key, bool* value, size_t* mandatory_constraints) { return FindConstraint(constraints, key, value, mandatory_constraints); } bool FindConstraint(const MediaConstraints* constraints, const std::string& key, int* value, size_t* mandatory_constraints) { return FindConstraint(constraints, key, value, mandatory_constraints); } // Converts a constraint (mandatory takes precedence over optional) to an // absl::optional. template void ConstraintToOptional(const MediaConstraints* constraints, const std::string& key, absl::optional* value_out) { T value; bool present = FindConstraint(constraints, key, &value, nullptr); if (present) { *value_out = value; } } } // namespace const char MediaConstraints::kValueTrue[] = "true"; const char MediaConstraints::kValueFalse[] = "false"; // Constraints declared as static members in mediastreaminterface.h // Audio constraints. const char MediaConstraints::kGoogEchoCancellation[] = "googEchoCancellation"; const char MediaConstraints::kAutoGainControl[] = "googAutoGainControl"; const char MediaConstraints::kExperimentalAutoGainControl[] = "googAutoGainControl2"; const char MediaConstraints::kNoiseSuppression[] = "googNoiseSuppression"; const char MediaConstraints::kExperimentalNoiseSuppression[] = "googNoiseSuppression2"; const char MediaConstraints::kHighpassFilter[] = "googHighpassFilter"; const char MediaConstraints::kTypingNoiseDetection[] = "googTypingNoiseDetection"; const char MediaConstraints::kAudioMirroring[] = "googAudioMirroring"; const char MediaConstraints::kAudioNetworkAdaptorConfig[] = "googAudioNetworkAdaptorConfig"; // Constraint keys for CreateOffer / CreateAnswer defined in W3C specification. const char MediaConstraints::kOfferToReceiveAudio[] = "OfferToReceiveAudio"; const char MediaConstraints::kOfferToReceiveVideo[] = "OfferToReceiveVideo"; const char MediaConstraints::kVoiceActivityDetection[] = "VoiceActivityDetection"; const char MediaConstraints::kIceRestart[] = "IceRestart"; // Google specific constraint for BUNDLE enable/disable. const char MediaConstraints::kUseRtpMux[] = "googUseRtpMUX"; // Below constraints should be used during PeerConnection construction. // Google-specific constraint keys. const char MediaConstraints::kEnableDscp[] = "googDscp"; const char MediaConstraints::kEnableIPv6[] = "googIPv6"; const char MediaConstraints::kEnableVideoSuspendBelowMinBitrate[] = "googSuspendBelowMinBitrate"; const char MediaConstraints::kCombinedAudioVideoBwe[] = "googCombinedAudioVideoBwe"; const char MediaConstraints::kScreencastMinBitrate[] = "googScreencastMinBitrate"; // TODO(ronghuawu): Remove once cpu overuse detection is stable. const char MediaConstraints::kCpuOveruseDetection[] = "googCpuOveruseDetection"; const char MediaConstraints::kRawPacketizationForVideoEnabled[] = "googRawPacketizationForVideoEnabled"; const char MediaConstraints::kNumSimulcastLayers[] = "googNumSimulcastLayers"; // Set `value` to the value associated with the first appearance of `key`, or // return false if `key` is not found. bool MediaConstraints::Constraints::FindFirst(const std::string& key, std::string* value) const { for (Constraints::const_iterator iter = begin(); iter != end(); ++iter) { if (iter->key == key) { *value = iter->value; return true; } } return false; } void CopyConstraintsIntoRtcConfiguration( const MediaConstraints* constraints, PeerConnectionInterface::RTCConfiguration* configuration) { // Copy info from constraints into configuration, if present. if (!constraints) { return; } bool enable_ipv6; if (FindConstraint(constraints, MediaConstraints::kEnableIPv6, &enable_ipv6, nullptr)) { configuration->disable_ipv6 = !enable_ipv6; } FindConstraint(constraints, MediaConstraints::kEnableDscp, &configuration->media_config.enable_dscp, nullptr); FindConstraint(constraints, MediaConstraints::kCpuOveruseDetection, &configuration->media_config.video.enable_cpu_adaptation, nullptr); // Find Suspend Below Min Bitrate constraint. FindConstraint( constraints, MediaConstraints::kEnableVideoSuspendBelowMinBitrate, &configuration->media_config.video.suspend_below_min_bitrate, nullptr); ConstraintToOptional(constraints, MediaConstraints::kScreencastMinBitrate, &configuration->screencast_min_bitrate); ConstraintToOptional(constraints, MediaConstraints::kCombinedAudioVideoBwe, &configuration->combined_audio_video_bwe); } void CopyConstraintsIntoAudioOptions(const MediaConstraints* constraints, cricket::AudioOptions* options) { if (!constraints) { return; } ConstraintToOptional(constraints, MediaConstraints::kGoogEchoCancellation, &options->echo_cancellation); ConstraintToOptional(constraints, MediaConstraints::kAutoGainControl, &options->auto_gain_control); ConstraintToOptional(constraints, MediaConstraints::kExperimentalAutoGainControl, &options->experimental_agc); ConstraintToOptional(constraints, MediaConstraints::kNoiseSuppression, &options->noise_suppression); ConstraintToOptional(constraints, MediaConstraints::kExperimentalNoiseSuppression, &options->experimental_ns); ConstraintToOptional(constraints, MediaConstraints::kHighpassFilter, &options->highpass_filter); ConstraintToOptional(constraints, MediaConstraints::kTypingNoiseDetection, &options->typing_detection); ConstraintToOptional(constraints, MediaConstraints::kAudioMirroring, &options->stereo_swapping); ConstraintToOptional( constraints, MediaConstraints::kAudioNetworkAdaptorConfig, &options->audio_network_adaptor_config); // When `kAudioNetworkAdaptorConfig` is defined, it both means that audio // network adaptor is desired, and provides the config string. if (options->audio_network_adaptor_config) { options->audio_network_adaptor = true; } } bool CopyConstraintsIntoOfferAnswerOptions( const MediaConstraints* constraints, PeerConnectionInterface::RTCOfferAnswerOptions* offer_answer_options) { if (!constraints) { return true; } bool value = false; size_t mandatory_constraints_satisfied = 0; if (FindConstraint(constraints, MediaConstraints::kOfferToReceiveAudio, &value, &mandatory_constraints_satisfied)) { offer_answer_options->offer_to_receive_audio = value ? PeerConnectionInterface::RTCOfferAnswerOptions:: kOfferToReceiveMediaTrue : 0; } if (FindConstraint(constraints, MediaConstraints::kOfferToReceiveVideo, &value, &mandatory_constraints_satisfied)) { offer_answer_options->offer_to_receive_video = value ? PeerConnectionInterface::RTCOfferAnswerOptions:: kOfferToReceiveMediaTrue : 0; } if (FindConstraint(constraints, MediaConstraints::kVoiceActivityDetection, &value, &mandatory_constraints_satisfied)) { offer_answer_options->voice_activity_detection = value; } if (FindConstraint(constraints, MediaConstraints::kUseRtpMux, &value, &mandatory_constraints_satisfied)) { offer_answer_options->use_rtp_mux = value; } if (FindConstraint(constraints, MediaConstraints::kIceRestart, &value, &mandatory_constraints_satisfied)) { offer_answer_options->ice_restart = value; } if (FindConstraint(constraints, MediaConstraints::kRawPacketizationForVideoEnabled, &value, &mandatory_constraints_satisfied)) { offer_answer_options->raw_packetization_for_video = value; } int layers; if (FindConstraint(constraints, MediaConstraints::kNumSimulcastLayers, &layers, &mandatory_constraints_satisfied)) { offer_answer_options->num_simulcast_layers = layers; } return mandatory_constraints_satisfied == constraints->GetMandatory().size(); } } // namespace webrtc