// Copyright 2014 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 // // Defines the muxer interface. #ifndef MEDIA_BASE_MUXER_H_ #define MEDIA_BASE_MUXER_H_ #include #include #include "packager/base/memory/ref_counted.h" #include "packager/base/time/clock.h" #include "packager/media/base/fourccs.h" #include "packager/media/base/muxer_options.h" #include "packager/media/base/status.h" #include "packager/media/event/muxer_listener.h" #include "packager/media/event/progress_listener.h" namespace shaka { namespace media { class KeySource; class MediaSample; class MediaStream; /// Muxer is responsible for taking elementary stream samples and producing /// media containers. An optional KeySource can be provided to Muxer /// to generate encrypted outputs. class Muxer { public: explicit Muxer(const MuxerOptions& options); virtual ~Muxer(); // TODO(kqyang): refactor max_sd_pixels through crypto_period_duration into // an encapsulated EncryptionParams structure. /// Set encryption key source. /// @param encryption_key_source points to the encryption key source. The /// caller retains ownership, and should not be NULL. /// @param max_sd_pixels specifies 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, it is SD. /// @param max_hd_pixels specifies 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, /// it is HD. /// @param max_uhd1_pixels specifies 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, /// it is UHD1. Otherwise it is UHD2. /// @param clear_lead_in_seconds specifies clear lead duration in seconds. /// @param crypto_period_duration_in_seconds specifies crypto period duration /// in seconds. A positive value means key rotation is enabled, the /// key source must support key rotation in this case. /// @param protection_scheme specifies the protection scheme: 'cenc', 'cens', /// 'cbc1', 'cbcs'. void SetKeySource(KeySource* encryption_key_source, uint32_t max_sd_pixels, uint32_t max_hd_pixels, uint32_t max_uhd1_pixels, double clear_lead_in_seconds, double crypto_period_duration_in_seconds, FourCC protection_scheme); /// Add video/audio stream. void AddStream(MediaStream* stream); /// Drive the remuxing from muxer side (pull). Status Run(); /// Cancel a muxing job in progress. Will cause @a Run to exit with an error /// status of type CANCELLED. void Cancel(); /// Set a MuxerListener event handler for this object. /// @param muxer_listener should not be NULL. void SetMuxerListener(std::unique_ptr muxer_listener); /// Set a ProgressListener event handler for this object. /// @param progress_listener should not be NULL. void SetProgressListener(std::unique_ptr progress_listener); const std::vector& streams() const { return streams_; } /// Inject clock, mainly used for testing. /// The injected clock will be used to generate the creation time-stamp and /// modification time-stamp of the muxer output. /// If no clock is injected, the code uses base::Time::Now() to generate the /// time-stamps. /// @param clock is the Clock to be injected. void set_clock(base::Clock* clock) { clock_ = clock; } protected: const MuxerOptions& options() const { return options_; } KeySource* encryption_key_source() { return encryption_key_source_; } uint32_t max_sd_pixels() const { return max_sd_pixels_; } uint32_t max_hd_pixels() const { return max_hd_pixels_; } uint32_t max_uhd1_pixels() const { return max_uhd1_pixels_; } double clear_lead_in_seconds() const { return clear_lead_in_seconds_; } double crypto_period_duration_in_seconds() const { return crypto_period_duration_in_seconds_; } MuxerListener* muxer_listener() { return muxer_listener_.get(); } ProgressListener* progress_listener() { return progress_listener_.get(); } base::Clock* clock() { return clock_; } FourCC protection_scheme() const { return protection_scheme_; } private: friend class MediaStream; // Needed to access AddSample. // Add new media sample. Status AddSample(const MediaStream* stream, scoped_refptr sample); // Initialize the muxer. virtual Status Initialize() = 0; // Final clean up. virtual Status Finalize() = 0; // AddSample implementation. virtual Status DoAddSample(const MediaStream* stream, scoped_refptr sample) = 0; MuxerOptions options_; bool initialized_; std::vector streams_; KeySource* encryption_key_source_; uint32_t max_sd_pixels_; uint32_t max_hd_pixels_; uint32_t max_uhd1_pixels_; double clear_lead_in_seconds_; double crypto_period_duration_in_seconds_; FourCC protection_scheme_; bool cancelled_; std::unique_ptr muxer_listener_; std::unique_ptr progress_listener_; // An external injected clock, can be NULL. base::Clock* clock_; DISALLOW_COPY_AND_ASSIGN(Muxer); }; } // namespace media } // namespace shaka #endif // MEDIA_BASE_MUXER_H_