third_party/fuchsia-sdk/fidl/fuchsia.media/audio_consumer.fidl - fuchsia-benchmarks - Git at Google

 // Copyright 2019 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 library fuchsia.media;

 using zx;
 using fuchsia.media.audio;

 /// Interface for creating audio consumers bound to a session
 [Discoverable]
 protocol SessionAudioConsumerFactory {
     /// Creates an `AudioConsumer` which is an interface for playing audio bound
     /// to a particular session. `session_id` is the identifier of the media session
     /// for which audio is to be rendered.
     // TODO(dalesat): Can't use fuchsia.media.sessions2.SessionId here, because dependencies.
     CreateAudioConsumer(
         uint64 session_id,
         request<AudioConsumer> audio_consumer_request);
 };

 /// Interface for playing and controlling audio
 protocol AudioConsumer {
     /// Creates a `StreamSink` for the consumer with the indicated properties.
     ///
     /// Multiple stream sinks may be acquired using this method, but they are intended to be used
     /// sequentially rather than concurrently. The first stream sink that's created using this
     /// method is used as the sole source of packets incoming to the logical consumer until that
     /// stream sink is closed or the `EndOfStream` method is called on that sink. At that point,
     /// the second stream sink is used, and so on.
     ///
     /// If an unsupported compression type is supplied, the
     /// `stream_sink_request` request will be closed with an epitaph value of
     /// `ZX_ERR_INVALID_ARGS`
     CreateStreamSink(
         vector<handle<vmo>>:16 buffers,
         AudioStreamType stream_type,
         Compression? compression,
         request<StreamSink> stream_sink_request);

     /// Indicates that the last packet prior to the end of the stream has been rendered.
     -> OnEndOfStream();

     /// Starts rendering as indicated by `flags`.
     ///
     /// `media_time` indicates the packet timestamp that corresponds to `reference_time`.
     /// Typically, this is the timestamp of the first packet that will be
     /// rendered. If packets will be supplied with no timestamps, this value
     /// should be `NO_TIMESTAMP`.  Passing a `media_time` value of
     /// `NO_TIMESTAMP` chooses the default media time, established as follows:
     ///     1. When starting for the first time, the default media time is the
     ///        timestamp on the first packet sent to the stream sink.
     ///     2. When resuming after stop, the default media time is the media
     ///        time at which the stream stopped.
     ///
     /// `reference_time` is the monotonic system time at which rendering should
     /// be started. For supply-driven sources, this must be the time at which
     /// the first packet was (or will be) sent plus a lead time, which must be
     /// in the range indicated in the `AudioConsumerStatus`. For demand-driven
     /// sources, the client must ensure that the lead time requirement is met at
     /// the start time.  Passing the default value of 0 for `reference_time`
     /// causes the consumer to choose a start time based on the availability of
     /// packets, the lead time requirements, and whether `LOW_LATENCY` has been
     /// specified.
     ///
     /// The actual start time will be reflected in the updated status.
     Start(
         AudioConsumerStartFlags flags,
         zx.time reference_time,
         int64 media_time);

     /// Stops rendering as soon as possible after this method is called. The actual stop time will
     /// be reflected in the updated status.
     Stop();

     /// Requests to change the playback rate of the renderer. 1.0 means normal
     /// playback. Negative rates are not supported. The new rate will be
     /// reflected in the updated status. The default rate of any newly created `StreamSink` is 1.0.
     SetRate(float32 rate);

     /// Binds to this `AudioConsumer` volume control for control and notifications.
     BindVolumeControl(
         request<fuchsia.media.audio.VolumeControl> volume_control_request);

     /// Gets the current status of the consumer using the long get pattern. The consumer responds
     /// to this method when the status changes - initially with respect to the initial status value
     /// and thereafter with respect to the previously-reported status value.
     WatchStatus() -> (AudioConsumerStatus status);
 };

 /// Flags passed to `AudioConsumer.Start`.
 bits AudioConsumerStartFlags {
     /// Indicates that latency should be kept as low as possible.
     LOW_LATENCY = 0x01;

     /// Indicates that the timing of packet delivery is determined by an external process rather
     /// than being demand-based. When this flag is set, the service should expect underflow or
     /// overflow due to a mismatch between packet arrival rate and presentation rate. When this
     /// flag is not set, packets arrive on demand.
     SUPPLY_DRIVEN = 0x02;
 };

 /// Represents the status of the consumer. In the initial status, `error` and
 /// `presentation_timeline` are absent. The lead time fields are always present.
 table AudioConsumerStatus {
     /// If present, indicates an error condition currently in effect. Absent if no error.
     1: AudioConsumerError error;

     /// If present, indicates the current relationship between the presentation timeline
     /// and local monotonic clock, both in nanosecond units. If not present,
     /// indicates there is no relationship. Absent initially.
     ///
     /// 'Presentation timeline' refers to the `pts` (presentation timestamp) values on the packets.
     /// This timeline function can be used to determine the local monotonic clock time that a
     /// packet will be presented based on that packet's `pts` value.
     2: TimelineFunction presentation_timeline;

     /// Indicates the minimum lead time in nanoseconds supported by this
     /// `AudioConsumer`.  Or in other words, how small of a gap between the
     /// `media_time` provided to `AudioConsumer.Start` and the pts on the first
     /// packet can be. Values outside this range will be clipped.
     3: uint64 min_lead_time;

     /// Indicates the maximum lead time in nanoseconds supported by this
     /// `AudioConsumer`.  Or in other words, how large of a gap between the
     /// `media_time` provided to `AudioConsumer.Start` and the pts on the first
     /// packet can be. Values outside this range will be clipped.
     4: uint64 max_lead_time;
 };

 struct Void {
 };

 /// Represents a `AudioConsumer` error condition.
 union AudioConsumerError {
     1: Void place_holder;
 };
	// Copyright 2019 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	library fuchsia.media;

	using zx;
	using fuchsia.media.audio;

	/// Interface for creating audio consumers bound to a session
	[Discoverable]
	protocol SessionAudioConsumerFactory {
	/// Creates an `AudioConsumer` which is an interface for playing audio bound
	/// to a particular session. `session_id` is the identifier of the media session
	/// for which audio is to be rendered.
	// TODO(dalesat): Can't use fuchsia.media.sessions2.SessionId here, because dependencies.
	CreateAudioConsumer(
	uint64 session_id,
	request<AudioConsumer> audio_consumer_request);
	};

	/// Interface for playing and controlling audio
	protocol AudioConsumer {
	/// Creates a `StreamSink` for the consumer with the indicated properties.
	///
	/// Multiple stream sinks may be acquired using this method, but they are intended to be used
	/// sequentially rather than concurrently. The first stream sink that's created using this
	/// method is used as the sole source of packets incoming to the logical consumer until that
	/// stream sink is closed or the `EndOfStream` method is called on that sink. At that point,
	/// the second stream sink is used, and so on.
	///
	/// If an unsupported compression type is supplied, the
	/// `stream_sink_request` request will be closed with an epitaph value of
	/// `ZX_ERR_INVALID_ARGS`
	CreateStreamSink(
	vector<handle<vmo>>:16 buffers,
	AudioStreamType stream_type,
	Compression? compression,
	request<StreamSink> stream_sink_request);

	/// Indicates that the last packet prior to the end of the stream has been rendered.
	-> OnEndOfStream();

	/// Starts rendering as indicated by `flags`.
	///
	/// `media_time` indicates the packet timestamp that corresponds to `reference_time`.
	/// Typically, this is the timestamp of the first packet that will be
	/// rendered. If packets will be supplied with no timestamps, this value
	/// should be `NO_TIMESTAMP`. Passing a `media_time` value of
	/// `NO_TIMESTAMP` chooses the default media time, established as follows:
	/// 1. When starting for the first time, the default media time is the
	/// timestamp on the first packet sent to the stream sink.
	/// 2. When resuming after stop, the default media time is the media
	/// time at which the stream stopped.
	///
	/// `reference_time` is the monotonic system time at which rendering should
	/// be started. For supply-driven sources, this must be the time at which
	/// the first packet was (or will be) sent plus a lead time, which must be
	/// in the range indicated in the `AudioConsumerStatus`. For demand-driven
	/// sources, the client must ensure that the lead time requirement is met at
	/// the start time. Passing the default value of 0 for `reference_time`
	/// causes the consumer to choose a start time based on the availability of
	/// packets, the lead time requirements, and whether `LOW_LATENCY` has been
	/// specified.
	///
	/// The actual start time will be reflected in the updated status.
	Start(
	AudioConsumerStartFlags flags,
	zx.time reference_time,
	int64 media_time);

	/// Stops rendering as soon as possible after this method is called. The actual stop time will
	/// be reflected in the updated status.
	Stop();

	/// Requests to change the playback rate of the renderer. 1.0 means normal
	/// playback. Negative rates are not supported. The new rate will be
	/// reflected in the updated status. The default rate of any newly created `StreamSink` is 1.0.
	SetRate(float32 rate);

	/// Binds to this `AudioConsumer` volume control for control and notifications.
	BindVolumeControl(
	request<fuchsia.media.audio.VolumeControl> volume_control_request);

	/// Gets the current status of the consumer using the long get pattern. The consumer responds
	/// to this method when the status changes - initially with respect to the initial status value
	/// and thereafter with respect to the previously-reported status value.
	WatchStatus() -> (AudioConsumerStatus status);
	};

	/// Flags passed to `AudioConsumer.Start`.
	bits AudioConsumerStartFlags {
	/// Indicates that latency should be kept as low as possible.
	LOW_LATENCY = 0x01;

	/// Indicates that the timing of packet delivery is determined by an external process rather
	/// than being demand-based. When this flag is set, the service should expect underflow or
	/// overflow due to a mismatch between packet arrival rate and presentation rate. When this
	/// flag is not set, packets arrive on demand.
	SUPPLY_DRIVEN = 0x02;
	};

	/// Represents the status of the consumer. In the initial status, `error` and
	/// `presentation_timeline` are absent. The lead time fields are always present.
	table AudioConsumerStatus {
	/// If present, indicates an error condition currently in effect. Absent if no error.
	1: AudioConsumerError error;

	/// If present, indicates the current relationship between the presentation timeline
	/// and local monotonic clock, both in nanosecond units. If not present,
	/// indicates there is no relationship. Absent initially.
	///
	/// 'Presentation timeline' refers to the `pts` (presentation timestamp) values on the packets.
	/// This timeline function can be used to determine the local monotonic clock time that a
	/// packet will be presented based on that packet's `pts` value.
	2: TimelineFunction presentation_timeline;

	/// Indicates the minimum lead time in nanoseconds supported by this
	/// `AudioConsumer`. Or in other words, how small of a gap between the
	/// `media_time` provided to `AudioConsumer.Start` and the pts on the first
	/// packet can be. Values outside this range will be clipped.
	3: uint64 min_lead_time;

	/// Indicates the maximum lead time in nanoseconds supported by this
	/// `AudioConsumer`. Or in other words, how large of a gap between the
	/// `media_time` provided to `AudioConsumer.Start` and the pts on the first
	/// packet can be. Values outside this range will be clipped.
	4: uint64 max_lead_time;
	};

	struct Void {
	};

	/// Represents a `AudioConsumer` error condition.
	union AudioConsumerError {
	1: Void place_holder;
	};