/* * Copyright 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. */ // This file contains the PeerConnection interface as defined in // https://w3c.github.io/webrtc-pc/#peer-to-peer-connections // // The PeerConnectionFactory class provides factory methods to create // PeerConnection, MediaStream and MediaStreamTrack objects. // // The following steps are needed to setup a typical call using WebRTC: // // 1. Create a PeerConnectionFactoryInterface. Check constructors for more // information about input parameters. // // 2. Create a PeerConnection object. Provide a configuration struct which // points to STUN and/or TURN servers used to generate ICE candidates, and // provide an object that implements the PeerConnectionObserver interface, // which is used to receive callbacks from the PeerConnection. // // 3. Create local MediaStreamTracks using the PeerConnectionFactory and add // them to PeerConnection by calling AddTrack (or legacy method, AddStream). // // 4. Create an offer, call SetLocalDescription with it, serialize it, and send // it to the remote peer // // 5. Once an ICE candidate has been gathered, the PeerConnection will call the // observer function OnIceCandidate. The candidates must also be serialized and // sent to the remote peer. // // 6. Once an answer is received from the remote peer, call // SetRemoteDescription with the remote answer. // // 7. Once a remote candidate is received from the remote peer, provide it to // the PeerConnection by calling AddIceCandidate. // // The receiver of a call (assuming the application is "call"-based) can decide // to accept or reject the call; this decision will be taken by the application, // not the PeerConnection. // // If the application decides to accept the call, it should: // // 1. Create PeerConnectionFactoryInterface if it doesn't exist. // // 2. Create a new PeerConnection. // // 3. Provide the remote offer to the new PeerConnection object by calling // SetRemoteDescription. // // 4. Generate an answer to the remote offer by calling CreateAnswer and send it // back to the remote peer. // // 5. Provide the local answer to the new PeerConnection by calling // SetLocalDescription with the answer. // // 6. Provide the remote ICE candidates by calling AddIceCandidate. // // 7. Once a candidate has been gathered, the PeerConnection will call the // observer function OnIceCandidate. Send these candidates to the remote peer. #ifndef API_PEER_CONNECTION_INTERFACE_H_ #define API_PEER_CONNECTION_INTERFACE_H_ #include #include #include #include #include "api/adaptation/resource.h" #include "api/async_resolver_factory.h" #include "api/audio/audio_mixer.h" #include "api/audio_codecs/audio_decoder_factory.h" #include "api/audio_codecs/audio_encoder_factory.h" #include "api/audio_options.h" #include "api/call/call_factory_interface.h" #include "api/crypto/crypto_options.h" #include "api/data_channel_interface.h" #include "api/dtls_transport_interface.h" #include "api/fec_controller.h" #include "api/ice_transport_interface.h" #include "api/jsep.h" #include "api/media_stream_interface.h" #include "api/neteq/neteq_factory.h" #include "api/network_state_predictor.h" #include "api/packet_socket_factory.h" #include "api/rtc_error.h" #include "api/rtc_event_log/rtc_event_log_factory_interface.h" #include "api/rtc_event_log_output.h" #include "api/rtp_receiver_interface.h" #include "api/rtp_sender_interface.h" #include "api/rtp_transceiver_interface.h" #include "api/sctp_transport_interface.h" #include "api/set_local_description_observer_interface.h" #include "api/set_remote_description_observer_interface.h" #include "api/stats/rtc_stats_collector_callback.h" #include "api/stats_types.h" #include "api/task_queue/task_queue_factory.h" #include "api/transport/bitrate_settings.h" #include "api/transport/enums.h" #include "api/transport/network_control.h" #include "api/transport/webrtc_key_value_config.h" #include "api/turn_customizer.h" #include "media/base/media_config.h" #include "media/base/media_engine.h" // TODO(bugs.webrtc.org/7447): We plan to provide a way to let applications // inject a PacketSocketFactory and/or NetworkManager, and not expose // PortAllocator in the PeerConnection api. #include "p2p/base/port_allocator.h" // nogncheck #include "rtc_base/network_monitor_factory.h" #include "rtc_base/rtc_certificate.h" #include "rtc_base/rtc_certificate_generator.h" #include "rtc_base/socket_address.h" #include "rtc_base/ssl_certificate.h" #include "rtc_base/ssl_stream_adapter.h" #include "rtc_base/system/rtc_export.h" namespace rtc { class Thread; } // namespace rtc namespace webrtc { // MediaStream container interface. class StreamCollectionInterface : public rtc::RefCountInterface { public: // TODO(ronghuawu): Update the function names to c++ style, e.g. find -> Find. virtual size_t count() = 0; virtual MediaStreamInterface* at(size_t index) = 0; virtual MediaStreamInterface* find(const std::string& label) = 0; virtual MediaStreamTrackInterface* FindAudioTrack(const std::string& id) = 0; virtual MediaStreamTrackInterface* FindVideoTrack(const std::string& id) = 0; protected: // Dtor protected as objects shouldn't be deleted via this interface. ~StreamCollectionInterface() override = default; }; class StatsObserver : public rtc::RefCountInterface { public: virtual void OnComplete(const StatsReports& reports) = 0; protected: ~StatsObserver() override = default; }; enum class SdpSemantics { kPlanB, kUnifiedPlan }; class RTC_EXPORT PeerConnectionInterface : public rtc::RefCountInterface { public: // See https://w3c.github.io/webrtc-pc/#dom-rtcsignalingstate enum SignalingState { kStable, kHaveLocalOffer, kHaveLocalPrAnswer, kHaveRemoteOffer, kHaveRemotePrAnswer, kClosed, }; // See https://w3c.github.io/webrtc-pc/#dom-rtcicegatheringstate enum IceGatheringState { kIceGatheringNew, kIceGatheringGathering, kIceGatheringComplete }; // See https://w3c.github.io/webrtc-pc/#dom-rtcpeerconnectionstate enum class PeerConnectionState { kNew, kConnecting, kConnected, kDisconnected, kFailed, kClosed, }; // See https://w3c.github.io/webrtc-pc/#dom-rtciceconnectionstate enum IceConnectionState { kIceConnectionNew, kIceConnectionChecking, kIceConnectionConnected, kIceConnectionCompleted, kIceConnectionFailed, kIceConnectionDisconnected, kIceConnectionClosed, kIceConnectionMax, }; // TLS certificate policy. enum TlsCertPolicy { // For TLS based protocols, ensure the connection is secure by not // circumventing certificate validation. kTlsCertPolicySecure, // For TLS based protocols, disregard security completely by skipping // certificate validation. This is insecure and should never be used unless // security is irrelevant in that particular context. kTlsCertPolicyInsecureNoCheck, }; struct RTC_EXPORT IceServer { IceServer(); IceServer(const IceServer&); ~IceServer(); // TODO(jbauch): Remove uri when all code using it has switched to urls. // List of URIs associated with this server. Valid formats are described // in RFC7064 and RFC7065, and more may be added in the future. The "host" // part of the URI may contain either an IP address or a hostname. std::string uri; std::vector urls; std::string username; std::string password; TlsCertPolicy tls_cert_policy = kTlsCertPolicySecure; // If the URIs in |urls| only contain IP addresses, this field can be used // to indicate the hostname, which may be necessary for TLS (using the SNI // extension). If |urls| itself contains the hostname, this isn't // necessary. std::string hostname; // List of protocols to be used in the TLS ALPN extension. std::vector tls_alpn_protocols; // List of elliptic curves to be used in the TLS elliptic curves extension. std::vector tls_elliptic_curves; bool operator==(const IceServer& o) const { return uri == o.uri && urls == o.urls && username == o.username && password == o.password && tls_cert_policy == o.tls_cert_policy && hostname == o.hostname && tls_alpn_protocols == o.tls_alpn_protocols && tls_elliptic_curves == o.tls_elliptic_curves; } bool operator!=(const IceServer& o) const { return !(*this == o); } }; typedef std::vector IceServers; enum IceTransportsType { // TODO(pthatcher): Rename these kTransporTypeXXX, but update // Chromium at the same time. kNone, kRelay, kNoHost, kAll }; // https://tools.ietf.org/html/draft-ietf-rtcweb-jsep-24#section-4.1.1 enum BundlePolicy { kBundlePolicyBalanced, kBundlePolicyMaxBundle, kBundlePolicyMaxCompat }; // https://tools.ietf.org/html/draft-ietf-rtcweb-jsep-24#section-4.1.1 enum RtcpMuxPolicy { kRtcpMuxPolicyNegotiate, kRtcpMuxPolicyRequire, }; enum TcpCandidatePolicy { kTcpCandidatePolicyEnabled, kTcpCandidatePolicyDisabled }; enum CandidateNetworkPolicy { kCandidateNetworkPolicyAll, kCandidateNetworkPolicyLowCost }; enum ContinualGatheringPolicy { GATHER_ONCE, GATHER_CONTINUALLY }; enum class RTCConfigurationType { // A configuration that is safer to use, despite not having the best // performance. Currently this is the default configuration. kSafe, // An aggressive configuration that has better performance, although it // may be riskier and may need extra support in the application. kAggressive }; // TODO(hbos): Change into class with private data and public getters. // TODO(nisse): In particular, accessing fields directly from an // application is brittle, since the organization mirrors the // organization of the implementation, which isn't stable. So we // need getters and setters at least for fields which applications // are interested in. struct RTC_EXPORT RTCConfiguration { // This struct is subject to reorganization, both for naming // consistency, and to group settings to match where they are used // in the implementation. To do that, we need getter and setter // methods for all settings which are of interest to applications, // Chrome in particular. RTCConfiguration(); RTCConfiguration(const RTCConfiguration&); explicit RTCConfiguration(RTCConfigurationType type); ~RTCConfiguration(); bool operator==(const RTCConfiguration& o) const; bool operator!=(const RTCConfiguration& o) const; bool dscp() const { return media_config.enable_dscp; } void set_dscp(bool enable) { media_config.enable_dscp = enable; } bool cpu_adaptation() const { return media_config.video.enable_cpu_adaptation; } void set_cpu_adaptation(bool enable) { media_config.video.enable_cpu_adaptation = enable; } bool suspend_below_min_bitrate() const { return media_config.video.suspend_below_min_bitrate; } void set_suspend_below_min_bitrate(bool enable) { media_config.video.suspend_below_min_bitrate = enable; } bool prerenderer_smoothing() const { return media_config.video.enable_prerenderer_smoothing; } void set_prerenderer_smoothing(bool enable) { media_config.video.enable_prerenderer_smoothing = enable; } bool experiment_cpu_load_estimator() const { return media_config.video.experiment_cpu_load_estimator; } void set_experiment_cpu_load_estimator(bool enable) { media_config.video.experiment_cpu_load_estimator = enable; } int audio_rtcp_report_interval_ms() const { return media_config.audio.rtcp_report_interval_ms; } void set_audio_rtcp_report_interval_ms(int audio_rtcp_report_interval_ms) { media_config.audio.rtcp_report_interval_ms = audio_rtcp_report_interval_ms; } int video_rtcp_report_interval_ms() const { return media_config.video.rtcp_report_interval_ms; } void set_video_rtcp_report_interval_ms(int video_rtcp_report_interval_ms) { media_config.video.rtcp_report_interval_ms = video_rtcp_report_interval_ms; } static const int kUndefined = -1; // Default maximum number of packets in the audio jitter buffer. static const int kAudioJitterBufferMaxPackets = 200; // ICE connection receiving timeout for aggressive configuration. static const int kAggressiveIceConnectionReceivingTimeout = 1000; //////////////////////////////////////////////////////////////////////// // The below few fields mirror the standard RTCConfiguration dictionary: // https://w3c.github.io/webrtc-pc/#rtcconfiguration-dictionary //////////////////////////////////////////////////////////////////////// // TODO(pthatcher): Rename this ice_servers, but update Chromium // at the same time. IceServers servers; // TODO(pthatcher): Rename this ice_transport_type, but update // Chromium at the same time. IceTransportsType type = kAll; BundlePolicy bundle_policy = kBundlePolicyBalanced; RtcpMuxPolicy rtcp_mux_policy = kRtcpMuxPolicyRequire; std::vector> certificates; int ice_candidate_pool_size = 0; ////////////////////////////////////////////////////////////////////////// // The below fields correspond to constraints from the deprecated // constraints interface for constructing a PeerConnection. // // absl::optional fields can be "missing", in which case the implementation // default will be used. ////////////////////////////////////////////////////////////////////////// // If set to true, don't gather IPv6 ICE candidates. // TODO(deadbeef): Remove this? IPv6 support has long stopped being // experimental bool disable_ipv6 = false; // If set to true, don't gather IPv6 ICE candidates on Wi-Fi. // Only intended to be used on specific devices. Certain phones disable IPv6 // when the screen is turned off and it would be better to just disable the // IPv6 ICE candidates on Wi-Fi in those cases. bool disable_ipv6_on_wifi = false; // By default, the PeerConnection will use a limited number of IPv6 network // interfaces, in order to avoid too many ICE candidate pairs being created // and delaying ICE completion. // // Can be set to INT_MAX to effectively disable the limit. int max_ipv6_networks = cricket::kDefaultMaxIPv6Networks; // Exclude link-local network interfaces // from consideration for gathering ICE candidates. bool disable_link_local_networks = false; // If set to true, use RTP data channels instead of SCTP. // TODO(deadbeef): Remove this. We no longer commit to supporting RTP data // channels, though some applications are still working on moving off of // them. bool enable_rtp_data_channel = false; // Minimum bitrate at which screencast video tracks will be encoded at. // This means adding padding bits up to this bitrate, which can help // when switching from a static scene to one with motion. absl::optional screencast_min_bitrate; // Use new combined audio/video bandwidth estimation? absl::optional combined_audio_video_bwe; // TODO(bugs.webrtc.org/9891) - Move to crypto_options // Can be used to disable DTLS-SRTP. This should never be done, but can be // useful for testing purposes, for example in setting up a loopback call // with a single PeerConnection. absl::optional enable_dtls_srtp; ///////////////////////////////////////////////// // The below fields are not part of the standard. ///////////////////////////////////////////////// // Can be used to disable TCP candidate generation. TcpCandidatePolicy tcp_candidate_policy = kTcpCandidatePolicyEnabled; // Can be used to avoid gathering candidates for a "higher cost" network, // if a lower cost one exists. For example, if both Wi-Fi and cellular // interfaces are available, this could be used to avoid using the cellular // interface. CandidateNetworkPolicy candidate_network_policy = kCandidateNetworkPolicyAll; // The maximum number of packets that can be stored in the NetEq audio // jitter buffer. Can be reduced to lower tolerated audio latency. int audio_jitter_buffer_max_packets = kAudioJitterBufferMaxPackets; // Whether to use the NetEq "fast mode" which will accelerate audio quicker // if it falls behind. bool audio_jitter_buffer_fast_accelerate = false; // The minimum delay in milliseconds for the audio jitter buffer. int audio_jitter_buffer_min_delay_ms = 0; // Whether the audio jitter buffer adapts the delay to retransmitted // packets. bool audio_jitter_buffer_enable_rtx_handling = false; // Timeout in milliseconds before an ICE candidate pair is considered to be // "not receiving", after which a lower priority candidate pair may be // selected. int ice_connection_receiving_timeout = kUndefined; // Interval in milliseconds at which an ICE "backup" candidate pair will be // pinged. This is a candidate pair which is not actively in use, but may // be switched to if the active candidate pair becomes unusable. // // This is relevant mainly to Wi-Fi/cell handoff; the application may not // want this backup cellular candidate pair pinged frequently, since it // consumes data/battery. int ice_backup_candidate_pair_ping_interval = kUndefined; // Can be used to enable continual gathering, which means new candidates // will be gathered as network interfaces change. Note that if continual // gathering is used, the candidate removal API should also be used, to // avoid an ever-growing list of candidates. ContinualGatheringPolicy continual_gathering_policy = GATHER_ONCE; // If set to true, candidate pairs will be pinged in order of most likely // to work (which means using a TURN server, generally), rather than in // standard priority order. bool prioritize_most_likely_ice_candidate_pairs = false; // Implementation defined settings. A public member only for the benefit of // the implementation. Applications must not access it directly, and should // instead use provided accessor methods, e.g., set_cpu_adaptation. struct cricket::MediaConfig media_config; // If set to true, only one preferred TURN allocation will be used per // network interface. UDP is preferred over TCP and IPv6 over IPv4. This // can be used to cut down on the number of candidate pairings. // Deprecated. TODO(webrtc:11026) Remove this flag once the downstream // dependency is removed. bool prune_turn_ports = false; // The policy used to prune turn port. PortPrunePolicy turn_port_prune_policy = NO_PRUNE; PortPrunePolicy GetTurnPortPrunePolicy() const { return prune_turn_ports ? PRUNE_BASED_ON_PRIORITY : turn_port_prune_policy; } // If set to true, this means the ICE transport should presume TURN-to-TURN // candidate pairs will succeed, even before a binding response is received. // This can be used to optimize the initial connection time, since the DTLS // handshake can begin immediately. bool presume_writable_when_fully_relayed = false; // If true, "renomination" will be added to the ice options in the transport // description. // See: https://tools.ietf.org/html/draft-thatcher-ice-renomination-00 bool enable_ice_renomination = false; // If true, the ICE role is re-determined when the PeerConnection sets a // local transport description that indicates an ICE restart. // // This is standard RFC5245 ICE behavior, but causes unnecessary role // thrashing, so an application may wish to avoid it. This role // re-determining was removed in ICEbis (ICE v2). bool redetermine_role_on_ice_restart = true; // This flag is only effective when |continual_gathering_policy| is // GATHER_CONTINUALLY. // // If true, after the ICE transport type is changed such that new types of // ICE candidates are allowed by the new transport type, e.g. from // IceTransportsType::kRelay to IceTransportsType::kAll, candidates that // have been gathered by the ICE transport but not matching the previous // transport type and as a result not observed by PeerConnectionObserver, // will be surfaced to the observer. bool surface_ice_candidates_on_ice_transport_type_changed = false; // The following fields define intervals in milliseconds at which ICE // connectivity checks are sent. // // We consider ICE is "strongly connected" for an agent when there is at // least one candidate pair that currently succeeds in connectivity check // from its direction i.e. sending a STUN ping and receives a STUN ping // response, AND all candidate pairs have sent a minimum number of pings for // connectivity (this number is implementation-specific). Otherwise, ICE is // considered in "weak connectivity". // // Note that the above notion of strong and weak connectivity is not defined // in RFC 5245, and they apply to our current ICE implementation only. // // 1) ice_check_interval_strong_connectivity defines the interval applied to // ALL candidate pairs when ICE is strongly connected, and it overrides the // default value of this interval in the ICE implementation; // 2) ice_check_interval_weak_connectivity defines the counterpart for ALL // pairs when ICE is weakly connected, and it overrides the default value of // this interval in the ICE implementation; // 3) ice_check_min_interval defines the minimal interval (equivalently the // maximum rate) that overrides the above two intervals when either of them // is less. absl::optional ice_check_interval_strong_connectivity; absl::optional ice_check_interval_weak_connectivity; absl::optional ice_check_min_interval; // The min time period for which a candidate pair must wait for response to // connectivity checks before it becomes unwritable. This parameter // overrides the default value in the ICE implementation if set. absl::optional ice_unwritable_timeout; // The min number of connectivity checks that a candidate pair must sent // without receiving response before it becomes unwritable. This parameter // overrides the default value in the ICE implementation if set. absl::optional ice_unwritable_min_checks; // The min time period for which a candidate pair must wait for response to // connectivity checks it becomes inactive. This parameter overrides the // default value in the ICE implementation if set. absl::optional ice_inactive_timeout; // The interval in milliseconds at which STUN candidates will resend STUN // binding requests to keep NAT bindings open. absl::optional stun_candidate_keepalive_interval; // Optional TurnCustomizer. // With this class one can modify outgoing TURN messages. // The object passed in must remain valid until PeerConnection::Close() is // called. webrtc::TurnCustomizer* turn_customizer = nullptr; // Preferred network interface. // A candidate pair on a preferred network has a higher precedence in ICE // than one on an un-preferred network, regardless of priority or network // cost. absl::optional network_preference; // Configure the SDP semantics used by this PeerConnection. Note that the // WebRTC 1.0 specification requires kUnifiedPlan semantics. The // RtpTransceiver API is only available with kUnifiedPlan semantics. // // kPlanB will cause PeerConnection to create offers and answers with at // most one audio and one video m= section with multiple RtpSenders and // RtpReceivers specified as multiple a=ssrc lines within the section. This // will also cause PeerConnection to ignore all but the first m= section of // the same media type. // // kUnifiedPlan will cause PeerConnection to create offers and answers with // multiple m= sections where each m= section maps to one RtpSender and one // RtpReceiver (an RtpTransceiver), either both audio or both video. This // will also cause PeerConnection to ignore all but the first a=ssrc lines // that form a Plan B stream. // // For users who wish to send multiple audio/video streams and need to stay // interoperable with legacy WebRTC implementations or use legacy APIs, // specify kPlanB. // // For all other users, specify kUnifiedPlan. SdpSemantics sdp_semantics = SdpSemantics::kPlanB; // TODO(bugs.webrtc.org/9891) - Move to crypto_options or remove. // Actively reset the SRTP parameters whenever the DTLS transports // underneath are reset for every offer/answer negotiation. // This is only intended to be a workaround for crbug.com/835958 // WARNING: This would cause RTP/RTCP packets decryption failure if not used // correctly. This flag will be deprecated soon. Do not rely on it. bool active_reset_srtp_params = false; // Defines advanced optional cryptographic settings related to SRTP and // frame encryption for native WebRTC. Setting this will overwrite any // settings set in PeerConnectionFactory (which is deprecated). absl::optional crypto_options; // Configure if we should include the SDP attribute extmap-allow-mixed in // our offer. Although we currently do support this, it's not included in // our offer by default due to a previous bug that caused the SDP parser to // abort parsing if this attribute was present. This is fixed in Chrome 71. // TODO(webrtc:9985): Change default to true once sufficient time has // passed. bool offer_extmap_allow_mixed = false; // TURN logging identifier. // This identifier is added to a TURN allocation // and it intended to be used to be able to match client side // logs with TURN server logs. It will not be added if it's an empty string. std::string turn_logging_id; // Added to be able to control rollout of this feature. bool enable_implicit_rollback = false; // Whether network condition based codec switching is allowed. absl::optional allow_codec_switching; // // Don't forget to update operator== if adding something. // }; // See: https://www.w3.org/TR/webrtc/#idl-def-rtcofferansweroptions struct RTCOfferAnswerOptions { static const int kUndefined = -1; static const int kMaxOfferToReceiveMedia = 1; // The default value for constraint offerToReceiveX:true. static const int kOfferToReceiveMediaTrue = 1; // These options are left as backwards compatibility for clients who need // "Plan B" semantics. Clients who have switched to "Unified Plan" semantics // should use the RtpTransceiver API (AddTransceiver) instead. // // offer_to_receive_X set to 1 will cause a media description to be // generated in the offer, even if no tracks of that type have been added. // Values greater than 1 are treated the same. // // If set to 0, the generated directional attribute will not include the // "recv" direction (meaning it will be "sendonly" or "inactive". int offer_to_receive_video = kUndefined; int offer_to_receive_audio = kUndefined; bool voice_activity_detection = true; bool ice_restart = false; // If true, will offer to BUNDLE audio/video/data together. Not to be // confused with RTCP mux (multiplexing RTP and RTCP together). bool use_rtp_mux = true; // If true, "a=packetization: raw" attribute will be offered // in the SDP for all video payload and accepted in the answer if offered. bool raw_packetization_for_video = false; // This will apply to all video tracks with a Plan B SDP offer/answer. int num_simulcast_layers = 1; // If true: Use SDP format from draft-ietf-mmusic-scdp-sdp-03 // If false: Use SDP format from draft-ietf-mmusic-sdp-sdp-26 or later bool use_obsolete_sctp_sdp = false; RTCOfferAnswerOptions() = default; RTCOfferAnswerOptions(int offer_to_receive_video, int offer_to_receive_audio, bool voice_activity_detection, bool ice_restart, bool use_rtp_mux) : offer_to_receive_video(offer_to_receive_video), offer_to_receive_audio(offer_to_receive_audio), voice_activity_detection(voice_activity_detection), ice_restart(ice_restart), use_rtp_mux(use_rtp_mux) {} }; // Used by GetStats to decide which stats to include in the stats reports. // |kStatsOutputLevelStandard| includes the standard stats for Javascript API; // |kStatsOutputLevelDebug| includes both the standard stats and additional // stats for debugging purposes. enum StatsOutputLevel { kStatsOutputLevelStandard, kStatsOutputLevelDebug, }; // Accessor methods to active local streams. // This method is not supported with kUnifiedPlan semantics. Please use // GetSenders() instead. virtual rtc::scoped_refptr local_streams() = 0; // Accessor methods to remote streams. // This method is not supported with kUnifiedPlan semantics. Please use // GetReceivers() instead. virtual rtc::scoped_refptr remote_streams() = 0; // Add a new MediaStream to be sent on this PeerConnection. // Note that a SessionDescription negotiation is needed before the // remote peer can receive the stream. // // This has been removed from the standard in favor of a track-based API. So, // this is equivalent to simply calling AddTrack for each track within the // stream, with the one difference that if "stream->AddTrack(...)" is called // later, the PeerConnection will automatically pick up the new track. Though // this functionality will be deprecated in the future. // // This method is not supported with kUnifiedPlan semantics. Please use // AddTrack instead. virtual bool AddStream(MediaStreamInterface* stream) = 0; // Remove a MediaStream from this PeerConnection. // Note that a SessionDescription negotiation is needed before the // remote peer is notified. // // This method is not supported with kUnifiedPlan semantics. Please use // RemoveTrack instead. virtual void RemoveStream(MediaStreamInterface* stream) = 0; // Add a new MediaStreamTrack to be sent on this PeerConnection, and return // the newly created RtpSender. The RtpSender will be associated with the // streams specified in the |stream_ids| list. // // Errors: // - INVALID_PARAMETER: |track| is null, has a kind other than audio or video, // or a sender already exists for the track. // - INVALID_STATE: The PeerConnection is closed. virtual RTCErrorOr> AddTrack( rtc::scoped_refptr track, const std::vector& stream_ids) = 0; // Remove an RtpSender from this PeerConnection. // Returns true on success. // TODO(steveanton): Replace with signature that returns RTCError. virtual bool RemoveTrack(RtpSenderInterface* sender) = 0; // Plan B semantics: Removes the RtpSender from this PeerConnection. // Unified Plan semantics: Stop sending on the RtpSender and mark the // corresponding RtpTransceiver direction as no longer sending. // // Errors: // - INVALID_PARAMETER: |sender| is null or (Plan B only) the sender is not // associated with this PeerConnection. // - INVALID_STATE: PeerConnection is closed. // TODO(bugs.webrtc.org/9534): Rename to RemoveTrack once the other signature // is removed. virtual RTCError RemoveTrackNew( rtc::scoped_refptr sender); // AddTransceiver creates a new RtpTransceiver and adds it to the set of // transceivers. Adding a transceiver will cause future calls to CreateOffer // to add a media description for the corresponding transceiver. // // The initial value of |mid| in the returned transceiver is null. Setting a // new session description may change it to a non-null value. // // https://w3c.github.io/webrtc-pc/#dom-rtcpeerconnection-addtransceiver // // Optionally, an RtpTransceiverInit structure can be specified to configure // the transceiver from construction. If not specified, the transceiver will // default to having a direction of kSendRecv and not be part of any streams. // // These methods are only available when Unified Plan is enabled (see // RTCConfiguration). // // Common errors: // - INTERNAL_ERROR: The configuration does not have Unified Plan enabled. // Adds a transceiver with a sender set to transmit the given track. The kind // of the transceiver (and sender/receiver) will be derived from the kind of // the track. // Errors: // - INVALID_PARAMETER: |track| is null. virtual RTCErrorOr> AddTransceiver(rtc::scoped_refptr track) = 0; virtual RTCErrorOr> AddTransceiver(rtc::scoped_refptr track, const RtpTransceiverInit& init) = 0; // Adds a transceiver with the given kind. Can either be MEDIA_TYPE_AUDIO or // MEDIA_TYPE_VIDEO. // Errors: // - INVALID_PARAMETER: |media_type| is not MEDIA_TYPE_AUDIO or // MEDIA_TYPE_VIDEO. virtual RTCErrorOr> AddTransceiver(cricket::MediaType media_type) = 0; virtual RTCErrorOr> AddTransceiver(cricket::MediaType media_type, const RtpTransceiverInit& init) = 0; // Creates a sender without a track. Can be used for "early media"/"warmup" // use cases, where the application may want to negotiate video attributes // before a track is available to send. // // The standard way to do this would be through "addTransceiver", but we // don't support that API yet. // // |kind| must be "audio" or "video". // // |stream_id| is used to populate the msid attribute; if empty, one will // be generated automatically. // // This method is not supported with kUnifiedPlan semantics. Please use // AddTransceiver instead. virtual rtc::scoped_refptr CreateSender( const std::string& kind, const std::string& stream_id) = 0; // If Plan B semantics are specified, gets all RtpSenders, created either // through AddStream, AddTrack, or CreateSender. All senders of a specific // media type share the same media description. // // If Unified Plan semantics are specified, gets the RtpSender for each // RtpTransceiver. virtual std::vector> GetSenders() const = 0; // If Plan B semantics are specified, gets all RtpReceivers created when a // remote description is applied. All receivers of a specific media type share // the same media description. It is also possible to have a media description // with no associated RtpReceivers, if the directional attribute does not // indicate that the remote peer is sending any media. // // If Unified Plan semantics are specified, gets the RtpReceiver for each // RtpTransceiver. virtual std::vector> GetReceivers() const = 0; // Get all RtpTransceivers, created either through AddTransceiver, AddTrack or // by a remote description applied with SetRemoteDescription. // // Note: This method is only available when Unified Plan is enabled (see // RTCConfiguration). virtual std::vector> GetTransceivers() const = 0; // The legacy non-compliant GetStats() API. This correspond to the // callback-based version of getStats() in JavaScript. The returned metrics // are UNDOCUMENTED and many of them rely on implementation-specific details. // The goal is to DELETE THIS VERSION but we can't today because it is heavily // relied upon by third parties. See https://crbug.com/822696. // // This version is wired up into Chrome. Any stats implemented are // automatically exposed to the Web Platform. This has BYPASSED the Chrome // release processes for years and lead to cross-browser incompatibility // issues and web application reliance on Chrome-only behavior. // // This API is in "maintenance mode", serious regressions should be fixed but // adding new stats is highly discouraged. // // TODO(hbos): Deprecate and remove this when third parties have migrated to // the spec-compliant GetStats() API. https://crbug.com/822696 virtual bool GetStats(StatsObserver* observer, MediaStreamTrackInterface* track, // Optional StatsOutputLevel level) = 0; // The spec-compliant GetStats() API. This correspond to the promise-based // version of getStats() in JavaScript. Implementation status is described in // api/stats/rtcstats_objects.h. For more details on stats, see spec: // https://w3c.github.io/webrtc-pc/#dom-rtcpeerconnection-getstats // TODO(hbos): Takes shared ownership, use rtc::scoped_refptr<> instead. This // requires stop overriding the current version in third party or making third // party calls explicit to avoid ambiguity during switch. Make the future // version abstract as soon as third party projects implement it. virtual void GetStats(RTCStatsCollectorCallback* callback) = 0; // Spec-compliant getStats() performing the stats selection algorithm with the // sender. https://w3c.github.io/webrtc-pc/#dom-rtcrtpsender-getstats virtual void GetStats( rtc::scoped_refptr selector, rtc::scoped_refptr callback) = 0; // Spec-compliant getStats() performing the stats selection algorithm with the // receiver. https://w3c.github.io/webrtc-pc/#dom-rtcrtpreceiver-getstats virtual void GetStats( rtc::scoped_refptr selector, rtc::scoped_refptr callback) = 0; // Clear cached stats in the RTCStatsCollector. // Exposed for testing while waiting for automatic cache clear to work. // https://bugs.webrtc.org/8693 virtual void ClearStatsCache() {} // Create a data channel with the provided config, or default config if none // is provided. Note that an offer/answer negotiation is still necessary // before the data channel can be used. // // Also, calling CreateDataChannel is the only way to get a data "m=" section // in SDP, so it should be done before CreateOffer is called, if the // application plans to use data channels. virtual rtc::scoped_refptr CreateDataChannel( const std::string& label, const DataChannelInit* config) = 0; // NOTE: For the following 6 methods, it's only safe to dereference the // SessionDescriptionInterface on signaling_thread() (for example, calling // ToString). // Returns the more recently applied description; "pending" if it exists, and // otherwise "current". See below. virtual const SessionDescriptionInterface* local_description() const = 0; virtual const SessionDescriptionInterface* remote_description() const = 0; // A "current" description the one currently negotiated from a complete // offer/answer exchange. virtual const SessionDescriptionInterface* current_local_description() const = 0; virtual const SessionDescriptionInterface* current_remote_description() const = 0; // A "pending" description is one that's part of an incomplete offer/answer // exchange (thus, either an offer or a pranswer). Once the offer/answer // exchange is finished, the "pending" description will become "current". virtual const SessionDescriptionInterface* pending_local_description() const = 0; virtual const SessionDescriptionInterface* pending_remote_description() const = 0; // Tells the PeerConnection that ICE should be restarted. This triggers a need // for negotiation and subsequent CreateOffer() calls will act as if // RTCOfferAnswerOptions::ice_restart is true. // https://w3c.github.io/webrtc-pc/#dom-rtcpeerconnection-restartice // TODO(hbos): Remove default implementation when downstream projects // implement this. virtual void RestartIce() = 0; // Create a new offer. // The CreateSessionDescriptionObserver callback will be called when done. virtual void CreateOffer(CreateSessionDescriptionObserver* observer, const RTCOfferAnswerOptions& options) = 0; // Create an answer to an offer. // The CreateSessionDescriptionObserver callback will be called when done. virtual void CreateAnswer(CreateSessionDescriptionObserver* observer, const RTCOfferAnswerOptions& options) = 0; // Sets the local session description. // // According to spec, the local session description MUST be the same as was // returned by CreateOffer() or CreateAnswer() or else the operation should // fail. Our implementation however allows some amount of "SDP munging", but // please note that this is HIGHLY DISCOURAGED. If you do not intent to munge // SDP, the method below that doesn't take |desc| as an argument will create // the offer or answer for you. // // The observer is invoked as soon as the operation completes, which could be // before or after the SetLocalDescription() method has exited. virtual void SetLocalDescription( std::unique_ptr desc, rtc::scoped_refptr observer) {} // Creates an offer or answer (depending on current signaling state) and sets // it as the local session description. // // The observer is invoked as soon as the operation completes, which could be // before or after the SetLocalDescription() method has exited. virtual void SetLocalDescription( rtc::scoped_refptr observer) {} // Like SetLocalDescription() above, but the observer is invoked with a delay // after the operation completes. This helps avoid recursive calls by the // observer but also makes it possible for states to change in-between the // operation completing and the observer getting called. This makes them racy // for synchronizing peer connection states to the application. // TODO(https://crbug.com/webrtc/11798): Delete these methods in favor of the // ones taking SetLocalDescriptionObserverInterface as argument. virtual void SetLocalDescription(SetSessionDescriptionObserver* observer, SessionDescriptionInterface* desc) = 0; virtual void SetLocalDescription(SetSessionDescriptionObserver* observer) {} // Sets the remote session description. // // (Unlike "SDP munging" before SetLocalDescription(), modifying a remote // offer or answer is allowed by the spec.) // // The observer is invoked as soon as the operation completes, which could be // before or after the SetRemoteDescription() method has exited. virtual void SetRemoteDescription( std::unique_ptr desc, rtc::scoped_refptr observer) = 0; // Like SetRemoteDescription() above, but the observer is invoked with a delay // after the operation completes. This helps avoid recursive calls by the // observer but also makes it possible for states to change in-between the // operation completing and the observer getting called. This makes them racy // for synchronizing peer connection states to the application. // TODO(https://crbug.com/webrtc/11798): Delete this method in favor of the // ones taking SetRemoteDescriptionObserverInterface as argument. virtual void SetRemoteDescription(SetSessionDescriptionObserver* observer, SessionDescriptionInterface* desc) {} virtual PeerConnectionInterface::RTCConfiguration GetConfiguration() = 0; // Sets the PeerConnection's global configuration to |config|. // // The members of |config| that may be changed are |type|, |servers|, // |ice_candidate_pool_size| and |prune_turn_ports| (though the candidate // pool size can't be changed after the first call to SetLocalDescription). // Note that this means the BUNDLE and RTCP-multiplexing policies cannot be // changed with this method. // // Any changes to STUN/TURN servers or ICE candidate policy will affect the // next gathering phase, and cause the next call to createOffer to generate // new ICE credentials, as described in JSEP. This also occurs when // |prune_turn_ports| changes, for the same reasoning. // // If an error occurs, returns false and populates |error| if non-null: // - INVALID_MODIFICATION if |config| contains a modified parameter other // than one of the parameters listed above. // - INVALID_RANGE if |ice_candidate_pool_size| is out of range. // - SYNTAX_ERROR if parsing an ICE server URL failed. // - INVALID_PARAMETER if a TURN server is missing |username| or |password|. // - INTERNAL_ERROR if an unexpected error occurred. // // TODO(nisse): Make this pure virtual once all Chrome subclasses of // PeerConnectionInterface implement it. virtual RTCError SetConfiguration( const PeerConnectionInterface::RTCConfiguration& config); // Provides a remote candidate to the ICE Agent. // A copy of the |candidate| will be created and added to the remote // description. So the caller of this method still has the ownership of the // |candidate|. // TODO(hbos): The spec mandates chaining this operation onto the operations // chain; deprecate and remove this version in favor of the callback-based // signature. virtual bool AddIceCandidate(const IceCandidateInterface* candidate) = 0; // TODO(hbos): Remove default implementation once implemented by downstream // projects. virtual void AddIceCandidate(std::unique_ptr candidate, std::function callback) {} // Removes a group of remote candidates from the ICE agent. Needed mainly for // continual gathering, to avoid an ever-growing list of candidates as // networks come and go. virtual bool RemoveIceCandidates( const std::vector& candidates) = 0; // SetBitrate limits the bandwidth allocated for all RTP streams sent by // this PeerConnection. Other limitations might affect these limits and // are respected (for example "b=AS" in SDP). // // Setting |current_bitrate_bps| will reset the current bitrate estimate // to the provided value. virtual RTCError SetBitrate(const BitrateSettings& bitrate) = 0; // Enable/disable playout of received audio streams. Enabled by default. Note // that even if playout is enabled, streams will only be played out if the // appropriate SDP is also applied. Setting |playout| to false will stop // playout of the underlying audio device but starts a task which will poll // for audio data every 10ms to ensure that audio processing happens and the // audio statistics are updated. // TODO(henrika): deprecate and remove this. virtual void SetAudioPlayout(bool playout) {} // Enable/disable recording of transmitted audio streams. Enabled by default. // Note that even if recording is enabled, streams will only be recorded if // the appropriate SDP is also applied. // TODO(henrika): deprecate and remove this. virtual void SetAudioRecording(bool recording) {} // Looks up the DtlsTransport associated with a MID value. // In the Javascript API, DtlsTransport is a property of a sender, but // because the PeerConnection owns the DtlsTransport in this implementation, // it is better to look them up on the PeerConnection. virtual rtc::scoped_refptr LookupDtlsTransportByMid( const std::string& mid) = 0; // Returns the SCTP transport, if any. virtual rtc::scoped_refptr GetSctpTransport() const = 0; // Returns the current SignalingState. virtual SignalingState signaling_state() = 0; // Returns an aggregate state of all ICE *and* DTLS transports. // This is left in place to avoid breaking native clients who expect our old, // nonstandard behavior. // TODO(jonasolsson): deprecate and remove this. virtual IceConnectionState ice_connection_state() = 0; // Returns an aggregated state of all ICE transports. virtual IceConnectionState standardized_ice_connection_state() = 0; // Returns an aggregated state of all ICE and DTLS transports. virtual PeerConnectionState peer_connection_state() = 0; virtual IceGatheringState ice_gathering_state() = 0; // Returns the current state of canTrickleIceCandidates per // https://w3c.github.io/webrtc-pc/#attributes-1 virtual absl::optional can_trickle_ice_candidates() { // TODO(crbug.com/708484): Remove default implementation. return absl::nullopt; } // When a resource is overused, the PeerConnection will try to reduce the load // on the sysem, for example by reducing the resolution or frame rate of // encoded streams. The Resource API allows injecting platform-specific usage // measurements. The conditions to trigger kOveruse or kUnderuse are up to the // implementation. // TODO(hbos): Make pure virtual when implemented by downstream projects. virtual void AddAdaptationResource(rtc::scoped_refptr resource) {} // Start RtcEventLog using an existing output-sink. Takes ownership of // |output| and passes it on to Call, which will take the ownership. If the // operation fails the output will be closed and deallocated. The event log // will send serialized events to the output object every |output_period_ms|. // Applications using the event log should generally make their own trade-off // regarding the output period. A long period is generally more efficient, // with potential drawbacks being more bursty thread usage, and more events // lost in case the application crashes. If the |output_period_ms| argument is // omitted, webrtc selects a default deemed to be workable in most cases. virtual bool StartRtcEventLog(std::unique_ptr output, int64_t output_period_ms) = 0; virtual bool StartRtcEventLog(std::unique_ptr output) = 0; // Stops logging the RtcEventLog. virtual void StopRtcEventLog() = 0; // Terminates all media, closes the transports, and in general releases any // resources used by the PeerConnection. This is an irreversible operation. // // Note that after this method completes, the PeerConnection will no longer // use the PeerConnectionObserver interface passed in on construction, and // thus the observer object can be safely destroyed. virtual void Close() = 0; // The thread on which all PeerConnectionObserver callbacks will be invoked, // as well as callbacks for other classes such as DataChannelObserver. // // Also the only thread on which it's safe to use SessionDescriptionInterface // pointers. // TODO(deadbeef): Make pure virtual when all subclasses implement it. virtual rtc::Thread* signaling_thread() const { return nullptr; } protected: // Dtor protected as objects shouldn't be deleted via this interface. ~PeerConnectionInterface() override = default; }; // PeerConnection callback interface, used for RTCPeerConnection events. // Application should implement these methods. class PeerConnectionObserver { public: virtual ~PeerConnectionObserver() = default; // Triggered when the SignalingState changed. virtual void OnSignalingChange( PeerConnectionInterface::SignalingState new_state) = 0; // Triggered when media is received on a new stream from remote peer. virtual void OnAddStream(rtc::scoped_refptr stream) {} // Triggered when a remote peer closes a stream. virtual void OnRemoveStream(rtc::scoped_refptr stream) { } // Triggered when a remote peer opens a data channel. virtual void OnDataChannel( rtc::scoped_refptr data_channel) = 0; // Triggered when renegotiation is needed. For example, an ICE restart // has begun. virtual void OnRenegotiationNeeded() = 0; // Called any time the legacy IceConnectionState changes. // // Note that our ICE states lag behind the standard slightly. The most // notable differences include the fact that "failed" occurs after 15 // seconds, not 30, and this actually represents a combination ICE + DTLS // state, so it may be "failed" if DTLS fails while ICE succeeds. // // TODO(jonasolsson): deprecate and remove this. virtual void OnIceConnectionChange( PeerConnectionInterface::IceConnectionState new_state) {} // Called any time the standards-compliant IceConnectionState changes. virtual void OnStandardizedIceConnectionChange( PeerConnectionInterface::IceConnectionState new_state) {} // Called any time the PeerConnectionState changes. virtual void OnConnectionChange( PeerConnectionInterface::PeerConnectionState new_state) {} // Called any time the IceGatheringState changes. virtual void OnIceGatheringChange( PeerConnectionInterface::IceGatheringState new_state) = 0; // A new ICE candidate has been gathered. virtual void OnIceCandidate(const IceCandidateInterface* candidate) = 0; // Gathering of an ICE candidate failed. // See https://w3c.github.io/webrtc-pc/#event-icecandidateerror // |host_candidate| is a stringified socket address. virtual void OnIceCandidateError(const std::string& host_candidate, const std::string& url, int error_code, const std::string& error_text) {} // Gathering of an ICE candidate failed. // See https://w3c.github.io/webrtc-pc/#event-icecandidateerror virtual void OnIceCandidateError(const std::string& address, int port, const std::string& url, int error_code, const std::string& error_text) {} // Ice candidates have been removed. // TODO(honghaiz): Make this a pure virtual method when all its subclasses // implement it. virtual void OnIceCandidatesRemoved( const std::vector& candidates) {} // Called when the ICE connection receiving status changes. virtual void OnIceConnectionReceivingChange(bool receiving) {} // Called when the selected candidate pair for the ICE connection changes. virtual void OnIceSelectedCandidatePairChanged( const cricket::CandidatePairChangeEvent& event) {} // This is called when a receiver and its track are created. // TODO(zhihuang): Make this pure virtual when all subclasses implement it. // Note: This is called with both Plan B and Unified Plan semantics. Unified // Plan users should prefer OnTrack, OnAddTrack is only called as backwards // compatibility (and is called in the exact same situations as OnTrack). virtual void OnAddTrack( rtc::scoped_refptr receiver, const std::vector>& streams) {} // This is called when signaling indicates a transceiver will be receiving // media from the remote endpoint. This is fired during a call to // SetRemoteDescription. The receiving track can be accessed by: // |transceiver->receiver()->track()| and its associated streams by // |transceiver->receiver()->streams()|. // Note: This will only be called if Unified Plan semantics are specified. // This behavior is specified in section 2.2.8.2.5 of the "Set the // RTCSessionDescription" algorithm: // https://w3c.github.io/webrtc-pc/#set-description virtual void OnTrack( rtc::scoped_refptr transceiver) {} // Called when signaling indicates that media will no longer be received on a // track. // With Plan B semantics, the given receiver will have been removed from the // PeerConnection and the track muted. // With Unified Plan semantics, the receiver will remain but the transceiver // will have changed direction to either sendonly or inactive. // https://w3c.github.io/webrtc-pc/#process-remote-track-removal // TODO(hbos,deadbeef): Make pure virtual when all subclasses implement it. virtual void OnRemoveTrack( rtc::scoped_refptr receiver) {} // Called when an interesting usage is detected by WebRTC. // An appropriate action is to add information about the context of the // PeerConnection and write the event to some kind of "interesting events" // log function. // The heuristics for defining what constitutes "interesting" are // implementation-defined. virtual void OnInterestingUsage(int usage_pattern) {} }; // PeerConnectionDependencies holds all of PeerConnections dependencies. // A dependency is distinct from a configuration as it defines significant // executable code that can be provided by a user of the API. // // All new dependencies should be added as a unique_ptr to allow the // PeerConnection object to be the definitive owner of the dependencies // lifetime making injection safer. struct RTC_EXPORT PeerConnectionDependencies final { explicit PeerConnectionDependencies(PeerConnectionObserver* observer_in); // This object is not copyable or assignable. PeerConnectionDependencies(const PeerConnectionDependencies&) = delete; PeerConnectionDependencies& operator=(const PeerConnectionDependencies&) = delete; // This object is only moveable. PeerConnectionDependencies(PeerConnectionDependencies&&); PeerConnectionDependencies& operator=(PeerConnectionDependencies&&) = default; ~PeerConnectionDependencies(); // Mandatory dependencies PeerConnectionObserver* observer = nullptr; // Optional dependencies // TODO(bugs.webrtc.org/7447): remove port allocator once downstream is // updated. For now, you can only set one of allocator and // packet_socket_factory, not both. std::unique_ptr allocator; std::unique_ptr packet_socket_factory; std::unique_ptr async_resolver_factory; std::unique_ptr ice_transport_factory; std::unique_ptr cert_generator; std::unique_ptr tls_cert_verifier; std::unique_ptr video_bitrate_allocator_factory; }; // PeerConnectionFactoryDependencies holds all of the PeerConnectionFactory // dependencies. All new dependencies should be added here instead of // overloading the function. This simplifies dependency injection and makes it // clear which are mandatory and optional. If possible please allow the peer // connection factory to take ownership of the dependency by adding a unique_ptr // to this structure. struct RTC_EXPORT PeerConnectionFactoryDependencies final { PeerConnectionFactoryDependencies(); // This object is not copyable or assignable. PeerConnectionFactoryDependencies(const PeerConnectionFactoryDependencies&) = delete; PeerConnectionFactoryDependencies& operator=( const PeerConnectionFactoryDependencies&) = delete; // This object is only moveable. PeerConnectionFactoryDependencies(PeerConnectionFactoryDependencies&&); PeerConnectionFactoryDependencies& operator=( PeerConnectionFactoryDependencies&&) = default; ~PeerConnectionFactoryDependencies(); // Optional dependencies rtc::Thread* network_thread = nullptr; rtc::Thread* worker_thread = nullptr; rtc::Thread* signaling_thread = nullptr; std::unique_ptr task_queue_factory; std::unique_ptr media_engine; std::unique_ptr call_factory; std::unique_ptr event_log_factory; std::unique_ptr fec_controller_factory; std::unique_ptr network_state_predictor_factory; std::unique_ptr network_controller_factory; // This will only be used if CreatePeerConnection is called without a // |port_allocator|, causing the default allocator and network manager to be // used. std::unique_ptr network_monitor_factory; std::unique_ptr neteq_factory; std::unique_ptr trials; }; // PeerConnectionFactoryInterface is the factory interface used for creating // PeerConnection, MediaStream and MediaStreamTrack objects. // // The simplest method for obtaiing one, CreatePeerConnectionFactory will // create the required libjingle threads, socket and network manager factory // classes for networking if none are provided, though it requires that the // application runs a message loop on the thread that called the method (see // explanation below) // // If an application decides to provide its own threads and/or implementation // of networking classes, it should use the alternate // CreatePeerConnectionFactory method which accepts threads as input, and use // the CreatePeerConnection version that takes a PortAllocator as an argument. class RTC_EXPORT PeerConnectionFactoryInterface : public rtc::RefCountInterface { public: class Options { public: Options() {} // If set to true, created PeerConnections won't enforce any SRTP // requirement, allowing unsecured media. Should only be used for // testing/debugging. bool disable_encryption = false; // Deprecated. The only effect of setting this to true is that // CreateDataChannel will fail, which is not that useful. bool disable_sctp_data_channels = false; // If set to true, any platform-supported network monitoring capability // won't be used, and instead networks will only be updated via polling. // // This only has an effect if a PeerConnection is created with the default // PortAllocator implementation. bool disable_network_monitor = false; // Sets the network types to ignore. For instance, calling this with // ADAPTER_TYPE_ETHERNET | ADAPTER_TYPE_LOOPBACK will ignore Ethernet and // loopback interfaces. int network_ignore_mask = rtc::kDefaultNetworkIgnoreMask; // Sets the maximum supported protocol version. The highest version // supported by both ends will be used for the connection, i.e. if one // party supports DTLS 1.0 and the other DTLS 1.2, DTLS 1.0 will be used. rtc::SSLProtocolVersion ssl_max_version = rtc::SSL_PROTOCOL_DTLS_12; // Sets crypto related options, e.g. enabled cipher suites. CryptoOptions crypto_options = CryptoOptions::NoGcm(); }; // Set the options to be used for subsequently created PeerConnections. virtual void SetOptions(const Options& options) = 0; // The preferred way to create a new peer connection. Simply provide the // configuration and a PeerConnectionDependencies structure. // TODO(benwright): Make pure virtual once downstream mock PC factory classes // are updated. virtual rtc::scoped_refptr CreatePeerConnection( const PeerConnectionInterface::RTCConfiguration& configuration, PeerConnectionDependencies dependencies); // Deprecated; |allocator| and |cert_generator| may be null, in which case // default implementations will be used. // // |observer| must not be null. // // Note that this method does not take ownership of |observer|; it's the // responsibility of the caller to delete it. It can be safely deleted after // Close has been called on the returned PeerConnection, which ensures no // more observer callbacks will be invoked. virtual rtc::scoped_refptr CreatePeerConnection( const PeerConnectionInterface::RTCConfiguration& configuration, std::unique_ptr allocator, std::unique_ptr cert_generator, PeerConnectionObserver* observer); // Returns the capabilities of an RTP sender of type |kind|. // If for some reason you pass in MEDIA_TYPE_DATA, returns an empty structure. // TODO(orphis): Make pure virtual when all subclasses implement it. virtual RtpCapabilities GetRtpSenderCapabilities( cricket::MediaType kind) const; // Returns the capabilities of an RTP receiver of type |kind|. // If for some reason you pass in MEDIA_TYPE_DATA, returns an empty structure. // TODO(orphis): Make pure virtual when all subclasses implement it. virtual RtpCapabilities GetRtpReceiverCapabilities( cricket::MediaType kind) const; virtual rtc::scoped_refptr CreateLocalMediaStream( const std::string& stream_id) = 0; // Creates an AudioSourceInterface. // |options| decides audio processing settings. virtual rtc::scoped_refptr CreateAudioSource( const cricket::AudioOptions& options) = 0; // Creates a new local VideoTrack. The same |source| can be used in several // tracks. virtual rtc::scoped_refptr CreateVideoTrack( const std::string& label, VideoTrackSourceInterface* source) = 0; // Creates an new AudioTrack. At the moment |source| can be null. virtual rtc::scoped_refptr CreateAudioTrack( const std::string& label, AudioSourceInterface* source) = 0; // Starts AEC dump using existing file. Takes ownership of |file| and passes // it on to VoiceEngine (via other objects) immediately, which will take // the ownerhip. If the operation fails, the file will be closed. // A maximum file size in bytes can be specified. When the file size limit is // reached, logging is stopped automatically. If max_size_bytes is set to a // value <= 0, no limit will be used, and logging will continue until the // StopAecDump function is called. // TODO(webrtc:6463): Delete default implementation when downstream mocks // classes are updated. virtual bool StartAecDump(FILE* file, int64_t max_size_bytes) { return false; } // Stops logging the AEC dump. virtual void StopAecDump() = 0; protected: // Dtor and ctor protected as objects shouldn't be created or deleted via // this interface. PeerConnectionFactoryInterface() {} ~PeerConnectionFactoryInterface() override = default; }; // CreateModularPeerConnectionFactory is implemented in the "peerconnection" // build target, which doesn't pull in the implementations of every module // webrtc may use. // // If an application knows it will only require certain modules, it can reduce // webrtc's impact on its binary size by depending only on the "peerconnection" // target and the modules the application requires, using // CreateModularPeerConnectionFactory. For example, if an application // only uses WebRTC for audio, it can pass in null pointers for the // video-specific interfaces, and omit the corresponding modules from its // build. // // If |network_thread| or |worker_thread| are null, the PeerConnectionFactory // will create the necessary thread internally. If |signaling_thread| is null, // the PeerConnectionFactory will use the thread on which this method is called // as the signaling thread, wrapping it in an rtc::Thread object if needed. RTC_EXPORT rtc::scoped_refptr CreateModularPeerConnectionFactory( PeerConnectionFactoryDependencies dependencies); } // namespace webrtc #endif // API_PEER_CONNECTION_INTERFACE_H_