// Copyright 2017 Google Inc. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file or at // https://developers.google.com/open-source/licenses/bsd #ifndef PACKAGER_PACKAGER_H_ #define PACKAGER_PACKAGER_H_ #include #include #include #include #include #include #include "packager/status.h" namespace shaka { /// MP4 (ISO-BMFF) output related parameters. struct Mp4OutputParams { // Include pssh in the encrypted stream. CMAF recommends carrying // license acquisition information in the manifest and not duplicate the // information in the stream. (This is not a hard requirement so we are still // CMAF compatible even if pssh is included in the stream.) bool include_pssh_in_stream = true; /// Set the number of subsegments in each SIDX box. If 0, a single SIDX box /// is used per segment. If -1, no SIDX box is used. Otherwise, the Muxer /// will pack N subsegments in the root SIDX of the segment, with /// segment_duration/N/subsegment_duration fragments per subsegment. /// This flag is ingored for DASH MPD with on-demand profile. const int kNoSidxBoxInSegment = -1; const int kSingleSidxPerSegment = 0; int num_subsegments_per_sidx = kSingleSidxPerSegment; /// Set the flag use_decoding_timestamp_in_timeline, which if set to true, use /// decoding timestamp instead of presentation timestamp in media timeline, /// which is needed to workaround a Chromium bug that decoding timestamp is /// used in buffered range, https://crbug.com/398130. bool use_decoding_timestamp_in_timeline = false; }; /// Chunking (segmentation) related parameters. struct ChunkingParams { /// Segment duration in seconds. double segment_duration_in_seconds = 0; /// Subsegment duration in seconds. Should not be larger than the segment /// duration. double subsegment_duration_in_seconds = 0; /// Force segments to begin with stream access points. Actual segment duration /// may not be exactly what is specified by segment_duration. bool segment_sap_aligned = true; /// Force subsegments to begin with stream access points. Actual subsegment /// duration may not be exactly what is specified by subsegment_duration. /// Setting to subsegment_sap_aligned to true but segment_sap_aligned to false /// is not allowed. bool subsegment_sap_aligned = true; }; /// DASH MPD related parameters. struct MpdParams { /// MPD output file path. std::string mpd_output; /// BaseURLs for the MPD. The values will be added as element(s) /// under the element. std::vector base_urls; /// Set MPD@minBufferTime attribute, which specifies, in seconds, a common /// duration used in the definition of the MPD representation data rate. A /// client can be assured of having enough data for continous playout /// providing playout begins at min_buffer_time after the first bit is /// received. double min_buffer_time = 2.0; /// Generate static MPD for live profile. Note that this flag has no effect /// for on-demand profile, in which case static MPD is always used. bool generate_static_live_mpd = false; /// Set MPD@timeShiftBufferDepth attribute, which is the guaranteed duration /// of the time shifting buffer for 'dynamic' media presentations, in seconds. double time_shift_buffer_depth = 0; /// Set MPD@suggestedPresentationDelay attribute. For 'dynamic' media /// presentations, it specifies a delay, in seconds, to be added to the media /// presentation time. The attribute is not set if the value is 0; the client /// is expected to choose a suitable value in this case. const double kSuggestedPresentationDelayNotSet = 0; double suggested_presentation_delay = kSuggestedPresentationDelayNotSet; /// Set MPD@minimumUpdatePeriod attribute, which indicates to the player how /// often to refresh the MPD in seconds. For dynamic MPD only. double minimum_update_period = 0; /// The tracks tagged with this language will have /// in the manifest. This allows the player to choose the correct default /// language for the content. std::string default_language; /// Try to generate DASH-IF IOP compliant MPD. bool generate_dash_if_iop_compliant_mpd = true; }; /// Defines the EXT-X-PLAYLIST-TYPE in the HLS specification. For /// HlsPlaylistType of kLive, EXT-X-PLAYLIST-TYPE tag is omitted. enum class HlsPlaylistType { kVod, kEvent, kLive, }; /// HLS related parameters. struct HlsParams { /// HLS playlist type. See HLS specification for details. HlsPlaylistType playlist_type = HlsPlaylistType::kVod; /// HLS master playlist output path. std::string master_playlist_output; /// The base URL for the Media Playlists and media files listed in the /// playlists. This is the prefix for the files. std::string base_url; /// Defines the live window, or the guaranteed duration of the time shifting /// buffer for 'live' playlists. double time_shift_buffer_depth = 0; }; /// Encryption / decryption key providers. enum class KeyProvider { kNone = 0, kWidevine = 1, kPlayready = 2, kRawKey = 3, }; /// Signer credential for Widevine license server. struct WidevineSigner { /// Name of the signer / content provider. std::string signer_name; enum class SigningKeyType { kNone, kAes, kRsa, }; /// Specifies the signing key type, which determines whether AES or RSA key /// are used to authenticate the signer. A type of 'kNone' is invalid. SigningKeyType signing_key_type = SigningKeyType::kNone; struct { /// AES signing key. std::vector key; /// AES signing IV. std::vector iv; } aes; struct { /// RSA signing private key. std::string key; } rsa; }; /// Widevine encryption parameters. struct WidevineEncryptionParams { /// Widevine license / key server URL. std::string key_server_url; /// Generates and includes an additional v1 PSSH box for the common system ID. /// See: https://goo.gl/s8RIhr. // TODO(kqyang): Move to EncryptionParams and support common PSSH generation // in all key providers. bool include_common_pssh = false; /// Content identifier. std::vector content_id; /// The name of a stored policy, which specifies DRM content rights. std::string policy; /// Signer credential for Widevine license / key server. WidevineSigner signer; /// Group identifier, if present licenses will belong to this group. std::vector group_id; }; /// Playready encryption parameters. /// Two different modes of playready key acquisition is supported: /// (1) Fetch from a key server. `key_server_url` and `program_identifier` are /// required. The presence of other parameters may be necessary depends /// on server configuration. /// (2) Provide the raw key directly. Both `key_id` and `key` are required. /// We are planning to merge this mode with `RawKeyEncryptionParams`. struct PlayreadyEncryptionParams { /// Playready license / key server URL. std::string key_server_url; /// Playready program identifier. std::string program_identifier; /// Absolute path to the Certificate Authority file for the server cert in PEM /// format. std::string ca_file; /// Absolute path to client certificate file. std::string client_cert_file; /// Absolute path to the private key file. std::string client_cert_private_key_file; /// Password to the private key file. std::string client_cert_private_key_password; // TODO(kqyang): move raw playready key generation to RawKey. /// Provides a raw Playready KeyId. std::vector key_id; /// Provides a raw Playready Key. std::vector key; }; /// Raw key encryption parameters, i.e. with key parameters provided. struct RawKeyEncryptionParams { /// An optional initialization vector. If not provided, a random `iv` will be /// generated. Note that this parameter should only be used during testing. std::vector iv; /// Inject a custom `pssh` or multiple concatenated `psshs`. If not provided, /// a common system pssh will be generated. std::vector pssh; using StreamLabel = std::string; struct KeyPair { std::vector key_id; std::vector key; }; /// Defines the KeyPair for the streams. An empty `StreamLabel` indicates the /// default `KeyPair`, which applies to all the `StreamLabels` not present in /// `key_map`. std::map key_map; }; /// Encryption parameters. struct EncryptionParams { /// Specifies the key provider, which determines which key provider is used /// and which encryption params is valid. 'kNone' means not to encrypt the /// streams. KeyProvider key_provider = KeyProvider::kNone; // Only one of the three fields is valid. WidevineEncryptionParams widevine; PlayreadyEncryptionParams playready; RawKeyEncryptionParams raw_key; /// Clear lead duration in seconds. double clear_lead_in_seconds = 0; /// The protection scheme: "cenc", "cens", "cbc1", "cbcs". std::string protection_scheme = "cenc"; /// Crypto period duration in seconds. A positive value means key rotation is /// enabled, the key provider must support key rotation in this case. const double kNoKeyRotation = 0; double crypto_period_duration_in_seconds = 0; /// Enable/disable subsample encryption for VP9. bool vp9_subsample_encryption = true; /// Encrypted stream information that is used to determine stream label. struct EncryptedStreamAttributes { enum StreamType { kUnknown, kVideo, kAudio, }; StreamType stream_type = kUnknown; union OneOf { OneOf() {} struct { int width = 0; int height = 0; float frame_rate = 0; int bit_depth = 0; } video; struct { int number_of_channels = 0; } audio; } oneof; }; /// Default stream label function implementation. /// @param max_sd_pixels The threshold to determine whether a video track /// should be considered as SD. If the max pixels per /// frame is no higher than max_sd_pixels, i.e. [0, /// max_sd_pixels], it is SD. /// @param max_hd_pixels: The threshold to determine whether a video track /// should be considered as HD. If the max pixels per /// frame is higher than max_sd_pixels, but no higher /// than max_hd_pixels, i.e. (max_sd_pixels, /// max_hd_pixels], it is HD. /// @param max_uhd1_pixels: The threshold to determine whether a video track /// should be considered as UHD1. If the max pixels /// per frame is higher than max_hd_pixels, but no /// higher than max_uhd1_pixels, i.e. (max_hd_pixels, /// max_uhd1_pixels], it is UHD1. Otherwise it is /// UHD2. /// @param stream_info Encrypted stream info. /// @return the stream label associated with `stream_info`. Can be "AUDIO", /// "SD", "HD", "UHD1" or "UHD2". static SHAKA_EXPORT std::string DefaultStreamLabelFunction( int max_sd_pixels, int max_hd_pixels, int max_uhd1_pixels, const EncryptedStreamAttributes& stream_attributes); const int kDefaultMaxSdPixels = 768 * 576; const int kDefaultMaxHdPixels = 1920 * 1080; const int kDefaultMaxUhd1Pixels = 4096 * 2160; /// Stream label function assigns a stream label to the stream to be /// encrypted. Stream label is used to associate KeyPair with streams. Streams /// with the same stream label always uses the same keyPair; Streams with /// different stream label could use the same or different KeyPairs. std::function stream_label_func = std::bind(&EncryptionParams::DefaultStreamLabelFunction, kDefaultMaxSdPixels, kDefaultMaxHdPixels, kDefaultMaxUhd1Pixels, std::placeholders::_1); }; /// Widevine decryption parameters. struct WidevineDecryptionParams { /// Widevine license / key server URL. std::string key_server_url; /// Signer credential for Widevine license / key server. WidevineSigner signer; }; /// Raw key decryption parameters, i.e. with key parameters provided. struct RawKeyDecryptionParams { using StreamLabel = std::string; struct KeyPair { std::vector key_id; std::vector key; }; /// Defines the KeyPair for the streams. An empty `StreamLabel` indicates the /// default `KeyPair`, which applies to all the `StreamLabels` not present in /// `key_map`. std::map key_map; }; /// Decryption parameters. struct DecryptionParams { /// Specifies the key provider, which determines which key provider is used /// and which encryption params is valid. 'kNone' means not to decrypt the /// streams. KeyProvider key_provider = KeyProvider::kNone; // Only one of the two fields is valid. WidevineDecryptionParams widevine; RawKeyDecryptionParams raw_key; }; /// Parameters used for testing. struct TestParams { /// Whether to dump input stream info. bool dump_stream_info = false; /// Inject a fake clock which always returns 0. This allows deterministic /// output from packaging. bool inject_fake_clock = false; /// Inject and replace the library version string if specified, which is used /// to populate the version string in the manifests / media files. std::string injected_library_version; }; /// Packaging parameters. struct PackagingParams { /// Specify temporary directory for intermediate temporary files. std::string temp_dir; /// MP4 (ISO-BMFF) output related parameters. Mp4OutputParams mp4_output_params; /// Chunking (segmentation) related parameters. ChunkingParams chunking_params; /// Manifest generation related parameters. Right now only one of /// `output_media_info`, `mpd_params` and `hls_params` should be set. Create a /// human readable format of MediaInfo. The output file name will be the name /// specified by output flag, suffixed with `.media_info`. bool output_media_info = false; /// DASH MPD related parameters. MpdParams mpd_params; /// HLS related parameters. HlsParams hls_params; /// Encryption and Decryption Parameters. EncryptionParams encryption_params; DecryptionParams decryption_params; // Parameters for testing. Do not use in production. TestParams test_params; }; /// Defines a single input/output stream. struct StreamDescriptor { /// Input/source media file path or network stream URL. Required. std::string input; // TODO(kqyang): Add support for feeding data through read func. // std::function read_func; /// Stream selector, can be `audio`, `video`, `text` or a zero based stream /// index. Required. std::string stream_selector; /// Specifies output file path or init segment path (if segment template is /// specified). Can be empty for self initialization media segments. std::string output; /// Specifies segment template. Can be empty. std::string segment_template; // TODO: Add support for writing data through write func. // std::function write_func; /// Optional value which specifies output container format, e.g. "mp4". If not /// specified, will detect from output / segment template name. std::string output_format; /// If set to true, the stream will not be encrypted. This is useful, e.g. to /// encrypt only video streams. bool skip_encryption = false; /// If set to a non-zero value, will generate a trick play / trick mode /// stream with frames sampled from the key frames in the original stream. /// `trick_play_factor` defines the sampling rate. uint32_t trick_play_factor = 0; /// Optional user-specified content bit rate for the stream, in bits/sec. /// If specified, this value is propagated to the `$Bandwidth$` template /// parameter for segment names. If not specified, its value may be estimated. uint32_t bandwidth = 0; /// Optional value which contains a user-specified language tag. If specified, /// this value overrides any language metadata in the input stream. std::string language; /// Required for audio when outputting HLS. It defines the name of the output /// stream, which is not necessarily the same as output. This is used as the /// `NAME` attribute for EXT-X-MEDIA. std::string hls_name; /// Required for audio when outputting HLS. It defines the group ID for the /// output stream. This is used as the GROUP-ID attribute for EXT-X-MEDIA. std::string hls_group_id; /// Required for HLS output. It defines the name of the playlist for the /// stream. Usually ends with `.m3u8`. std::string hls_playlist_name; }; class SHAKA_EXPORT Packager { public: Packager(); ~Packager(); /// Initialize packaging pipeline. /// @param packaging_params contains the packaging parameters. /// @param stream_descriptors a list of stream descriptors. /// @return OK on success, an appropriate error code on failure. Status Initialize( const PackagingParams& packaging_params, const std::vector& stream_descriptors); /// Run the pipeline to completion (or failed / been cancelled). Note /// that it blocks until completion. /// @return OK on success, an appropriate error code on failure. Status Run(); /// Cancel packaging. Note that it has to be called from another thread. void Cancel(); /// @return The version of the library. static std::string GetLibraryVersion(); private: Packager(const Packager&) = delete; Packager& operator=(const Packager&) = delete; struct PackagerInternal; std::unique_ptr internal_; }; } // namespace shaka #endif // PACKAGER_PACKAGER_H_