Audio / Video Playback
阿新 • • 發佈:2018-11-19
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Audio / Video Playback
Interested in helping out? Check out our bugs! New to Chromium? GoodFirstBug is your friend!Filing a new bug: TemplateDocumentation: OverviewThere are several major components to Chromium's media playback implementation, here are three most folks are commonly interested in:
PipelineThe pipeline is a pull-based media playback engine that abstracts each step of media playback into (at least) 6 different filters: data source, demuxing, audio decoding, video decoding, audio rendering, and video rendering. The pipeline manages the lifetime of the renderer and exposes a thread safe interface to clients. The filters are connected together to form a filter graph. Design goals: - Use Chromium threading constructs such as TaskRunner - Filters do not determine threading model - All filter actions are asynchronous and use callbacks to signal completion - Upstream filters are oblivious to downstream filters (i.e., DataSource is unaware of Demuxer) - Prefer explicit types and methods over general types and methods (i.e., prefer foo->Bar() over foo->SendMessage(MSG_BAR)) - Can run inside security sandbox - Runs on Windows, Mac and Linux on x86 and ARM - Supports arbitrary audio/video codecs Design non-goals: - Dynamic loading of filters via shared libraries - Buffer management negotiation - Building arbitrary filter graphs - Supporting filters beyond the scope of media playback The original research into supporting video in Chromium started in September 2008. Before deciding to implement our own media playback engine we considered the following alternative technologies: - DirectShow (Windows specific, cannot run inside sandbox without major hacking) - GStreamer (Windows support questionable at the time, extra ~2MB of DLLs due to library dependencies, targets many of our non-goals) - VLC (cannot use due to GPL) - MPlayer (cannot use due to GPL) - OpenMAX (complete overkill for our purposes) - liboggplay (specific to Ogg Theora/Vorbis) Our approach was to write our own media playback engine that was audio/video codec agnostic and focused on playback. Using FFmpeg avoids both the use of proprietary/commercial codecs and allows Chromium's media engine to support a wide variety of formats depending on FFmpeg's build configuration. As previously mentioned, the pipeline is completely pull-based and relies on the sound card to drive playback. As the sound card requests additional data, the audio renderer requests decoded audio data from the audio decoder, which requests encoded buffers from the demuxer, which reads from the data source, and so on. As decoded audio data data is fed into the sound card the pipeline's global clock is updated. The video renderer polls the global clock upon each vsync to determine when to request decoded frames from the video decoder and when to render new frames to the video display. In the absence of a sound card or an audio track, the system clock is used to drive video decoding and rendering. Relevant source code is in the media directory. The pipeline uses a state machine to handle playback and events such as pausing, seeking, and stopping. A state transition typically consists of notifying all filters of the event and waiting for completion callbacks before completing the transition (diagram from pipeline_impl.h):// [ *Created ] [ Any State ] // | Start() | Stop() // V V // [ Starting ] [ Stopping ] // | | // V V // [ Playing ] <---------. [ Stopped ] // | | Seek() | // | V | // | [ Seeking ] ----' // | ^ // | Suspend() | // V | // [ Suspending ] | // | | // V | // [ Suspended ] | // | Resume() | // V | // [ Resuming ] ---------'The pull-based design allows pause to be implemented by setting the playback rate to zero, causing the audio and video renderers to stop requesting data from upstream filters. Without any pending requests the entire pipeline enters an implicit paused state. IntegrationThe following diagram shows the current integration of the media playback pipeline into WebKit and Chromium browser; this is slightly out of date, but the gist remains the same.
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