/* * libjingle * Copyright 2004 Google Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ // Types and classes used in media session descriptions. #ifndef TALK_SESSION_MEDIA_MEDIASESSION_H_ #define TALK_SESSION_MEDIA_MEDIASESSION_H_ #include #include #include #include "talk/base/scoped_ptr.h" #include "talk/media/base/codec.h" #include "talk/media/base/constants.h" #include "talk/media/base/cryptoparams.h" #include "talk/media/base/mediachannel.h" #include "talk/media/base/mediaengine.h" // For DataChannelType #include "talk/media/base/streamparams.h" #include "talk/p2p/base/sessiondescription.h" #include "talk/p2p/base/transport.h" #include "talk/p2p/base/transportdescriptionfactory.h" namespace cricket { class ChannelManager; typedef std::vector AudioCodecs; typedef std::vector VideoCodecs; typedef std::vector DataCodecs; typedef std::vector CryptoParamsVec; typedef std::vector RtpHeaderExtensions; enum MediaType { MEDIA_TYPE_AUDIO, MEDIA_TYPE_VIDEO, MEDIA_TYPE_DATA }; std::string MediaTypeToString(MediaType type); enum MediaContentDirection { MD_INACTIVE, MD_SENDONLY, MD_RECVONLY, MD_SENDRECV }; enum CryptoType { CT_NONE, CT_SDES, CT_DTLS }; // RTC4585 RTP/AVPF extern const char kMediaProtocolAvpf[]; // RFC5124 RTP/SAVPF extern const char kMediaProtocolSavpf[]; extern const char kMediaProtocolRtpPrefix[]; extern const char kMediaProtocolSctp[]; extern const char kMediaProtocolDtlsSctp[]; // Options to control how session descriptions are generated. const int kAutoBandwidth = -1; const int kBufferedModeDisabled = 0; struct MediaSessionOptions { MediaSessionOptions() : has_audio(true), // Audio enabled by default. has_video(false), data_channel_type(DCT_NONE), is_muc(false), vad_enabled(true), // When disabled, removes all CN codecs from SDP. rtcp_mux_enabled(true), bundle_enabled(false), video_bandwidth(kAutoBandwidth), data_bandwidth(kDataMaxBandwidth) { } bool has_data() const { return data_channel_type != DCT_NONE; } // Add a stream with MediaType type and id. // All streams with the same sync_label will get the same CNAME. // All ids must be unique. void AddStream(MediaType type, const std::string& id, const std::string& sync_label); void AddVideoStream(const std::string& id, const std::string& sync_label, int num_sim_layers); void RemoveStream(MediaType type, const std::string& id); // Helper function. void AddStreamInternal(MediaType type, const std::string& id, const std::string& sync_label, int num_sim_layers); bool has_audio; bool has_video; DataChannelType data_channel_type; bool is_muc; bool vad_enabled; bool rtcp_mux_enabled; bool bundle_enabled; // bps. -1 == auto. int video_bandwidth; int data_bandwidth; TransportOptions transport_options; struct Stream { Stream(MediaType type, const std::string& id, const std::string& sync_label, int num_sim_layers) : type(type), id(id), sync_label(sync_label), num_sim_layers(num_sim_layers) { } MediaType type; std::string id; std::string sync_label; int num_sim_layers; }; typedef std::vector Streams; Streams streams; }; // "content" (as used in XEP-0166) descriptions for voice and video. class MediaContentDescription : public ContentDescription { public: MediaContentDescription() : rtcp_mux_(false), bandwidth_(kAutoBandwidth), crypto_required_(CT_NONE), rtp_header_extensions_set_(false), multistream_(false), conference_mode_(false), partial_(false), buffered_mode_latency_(kBufferedModeDisabled), direction_(MD_SENDRECV) { } virtual MediaType type() const = 0; virtual bool has_codecs() const = 0; // |protocol| is the expected media transport protocol, such as RTP/AVPF, // RTP/SAVPF or SCTP/DTLS. std::string protocol() const { return protocol_; } void set_protocol(const std::string& protocol) { protocol_ = protocol; } MediaContentDirection direction() const { return direction_; } void set_direction(MediaContentDirection direction) { direction_ = direction; } bool rtcp_mux() const { return rtcp_mux_; } void set_rtcp_mux(bool mux) { rtcp_mux_ = mux; } int bandwidth() const { return bandwidth_; } void set_bandwidth(int bandwidth) { bandwidth_ = bandwidth; } const std::vector& cryptos() const { return cryptos_; } void AddCrypto(const CryptoParams& params) { cryptos_.push_back(params); } void set_cryptos(const std::vector& cryptos) { cryptos_ = cryptos; } CryptoType crypto_required() const { return crypto_required_; } void set_crypto_required(CryptoType type) { crypto_required_ = type; } const RtpHeaderExtensions& rtp_header_extensions() const { return rtp_header_extensions_; } void set_rtp_header_extensions(const RtpHeaderExtensions& extensions) { rtp_header_extensions_ = extensions; rtp_header_extensions_set_ = true; } void AddRtpHeaderExtension(const RtpHeaderExtension& ext) { rtp_header_extensions_.push_back(ext); rtp_header_extensions_set_ = true; } void ClearRtpHeaderExtensions() { rtp_header_extensions_.clear(); rtp_header_extensions_set_ = true; } // We can't always tell if an empty list of header extensions is // because the other side doesn't support them, or just isn't hooked up to // signal them. For now we assume an empty list means no signaling, but // provide the ClearRtpHeaderExtensions method to allow "no support" to be // clearly indicated (i.e. when derived from other information). bool rtp_header_extensions_set() const { return rtp_header_extensions_set_; } // True iff the client supports multiple streams. void set_multistream(bool multistream) { multistream_ = multistream; } bool multistream() const { return multistream_; } const StreamParamsVec& streams() const { return streams_; } // TODO(pthatcher): Remove this by giving mediamessage.cc access // to MediaContentDescription StreamParamsVec& mutable_streams() { return streams_; } void AddStream(const StreamParams& stream) { streams_.push_back(stream); } // Legacy streams have an ssrc, but nothing else. void AddLegacyStream(uint32 ssrc) { streams_.push_back(StreamParams::CreateLegacy(ssrc)); } void AddLegacyStream(uint32 ssrc, uint32 fid_ssrc) { StreamParams sp = StreamParams::CreateLegacy(ssrc); sp.AddFidSsrc(ssrc, fid_ssrc); streams_.push_back(sp); } // Sets the CNAME of all StreamParams if it have not been set. // This can be used to set the CNAME of legacy streams. void SetCnameIfEmpty(const std::string& cname) { for (cricket::StreamParamsVec::iterator it = streams_.begin(); it != streams_.end(); ++it) { if (it->cname.empty()) it->cname = cname; } } uint32 first_ssrc() const { if (streams_.empty()) { return 0; } return streams_[0].first_ssrc(); } bool has_ssrcs() const { if (streams_.empty()) { return false; } return streams_[0].has_ssrcs(); } void set_conference_mode(bool enable) { conference_mode_ = enable; } bool conference_mode() const { return conference_mode_; } void set_partial(bool partial) { partial_ = partial; } bool partial() const { return partial_; } void set_buffered_mode_latency(int latency) { buffered_mode_latency_ = latency; } int buffered_mode_latency() const { return buffered_mode_latency_; } protected: bool rtcp_mux_; int bandwidth_; std::string protocol_; std::vector cryptos_; CryptoType crypto_required_; std::vector rtp_header_extensions_; bool rtp_header_extensions_set_; bool multistream_; StreamParamsVec streams_; bool conference_mode_; bool partial_; int buffered_mode_latency_; MediaContentDirection direction_; }; template class MediaContentDescriptionImpl : public MediaContentDescription { public: struct PreferenceSort { bool operator()(C a, C b) { return a.preference > b.preference; } }; const std::vector& codecs() const { return codecs_; } void set_codecs(const std::vector& codecs) { codecs_ = codecs; } virtual bool has_codecs() const { return !codecs_.empty(); } bool HasCodec(int id) { bool found = false; for (typename std::vector::iterator iter = codecs_.begin(); iter != codecs_.end(); ++iter) { if (iter->id == id) { found = true; break; } } return found; } void AddCodec(const C& codec) { codecs_.push_back(codec); } void AddCodecs(const std::vector& codecs) { typename std::vector::const_iterator codec; for (codec = codecs.begin(); codec != codecs.end(); ++codec) { AddCodec(*codec); } } void SortCodecs() { std::sort(codecs_.begin(), codecs_.end(), PreferenceSort()); } private: std::vector codecs_; }; class AudioContentDescription : public MediaContentDescriptionImpl { public: AudioContentDescription() : agc_minus_10db_(false) {} virtual ContentDescription* Copy() const { return new AudioContentDescription(*this); } virtual MediaType type() const { return MEDIA_TYPE_AUDIO; } const std::string &lang() const { return lang_; } void set_lang(const std::string &lang) { lang_ = lang; } bool agc_minus_10db() const { return agc_minus_10db_; } void set_agc_minus_10db(bool enable) { agc_minus_10db_ = enable; } private: bool agc_minus_10db_; private: std::string lang_; }; class VideoContentDescription : public MediaContentDescriptionImpl { public: virtual ContentDescription* Copy() const { return new VideoContentDescription(*this); } virtual MediaType type() const { return MEDIA_TYPE_VIDEO; } }; class DataContentDescription : public MediaContentDescriptionImpl { public: virtual ContentDescription* Copy() const { return new DataContentDescription(*this); } virtual MediaType type() const { return MEDIA_TYPE_DATA; } }; // Creates media session descriptions according to the supplied codecs and // other fields, as well as the supplied per-call options. // When creating answers, performs the appropriate negotiation // of the various fields to determine the proper result. class MediaSessionDescriptionFactory { public: // Default ctor; use methods below to set configuration. // The TransportDescriptionFactory is not owned by MediaSessionDescFactory, // so it must be kept alive by the user of this class. explicit MediaSessionDescriptionFactory( const TransportDescriptionFactory* factory); // This helper automatically sets up the factory to get its configuration // from the specified ChannelManager. MediaSessionDescriptionFactory(ChannelManager* cmanager, const TransportDescriptionFactory* factory); const AudioCodecs& audio_codecs() const { return audio_codecs_; } void set_audio_codecs(const AudioCodecs& codecs) { audio_codecs_ = codecs; } void set_audio_rtp_header_extensions(const RtpHeaderExtensions& extensions) { audio_rtp_extensions_ = extensions; } const RtpHeaderExtensions& audio_rtp_header_extensions() const { return audio_rtp_extensions_; } const VideoCodecs& video_codecs() const { return video_codecs_; } void set_video_codecs(const VideoCodecs& codecs) { video_codecs_ = codecs; } void set_video_rtp_header_extensions(const RtpHeaderExtensions& extensions) { video_rtp_extensions_ = extensions; } const RtpHeaderExtensions& video_rtp_header_extensions() const { return video_rtp_extensions_; } const DataCodecs& data_codecs() const { return data_codecs_; } void set_data_codecs(const DataCodecs& codecs) { data_codecs_ = codecs; } SecurePolicy secure() const { return secure_; } void set_secure(SecurePolicy s) { secure_ = s; } // Decides if a StreamParams shall be added to the audio and video media // content in SessionDescription when CreateOffer and CreateAnswer is called // even if |options| don't include a Stream. This is needed to support legacy // applications. |add_legacy_| is true per default. void set_add_legacy_streams(bool add_legacy) { add_legacy_ = add_legacy; } SessionDescription* CreateOffer( const MediaSessionOptions& options, const SessionDescription* current_description) const; SessionDescription* CreateAnswer( const SessionDescription* offer, const MediaSessionOptions& options, const SessionDescription* current_description) const; private: void GetCodecsToOffer(const SessionDescription* current_description, AudioCodecs* audio_codecs, VideoCodecs* video_codecs, DataCodecs* data_codecs) const; void GetRtpHdrExtsToOffer(const SessionDescription* current_description, RtpHeaderExtensions* audio_extensions, RtpHeaderExtensions* video_extensions) const; bool AddTransportOffer( const std::string& content_name, const TransportOptions& transport_options, const SessionDescription* current_desc, SessionDescription* offer) const; TransportDescription* CreateTransportAnswer( const std::string& content_name, const SessionDescription* offer_desc, const TransportOptions& transport_options, const SessionDescription* current_desc) const; bool AddTransportAnswer( const std::string& content_name, const TransportDescription& transport_desc, SessionDescription* answer_desc) const; AudioCodecs audio_codecs_; RtpHeaderExtensions audio_rtp_extensions_; VideoCodecs video_codecs_; RtpHeaderExtensions video_rtp_extensions_; DataCodecs data_codecs_; SecurePolicy secure_; bool add_legacy_; std::string lang_; const TransportDescriptionFactory* transport_desc_factory_; }; // Convenience functions. bool IsMediaContent(const ContentInfo* content); bool IsAudioContent(const ContentInfo* content); bool IsVideoContent(const ContentInfo* content); bool IsDataContent(const ContentInfo* content); const ContentInfo* GetFirstAudioContent(const ContentInfos& contents); const ContentInfo* GetFirstVideoContent(const ContentInfos& contents); const ContentInfo* GetFirstDataContent(const ContentInfos& contents); const ContentInfo* GetFirstAudioContent(const SessionDescription* sdesc); const ContentInfo* GetFirstVideoContent(const SessionDescription* sdesc); const ContentInfo* GetFirstDataContent(const SessionDescription* sdesc); const AudioContentDescription* GetFirstAudioContentDescription( const SessionDescription* sdesc); const VideoContentDescription* GetFirstVideoContentDescription( const SessionDescription* sdesc); const DataContentDescription* GetFirstDataContentDescription( const SessionDescription* sdesc); bool GetStreamBySsrc( const SessionDescription* sdesc, MediaType media_type, uint32 ssrc, StreamParams* stream_out); bool GetStreamByIds( const SessionDescription* sdesc, MediaType media_type, const std::string& groupid, const std::string& id, StreamParams* stream_out); // Functions for translating media candidate names. // For converting between media ICE component and G-ICE channel // names. For example: // "rtp" <=> 1 // "rtcp" <=> 2 // "video_rtp" <=> 1 // "video_rtcp" <=> 2 // Will not convert in the general case of arbitrary channel names, // but is useful for cases where we have candidates for media // channels. // returns false if there is no mapping. bool GetMediaChannelNameFromComponent( int component, cricket::MediaType media_type, std::string* channel_name); bool GetMediaComponentFromChannelName( const std::string& channel_name, int* component); bool GetMediaTypeFromChannelName( const std::string& channel_name, cricket::MediaType* media_type); void GetSupportedAudioCryptoSuites(std::vector* crypto_suites); void GetSupportedVideoCryptoSuites(std::vector* crypto_suites); void GetSupportedDataCryptoSuites(std::vector* crypto_suites); void GetSupportedDefaultCryptoSuites(std::vector* crypto_suites); } // namespace cricket #endif // TALK_SESSION_MEDIA_MEDIASESSION_H_