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// Copyright 2016 The Cobalt Authors. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// Module Overview: Starboard Media module
//
// Provides media definitions that are common between the Decoder and Player
// interfaces.
#ifndef STARBOARD_MEDIA_H_
#define STARBOARD_MEDIA_H_
#include "starboard/drm.h"
#include "starboard/export.h"
#include "starboard/time.h"
#include "starboard/types.h"
#ifdef __cplusplus
extern "C" {
#endif
// --- Types -----------------------------------------------------------------
// Types of media component streams.
typedef enum SbMediaType {
// Value used for audio streams.
kSbMediaTypeAudio,
// Value used for video streams.
kSbMediaTypeVideo,
} SbMediaType;
// Types of video elementary streams that could be supported.
typedef enum SbMediaVideoCodec {
kSbMediaVideoCodecNone,
kSbMediaVideoCodecH264,
kSbMediaVideoCodecH265,
kSbMediaVideoCodecMpeg2,
kSbMediaVideoCodecTheora,
kSbMediaVideoCodecVc1,
kSbMediaVideoCodecAv1,
kSbMediaVideoCodecVp8,
kSbMediaVideoCodecVp9,
} SbMediaVideoCodec;
// Types of audio elementary streams that can be supported.
typedef enum SbMediaAudioCodec {
kSbMediaAudioCodecNone,
kSbMediaAudioCodecAac,
kSbMediaAudioCodecAc3,
kSbMediaAudioCodecEac3,
kSbMediaAudioCodecOpus,
kSbMediaAudioCodecVorbis,
} SbMediaAudioCodec;
// Indicates how confident the device is that it can play media resources of the
// given type. The values are a direct map of the canPlayType() method specified
// at the following link:
// https://www.w3.org/TR/2011/WD-html5-20110113/video.html#dom-navigator-canplaytype
typedef enum SbMediaSupportType {
// The media type cannot be played.
kSbMediaSupportTypeNotSupported,
// Cannot determine if the media type is playable without playing it.
kSbMediaSupportTypeMaybe,
// The media type seems to be playable.
kSbMediaSupportTypeProbably,
} SbMediaSupportType;
// Possible audio connector types.
typedef enum SbMediaAudioConnector {
kSbMediaAudioConnectorNone,
kSbMediaAudioConnectorAnalog,
kSbMediaAudioConnectorBluetooth,
kSbMediaAudioConnectorHdmi,
kSbMediaAudioConnectorNetwork,
kSbMediaAudioConnectorSpdif,
kSbMediaAudioConnectorUsb,
} SbMediaAudioConnector;
// Possible audio coding types.
typedef enum SbMediaAudioCodingType {
kSbMediaAudioCodingTypeNone,
kSbMediaAudioCodingTypeAac,
kSbMediaAudioCodingTypeAc3,
kSbMediaAudioCodingTypeAtrac,
kSbMediaAudioCodingTypeBitstream,
kSbMediaAudioCodingTypeDolbyDigitalPlus,
kSbMediaAudioCodingTypeDts,
kSbMediaAudioCodingTypeMpeg1,
kSbMediaAudioCodingTypeMpeg2,
kSbMediaAudioCodingTypeMpeg3,
kSbMediaAudioCodingTypePcm,
} SbMediaAudioCodingType;
// Possible audio sample types.
typedef enum SbMediaAudioSampleType {
kSbMediaAudioSampleTypeInt16Deprecated,
kSbMediaAudioSampleTypeFloat32,
#if SB_HAS_QUIRK(SUPPORT_INT16_AUDIO_SAMPLES)
kSbMediaAudioSampleTypeInt16 = kSbMediaAudioSampleTypeInt16Deprecated,
#endif // SB_HAS_QUIRK(SUPPORT_INT16_AUDIO_SAMPLES)
} SbMediaAudioSampleType;
// Possible audio frame storage types.
typedef enum SbMediaAudioFrameStorageType {
// The samples of a multi-channel audio stream are stored in one continuous
// buffer. Samples at the same timestamp are stored one after another. For
// example, for a stereo stream with channels L and R that contains samples
// with timestamps 0, 1, 2, etc., the samples are stored in one buffer as
// "L0 R0 L1 R1 L2 R2 ...".
kSbMediaAudioFrameStorageTypeInterleaved,
// The samples of each channel are stored in their own continuous buffer. For
// example, for a stereo stream with channels L and R that contains samples
// with timestamps 0, 1, 2, etc., the samples are stored in two buffers
// "L0 L1 L2 ..." and "R0 R1 R2 ...".
kSbMediaAudioFrameStorageTypePlanar,
} SbMediaAudioFrameStorageType;
// SMPTE 2086 mastering data
// http://ieeexplore.ieee.org/document/7291707/
// This standard specifies the metadata items to specify the color volume (the
// color primaries, white point, and luminance range) of the display that was
// used in mastering video content. The metadata is specified as a set of values
// independent of any specific digital representation.
// Also see the WebM container guidelines:
// https://www.webmproject.org/docs/container/
typedef struct SbMediaMasteringMetadata {
// Red X chromaticity coordinate as defined by CIE 1931. In range [0, 1].
float primary_r_chromaticity_x;
// Red Y chromaticity coordinate as defined by CIE 1931. In range [0, 1].
float primary_r_chromaticity_y;
// Green X chromaticity coordinate as defined by CIE 1931. In range [0, 1].
float primary_g_chromaticity_x;
// Green Y chromaticity coordinate as defined by CIE 1931. In range [0, 1].
float primary_g_chromaticity_y;
// Blue X chromaticity coordinate as defined by CIE 1931. In range [0, 1].
float primary_b_chromaticity_x;
// Blue Y chromaticity coordinate as defined by CIE 1931. In range [0, 1].
float primary_b_chromaticity_y;
// White X chromaticity coordinate as defined by CIE 1931. In range [0, 1].
float white_point_chromaticity_x;
// White Y chromaticity coordinate as defined by CIE 1931. In range [0, 1].
float white_point_chromaticity_y;
// Maximum luminance. Shall be represented in candelas per square meter
// (cd/m^2). In range [0, 9999.99].
float luminance_max;
// Minimum luminance. Shall be represented in candelas per square meter
// (cd/m^2). In range [0, 9999.99].
float luminance_min;
} SbMediaMasteringMetadata;
typedef enum SbMediaPrimaryId {
// The first 0-255 values should match the H264 specification (see Table E-3
// Colour Primaries in https://www.itu.int/rec/T-REC-H.264/en).
kSbMediaPrimaryIdReserved0 = 0,
kSbMediaPrimaryIdBt709 = 1,
kSbMediaPrimaryIdUnspecified = 2,
kSbMediaPrimaryIdReserved = 3,
kSbMediaPrimaryIdBt470M = 4,
kSbMediaPrimaryIdBt470Bg = 5,
kSbMediaPrimaryIdSmpte170M = 6,
kSbMediaPrimaryIdSmpte240M = 7,
kSbMediaPrimaryIdFilm = 8,
kSbMediaPrimaryIdBt2020 = 9,
kSbMediaPrimaryIdSmpteSt4281 = 10,
kSbMediaPrimaryIdSmpteSt4312 = 11,
kSbMediaPrimaryIdSmpteSt4321 = 12,
kSbMediaPrimaryIdLastStandardValue = kSbMediaPrimaryIdSmpteSt4321,
// Chrome-specific values start at 1000.
kSbMediaPrimaryIdUnknown = 1000,
kSbMediaPrimaryIdXyzD50,
kSbMediaPrimaryIdCustom,
kSbMediaPrimaryIdLast = kSbMediaPrimaryIdCustom
} SbMediaPrimaryId;
typedef enum SbMediaTransferId {
// The first 0-255 values should match the H264 specification (see Table E-4
// Transfer Characteristics in https://www.itu.int/rec/T-REC-H.264/en).
kSbMediaTransferIdReserved0 = 0,
kSbMediaTransferIdBt709 = 1,
kSbMediaTransferIdUnspecified = 2,
kSbMediaTransferIdReserved = 3,
kSbMediaTransferIdGamma22 = 4,
kSbMediaTransferIdGamma28 = 5,
kSbMediaTransferIdSmpte170M = 6,
kSbMediaTransferIdSmpte240M = 7,
kSbMediaTransferIdLinear = 8,
kSbMediaTransferIdLog = 9,
kSbMediaTransferIdLogSqrt = 10,
kSbMediaTransferIdIec6196624 = 11,
kSbMediaTransferIdBt1361Ecg = 12,
kSbMediaTransferIdIec6196621 = 13,
kSbMediaTransferId10BitBt2020 = 14,
kSbMediaTransferId12BitBt2020 = 15,
kSbMediaTransferIdSmpteSt2084 = 16,
kSbMediaTransferIdSmpteSt4281 = 17,
kSbMediaTransferIdAribStdB67 = 18, // AKA hybrid-log gamma, HLG.
kSbMediaTransferIdLastStandardValue = kSbMediaTransferIdSmpteSt4281,
// Chrome-specific values start at 1000.
kSbMediaTransferIdUnknown = 1000,
kSbMediaTransferIdGamma24,
// This is an ad-hoc transfer function that decodes SMPTE 2084 content into a
// 0-1 range more or less suitable for viewing on a non-hdr display.
kSbMediaTransferIdSmpteSt2084NonHdr,
// TODO: Need to store an approximation of the gamma function(s).
kSbMediaTransferIdCustom,
kSbMediaTransferIdLast = kSbMediaTransferIdCustom,
} SbMediaTransferId;
typedef enum SbMediaMatrixId {
// The first 0-255 values should match the H264 specification (see Table E-5
// Matrix Coefficients in https://www.itu.int/rec/T-REC-H.264/en).
kSbMediaMatrixIdRgb = 0,
kSbMediaMatrixIdBt709 = 1,
kSbMediaMatrixIdUnspecified = 2,
kSbMediaMatrixIdReserved = 3,
kSbMediaMatrixIdFcc = 4,
kSbMediaMatrixIdBt470Bg = 5,
kSbMediaMatrixIdSmpte170M = 6,
kSbMediaMatrixIdSmpte240M = 7,
kSbMediaMatrixIdYCgCo = 8,
kSbMediaMatrixIdBt2020NonconstantLuminance = 9,
kSbMediaMatrixIdBt2020ConstantLuminance = 10,
kSbMediaMatrixIdYDzDx = 11,
kSbMediaMatrixIdLastStandardValue = kSbMediaMatrixIdYDzDx,
#if SB_API_VERSION >= 14
kSbMediaMatrixIdInvalid = 255,
kSbMediaMatrixIdLast = kSbMediaMatrixIdInvalid,
#else // SB_API_VERSION >= 14
kSbMediaMatrixIdUnknown = 1000,
kSbMediaMatrixIdLast = kSbMediaMatrixIdUnknown,
#endif // SB_API_VERSION >= 14
} SbMediaMatrixId;
// This corresponds to the WebM Range enum which is part of WebM color data (see
// http://www.webmproject.org/docs/container/#Range).
// H.264 only uses a bool, which corresponds to the LIMITED/FULL values.
// Chrome-specific values start at 1000.
typedef enum SbMediaRangeId {
// Range is not explicitly specified / unknown.
kSbMediaRangeIdUnspecified = 0,
// Limited Rec. 709 color range with RGB values ranging from 16 to 235.
kSbMediaRangeIdLimited = 1,
// Full RGB color range with RGB values from 0 to 255.
kSbMediaRangeIdFull = 2,
// Range is defined by TransferId/MatrixId.
kSbMediaRangeIdDerived = 3,
kSbMediaRangeIdLast = kSbMediaRangeIdDerived
} SbMediaRangeId;
// HDR (High Dynamic Range) Metadata common for HDR10 and WebM/VP9-based HDR
// formats, together with the ColorSpace. HDR reproduces a greater dynamic range
// of luminosity than is possible with standard digital imaging. See the
// Consumer Electronics Association press release:
// https://www.cta.tech/News/Press-Releases/2015/August/CEA-Defines-%E2%80%98HDR-Compatible%E2%80%99-Displays.aspx
typedef struct SbMediaColorMetadata {
// Number of decoded bits per channel. A value of 0 indicates that the
// BitsPerChannel is unspecified.
unsigned int bits_per_channel;
// The amount of pixels to remove in the Cr and Cb channels for every pixel
// not removed horizontally. Example: For video with 4:2:0 chroma subsampling,
// the |chroma_subsampling_horizontal| should be set to 1.
unsigned int chroma_subsampling_horizontal;
// The amount of pixels to remove in the Cr and Cb channels for every pixel
// not removed vertically. Example: For video with 4:2:0 chroma subsampling,
// the |chroma_subsampling_vertical| should be set to 1.
unsigned int chroma_subsampling_vertical;
// The amount of pixels to remove in the Cb channel for every pixel not
// removed horizontally. This is additive with ChromaSubsamplingHorz. Example:
// For video with 4:2:1 chroma subsampling, the
// |chroma_subsampling_horizontal| should be set to 1 and
// |cb_subsampling_horizontal| should be set to 1.
unsigned int cb_subsampling_horizontal;
// The amount of pixels to remove in the Cb channel for every pixel not
// removed vertically. This is additive with |chroma_subsampling_vertical|.
unsigned int cb_subsampling_vertical;
// How chroma is subsampled horizontally. (0: Unspecified, 1: Left Collocated,
// 2: Half).
unsigned int chroma_siting_horizontal;
// How chroma is subsampled vertically. (0: Unspecified, 1: Top Collocated, 2:
// Half).
unsigned int chroma_siting_vertical;
// [HDR Metadata field] SMPTE 2086 mastering data.
SbMediaMasteringMetadata mastering_metadata;
// [HDR Metadata field] Maximum brightness of a single pixel (Maximum Content
// Light Level) in candelas per square meter (cd/m^2).
unsigned int max_cll;
// [HDR Metadata field] Maximum brightness of a single full frame (Maximum
// Frame-Average Light Level) in candelas per square meter (cd/m^2).
unsigned int max_fall;
// [Color Space field] The colour primaries of the video. For clarity, the
// value and meanings for Primaries are adopted from Table 2 of
// ISO/IEC 23001-8:2013/DCOR1. (0: Reserved, 1: ITU-R BT.709, 2: Unspecified,
// 3: Reserved, 4: ITU-R BT.470M, 5: ITU-R BT.470BG, 6: SMPTE 170M,
// 7: SMPTE 240M, 8: FILM, 9: ITU-R BT.2020, 10: SMPTE ST 428-1,
// 22: JEDEC P22 phosphors).
SbMediaPrimaryId primaries;
// [Color Space field] The transfer characteristics of the video. For clarity,
// the value and meanings for TransferCharacteristics 1-15 are adopted from
// Table 3 of ISO/IEC 23001-8:2013/DCOR1. TransferCharacteristics 16-18 are
// proposed values. (0: Reserved, 1: ITU-R BT.709, 2: Unspecified,
// 3: Reserved, 4: Gamma 2.2 curve, 5: Gamma 2.8 curve, 6: SMPTE 170M,
// 7: SMPTE 240M, 8: Linear, 9: Log, 10: Log Sqrt, 11: IEC 61966-2-4,
// 12: ITU-R BT.1361 Extended Colour Gamut, 13: IEC 61966-2-1,
// 14: ITU-R BT.2020 10 bit, 15: ITU-R BT.2020 12 bit, 16: SMPTE ST 2084,
// 17: SMPTE ST 428-1 18: ARIB STD-B67 (HLG)).
SbMediaTransferId transfer;
// [Color Space field] The Matrix Coefficients of the video used to derive
// luma and chroma values from red, green, and blue color primaries. For
// clarity, the value and meanings for MatrixCoefficients are adopted from
// Table 4 of ISO/IEC 23001-8:2013/DCOR1. (0:GBR, 1: BT709, 2: Unspecified,
// 3: Reserved, 4: FCC, 5: BT470BG, 6: SMPTE 170M, 7: SMPTE 240M, 8: YCOCG,
// 9: BT2020 Non-constant Luminance, 10: BT2020 Constant Luminance).
SbMediaMatrixId matrix;
// [Color Space field] Clipping of the color ranges. (0: Unspecified,
// 1: Broadcast Range, 2: Full range (no clipping), 3: Defined by
// MatrixCoefficients/TransferCharacteristics).
SbMediaRangeId range;
// [Color Space field] Only used if primaries == kSbMediaPrimaryIdCustom.
// This a row-major ordered 3 x 4 submatrix of the 4 x 4 transform matrix.
// The 4th row is completed as (0, 0, 0, 1).
float custom_primary_matrix[12];
} SbMediaColorMetadata;
// The set of information required by the decoder or player for each video
// sample.
typedef struct SbMediaVideoSampleInfo {
// The video codec of this sample.
SbMediaVideoCodec codec;
// The mime of the video stream when |codec| isn't kSbMediaVideoCodecNone. It
// may point to an empty string if the mime is not available, and it can only
// be set to NULL when |codec| is kSbMediaVideoCodecNone.
const char* mime;
// Indicates the max video capabilities required. The web app will not provide
// a video stream exceeding the maximums described by this parameter. Allows
// the platform to optimize playback pipeline for low quality video streams if
// it knows that it will never adapt to higher quality streams. The string
// uses the same format as the string passed in to
// SbMediaCanPlayMimeAndKeySystem(), for example, when it is set to
// "width=1920; height=1080; framerate=15;", the video will never adapt to
// resolution higher than 1920x1080 or frame per second higher than 15 fps.
// When the maximums are unknown, this will be set to an empty string. It can
// only be set to NULL when |codec| is kSbMediaVideoCodecNone.
const char* max_video_capabilities;
// Indicates whether the associated sample is a key frame (I-frame). Video key
// frames must always start with SPS and PPS NAL units.
bool is_key_frame;
// The frame width of this sample, in pixels. Also could be parsed from the
// Sequence Parameter Set (SPS) NAL Unit. Frame dimensions must only change on
// key frames, but may change on any key frame.
int frame_width;
// The frame height of this sample, in pixels. Also could be parsed from the
// Sequence Parameter Set (SPS) NAL Unit. Frame dimensions must only change on
// key frames, but may change on any key frame.
int frame_height;
// HDR metadata common for HDR10 and WebM/VP9-based HDR formats as
// well as the Color Space, and Color elements: MatrixCoefficients,
// BitsPerChannel, ChromaSubsamplingHorz, ChromaSubsamplingVert,
// CbSubsamplingHorz, CbSubsamplingVert, ChromaSitingHorz,
// ChromaSitingVert, Range, TransferCharacteristics, and Primaries
// described here: https://matroska.org/technical/specs/index.html .
// This will only be specified on frames where the HDR metadata and
// color / color space might have changed (e.g. keyframes).
SbMediaColorMetadata color_metadata;
} SbMediaVideoSampleInfo;
// A structure describing the audio configuration parameters of a single audio
// output.
typedef struct SbMediaAudioConfiguration {
// The platform-defined index of the associated audio output.
int index;
// The type of audio connector. Will be the empty |kSbMediaAudioConnectorNone|
// if this device cannot provide this information.
SbMediaAudioConnector connector;
// The expected latency of audio over this output, in microseconds, or |0| if
// this device cannot provide this information.
SbTime latency;
// The type of audio coding used over this connection.
SbMediaAudioCodingType coding_type;
// The number of audio channels currently supported by this device output, or
// |0| if this device cannot provide this information, in which case the
// caller can probably assume stereo output.
int number_of_channels;
} SbMediaAudioConfiguration;
// An audio sample info, which is a description of a given audio sample. This
// acts as a set of instructions to the audio decoder.
//
// The audio sample info consists of information found in the |WAVEFORMATEX|
// structure, as well as other information for the audio decoder, including the
// Audio-specific configuration field. The |WAVEFORMATEX| structure is
// specified at http://msdn.microsoft.com/en-us/library/dd390970(v=vs.85).aspx.
typedef struct SbMediaAudioSampleInfo {
// The audio codec of this sample.
SbMediaAudioCodec codec;
// The mime of the audio stream when |codec| isn't kSbMediaAudioCodecNone. It
// may point to an empty string if the mime is not available, and it can only
// be set to NULL when |codec| is kSbMediaAudioCodecNone.
const char* mime;
// The waveform-audio format type code.
uint16_t format_tag;
// The number of audio channels in this format. |1| for mono, |2| for stereo.
uint16_t number_of_channels;
// The sampling rate.
uint32_t samples_per_second;
// The number of bytes per second expected with this format.
uint32_t average_bytes_per_second;
// Byte block alignment, e.g, 4.
uint16_t block_alignment;
// The bit depth for the stream this represents, e.g. |8| or |16|.
uint16_t bits_per_sample;
// The size, in bytes, of the audio_specific_config.
uint16_t audio_specific_config_size;
// The AudioSpecificConfig, as specified in ISO/IEC-14496-3, section 1.6.2.1:
// http://read.pudn.com/downloads98/doc/comm/401153/14496/ISO_IEC_14496-3%20Part%203%20Audio/C036083E_SUB1.PDF
const void* audio_specific_config;
} SbMediaAudioSampleInfo;
// --- Functions -------------------------------------------------------------
#if SB_API_VERSION < 13
// Indicates whether this platform supports decoding |video_codec| and
// |audio_codec| along with decrypting using |key_system|. If |video_codec| is
// |kSbMediaVideoCodecNone| or if |audio_codec| is |kSbMediaAudioCodecNone|,
// this function should return |true| as long as |key_system| is supported on
// the platform to decode any supported input formats.
//
// |video_codec|: The |SbMediaVideoCodec| being checked for platform
// compatibility.
// |audio_codec|: The |SbMediaAudioCodec| being checked for platform
// compatibility.
// |key_system|: The key system being checked for platform compatibility.
SB_EXPORT bool SbMediaIsSupported(SbMediaVideoCodec video_codec,
SbMediaAudioCodec audio_codec,
const char* key_system);
#endif // SB_API_VERSION < 13
// Returns information about whether the playback of the specific media
// described by |mime| and encrypted using |key_system| can be played.
//
// Note that neither |mime| nor |key_system| can be NULL. This function returns
// |kSbMediaSupportNotSupported| if either is NULL.
//
// |mime|: The mime information of the media in the form of |video/webm| or
// |video/mp4; codecs="avc1.42001E"|. It may include arbitrary parameters like
// "codecs", "channels", etc. Note that the "codecs" parameter may contain
// more than one codec, delimited by comma.
// |key_system|: A lowercase value in the form of "com.example.somesystem" as
// suggested by https://w3c.github.io/encrypted-media/#key-system that can be
// matched exactly with known DRM key systems of the platform. When
// |key_system| is an empty string, the return value is an indication for
// non-encrypted media.
//
// An implementation may choose to support |key_system| with extra attributes,
// separated by ';', like
// |com.example.somesystem; attribute_name1="value1"; attribute_name2=value1|.
// If |key_system| with attributes is not supported by an implementation, it
// should treat |key_system| as if it contains only the key system, and reject
// any input containing extra attributes, i.e. it can keep using its existing
// implementation.
// When an implementation supports |key_system| with attributes, it has to
// support all attributes defined by the Starboard version the implementation
// uses.
// An implementation should ignore any unknown attributes, and make a decision
// solely based on the key system and the known attributes. For example, if
// an implementation supports "com.widevine.alpha", it should also return
// `kSbMediaSupportTypeProbably` when |key_system| is
// |com.widevine.alpha; invalid_attribute="invalid_value"|.
// Currently the only attribute has to be supported is |encryptionscheme|. It
// reflects the value passed to `encryptionScheme` of
// MediaKeySystemMediaCapability, as defined in
// https://wicg.github.io/encrypted-media-encryption-scheme/, which can take
// value "cenc", "cbcs", or "cbcs-1-9".
// Empty string is not a valid value for |encryptionscheme| and the
// implementation should return `kSbMediaSupportTypeNotSupported` when
// |encryptionscheme| is set to "".
// The implementation should return `kSbMediaSupportTypeNotSupported` for
// unknown values of known attributes. For example, if an implementation
// supports "encryptionscheme" with value "cenc", "cbcs", or "cbcs-1-9", then
// it should return `kSbMediaSupportTypeProbably` when |key_system| is
// |com.widevine.alpha; encryptionscheme="cenc"|, and return
// `kSbMediaSupportTypeNotSupported` when |key_system| is
// |com.widevine.alpha; encryptionscheme="invalid"|.
// If an implementation supports key system with attributes on one key system,
// it has to support key system with attributes on all key systems supported.
SB_EXPORT SbMediaSupportType
SbMediaCanPlayMimeAndKeySystem(const char* mime, const char* key_system);
// Returns the number of audio outputs currently available on this device.
// Even if the number of outputs or their audio configurations can't be
// determined, it is expected that the platform will at least return a single
// output that supports at least stereo.
SB_EXPORT int SbMediaGetAudioOutputCount();
// Retrieves the current physical audio configuration of audio output
// |output_index| on this device and places it in |out_configuration|,
// which must not be NULL.
//
// This function returns |false| if nothing could be determined on this
// platform or if |output_index| does not exist on this device.
//
// |out_configuration|: The variable that holds the audio configuration
// information.
SB_EXPORT bool SbMediaGetAudioConfiguration(
int output_index,
SbMediaAudioConfiguration* out_configuration);
// Value used when a video's resolution is not known.
#define kSbMediaVideoResolutionDimensionInvalid 0
// Value used when a video's bits per pixel is not known.
#define kSbMediaBitsPerPixelInvalid 0
typedef enum SbMediaBufferStorageType {
kSbMediaBufferStorageTypeMemory,
kSbMediaBufferStorageTypeFile,
} SbMediaBufferStorageType;
// The media buffer will be allocated using the returned alignment. Set this to
// a larger value may increase the memory consumption of media buffers.
//
#if SB_API_VERSION >= 14
SB_EXPORT int SbMediaGetBufferAlignment();
#else // SB_API_VERSION >= 14
// |type|: the media type of the stream (audio or video).
SB_EXPORT int SbMediaGetBufferAlignment(SbMediaType type);
#endif // SB_API_VERSION >= 14
// When the media stack needs more memory to store media buffers, it will
// allocate extra memory in units returned by SbMediaGetBufferAllocationUnit.
// This can return 0, in which case the media stack will allocate extra memory
// on demand. When SbMediaGetInitialBufferCapacity and this function both
// return 0, the media stack will allocate individual buffers directly using
// SbMemory functions.
SB_EXPORT int SbMediaGetBufferAllocationUnit();
// Specifies the maximum amount of memory used by audio buffers of media source
// before triggering a garbage collection. A large value will cause more memory
// being used by audio buffers but will also make the app less likely to
// re-download audio data. Note that the app may experience significant
// difficulty if this value is too low.
SB_EXPORT int SbMediaGetAudioBufferBudget();
// Specifies the duration threshold of media source garbage collection. When
// the accumulated duration in a source buffer exceeds this value, the media
// source implementation will try to eject existing buffers from the cache. This
// is usually triggered when the video being played has a simple content and the
// encoded data is small. In such case this can limit how much is allocated for
// the book keeping data of the media buffers and avoid OOM of system heap. This
// should return 170 seconds for most of the platforms. But it can be further
// reduced on systems with extremely low memory.
SB_EXPORT SbTime SbMediaGetBufferGarbageCollectionDurationThreshold();
// The amount of memory that will be used to store media buffers allocated
// during system startup. To allocate a large chunk at startup helps with
// reducing fragmentation and can avoid failures to allocate incrementally. This
// can return 0.
SB_EXPORT int SbMediaGetInitialBufferCapacity();
// The maximum amount of memory that will be used to store media buffers. This
// must be larger than sum of the video budget and audio budget.
// This is a soft limit and the app will continue to allocate media buffers even
// if the accumulated memory used by the media buffers exceeds the maximum
// buffer capacity. The allocation of media buffers may only fail when there is
// not enough memory in the system to fulfill the request, under which case the
// app will be terminated as under other OOM situations.
//
// |codec|: the video codec associated with the buffer.
// |resolution_width|: the width of the video resolution.
// |resolution_height|: the height of the video resolution.
// |bits_per_pixel|: the bits per pixel. This value is larger for HDR than non-
// HDR video.
SB_EXPORT int SbMediaGetMaxBufferCapacity(SbMediaVideoCodec codec,
int resolution_width,
int resolution_height,
int bits_per_pixel);
// Extra bytes allocated at the end of a media buffer to ensure that the buffer
// can be use optimally by specific instructions like SIMD. Set to 0 to remove
// any padding.
//
#if SB_API_VERSION >= 14
SB_EXPORT int SbMediaGetBufferPadding();
#else // SB_API_VERSION >= 14
// |type|: the media type of the stream (audio or video).
SB_EXPORT int SbMediaGetBufferPadding(SbMediaType type);
#endif // SB_API_VERSION >= 14
// When either SbMediaGetInitialBufferCapacity or SbMediaGetBufferAllocationUnit
// isn't zero, media buffers will be allocated using a memory pool. Set the
// following variable to true to allocate the media buffer pool memory on demand
// and return all memory to the system when there is no media buffer allocated.
// Setting the following value to false results in that Cobalt will allocate
// SbMediaGetInitialBufferCapacity bytes for media buffer on startup and will
// not release any media buffer memory back to the system even if there is no
// media buffers allocated.
SB_EXPORT bool SbMediaIsBufferPoolAllocateOnDemand();
// The memory used when playing mp4 videos that is not in DASH format. The
// resolution of such videos shouldn't go beyond 1080p. Its value should be
// less than the sum of SbMediaGetAudioBufferBudget and
// 'SbMediaGetVideoBufferBudget(..., 1920, 1080, ...) but not less than 8 MB.
//
// |codec|: the video codec associated with the buffer.
// |resolution_width|: the width of the video resolution.
// |resolution_height|: the height of the video resolution.
// |bits_per_pixel|: the bits per pixel. This value is larger for HDR than non-
// HDR video.
SB_EXPORT int SbMediaGetProgressiveBufferBudget(SbMediaVideoCodec codec,
int resolution_width,
int resolution_height,
int bits_per_pixel);
// Returns SbMediaBufferStorageType of type |SbMediaStorageTypeMemory| or
// |SbMediaStorageTypeFile|. For memory storage, the media buffers will be
// stored in main memory allocated by SbMemory functions. For file storage, the
// media buffers will be stored in a temporary file in the system cache folder
// acquired by calling SbSystemGetPath() with "kSbSystemPathCacheDirectory".
// Note that when its value is "file" the media stack will still allocate memory
// to cache the the buffers in use.
SB_EXPORT SbMediaBufferStorageType SbMediaGetBufferStorageType();
// If SbMediaGetBufferUsingMemoryPool returns true, it indicates that media
// buffer pools should be allocated on demand, as opposed to using SbMemory*
// functions.
SB_EXPORT bool SbMediaIsBufferUsingMemoryPool();
// Specifies the maximum amount of memory used by video buffers of media source
// before triggering a garbage collection. A large value will cause more memory
// being used by video buffers but will also make app less likely to re-download
// video data. Note that the app may experience significant difficulty if this
// value is too low.
//
// |codec|: the video codec associated with the buffer.
// |resolution_width|: the width of the video resolution.
// |resolution_height|: the height of the video resolution.
// |bits_per_pixel|: the bits per pixel. This value is larger for HDR than non-
// HDR video.
SB_EXPORT int SbMediaGetVideoBufferBudget(SbMediaVideoCodec codec,
int resolution_width,
int resolution_height,
int bits_per_pixel);
// Communicate to the platform how far past |current_playback_position| the app
// will write audio samples. The app will write all samples between
// |current_playback_position| and |current_playback_position| + |duration|, as
// soon as they are available. The app may sometimes write more samples than
// that, but the app only guarantees to write |duration| past
// |current_playback_position| in general. The platform is responsible for
// guaranteeing that when only |duration| audio samples are written at a time,
// no playback issues occur (such as transient or indefinite hanging). The
// platform may assume |duration| >= 0.5 seconds.
SB_EXPORT void SbMediaSetAudioWriteDuration(SbTime duration);
#ifdef __cplusplus
} // extern "C"
#endif
#endif // STARBOARD_MEDIA_H_