naiveproxy/media/mojo/interfaces/video_decoder.mojom

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2018-12-10 05:59:24 +03:00
// Copyright 2016 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
module media.mojom;
import "gpu/ipc/common/sync_token.mojom";
import "media/mojo/interfaces/media_log.mojom";
import "media/mojo/interfaces/media_types.mojom";
import "mojo/public/mojom/base/unguessable_token.mojom";
import "ui/gfx/mojo/color_space.mojom";
// Identifies a CommandBufferStub. MediaGpuChannelManager is responsible
// for minting |channel_token| values.
struct CommandBufferId {
mojo_base.mojom.UnguessableToken channel_token;
int32 route_id;
};
interface VideoFrameHandleReleaser {
// Signals that the VideoFrame identified by |release_token| should be
// released. |release_sync_token| indicates the last use of the VideoFrame
// (in a GPU command buffer) by the client.
//
// TODO(sandersd): Do we need release notification for non-texture
// VideoFrames? If so, |release_sync_token| should be optional.
ReleaseVideoFrame(mojo_base.mojom.UnguessableToken release_token,
gpu.mojom.SyncToken release_sync_token);
};
[Native]
struct OverlayInfo;
// A Mojo equivalent of media::VideoDecoder. In practice, this is used for
// hardware decode offloading; in this case the client is a <video> tag running
// in a renderer, and the implementation is running in the GPU process.
interface VideoDecoder {
// Initialize the decoder. This must be called before any other method.
//
// |client| provides asynchronous client methods to the VideoDecoder, such
// as delivery of decoded VideoFrame outputs.
//
// When a VideoFrame is delivered to |client|, the VideoDecoder may continue
// to retain a reference to the VideoFrame. In this case a |release_token| is
// included. The client shall use |video_frame_handle_releaser| to signal
// that the retained VideoFrame should be released (even after the
// VideoDecoder is torn down). This enables ordinary VideoFrames in the client
// process to depend on resources held by the service, without significantly
// complicating VideoFrame serialization.
//
// |decoder_buffer_pipe| is used to transfer the encoded data for each
// DecoderBuffer.
//
// |command_buffer_id|, when present, identifies a CommandBufferStub that
// the VideoDecoder can use for GL operations. Implementations that require GL
// will fail Initialize() if |command_buffer_id| is not provided.
//
// TODO(sandersd): Rename to Initialize() if/when
// media::VideoDecoder::Initialize() is renamed to Configure().
Construct(associated VideoDecoderClient client,
associated MediaLog media_log,
VideoFrameHandleReleaser& video_frame_handle_releaser,
handle<data_pipe_consumer> decoder_buffer_pipe,
CommandBufferId? command_buffer_id,
gfx.mojom.ColorSpace target_color_space);
// Configure (or reconfigure) the decoder. This must be called before decoding
// any frames, and must not be called while there are pending Initialize(),
// Decode(), or Reset() requests.
//
// If |low_delay| is true, the decoder must output frames as soon as possible;
// in particular, it must not wait for another Decode() request, except as
// required for frame reordering. Implementations must fail initialization if
// they cannot satisfy this requirement.
//
// On completion, the callback also includes |needs_bitstream_conversion|,
// indicating whether decode buffers need bitstream conversion, and
// |max_decode_requests|, the maximum number of concurrent Decode() requests
// the implementation supports.
//
// |cdm_id| must refer to a valid CDM if |config.is_encrypted()|. It is not
// used for unencrypted streams.
Initialize(VideoDecoderConfig config, bool low_delay, int32 cdm_id) =>
(bool success, bool needs_bitstream_conversion,
int32 max_decode_requests);
// Request decoding of exactly one frame or an EOS buffer. This must not be
// called while there are pending Initialize(), Reset(), or Decode(EOS)
// requests.
//
// Implementations must eventually execute the callback, even if Decode() is
// not called again. It is not required that the decode status match the
// actual result of decoding the buffer, only that decode errors are
// eventually reported (such as at EOS).
//
// If |buffer| is an EOS buffer, implementations must execute all other
// pending Decode() callbacks and output all pending frames before executing
// the Decode(EOS) callback. (That is, they must flush.)
Decode(DecoderBuffer buffer) => (DecodeStatus status);
// Reset the decoder. All ongoing Decode() requests must be completed or
// aborted before executing the callback. This must not be called while there
// is a pending Initialize() request.
Reset() => ();
// Inform the decoder that new OverlayInfo is available.
OnOverlayInfoChanged(OverlayInfo overlay_info);
};
interface VideoDecoderClient {
// Output a decoded frame. Frames are output in presentation order.
//
// When |can_read_without_stalling| is false, preroll should be disabled. This
// is necessary if the decoder cannot guarantee that it can output another
// frame, for example if output buffers are limited or configuration changes
// require the return of all outstanding frames.
//
// If |release_token| is provided, the client shall call
// VideoFrameHandleReleaser::Release() when it is finished using |frame|.
OnVideoFrameDecoded(VideoFrame frame,
bool can_read_without_stalling,
mojo_base.mojom.UnguessableToken? release_token);
// Request to be notified when the current OverlayInfo changes. This results
// in at least one call to OnOverlayInfoChanged() for the initial OverlayInfo.
// |restart_for_transitions| sets whether the decoder should be restarted on
// overlay transitions instead of receiving a call to OnOverlayInfoChanged().
RequestOverlayInfo(bool restart_for_transitions);
};