/* * Copyright 2015 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. */ #ifndef API_RTP_PARAMETERS_H_ #define API_RTP_PARAMETERS_H_ #include #include #include #include #include "absl/strings/string_view.h" #include "absl/types/optional.h" #include "api/media_types.h" #include "api/priority.h" #include "api/rtp_transceiver_direction.h" #include "rtc_base/system/rtc_export.h" namespace webrtc { // These structures are intended to mirror those defined by: // http://draft.ortc.org/#rtcrtpdictionaries* // Contains everything specified as of 2017 Jan 24. // // They are used when retrieving or modifying the parameters of an // RtpSender/RtpReceiver, or retrieving capabilities. // // Note on conventions: Where ORTC may use "octet", "short" and "unsigned" // types, we typically use "int", in keeping with our style guidelines. The // parameter's actual valid range will be enforced when the parameters are set, // rather than when the parameters struct is built. An exception is made for // SSRCs, since they use the full unsigned 32-bit range, and aren't expected to // be used for any numeric comparisons/operations. // // Additionally, where ORTC uses strings, we may use enums for things that have // a fixed number of supported values. However, for things that can be extended // (such as codecs, by providing an external encoder factory), a string // identifier is used. enum class FecMechanism { RED, RED_AND_ULPFEC, FLEXFEC, }; // Used in RtcpFeedback struct. enum class RtcpFeedbackType { CCM, LNTF, // "goog-lntf" NACK, REMB, // "goog-remb" TRANSPORT_CC, }; // Used in RtcpFeedback struct when type is NACK or CCM. enum class RtcpFeedbackMessageType { // Equivalent to {type: "nack", parameter: undefined} in ORTC. GENERIC_NACK, PLI, // Usable with NACK. FIR, // Usable with CCM. }; enum class DtxStatus { DISABLED, ENABLED, }; // Based on the spec in // https://w3c.github.io/webrtc-pc/#idl-def-rtcdegradationpreference. // These options are enforced on a best-effort basis. For instance, all of // these options may suffer some frame drops in order to avoid queuing. // TODO(sprang): Look into possibility of more strictly enforcing the // maintain-framerate option. // TODO(deadbeef): Default to "balanced", as the spec indicates? enum class DegradationPreference { // Don't take any actions based on over-utilization signals. Not part of the // web API. DISABLED, // On over-use, request lower resolution, possibly causing down-scaling. MAINTAIN_FRAMERATE, // On over-use, request lower frame rate, possibly causing frame drops. MAINTAIN_RESOLUTION, // Try to strike a "pleasing" balance between frame rate or resolution. BALANCED, }; RTC_EXPORT const char* DegradationPreferenceToString( DegradationPreference degradation_preference); RTC_EXPORT extern const double kDefaultBitratePriority; struct RTC_EXPORT RtcpFeedback { RtcpFeedbackType type = RtcpFeedbackType::CCM; // Equivalent to ORTC "parameter" field with slight differences: // 1. It's an enum instead of a string. // 2. Generic NACK feedback is represented by a GENERIC_NACK message type, // rather than an unset "parameter" value. absl::optional message_type; // Constructors for convenience. RtcpFeedback(); explicit RtcpFeedback(RtcpFeedbackType type); RtcpFeedback(RtcpFeedbackType type, RtcpFeedbackMessageType message_type); RtcpFeedback(const RtcpFeedback&); ~RtcpFeedback(); bool operator==(const RtcpFeedback& o) const { return type == o.type && message_type == o.message_type; } bool operator!=(const RtcpFeedback& o) const { return !(*this == o); } }; // RtpCodecCapability is to RtpCodecParameters as RtpCapabilities is to // RtpParameters. This represents the static capabilities of an endpoint's // implementation of a codec. struct RTC_EXPORT RtpCodecCapability { RtpCodecCapability(); ~RtpCodecCapability(); // Build MIME "type/subtype" string from |name| and |kind|. std::string mime_type() const { return MediaTypeToString(kind) + "/" + name; } // Used to identify the codec. Equivalent to MIME subtype. std::string name; // The media type of this codec. Equivalent to MIME top-level type. cricket::MediaType kind = cricket::MEDIA_TYPE_AUDIO; // Clock rate in Hertz. If unset, the codec is applicable to any clock rate. absl::optional clock_rate; // Default payload type for this codec. Mainly needed for codecs that use // that have statically assigned payload types. absl::optional preferred_payload_type; // Maximum packetization time supported by an RtpReceiver for this codec. // TODO(deadbeef): Not implemented. absl::optional max_ptime; // Preferred packetization time for an RtpReceiver or RtpSender of this codec. // TODO(deadbeef): Not implemented. absl::optional ptime; // The number of audio channels supported. Unused for video codecs. absl::optional num_channels; // Feedback mechanisms supported for this codec. std::vector rtcp_feedback; // Codec-specific parameters that must be signaled to the remote party. // // Corresponds to "a=fmtp" parameters in SDP. // // Contrary to ORTC, these parameters are named using all lowercase strings. // This helps make the mapping to SDP simpler, if an application is using SDP. // Boolean values are represented by the string "1". std::map parameters; // Codec-specific parameters that may optionally be signaled to the remote // party. // TODO(deadbeef): Not implemented. std::map options; // Maximum number of temporal layer extensions supported by this codec. // For example, a value of 1 indicates that 2 total layers are supported. // TODO(deadbeef): Not implemented. int max_temporal_layer_extensions = 0; // Maximum number of spatial layer extensions supported by this codec. // For example, a value of 1 indicates that 2 total layers are supported. // TODO(deadbeef): Not implemented. int max_spatial_layer_extensions = 0; // Whether the implementation can send/receive SVC layers with distinct SSRCs. // Always false for audio codecs. True for video codecs that support scalable // video coding with MRST. // TODO(deadbeef): Not implemented. bool svc_multi_stream_support = false; bool operator==(const RtpCodecCapability& o) const { return name == o.name && kind == o.kind && clock_rate == o.clock_rate && preferred_payload_type == o.preferred_payload_type && max_ptime == o.max_ptime && ptime == o.ptime && num_channels == o.num_channels && rtcp_feedback == o.rtcp_feedback && parameters == o.parameters && options == o.options && max_temporal_layer_extensions == o.max_temporal_layer_extensions && max_spatial_layer_extensions == o.max_spatial_layer_extensions && svc_multi_stream_support == o.svc_multi_stream_support; } bool operator!=(const RtpCodecCapability& o) const { return !(*this == o); } }; // Used in RtpCapabilities and RtpTransceiverInterface's header extensions query // and setup methods; represents the capabilities/preferences of an // implementation for a header extension. // // Just called "RtpHeaderExtension" in ORTC, but the "Capability" suffix was // added here for consistency and to avoid confusion with // RtpHeaderExtensionParameters. // // Note that ORTC includes a "kind" field, but we omit this because it's // redundant; if you call "RtpReceiver::GetCapabilities(MEDIA_TYPE_AUDIO)", // you know you're getting audio capabilities. struct RTC_EXPORT RtpHeaderExtensionCapability { // URI of this extension, as defined in RFC8285. std::string uri; // Preferred value of ID that goes in the packet. absl::optional preferred_id; // If true, it's preferred that the value in the header is encrypted. // TODO(deadbeef): Not implemented. bool preferred_encrypt = false; // The direction of the extension. The kStopped value is only used with // RtpTransceiverInterface::HeaderExtensionsToOffer() and // SetOfferedRtpHeaderExtensions(). RtpTransceiverDirection direction = RtpTransceiverDirection::kSendRecv; // Constructors for convenience. RtpHeaderExtensionCapability(); explicit RtpHeaderExtensionCapability(absl::string_view uri); RtpHeaderExtensionCapability(absl::string_view uri, int preferred_id); RtpHeaderExtensionCapability(absl::string_view uri, int preferred_id, RtpTransceiverDirection direction); ~RtpHeaderExtensionCapability(); bool operator==(const RtpHeaderExtensionCapability& o) const { return uri == o.uri && preferred_id == o.preferred_id && preferred_encrypt == o.preferred_encrypt && direction == o.direction; } bool operator!=(const RtpHeaderExtensionCapability& o) const { return !(*this == o); } }; // RTP header extension, see RFC8285. struct RTC_EXPORT RtpExtension { RtpExtension(); RtpExtension(absl::string_view uri, int id); RtpExtension(absl::string_view uri, int id, bool encrypt); ~RtpExtension(); std::string ToString() const; bool operator==(const RtpExtension& rhs) const { return uri == rhs.uri && id == rhs.id && encrypt == rhs.encrypt; } static bool IsSupportedForAudio(absl::string_view uri); static bool IsSupportedForVideo(absl::string_view uri); // Return "true" if the given RTP header extension URI may be encrypted. static bool IsEncryptionSupported(absl::string_view uri); // Returns the named header extension if found among all extensions, // nullptr otherwise. static const RtpExtension* FindHeaderExtensionByUri( const std::vector& extensions, absl::string_view uri); // Return a list of RTP header extensions with the non-encrypted extensions // removed if both the encrypted and non-encrypted extension is present for // the same URI. static std::vector FilterDuplicateNonEncrypted( const std::vector& extensions); // Encryption of Header Extensions, see RFC 6904 for details: // https://tools.ietf.org/html/rfc6904 static constexpr char kEncryptHeaderExtensionsUri[] = "urn:ietf:params:rtp-hdrext:encrypt"; // Header extension for audio levels, as defined in: // https://tools.ietf.org/html/rfc6464 static constexpr char kAudioLevelUri[] = "urn:ietf:params:rtp-hdrext:ssrc-audio-level"; // Header extension for RTP timestamp offset, see RFC 5450 for details: // http://tools.ietf.org/html/rfc5450 static constexpr char kTimestampOffsetUri[] = "urn:ietf:params:rtp-hdrext:toffset"; // Header extension for absolute send time, see url for details: // http://www.webrtc.org/experiments/rtp-hdrext/abs-send-time static constexpr char kAbsSendTimeUri[] = "http://www.webrtc.org/experiments/rtp-hdrext/abs-send-time"; // Header extension for absolute capture time, see url for details: // http://www.webrtc.org/experiments/rtp-hdrext/abs-capture-time static constexpr char kAbsoluteCaptureTimeUri[] = "http://www.webrtc.org/experiments/rtp-hdrext/abs-capture-time"; // Header extension for coordination of video orientation, see url for // details: // http://www.etsi.org/deliver/etsi_ts/126100_126199/126114/12.07.00_60/ts_126114v120700p.pdf static constexpr char kVideoRotationUri[] = "urn:3gpp:video-orientation"; // Header extension for video content type. E.g. default or screenshare. static constexpr char kVideoContentTypeUri[] = "http://www.webrtc.org/experiments/rtp-hdrext/video-content-type"; // Header extension for video timing. static constexpr char kVideoTimingUri[] = "http://www.webrtc.org/experiments/rtp-hdrext/video-timing"; // Experimental codec agnostic frame descriptor. static constexpr char kGenericFrameDescriptorUri00[] = "http://www.webrtc.org/experiments/rtp-hdrext/" "generic-frame-descriptor-00"; static constexpr char kDependencyDescriptorUri[] = "https://aomediacodec.github.io/av1-rtp-spec/" "#dependency-descriptor-rtp-header-extension"; // Experimental extension for signalling target bitrate per layer. static constexpr char kVideoLayersAllocationUri[] = "http://www.webrtc.org/experiments/rtp-hdrext/video-layers-allocation00"; // Header extension for transport sequence number, see url for details: // http://www.ietf.org/id/draft-holmer-rmcat-transport-wide-cc-extensions static constexpr char kTransportSequenceNumberUri[] = "http://www.ietf.org/id/" "draft-holmer-rmcat-transport-wide-cc-extensions-01"; static constexpr char kTransportSequenceNumberV2Uri[] = "http://www.webrtc.org/experiments/rtp-hdrext/transport-wide-cc-02"; // This extension allows applications to adaptively limit the playout delay // on frames as per the current needs. For example, a gaming application // has very different needs on end-to-end delay compared to a video-conference // application. static constexpr char kPlayoutDelayUri[] = "http://www.webrtc.org/experiments/rtp-hdrext/playout-delay"; // Header extension for color space information. static constexpr char kColorSpaceUri[] = "http://www.webrtc.org/experiments/rtp-hdrext/color-space"; // Header extension for identifying media section within a transport. // https://tools.ietf.org/html/draft-ietf-mmusic-sdp-bundle-negotiation-49#section-15 static constexpr char kMidUri[] = "urn:ietf:params:rtp-hdrext:sdes:mid"; // Header extension for RIDs and Repaired RIDs // https://tools.ietf.org/html/draft-ietf-avtext-rid-09 // https://tools.ietf.org/html/draft-ietf-mmusic-rid-15 static constexpr char kRidUri[] = "urn:ietf:params:rtp-hdrext:sdes:rtp-stream-id"; static constexpr char kRepairedRidUri[] = "urn:ietf:params:rtp-hdrext:sdes:repaired-rtp-stream-id"; // Inclusive min and max IDs for two-byte header extensions and one-byte // header extensions, per RFC8285 Section 4.2-4.3. static constexpr int kMinId = 1; static constexpr int kMaxId = 255; static constexpr int kMaxValueSize = 255; static constexpr int kOneByteHeaderExtensionMaxId = 14; static constexpr int kOneByteHeaderExtensionMaxValueSize = 16; std::string uri; int id = 0; bool encrypt = false; }; struct RTC_EXPORT RtpFecParameters { // If unset, a value is chosen by the implementation. // Works just like RtpEncodingParameters::ssrc. absl::optional ssrc; FecMechanism mechanism = FecMechanism::RED; // Constructors for convenience. RtpFecParameters(); explicit RtpFecParameters(FecMechanism mechanism); RtpFecParameters(FecMechanism mechanism, uint32_t ssrc); RtpFecParameters(const RtpFecParameters&); ~RtpFecParameters(); bool operator==(const RtpFecParameters& o) const { return ssrc == o.ssrc && mechanism == o.mechanism; } bool operator!=(const RtpFecParameters& o) const { return !(*this == o); } }; struct RTC_EXPORT RtpRtxParameters { // If unset, a value is chosen by the implementation. // Works just like RtpEncodingParameters::ssrc. absl::optional ssrc; // Constructors for convenience. RtpRtxParameters(); explicit RtpRtxParameters(uint32_t ssrc); RtpRtxParameters(const RtpRtxParameters&); ~RtpRtxParameters(); bool operator==(const RtpRtxParameters& o) const { return ssrc == o.ssrc; } bool operator!=(const RtpRtxParameters& o) const { return !(*this == o); } }; struct RTC_EXPORT RtpEncodingParameters { RtpEncodingParameters(); RtpEncodingParameters(const RtpEncodingParameters&); ~RtpEncodingParameters(); // If unset, a value is chosen by the implementation. // // Note that the chosen value is NOT returned by GetParameters, because it // may change due to an SSRC conflict, in which case the conflict is handled // internally without any event. Another way of looking at this is that an // unset SSRC acts as a "wildcard" SSRC. absl::optional ssrc; // The relative bitrate priority of this encoding. Currently this is // implemented for the entire rtp sender by using the value of the first // encoding parameter. // See: https://w3c.github.io/webrtc-priority/#enumdef-rtcprioritytype // "very-low" = 0.5 // "low" = 1.0 // "medium" = 2.0 // "high" = 4.0 // TODO(webrtc.bugs.org/8630): Implement this per encoding parameter. // Currently there is logic for how bitrate is distributed per simulcast layer // in the VideoBitrateAllocator. This must be updated to incorporate relative // bitrate priority. double bitrate_priority = kDefaultBitratePriority; // The relative DiffServ Code Point priority for this encoding, allowing // packets to be marked relatively higher or lower without affecting // bandwidth allocations. See https://w3c.github.io/webrtc-dscp-exp/ . // TODO(http://crbug.com/webrtc/8630): Implement this per encoding parameter. // TODO(http://crbug.com/webrtc/11379): TCP connections should use a single // DSCP value even if shared by multiple senders; this is not implemented. Priority network_priority = Priority::kLow; // If set, this represents the Transport Independent Application Specific // maximum bandwidth defined in RFC3890. If unset, there is no maximum // bitrate. Currently this is implemented for the entire rtp sender by using // the value of the first encoding parameter. // // Just called "maxBitrate" in ORTC spec. // // TODO(deadbeef): With ORTC RtpSenders, this currently sets the total // bandwidth for the entire bandwidth estimator (audio and video). This is // just always how "b=AS" was handled, but it's not correct and should be // fixed. absl::optional max_bitrate_bps; // Specifies the minimum bitrate in bps for video. absl::optional min_bitrate_bps; // Specifies the maximum framerate in fps for video. absl::optional max_framerate; // Specifies the number of temporal layers for video (if the feature is // supported by the codec implementation). // TODO(asapersson): Different number of temporal layers are not supported // per simulcast layer. // Screencast support is experimental. absl::optional num_temporal_layers; // For video, scale the resolution down by this factor. absl::optional scale_resolution_down_by; // https://w3c.github.io/webrtc-svc/#rtcrtpencodingparameters absl::optional scalability_mode; // For an RtpSender, set to true to cause this encoding to be encoded and // sent, and false for it not to be encoded and sent. This allows control // across multiple encodings of a sender for turning simulcast layers on and // off. // TODO(webrtc.bugs.org/8807): Updating this parameter will trigger an encoder // reset, but this isn't necessarily required. bool active = true; // Value to use for RID RTP header extension. // Called "encodingId" in ORTC. std::string rid; // Allow dynamic frame length changes for audio: // https://w3c.github.io/webrtc-extensions/#dom-rtcrtpencodingparameters-adaptiveptime bool adaptive_ptime = false; bool operator==(const RtpEncodingParameters& o) const { return ssrc == o.ssrc && bitrate_priority == o.bitrate_priority && network_priority == o.network_priority && max_bitrate_bps == o.max_bitrate_bps && min_bitrate_bps == o.min_bitrate_bps && max_framerate == o.max_framerate && num_temporal_layers == o.num_temporal_layers && scale_resolution_down_by == o.scale_resolution_down_by && active == o.active && rid == o.rid && adaptive_ptime == o.adaptive_ptime; } bool operator!=(const RtpEncodingParameters& o) const { return !(*this == o); } }; struct RTC_EXPORT RtpCodecParameters { RtpCodecParameters(); RtpCodecParameters(const RtpCodecParameters&); ~RtpCodecParameters(); // Build MIME "type/subtype" string from |name| and |kind|. std::string mime_type() const { return MediaTypeToString(kind) + "/" + name; } // Used to identify the codec. Equivalent to MIME subtype. std::string name; // The media type of this codec. Equivalent to MIME top-level type. cricket::MediaType kind = cricket::MEDIA_TYPE_AUDIO; // Payload type used to identify this codec in RTP packets. // This must always be present, and must be unique across all codecs using // the same transport. int payload_type = 0; // If unset, the implementation default is used. absl::optional clock_rate; // The number of audio channels used. Unset for video codecs. If unset for // audio, the implementation default is used. // TODO(deadbeef): The "implementation default" part isn't fully implemented. // Only defaults to 1, even though some codecs (such as opus) should really // default to 2. absl::optional num_channels; // The maximum packetization time to be used by an RtpSender. // If |ptime| is also set, this will be ignored. // TODO(deadbeef): Not implemented. absl::optional max_ptime; // The packetization time to be used by an RtpSender. // If unset, will use any time up to max_ptime. // TODO(deadbeef): Not implemented. absl::optional ptime; // Feedback mechanisms to be used for this codec. // TODO(deadbeef): Not implemented with PeerConnection senders/receivers. std::vector rtcp_feedback; // Codec-specific parameters that must be signaled to the remote party. // // Corresponds to "a=fmtp" parameters in SDP. // // Contrary to ORTC, these parameters are named using all lowercase strings. // This helps make the mapping to SDP simpler, if an application is using SDP. // Boolean values are represented by the string "1". std::map parameters; bool operator==(const RtpCodecParameters& o) const { return name == o.name && kind == o.kind && payload_type == o.payload_type && clock_rate == o.clock_rate && num_channels == o.num_channels && max_ptime == o.max_ptime && ptime == o.ptime && rtcp_feedback == o.rtcp_feedback && parameters == o.parameters; } bool operator!=(const RtpCodecParameters& o) const { return !(*this == o); } }; // RtpCapabilities is used to represent the static capabilities of an endpoint. // An application can use these capabilities to construct an RtpParameters. struct RTC_EXPORT RtpCapabilities { RtpCapabilities(); ~RtpCapabilities(); // Supported codecs. std::vector codecs; // Supported RTP header extensions. std::vector header_extensions; // Supported Forward Error Correction (FEC) mechanisms. Note that the RED, // ulpfec and flexfec codecs used by these mechanisms will still appear in // |codecs|. std::vector fec; bool operator==(const RtpCapabilities& o) const { return codecs == o.codecs && header_extensions == o.header_extensions && fec == o.fec; } bool operator!=(const RtpCapabilities& o) const { return !(*this == o); } }; struct RtcpParameters final { RtcpParameters(); RtcpParameters(const RtcpParameters&); ~RtcpParameters(); // The SSRC to be used in the "SSRC of packet sender" field. If not set, one // will be chosen by the implementation. // TODO(deadbeef): Not implemented. absl::optional ssrc; // The Canonical Name (CNAME) used by RTCP (e.g. in SDES messages). // // If empty in the construction of the RtpTransport, one will be generated by // the implementation, and returned in GetRtcpParameters. Multiple // RtpTransports created by the same OrtcFactory will use the same generated // CNAME. // // If empty when passed into SetParameters, the CNAME simply won't be // modified. std::string cname; // Send reduced-size RTCP? bool reduced_size = false; // Send RTCP multiplexed on the RTP transport? // Not used with PeerConnection senders/receivers bool mux = true; bool operator==(const RtcpParameters& o) const { return ssrc == o.ssrc && cname == o.cname && reduced_size == o.reduced_size && mux == o.mux; } bool operator!=(const RtcpParameters& o) const { return !(*this == o); } }; struct RTC_EXPORT RtpParameters { RtpParameters(); RtpParameters(const RtpParameters&); ~RtpParameters(); // Used when calling getParameters/setParameters with a PeerConnection // RtpSender, to ensure that outdated parameters are not unintentionally // applied successfully. std::string transaction_id; // Value to use for MID RTP header extension. // Called "muxId" in ORTC. // TODO(deadbeef): Not implemented. std::string mid; std::vector codecs; std::vector header_extensions; std::vector encodings; // Only available with a Peerconnection RtpSender. // In ORTC, our API includes an additional "RtpTransport" // abstraction on which RTCP parameters are set. RtcpParameters rtcp; // When bandwidth is constrained and the RtpSender needs to choose between // degrading resolution or degrading framerate, degradationPreference // indicates which is preferred. Only for video tracks. absl::optional degradation_preference; bool operator==(const RtpParameters& o) const { return mid == o.mid && codecs == o.codecs && header_extensions == o.header_extensions && encodings == o.encodings && rtcp == o.rtcp && degradation_preference == o.degradation_preference; } bool operator!=(const RtpParameters& o) const { return !(*this == o); } }; } // namespace webrtc #endif // API_RTP_PARAMETERS_H_