naiveproxy/components/arc/common/video_encode_accelerator.mojom

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2018-02-02 13:49:39 +03:00
// Copyright 2017 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.
// This file defined the mojo interface between Android and Chromium for video
// encoding.
module arc.mojom;
import "video_common.mojom";
[Extensible]
enum VideoPixelFormat {
// The values must match to the values in media::VideoPixelFormat
PIXEL_FORMAT_UNKNOWN = 0,
PIXEL_FORMAT_I420 = 1,
};
[Extensible]
enum VideoCodecProfile {
// The values must match to the values in media::VideoCodecProfile.
VIDEO_CODEC_PROFILE_UNKNOWN = -1,
VIDEO_CODEC_PROFILE_MIN = VIDEO_CODEC_PROFILE_UNKNOWN,
H264PROFILE_MIN = 0,
// Including profile Constrained Baseline (CBP).
H264PROFILE_BASELINE = H264PROFILE_MIN,
H264PROFILE_MAIN = 1,
H264PROFILE_EXTENDED = 2,
H264PROFILE_HIGH = 3,
H264PROFILE_HIGH10PROFILE = 4,
H264PROFILE_HIGH422PROFILE = 5,
H264PROFILE_HIGH444PREDICTIVEPROFILE = 6,
H264PROFILE_SCALABLEBASELINE = 7,
H264PROFILE_SCALABLEHIGH = 8,
H264PROFILE_STEREOHIGH = 9,
H264PROFILE_MULTIVIEWHIGH = 10,
H264PROFILE_MAX = H264PROFILE_MULTIVIEWHIGH,
VP8PROFILE_MIN = 11,
VP8PROFILE_ANY = VP8PROFILE_MIN,
VP8PROFILE_MAX = VP8PROFILE_ANY,
VP9PROFILE_MIN = 12,
VP9PROFILE_PROFILE0 = VP9PROFILE_MIN,
VP9PROFILE_PROFILE1 = 13,
VP9PROFILE_PROFILE2 = 14,
VP9PROFILE_PROFILE3 = 15,
VP9PROFILE_MAX = VP9PROFILE_PROFILE3,
HEVCPROFILE_MIN = 16,
HEVCPROFILE_MAIN = HEVCPROFILE_MIN,
HEVCPROFILE_MAIN10 = 17,
HEVCPROFILE_MAIN_STILL_PICTURE = 18,
HEVCPROFILE_MAX = HEVCPROFILE_MAIN_STILL_PICTURE,
DOLBYVISION_MIN = 19,
DOLBYVISION_PROFILE0 = DOLBYVISION_MIN,
DOLBYVISION_PROFILE4 = 20,
DOLBYVISION_PROFILE5 = 21,
DOLBYVISION_PROFILE7 = 22,
DOLBYVISION_MAX = DOLBYVISION_PROFILE7,
THEORAPROFILE_MIN = 23,
THEORAPROFILE_ANY = THEORAPROFILE_MIN,
THEORAPROFILE_MAX = THEORAPROFILE_ANY,
AV1PROFILE_MIN = 24,
AV1PROFILE_PROFILE0 = AV1PROFILE_MIN,
AV1PROFILE_MAX = AV1PROFILE_PROFILE0,
VIDEO_CODEC_PROFILE_MAX = AV1PROFILE_PROFILE0,
};
// Specification of an encoding profile supported by an encoder.
struct VideoEncodeProfile {
VideoCodecProfile profile;
Size max_resolution;
uint32 max_framerate_numerator;
uint32 max_framerate_denominator;
};
// Video encoder IPC interface.
// Next MinVersion: 1
// Next Method ID: 6
interface VideoEncodeAccelerator {
// The input buffer storage type.
[Extensible]
enum StorageType {
SHARED_MEMORY,
DMABUF,
};
// Enumeration of potential errors generated by the API.
[Extensible]
enum Error {
// An operation was attempted during an incompatible encoder state.
kIllegalStateError = 0,
// Invalid argument was passed to an API method.
kInvalidArgumentError = 1,
// A failure occurred at the GPU process or one of its dependencies.
// Examples of such failures include GPU hardware failures, GPU driver
// failures, GPU library failures, GPU process programming errors, and so
// on.
kPlatformFailureError = 2,
kErrorMax = kPlatformFailureError,
};
// Returns an array of the supported profiles of the video encoder. This can
// be called before Initialize().
GetSupportedProfiles@0() => (array<VideoEncodeProfile> profiles);
// Initializes the video encoder with specific configuration. Called once per
// encoder construction.
// Parameters:
// |input_format| is the pixel format of the input frames.
// |visible_size| is the resolution of the input frames.
// |input_storage| the type of the input buffer.
// |output_profile| is the codec profile of the encoded output stream.
// |initial_bitrate| is the initial bitrate of the encoded output stream,
// in bits per second.
// |client| is the client of this video encoder. The client must be valid
// during the lifetime of this accelerator.
// Callback:
// Called with true iff initialization is successful. The client should not
// invoke any other methods before the callback.
Initialize@1(VideoPixelFormat input_format,
Size visible_size,
StorageType input_storage,
VideoCodecProfile output_profile,
uint32 initial_bitrate,
VideoEncodeClient client) => (bool success);
// Encodes the given frame.
// Parameters:
// |frame_fd| is the handle of the video frame buffer. This could be the
// file descriptor of the shared memory or the dmabuf, depends on the
// storage type assigned in Initialize().
// |planes| is arrays of offset and stride of planes in the video frame.
// |timestamp| the timestamp of the video frame(in microseconds).
// |force_keyframe| forces the encoding of a keyframe for this frame.
// Callback:
// Called when the frame has been processed and no longer used by this
// accelerator.
Encode@2(handle frame_fd,
array<VideoFramePlane> planes,
int64 timestamp,
bool force_keyframe) => ();
// Sends a bitstream buffer to the encoder for storing encoded output. The
// shared memory buffer will be filled with the encoded bitstream, and the
// callback will be called.
// Parameters:
// |bitstream_buffer_id| is the id of the bitstream buffer. It is used to
// identify the bitstream in VideoEncodeClient::BitstreamBufferReady().
// |shmem_fd| is the file descriptor of the shared memory.
// |offset| and |size| define the region in the shared memory to be used
// as the bitstream buffer.
// Callback:
// Called when the encoded data has been filled in the bitstream buffer.
// |payload_size| is the byte size of the used portion of the buffer.
// |key_frame| is true if this delivered frame is a keyframe.
// |timestamp| is the same timestamp as the one passed to Encode().
UseBitstreamBuffer@3(handle shmem_fd, uint32 offset, uint32 size)
=> (uint32 payload_size, bool key_frame, int64 timestamp);
// Requests a change to the encoding parameters. This is only a request,
// fulfilled on a best-effort basis.
// Parameters:
// |bitrate| is the requested new bitrate, in bits per second.
// |framerate| is the requested new framerate, in frames per second.
RequestEncodingParametersChange@4(uint32 bitrate,
uint32 framerate);
// Flushes the encoder: all pending inputs will be encoded and all bitstreams
// handed back to the client. The client should not invoke Flush() or
// Encode() before the previous Flush() is finished.
// Callback:
// Called with |true| if Flush() is complete; with |false| if Flush() is
// canceled.
Flush@5() => (bool flush_done);
};
// Interface for clients that use VideoEncodeAccelerator. These callbacks will
// not be made unless VideoEncodeAccelerator::Initialize() has returned
// successfully.
// Next MinVersion: 1
// Next Method ID: 3
interface VideoEncodeClient {
// Callback to tell the client what size of frames and buffers to provide
// for input and output. The VEA disclaims use or ownership of all previously
// provided buffers once this callback is made.
// Parameters:
// |input_count| is the number of input buffers required for encoding.
// The client should be prepared to feed at least this many frames into the
// encoder before being returned any input frames, since the encoder may
// need to hold onto some subset of inputs as reference pictures.
// |input_coded_size| is the logical size of the input frames, in pixels.
// The encoder may have hardware alignment requirements that make this
// different from |visible_size|, as requested in Initialize(), in which
// case the input video frame to Encode() should be padded appropriately.
// |output_buffer_size| is the required size of output buffers for this
// encoder in bytes.
RequireBitstreamBuffers@0(uint32 input_count,
Size input_coded_size,
uint32 output_buffer_size);
// Error notification callback. Note that errors in
// VideoEncodeAccelerator::Initialize() will not be reported here, but will
// instead be indicated by a false return value there.
NotifyError@2(VideoEncodeAccelerator.Error error);
};