chromecast/public/media/decoder_config.h - chromium/src - Git at Google

 // Copyright 2015 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.

 #ifndef CHROMECAST_PUBLIC_MEDIA_DECODER_CONFIG_H_
 #define CHROMECAST_PUBLIC_MEDIA_DECODER_CONFIG_H_

 #include <stdint.h>
 #include <vector>

 #include "stream_id.h"

 namespace chromecast {
 namespace media {

 // Maximum audio bytes per sample.
 static const int kMaxBytesPerSample = 4;

 // Maximum audio sampling rate.
 static const int kMaxSampleRate = 192000;

 enum AudioCodec : int {
   kAudioCodecUnknown = 0,
   kCodecAAC,
   kCodecMP3,
   kCodecPCM,
   kCodecPCM_S16BE,
   kCodecVorbis,
   kCodecOpus,
   kCodecEAC3,
   kCodecAC3,
   kCodecDTS,
   kCodecFLAC,

   kAudioCodecMin = kAudioCodecUnknown,
   kAudioCodecMax = kCodecFLAC,
 };

 enum SampleFormat : int {
   kUnknownSampleFormat = 0,
   kSampleFormatU8,         // Unsigned 8-bit w/ bias of 128.
   kSampleFormatS16,        // Signed 16-bit.
   kSampleFormatS32,        // Signed 32-bit.
   kSampleFormatF32,        // Float 32-bit.
   kSampleFormatPlanarS16,  // Signed 16-bit planar.
   kSampleFormatPlanarF32,  // Float 32-bit planar.
   kSampleFormatPlanarS32,  // Signed 32-bit planar.
   kSampleFormatS24,        // Signed 24-bit.

   kSampleFormatMin = kUnknownSampleFormat,
   kSampleFormatMax = kSampleFormatS24,
 };

 enum VideoCodec : int {
   kVideoCodecUnknown = 0,
   kCodecH264,
   kCodecVC1,
   kCodecMPEG2,
   kCodecMPEG4,
   kCodecTheora,
   kCodecVP8,
   kCodecVP9,
   kCodecHEVC,
   kCodecDolbyVisionH264,
   kCodecDolbyVisionHEVC,

   kVideoCodecMin = kVideoCodecUnknown,
   kVideoCodecMax = kCodecDolbyVisionHEVC,
 };

 // Profile for Video codec.
 enum VideoProfile : int {
   kVideoProfileUnknown = 0,
   kH264Baseline,
   kH264Main,
   kH264Extended,
   kH264High,
   kH264High10,
   kH264High422,
   kH264High444Predictive,
   kH264ScalableBaseline,
   kH264ScalableHigh,
   kH264Stereohigh,
   kH264MultiviewHigh,
   kVP8ProfileAny,
   kVP9Profile0,
   kVP9Profile1,
   kVP9Profile2,
   kVP9Profile3,
   kDolbyVisionCompatible_EL_MD,
   kDolbyVisionCompatible_BL_EL_MD,
   kDolbyVisionNonCompatible_BL_MD,
   kDolbyVisionNonCompatible_BL_EL_MD,
   kHEVCMain,
   kHEVCMain10,
   kHEVCMainStillPicture,

   kVideoProfileMin = kVideoProfileUnknown,
   kVideoProfileMax = kHEVCMainStillPicture,
 };

 // Specification of whether and how the stream is encrypted (in whole or part).
 struct EncryptionScheme {
   // Algorithm and mode that was used to encrypt the stream.
   enum CipherMode {
     CIPHER_MODE_UNENCRYPTED,
     CIPHER_MODE_AES_CTR,
     CIPHER_MODE_AES_CBC
   };

   // CENC 3rd Edition adds pattern encryption, through two new protection
   // schemes: 'cens' (with AES-CTR) and 'cbcs' (with AES-CBC).
   // The pattern applies independently to each 'encrypted' part of the frame (as
   // defined by the relevant subsample entries), and reduces further the
   // actual encryption applied through a repeating pattern of (encrypt:skip)
   // 16 byte blocks. For example, in a (1:9) pattern, the first block is
   // encrypted, and the next nine are skipped. This pattern is applied
   // repeatedly until the end of the last 16-byte block in the subsample.
   // Any remaining bytes are left clear.
   // If either of encrypt_blocks or skip_blocks is 0, pattern encryption is
   // disabled.
   struct Pattern {
     Pattern() {}
     Pattern(uint32_t encrypt_blocks, uint32_t skip_blocks);
     ~Pattern() {}
     bool IsInEffect() const;

     uint32_t encrypt_blocks = 0;
     uint32_t skip_blocks = 0;
   };

   EncryptionScheme() {}
   EncryptionScheme(CipherMode mode, const Pattern& pattern);
   ~EncryptionScheme() {}
   bool is_encrypted() const { return mode != CIPHER_MODE_UNENCRYPTED; }

   CipherMode mode = CIPHER_MODE_UNENCRYPTED;
   Pattern pattern;
 };

 inline EncryptionScheme::Pattern::Pattern(uint32_t encrypt_blocks,
                                           uint32_t skip_blocks)
     : encrypt_blocks(encrypt_blocks), skip_blocks(skip_blocks) {
 }

 inline bool EncryptionScheme::Pattern::IsInEffect() const {
   return encrypt_blocks != 0 && skip_blocks != 0;
 }

 inline EncryptionScheme::EncryptionScheme(CipherMode mode,
                                           const Pattern& pattern)
     : mode(mode), pattern(pattern) {
 }

 inline EncryptionScheme Unencrypted() {
   return EncryptionScheme();
 }

 inline EncryptionScheme AesCtrEncryptionScheme() {
   return EncryptionScheme(EncryptionScheme::CIPHER_MODE_AES_CTR,
                           EncryptionScheme::Pattern());
 }

 // ---- Begin copy/paste from ui/gfx/color_space.h ----
 enum class PrimaryID : uint16_t {
   // The first 0-255 values should match the H264 specification.
   RESERVED0 = 0,
   BT709 = 1,
   UNSPECIFIED = 2,
   RESERVED = 3,
   BT470M = 4,
   BT470BG = 5,
   SMPTE170M = 6,
   SMPTE240M = 7,
   FILM = 8,
   BT2020 = 9,
   SMPTEST428_1 = 10,
   SMPTEST431_2 = 11,
   SMPTEST432_1 = 12,

   // Chrome-specific values start at 1000.
   XYZ_D50 = 1000,
   // TODO(hubbe): We need to store the primaries.
   CUSTOM = 1001,
   LAST = CUSTOM
 };

 enum class TransferID : uint16_t {
   // The first 0-255 values should match the H264 specification.
   RESERVED0 = 0,
   BT709 = 1,
   UNSPECIFIED = 2,
   RESERVED = 3,
   GAMMA22 = 4,
   GAMMA28 = 5,
   SMPTE170M = 6,
   SMPTE240M = 7,
   LINEAR = 8,
   LOG = 9,
   LOG_SQRT = 10,
   IEC61966_2_4 = 11,
   BT1361_ECG = 12,
   IEC61966_2_1 = 13,
   BT2020_10 = 14,
   BT2020_12 = 15,
   SMPTEST2084 = 16,
   SMPTEST428_1 = 17,
   ARIB_STD_B67 = 18,  // AKA hybrid-log gamma, HLG

   // Chrome-specific values start at 1000.
   GAMMA24 = 1000,

   // 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.
   SMPTEST2084_NON_HDR,

   // TODO(hubbe): Need to store an approximation of the gamma function(s).
   CUSTOM,
   LAST = CUSTOM,
 };

 enum class MatrixID : int16_t {
   // The first 0-255 values should match the H264 specification.
   RGB = 0,
   BT709 = 1,
   UNSPECIFIED = 2,
   RESERVED = 3,
   FCC = 4,
   BT470BG = 5,
   SMPTE170M = 6,
   SMPTE240M = 7,
   YCOCG = 8,
   BT2020_NCL = 9,
   BT2020_CL = 10,
   YDZDX = 11,

   // Chrome-specific values start at 1000
   LAST = YDZDX,
 };

 // 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.
 enum class RangeID : int8_t {
   // Range is not explicitly specified / unknown.
   UNSPECIFIED = 0,

   // Limited Rec. 709 color range with RGB values ranging from 16 to 235.
   LIMITED = 1,

   // Full RGB color range with RGB valees from 0 to 255.
   FULL = 2,

   // Range is defined by TransferID/MatrixID.
   DERIVED = 3,

   LAST = DERIVED
 };
 // ---- End copy/pasted from ui/gfx/color_space.h ----

 // ---- Begin copy/paste from media/base/hdr_metadata.h ----
 // SMPTE ST 2086 mastering metadata.
 struct MasteringMetadata {
   float primary_r_chromaticity_x = 0;
   float primary_r_chromaticity_y = 0;
   float primary_g_chromaticity_x = 0;
   float primary_g_chromaticity_y = 0;
   float primary_b_chromaticity_x = 0;
   float primary_b_chromaticity_y = 0;
   float white_point_chromaticity_x = 0;
   float white_point_chromaticity_y = 0;
   float luminance_max = 0;
   float luminance_min = 0;

   MasteringMetadata();
   MasteringMetadata(const MasteringMetadata& rhs);
 };

 // HDR metadata common for HDR10 and WebM/VP9-based HDR formats.
 struct HDRMetadata {
   MasteringMetadata mastering_metadata;
   unsigned max_cll = 0;
   unsigned max_fall = 0;

   HDRMetadata();
   HDRMetadata(const HDRMetadata& rhs);
 };

 inline MasteringMetadata::MasteringMetadata() {}
 inline MasteringMetadata::MasteringMetadata(const MasteringMetadata& rhs) =
     default;

 inline HDRMetadata::HDRMetadata() {}
 inline HDRMetadata::HDRMetadata(const HDRMetadata& rhs) = default;
 // ---- End copy/paste from media/base/hdr_metadata.h ----

 // TODO(erickung): Remove constructor once CMA backend implementation doesn't
 // create a new object to reset the configuration and use IsValidConfig() to
 // determine if the configuration is still valid or not.
 struct AudioConfig {
   AudioConfig();
   AudioConfig(const AudioConfig& other);
   ~AudioConfig();

   bool is_encrypted() const { return encryption_scheme.is_encrypted(); }

   // Stream id.
   StreamId id;
   // Audio codec.
   AudioCodec codec;
   // The format of each audio sample.
   SampleFormat sample_format;
   // Number of bytes in each channel.
   int bytes_per_channel;
   // Number of channels in this audio stream.
   int channel_number;
   // Number of audio samples per second.
   int samples_per_second;
   // Extra data buffer for certain codec initialization.
   std::vector<uint8_t> extra_data;
   // Encryption scheme (if any) used for the content.
   EncryptionScheme encryption_scheme;
 };

 inline AudioConfig::AudioConfig()
     : id(kPrimary),
       codec(kAudioCodecUnknown),
       sample_format(kUnknownSampleFormat),
       bytes_per_channel(0),
       channel_number(0),
       samples_per_second(0) {
 }
 inline AudioConfig::AudioConfig(const AudioConfig& other) = default;
 inline AudioConfig::~AudioConfig() {
 }

 // TODO(erickung): Remove constructor once CMA backend implementation does't
 // create a new object to reset the configuration and use IsValidConfig() to
 // determine if the configuration is still valid or not.
 struct VideoConfig {
   VideoConfig();
   VideoConfig(const VideoConfig& other);
   ~VideoConfig();

   bool is_encrypted() const { return encryption_scheme.is_encrypted(); }

   // Stream Id.
   StreamId id;
   // Video codec.
   VideoCodec codec;
   // Video codec profile.
   VideoProfile profile;
   // Additional video config for the video stream if available. Consumers of
   // this structure should make an explicit copy of |additional_config| if it
   // will be used after SetConfig() finishes.
   VideoConfig* additional_config;
   // Extra data buffer for certain codec initialization.
   std::vector<uint8_t> extra_data;
   // Encryption scheme (if any) used for the content.
   EncryptionScheme encryption_scheme;

   // ColorSpace info
   PrimaryID primaries = PrimaryID::UNSPECIFIED;
   TransferID transfer = TransferID::UNSPECIFIED;
   MatrixID matrix = MatrixID::UNSPECIFIED;
   RangeID range = RangeID::UNSPECIFIED;

   bool have_hdr_metadata = false;
   HDRMetadata hdr_metadata;
 };

 inline VideoConfig::VideoConfig()
     : id(kPrimary),
       codec(kVideoCodecUnknown),
       profile(kVideoProfileUnknown),
       additional_config(nullptr) {
 }

 inline VideoConfig::VideoConfig(const VideoConfig& other) = default;

 inline VideoConfig::~VideoConfig() {
 }

 // TODO(erickung): Remove following two inline IsValidConfig() functions. These
 // are to keep existing CMA backend implementation consistent until the clean up
 // is done. These SHOULD NOT be used in New CMA backend implementation.
 inline bool IsValidConfig(const AudioConfig& config) {
   return config.codec >= kAudioCodecMin &&
       config.codec <= kAudioCodecMax &&
       config.codec != kAudioCodecUnknown &&
       config.sample_format >= kSampleFormatMin &&
       config.sample_format <= kSampleFormatMax &&
       config.sample_format != kUnknownSampleFormat &&
       config.channel_number > 0 &&
       config.bytes_per_channel > 0 &&
       config.bytes_per_channel <= kMaxBytesPerSample &&
       config.samples_per_second > 0 &&
       config.samples_per_second <= kMaxSampleRate;
 }

 inline bool IsValidConfig(const VideoConfig& config) {
   return config.codec >= kVideoCodecMin &&
       config.codec <= kVideoCodecMax &&
       config.codec != kVideoCodecUnknown;
 }

 }  // namespace media
 }  // namespace chromecast

 #endif  // CHROMECAST_PUBLIC_MEDIA_DECODER_CONFIG_H_
	// Copyright 2015 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.

	#ifndef CHROMECAST_PUBLIC_MEDIA_DECODER_CONFIG_H_
	#define CHROMECAST_PUBLIC_MEDIA_DECODER_CONFIG_H_

	#include <stdint.h>
	#include <vector>

	#include "stream_id.h"

	namespace chromecast {
	namespace media {

	// Maximum audio bytes per sample.
	static const int kMaxBytesPerSample = 4;

	// Maximum audio sampling rate.
	static const int kMaxSampleRate = 192000;

	enum AudioCodec : int {
	kAudioCodecUnknown = 0,
	kCodecAAC,
	kCodecMP3,
	kCodecPCM,
	kCodecPCM_S16BE,
	kCodecVorbis,
	kCodecOpus,
	kCodecEAC3,
	kCodecAC3,
	kCodecDTS,
	kCodecFLAC,

	kAudioCodecMin = kAudioCodecUnknown,
	kAudioCodecMax = kCodecFLAC,
	};

	enum SampleFormat : int {
	kUnknownSampleFormat = 0,
	kSampleFormatU8, // Unsigned 8-bit w/ bias of 128.
	kSampleFormatS16, // Signed 16-bit.
	kSampleFormatS32, // Signed 32-bit.
	kSampleFormatF32, // Float 32-bit.
	kSampleFormatPlanarS16, // Signed 16-bit planar.
	kSampleFormatPlanarF32, // Float 32-bit planar.
	kSampleFormatPlanarS32, // Signed 32-bit planar.
	kSampleFormatS24, // Signed 24-bit.

	kSampleFormatMin = kUnknownSampleFormat,
	kSampleFormatMax = kSampleFormatS24,
	};

	enum VideoCodec : int {
	kVideoCodecUnknown = 0,
	kCodecH264,
	kCodecVC1,
	kCodecMPEG2,
	kCodecMPEG4,
	kCodecTheora,
	kCodecVP8,
	kCodecVP9,
	kCodecHEVC,
	kCodecDolbyVisionH264,
	kCodecDolbyVisionHEVC,

	kVideoCodecMin = kVideoCodecUnknown,
	kVideoCodecMax = kCodecDolbyVisionHEVC,
	};

	// Profile for Video codec.
	enum VideoProfile : int {
	kVideoProfileUnknown = 0,
	kH264Baseline,
	kH264Main,
	kH264Extended,
	kH264High,
	kH264High10,
	kH264High422,
	kH264High444Predictive,
	kH264ScalableBaseline,
	kH264ScalableHigh,
	kH264Stereohigh,
	kH264MultiviewHigh,
	kVP8ProfileAny,
	kVP9Profile0,
	kVP9Profile1,
	kVP9Profile2,
	kVP9Profile3,
	kDolbyVisionCompatible_EL_MD,
	kDolbyVisionCompatible_BL_EL_MD,
	kDolbyVisionNonCompatible_BL_MD,
	kDolbyVisionNonCompatible_BL_EL_MD,
	kHEVCMain,
	kHEVCMain10,
	kHEVCMainStillPicture,

	kVideoProfileMin = kVideoProfileUnknown,
	kVideoProfileMax = kHEVCMainStillPicture,
	};

	// Specification of whether and how the stream is encrypted (in whole or part).
	struct EncryptionScheme {
	// Algorithm and mode that was used to encrypt the stream.
	enum CipherMode {
	CIPHER_MODE_UNENCRYPTED,
	CIPHER_MODE_AES_CTR,
	CIPHER_MODE_AES_CBC
	};

	// CENC 3rd Edition adds pattern encryption, through two new protection
	// schemes: 'cens' (with AES-CTR) and 'cbcs' (with AES-CBC).
	// The pattern applies independently to each 'encrypted' part of the frame (as
	// defined by the relevant subsample entries), and reduces further the
	// actual encryption applied through a repeating pattern of (encrypt:skip)
	// 16 byte blocks. For example, in a (1:9) pattern, the first block is
	// encrypted, and the next nine are skipped. This pattern is applied
	// repeatedly until the end of the last 16-byte block in the subsample.
	// Any remaining bytes are left clear.
	// If either of encrypt_blocks or skip_blocks is 0, pattern encryption is
	// disabled.
	struct Pattern {
	Pattern() {}
	Pattern(uint32_t encrypt_blocks, uint32_t skip_blocks);
	~Pattern() {}
	bool IsInEffect() const;

	uint32_t encrypt_blocks = 0;
	uint32_t skip_blocks = 0;
	};

	EncryptionScheme() {}
	EncryptionScheme(CipherMode mode, const Pattern& pattern);
	~EncryptionScheme() {}
	bool is_encrypted() const { return mode != CIPHER_MODE_UNENCRYPTED; }

	CipherMode mode = CIPHER_MODE_UNENCRYPTED;
	Pattern pattern;
	};

	inline EncryptionScheme::Pattern::Pattern(uint32_t encrypt_blocks,
	uint32_t skip_blocks)
	: encrypt_blocks(encrypt_blocks), skip_blocks(skip_blocks) {
	}

	inline bool EncryptionScheme::Pattern::IsInEffect() const {
	return encrypt_blocks != 0 && skip_blocks != 0;
	}

	inline EncryptionScheme::EncryptionScheme(CipherMode mode,
	const Pattern& pattern)
	: mode(mode), pattern(pattern) {
	}

	inline EncryptionScheme Unencrypted() {
	return EncryptionScheme();
	}

	inline EncryptionScheme AesCtrEncryptionScheme() {
	return EncryptionScheme(EncryptionScheme::CIPHER_MODE_AES_CTR,
	EncryptionScheme::Pattern());
	}

	// ---- Begin copy/paste from ui/gfx/color_space.h ----
	enum class PrimaryID : uint16_t {
	// The first 0-255 values should match the H264 specification.
	RESERVED0 = 0,
	BT709 = 1,
	UNSPECIFIED = 2,
	RESERVED = 3,
	BT470M = 4,
	BT470BG = 5,
	SMPTE170M = 6,
	SMPTE240M = 7,
	FILM = 8,
	BT2020 = 9,
	SMPTEST428_1 = 10,
	SMPTEST431_2 = 11,
	SMPTEST432_1 = 12,

	// Chrome-specific values start at 1000.
	XYZ_D50 = 1000,
	// TODO(hubbe): We need to store the primaries.
	CUSTOM = 1001,
	LAST = CUSTOM
	};

	enum class TransferID : uint16_t {
	// The first 0-255 values should match the H264 specification.
	RESERVED0 = 0,
	BT709 = 1,
	UNSPECIFIED = 2,
	RESERVED = 3,
	GAMMA22 = 4,
	GAMMA28 = 5,
	SMPTE170M = 6,
	SMPTE240M = 7,
	LINEAR = 8,
	LOG = 9,
	LOG_SQRT = 10,
	IEC61966_2_4 = 11,
	BT1361_ECG = 12,
	IEC61966_2_1 = 13,
	BT2020_10 = 14,
	BT2020_12 = 15,
	SMPTEST2084 = 16,
	SMPTEST428_1 = 17,
	ARIB_STD_B67 = 18, // AKA hybrid-log gamma, HLG

	// Chrome-specific values start at 1000.
	GAMMA24 = 1000,

	// 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.
	SMPTEST2084_NON_HDR,

	// TODO(hubbe): Need to store an approximation of the gamma function(s).
	CUSTOM,
	LAST = CUSTOM,
	};

	enum class MatrixID : int16_t {
	// The first 0-255 values should match the H264 specification.
	RGB = 0,
	BT709 = 1,
	UNSPECIFIED = 2,
	RESERVED = 3,
	FCC = 4,
	BT470BG = 5,
	SMPTE170M = 6,
	SMPTE240M = 7,
	YCOCG = 8,
	BT2020_NCL = 9,
	BT2020_CL = 10,
	YDZDX = 11,

	// Chrome-specific values start at 1000
	LAST = YDZDX,
	};

	// 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.
	enum class RangeID : int8_t {
	// Range is not explicitly specified / unknown.
	UNSPECIFIED = 0,

	// Limited Rec. 709 color range with RGB values ranging from 16 to 235.
	LIMITED = 1,

	// Full RGB color range with RGB valees from 0 to 255.
	FULL = 2,

	// Range is defined by TransferID/MatrixID.
	DERIVED = 3,

	LAST = DERIVED
	};
	// ---- End copy/pasted from ui/gfx/color_space.h ----

	// ---- Begin copy/paste from media/base/hdr_metadata.h ----
	// SMPTE ST 2086 mastering metadata.
	struct MasteringMetadata {
	float primary_r_chromaticity_x = 0;
	float primary_r_chromaticity_y = 0;
	float primary_g_chromaticity_x = 0;
	float primary_g_chromaticity_y = 0;
	float primary_b_chromaticity_x = 0;
	float primary_b_chromaticity_y = 0;
	float white_point_chromaticity_x = 0;
	float white_point_chromaticity_y = 0;
	float luminance_max = 0;
	float luminance_min = 0;

	MasteringMetadata();
	MasteringMetadata(const MasteringMetadata& rhs);
	};

	// HDR metadata common for HDR10 and WebM/VP9-based HDR formats.
	struct HDRMetadata {
	MasteringMetadata mastering_metadata;
	unsigned max_cll = 0;
	unsigned max_fall = 0;

	HDRMetadata();
	HDRMetadata(const HDRMetadata& rhs);
	};

	inline MasteringMetadata::MasteringMetadata() {}
	inline MasteringMetadata::MasteringMetadata(const MasteringMetadata& rhs) =
	default;

	inline HDRMetadata::HDRMetadata() {}
	inline HDRMetadata::HDRMetadata(const HDRMetadata& rhs) = default;
	// ---- End copy/paste from media/base/hdr_metadata.h ----

	// TODO(erickung): Remove constructor once CMA backend implementation doesn't
	// create a new object to reset the configuration and use IsValidConfig() to
	// determine if the configuration is still valid or not.
	struct AudioConfig {
	AudioConfig();
	AudioConfig(const AudioConfig& other);
	~AudioConfig();

	bool is_encrypted() const { return encryption_scheme.is_encrypted(); }

	// Stream id.
	StreamId id;
	// Audio codec.
	AudioCodec codec;
	// The format of each audio sample.
	SampleFormat sample_format;
	// Number of bytes in each channel.
	int bytes_per_channel;
	// Number of channels in this audio stream.
	int channel_number;
	// Number of audio samples per second.
	int samples_per_second;
	// Extra data buffer for certain codec initialization.
	std::vector<uint8_t> extra_data;
	// Encryption scheme (if any) used for the content.
	EncryptionScheme encryption_scheme;
	};

	inline AudioConfig::AudioConfig()
	: id(kPrimary),
	codec(kAudioCodecUnknown),
	sample_format(kUnknownSampleFormat),
	bytes_per_channel(0),
	channel_number(0),
	samples_per_second(0) {
	}
	inline AudioConfig::AudioConfig(const AudioConfig& other) = default;
	inline AudioConfig::~AudioConfig() {
	}

	// TODO(erickung): Remove constructor once CMA backend implementation does't
	// create a new object to reset the configuration and use IsValidConfig() to
	// determine if the configuration is still valid or not.
	struct VideoConfig {
	VideoConfig();
	VideoConfig(const VideoConfig& other);
	~VideoConfig();

	bool is_encrypted() const { return encryption_scheme.is_encrypted(); }

	// Stream Id.
	StreamId id;
	// Video codec.
	VideoCodec codec;
	// Video codec profile.
	VideoProfile profile;
	// Additional video config for the video stream if available. Consumers of
	// this structure should make an explicit copy of \|additional_config\| if it
	// will be used after SetConfig() finishes.
	VideoConfig* additional_config;
	// Extra data buffer for certain codec initialization.
	std::vector<uint8_t> extra_data;
	// Encryption scheme (if any) used for the content.
	EncryptionScheme encryption_scheme;

	// ColorSpace info
	PrimaryID primaries = PrimaryID::UNSPECIFIED;
	TransferID transfer = TransferID::UNSPECIFIED;
	MatrixID matrix = MatrixID::UNSPECIFIED;
	RangeID range = RangeID::UNSPECIFIED;

	bool have_hdr_metadata = false;
	HDRMetadata hdr_metadata;
	};

	inline VideoConfig::VideoConfig()
	: id(kPrimary),
	codec(kVideoCodecUnknown),
	profile(kVideoProfileUnknown),
	additional_config(nullptr) {
	}

	inline VideoConfig::VideoConfig(const VideoConfig& other) = default;

	inline VideoConfig::~VideoConfig() {
	}

	// TODO(erickung): Remove following two inline IsValidConfig() functions. These
	// are to keep existing CMA backend implementation consistent until the clean up
	// is done. These SHOULD NOT be used in New CMA backend implementation.
	inline bool IsValidConfig(const AudioConfig& config) {
	return config.codec >= kAudioCodecMin &&
	config.codec <= kAudioCodecMax &&
	config.codec != kAudioCodecUnknown &&
	config.sample_format >= kSampleFormatMin &&
	config.sample_format <= kSampleFormatMax &&
	config.sample_format != kUnknownSampleFormat &&
	config.channel_number > 0 &&
	config.bytes_per_channel > 0 &&
	config.bytes_per_channel <= kMaxBytesPerSample &&
	config.samples_per_second > 0 &&
	config.samples_per_second <= kMaxSampleRate;
	}

	inline bool IsValidConfig(const VideoConfig& config) {
	return config.codec >= kVideoCodecMin &&
	config.codec <= kVideoCodecMax &&
	config.codec != kVideoCodecUnknown;
	}

	} // namespace media
	} // namespace chromecast

	#endif // CHROMECAST_PUBLIC_MEDIA_DECODER_CONFIG_H_