--- title: Customization --- At the core of the ExoPlayer library is the `Player` interface. A `Player` exposes traditional high-level media player functionality such as the ability to buffer media, play, pause and seek. The default implementation `ExoPlayer` is designed to make few assumptions about (and hence impose few restrictions on) the type of media being played, how and where it is stored, and how it is rendered. Rather than implementing the loading and rendering of media directly, `ExoPlayer` implementations delegate this work to components that are injected when a player is created or when new media sources are passed to the player. Components common to all `ExoPlayer` implementations are: * `MediaSource` instances that define media to be played, load the media, and from which the loaded media can be read. `MediaSource` instances are created from `MediaItem`s by a `MediaSource.Factory` inside the player. They can also be passed directly to the player using the [media source based playlist API]. * A `MediaSource.Factory` that converts `MediaItem`s to `MediaSource`s. The `MediaSource.Factory` is injected when the player is created. * `Renderer`s that render individual components of the media. `Renderer`s are injected when the player is created. * A `TrackSelector` that selects tracks provided by the `MediaSource` to be consumed by each of the available `Renderer`s. A `TrackSelector` is injected when the player is created. * A `LoadControl` that controls when the `MediaSource` buffers more media, and how much media is buffered. A `LoadControl` is injected when the player is created. * A `LivePlaybackSpeedControl` that controls the playback speed during live playbacks to allow the player to stay close to a configured live offset. A `LivePlaybackSpeedControl` is injected when the player is created. The concept of injecting components that implement pieces of player functionality is present throughout the library. The default implementations of some components delegate work to further injected components. This allows many sub-components to be individually replaced with implementations that are configured in a custom way. ## Player customization ## Some common examples of customizing the player by injecting components are described below. ### Configuring the network stack ### ExoPlayer supports Android's default network stack, as well as Cronet and OkHttp. In each case it's possible to customize the network stack for your use case. The following example shows how to customize the player to use Android's default network stack with cross-protocol redirects enabled: ~~~ // Build a HttpDataSource.Factory with cross-protocol redirects enabled. HttpDataSource.Factory httpDataSourceFactory = new DefaultHttpDataSource.Factory().setAllowCrossProtocolRedirects(true); // Wrap the HttpDataSource.Factory in a DefaultDataSource.Factory, which adds in // support for requesting data from other sources (e.g., files, resources, etc). DefaultDataSource.Factory dataSourceFactory = new DefaultDataSource.Factory(context, httpDataSourceFactory); // Inject the DefaultDataSourceFactory when creating the player. ExoPlayer player = new ExoPlayer.Builder(context) .setMediaSourceFactory(new DefaultMediaSourceFactory(dataSourceFactory)) .build(); ~~~ {: .language-java} The same approach can be used to configure and inject `HttpDataSource.Factory` implementations provided by the [Cronet extension] and the [OkHttp extension], depending on your preferred choice of network stack. ### Caching data loaded from the network ### To temporarily cache media, or for [playing downloaded media]({{ site.baseurl }}/downloading-media.html#playing-downloaded-content), you can inject a `CacheDataSource.Factory` into the `DefaultMediaSourceFactory`: ~~~ DataSource.Factory cacheDataSourceFactory = new CacheDataSource.Factory() .setCache(simpleCache) .setUpstreamDataSourceFactory(httpDataSourceFactory); ExoPlayer player = new ExoPlayer.Builder(context) .setMediaSourceFactory( new DefaultMediaSourceFactory(cacheDataSourceFactory)) .build(); ~~~ {: .language-java} ### Customizing server interactions ### Some apps may want to intercept HTTP requests and responses. You may want to inject custom request headers, read the server's response headers, modify the requests' URIs, etc. For example, your app may authenticate itself by injecting a token as a header when requesting the media segments. The following example demonstrates how to implement these behaviors by injecting a custom `DataSource.Factory` into the `DefaultMediaSourceFactory`: ~~~ DataSource.Factory dataSourceFactory = () -> { HttpDataSource dataSource = httpDataSourceFactory.createDataSource(); // Set a custom authentication request header. dataSource.setRequestProperty("Header", "Value"); return dataSource; }; ExoPlayer player = new ExoPlayer.Builder(context) .setMediaSourceFactory(new DefaultMediaSourceFactory(dataSourceFactory)) .build(); ~~~ {: .language-java} In the code snippet above, the injected `HttpDataSource` includes the header `"Header: Value"` in every HTTP request. This behavior is *fixed* for every interaction with an HTTP source. For a more granular approach, you can inject just-in-time behavior using a `ResolvingDataSource`. The following code snippet shows how to inject request headers just before interacting with an HTTP source: ~~~ DataSource.Factory dataSourceFactory = new ResolvingDataSource.Factory( httpDataSourceFactory, // Provide just-in-time request headers. dataSpec -> dataSpec.withRequestHeaders(getCustomHeaders(dataSpec.uri))); ~~~ {: .language-java} You may also use a `ResolvingDataSource` to perform just-in-time modifications of the URI, as shown in the following snippet: ~~~ DataSource.Factory dataSourceFactory = new ResolvingDataSource.Factory( httpDataSourceFactory, // Provide just-in-time URI resolution logic. dataSpec -> dataSpec.withUri(resolveUri(dataSpec.uri))); ~~~ {: .language-java} ### Customizing error handling ### Implementing a custom [LoadErrorHandlingPolicy][] allows apps to customize the way ExoPlayer reacts to load errors. For example, an app may want to fail fast instead of retrying many times, or may want to customize the back-off logic that controls how long the player waits between each retry. The following snippet shows how to implement custom back-off logic: ~~~ LoadErrorHandlingPolicy loadErrorHandlingPolicy = new DefaultLoadErrorHandlingPolicy() { @Override public long getRetryDelayMsFor(LoadErrorInfo loadErrorInfo) { // Implement custom back-off logic here. } }; ExoPlayer player = new ExoPlayer.Builder(context) .setMediaSourceFactory( new DefaultMediaSourceFactory(context) .setLoadErrorHandlingPolicy(loadErrorHandlingPolicy)) .build(); ~~~ {: .language-java} The `LoadErrorInfo` argument contains more information about the failed load to customize the logic based on the error type or the failed request. ### Customizing extractor flags ### Extractor flags can be used to customize how individual formats are extracted from progressive media. They can be set on the `DefaultExtractorsFactory` that's provided to the `DefaultMediaSourceFactory`. The following example passes a flag that enables index-based seeking for MP3 streams. ~~~ DefaultExtractorsFactory extractorsFactory = new DefaultExtractorsFactory() .setMp3ExtractorFlags(Mp3Extractor.FLAG_ENABLE_INDEX_SEEKING); ExoPlayer player = new ExoPlayer.Builder(context) .setMediaSourceFactory( new DefaultMediaSourceFactory(context, extractorsFactory)) .build(); ~~~ {: .language-java} ### Enabling constant bitrate seeking ### For MP3, ADTS and AMR streams, you can enable approximate seeking using a constant bitrate assumption with `FLAG_ENABLE_CONSTANT_BITRATE_SEEKING` flags. These flags can be set for individual extractors using the individual `DefaultExtractorsFactory.setXyzExtractorFlags` methods as described above. To enable constant bitrate seeking for all extractors that support it, use `DefaultExtractorsFactory.setConstantBitrateSeekingEnabled`. ~~~ DefaultExtractorsFactory extractorsFactory = new DefaultExtractorsFactory().setConstantBitrateSeekingEnabled(true); ~~~ {: .language-java} The `ExtractorsFactory` can then be injected via `DefaultMediaSourceFactory` as described for customizing extractor flags above. ## MediaSource customization ## The examples above inject customized components for use during playback of all `MediaItem`s that are passed to the player. Where fine-grained customization is required, it's also possible to inject customized components into individual `MediaSource` instances, which can be passed directly to the player. The example below shows how to customize a `ProgressiveMediaSource` to use a custom `DataSource.Factory`, `ExtractorsFactory` and `LoadErrorHandlingPolicy`: ~~~ ProgressiveMediaSource mediaSource = new ProgressiveMediaSource.Factory( customDataSourceFactory, customExtractorsFactory) .setLoadErrorHandlingPolicy(customLoadErrorHandlingPolicy) .createMediaSource(MediaItem.fromUri(streamUri)); ~~~ {: .language-java} ## Creating custom components ## The library provides default implementations of the components listed at the top of this page for common use cases. An `ExoPlayer` can use these components, but may also be built to use custom implementations if non-standard behaviors are required. Some use cases for custom implementations are: * `Renderer` – You may want to implement a custom `Renderer` to handle a media type not supported by the default implementations provided by the library. * `TrackSelector` – Implementing a custom `TrackSelector` allows an app developer to change the way in which tracks exposed by a `MediaSource` are selected for consumption by each of the available `Renderer`s. * `LoadControl` – Implementing a custom `LoadControl` allows an app developer to change the player's buffering policy. * `Extractor` – If you need to support a container format not currently supported by the library, consider implementing a custom `Extractor` class. * `MediaSource` – Implementing a custom `MediaSource` class may be appropriate if you wish to obtain media samples to feed to renderers in a custom way, or if you wish to implement custom `MediaSource` compositing behavior. * `MediaSource.Factory` – Implementing a custom `MediaSource.Factory` allows an application to customize the way in which `MediaSource`s are created from `MediaItem`s. * `DataSource` – ExoPlayer’s upstream package already contains a number of `DataSource` implementations for different use cases. You may want to implement you own `DataSource` class to load data in another way, such as over a custom protocol, using a custom HTTP stack, or from a custom persistent cache. When building custom components, we recommend the following: * If a custom component needs to report events back to the app, we recommend that you do so using the same model as existing ExoPlayer components, for example using `EventDispatcher` classes or passing a `Handler` together with a listener to the constructor of the component. * We recommended that custom components use the same model as existing ExoPlayer components to allow reconfiguration by the app during playback. To do this, custom components should implement `PlayerMessage.Target` and receive configuration changes in the `handleMessage` method. Application code should pass configuration changes by calling ExoPlayer’s `createMessage` method, configuring the message, and sending it to the component using `PlayerMessage.send`. Sending messages to be delivered on the playback thread ensures that they are executed in order with any other operations being performed on the player. [Cronet extension]: https://github.com/google/ExoPlayer/tree/release-v2/extensions/cronet [OkHttp extension]: https://github.com/google/ExoPlayer/tree/release-v2/extensions/okhttp [LoadErrorHandlingPolicy]: {{ site.exo_sdk }}/upstream/LoadErrorHandlingPolicy.html [media source based playlist API]: {{ site.baseurl }}/media-sources.html#media-source-based-playlist-api