ppapi/api/private/pp_content_decryptor.idl - chromium/src - Git at Google

 /* Copyright (c) 2012 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.
  */

 /**
  * The <code>PP_DecryptTrackingInfo</code> struct contains necessary information
  * that can be used to associate the decrypted block with a decrypt request
  * and/or an input block.
  */
 [assert_size(16)]
 struct PP_DecryptTrackingInfo {
   /**
    * Client-specified identifier for the associated decrypt request. By using
    * this value, the client can associate the decrypted block with a decryption
    * request.
    */
   uint32_t request_id;

   /**
    * A unique buffer ID to identify a PPB_Buffer_Dev. Unlike a PP_Resource,
    * this ID is identical at both the renderer side and the plugin side.
    * In <code>PPB_ContentDecryptor_Private</code> calls, this is the ID of the
    * buffer associated with the decrypted block/frame/samples.
    * In <code>PPP_ContentDecryptor_Private</code> calls, this is the ID of a
    * buffer that is no longer need at the renderer side, which can be released
    * or recycled by the plugin. This ID can be 0 if there is no buffer to be
    * released or recycled.
    */
   uint32_t buffer_id;

   /**
    * Timestamp in microseconds of the associated block. By using this value,
    * the client can associate the decrypted (and decoded) data with an input
    * block. This is needed because buffers may be delivered out of order and
    * not in response to the <code>request_id</code> they were provided with.
    */
   int64_t timestamp;
 };

 /**
  * The <code>PP_DecryptSubsampleDescription</code> struct contains information
  * to support subsample decryption.
  *
  * An input block can be split into several continuous subsamples.
  * A <code>PP_DecryptSubsampleEntry</code> specifies the number of clear and
  * cipher bytes in each subsample. For example, the following block has three
  * subsamples:
  *
  * |<----- subsample1 ----->|<----- subsample2 ----->|<----- subsample3 ----->|
  * |   clear1   |  cipher1  |  clear2  |   cipher2   | clear3 |    cipher3    |
  *
  * For decryption, all of the cipher bytes in a block should be treated as a
  * contiguous (in the subsample order) logical stream. The clear bytes should
  * not be considered as part of decryption.
  *
  * Logical stream to decrypt:   |  cipher1  |   cipher2   |    cipher3    |
  * Decrypted stream:            | decrypted1|  decrypted2 |   decrypted3  |
  *
  * After decryption, the decrypted bytes should be copied over the position
  * of the corresponding cipher bytes in the original block to form the output
  * block. Following the above example, the decrypted block should be:
  *
  * |<----- subsample1 ----->|<----- subsample2 ----->|<----- subsample3 ----->|
  * |   clear1   | decrypted1|  clear2  |  decrypted2 | clear3 |   decrypted3  |
  */
 [assert_size(8)]
 struct PP_DecryptSubsampleDescription {
   /**
    * Size in bytes of clear data in a subsample entry.
    */
   uint32_t clear_bytes;

   /**
    * Size in bytes of encrypted data in a subsample entry.
    */
   uint32_t cipher_bytes;
 };

 /**
  * The <code>PP_EncryptedBlockInfo</code> struct contains all the information
  * needed to decrypt an encrypted block.
  */
 [assert_size(368)]
 struct PP_EncryptedBlockInfo {
   /**
    * Information needed by the client to track the block to be decrypted.
    */
   PP_DecryptTrackingInfo tracking_info;

   /**
    * Size in bytes of data to be decrypted (data_offset included).
    */
   uint32_t data_size;

   /**
    * Key ID of the block to be decrypted.
    *
    * For WebM the key ID can be as large as 2048 bytes in theory. But it's not
    * used in current implementations. If we really need to support it, we should
    * move key ID out as a separate parameter, e.g. as a <code>PP_Var</code>, or
    * make the whole <code>PP_EncryptedBlockInfo</code> as a
    * <code>PP_Resource</code>.
    */
   uint8_t[64] key_id;
   uint32_t key_id_size;

   /**
    * Initialization vector of the block to be decrypted.
    */
   uint8_t[16] iv;
   uint32_t iv_size;

   /**
    * Subsample information of the block to be decrypted.
    *
    * We need to have a fixed size of |subsamples| here. Choose 32 because it is
    * sufficient for almost all real life scenarios. Note that in theory the
    * number of subsamples could be larger than 32. If that happens, playback
    * will fail.
    */
   PP_DecryptSubsampleDescription[32] subsamples;
   uint32_t num_subsamples;
 };

 /**
  * <code>PP_DecryptedFrameFormat</code> contains video frame formats.
  */
 [assert_size(4)]
 enum PP_DecryptedFrameFormat {
   PP_DECRYPTEDFRAMEFORMAT_UNKNOWN = 0,
   PP_DECRYPTEDFRAMEFORMAT_YV12 = 1,
   PP_DECRYPTEDFRAMEFORMAT_I420 = 2
 };

 /**
  * <code>PP_DecryptedSampleFormat</code> contains audio sample formats.
  */
 [assert_size(4)]
 enum PP_DecryptedSampleFormat {
   PP_DECRYPTEDSAMPLEFORMAT_UNKNOWN = 0,
   PP_DECRYPTEDSAMPLEFORMAT_U8 = 1,
   PP_DECRYPTEDSAMPLEFORMAT_S16 = 2,
   PP_DECRYPTEDSAMPLEFORMAT_S32 = 3,
   PP_DECRYPTEDSAMPLEFORMAT_F32 = 4,
   PP_DECRYPTEDSAMPLEFORMAT_PLANAR_S16 = 5,
   PP_DECRYPTEDSAMPLEFORMAT_PLANAR_F32 = 6
 };

 /**
  * The <code>PP_DecryptResult</code> enum contains decryption and decoding
  * result constants.
  */
 [assert_size(4)]
 enum PP_DecryptResult {
   /** The decryption (and/or decoding) operation finished successfully. */
   PP_DECRYPTRESULT_SUCCESS = 0,
   /** The decryptor did not have the necessary decryption key. */
   PP_DECRYPTRESULT_DECRYPT_NOKEY = 1,
   /** The input was accepted by the decoder but no frame(s) can be produced. */
   PP_DECRYPTRESULT_NEEDMOREDATA = 2,
   /** An unexpected error happened during decryption. */
   PP_DECRYPTRESULT_DECRYPT_ERROR = 3,
   /** An unexpected error happened during decoding. */
   PP_DECRYPTRESULT_DECODE_ERROR = 4
 };

 /**
  * <code>PP_DecryptedBlockInfo</code> struct contains the decryption result and
  * tracking info associated with the decrypted block.
  */
 [assert_size(24)]
 struct PP_DecryptedBlockInfo {
   /**
    * Result of the decryption (and/or decoding) operation.
    */
   PP_DecryptResult result;

   /**
    * Size in bytes of decrypted data, which may be less than the size of the
    * corresponding buffer.
    */
   uint32_t data_size;

   /**
    * Information needed by the client to track the block to be decrypted.
    */
   PP_DecryptTrackingInfo tracking_info;
 };

 /**
  * <code>PP_DecryptedFramePlanes</code> provides YUV plane index values for
  * accessing plane offsets stored in <code>PP_DecryptedFrameInfo</code>.
  */
 [assert_size(4)]
 enum PP_DecryptedFramePlanes {
   PP_DECRYPTEDFRAMEPLANES_Y = 0,
   PP_DECRYPTEDFRAMEPLANES_U = 1,
   PP_DECRYPTEDFRAMEPLANES_V = 2
 };

 /**
  * <code>PP_DecryptedFrameInfo</code> contains the result of the
  * decrypt and decode operation on the associated frame, information required
  * to access the frame data in buffer, and tracking info.
  */
 [assert_size(56)]
 struct PP_DecryptedFrameInfo {
   /**
    * Result of the decrypt and decode operation.
    */
   PP_DecryptResult result;

   /**
    * Format of the decrypted frame.
    */
   PP_DecryptedFrameFormat format;

   /**
    * Offsets into the buffer resource for accessing video planes.
    */
   int32_t[3] plane_offsets;

   /**
    * Stride of each plane.
    */
   int32_t[3] strides;

   /**
    * Width of the video frame, in pixels.
    */
   int32_t width;

   /**
    * Height of the video frame, in pixels.
    */
   int32_t height;

   /**
    * Information needed by the client to track the decrypted frame.
    */
   PP_DecryptTrackingInfo tracking_info;
 };

 /**
  * <code>PP_DecryptedSampleInfo</code> contains the result of the
  * decrypt and decode operation on the associated samples, information required
  * to access the sample data in buffer, and tracking info.
  */
 [assert_size(32)]
 struct PP_DecryptedSampleInfo {
   /**
    * Result of the decrypt and decode operation.
    */
   PP_DecryptResult result;

   /**
    * Format of the decrypted samples.
    */
   PP_DecryptedSampleFormat format;

   /**
    * Size in bytes of decrypted samples.
    */
   uint32_t data_size;

   /**
    * 4-byte padding to make the size of <code>PP_DecryptedSampleInfo</code>
    * a multiple of 8 bytes. The value of this field should not be used.
    */
   uint32_t padding;

   /**
    * Information needed by the client to track the decrypted samples.
    */
   PP_DecryptTrackingInfo tracking_info;
 };

 /**
  * <code>PP_AudioCodec</code> contains audio codec type constants.
  */
 [assert_size(4)]
 enum PP_AudioCodec {
   PP_AUDIOCODEC_UNKNOWN = 0,
   PP_AUDIOCODEC_VORBIS = 1,
   PP_AUDIOCODEC_AAC = 2
 };

 /**
  * <code>PP_AudioDecoderConfig</code> contains audio decoder configuration
  * information required to initialize audio decoders, and a request ID
  * that allows clients to associate a decoder initialization request with a
  * status response. Note: When <code>codec</code> requires extra data for
  * initialization, the data is sent as a <code>PP_Resource</code> carried
  * alongside <code>PP_AudioDecoderConfig</code>.
  */
  [assert_size(20)]
 struct PP_AudioDecoderConfig {
   /**
    * The audio codec to initialize.
    */
   PP_AudioCodec codec;

   /**
    * Number of audio channels.
    */
   int32_t channel_count;

   /**
    * Size of each audio channel.
    */
   int32_t bits_per_channel;

   /**
    * Audio sampling rate.
    */
   int32_t samples_per_second;

   /**
    * Client-specified identifier for the associated audio decoder initialization
    * request. By using this value, the client can associate a decoder
    * initialization status response with an initialization request.
    */
   uint32_t request_id;
 };

 /**
  * <code>PP_VideoCodec</code> contains video codec type constants.
  */
 [assert_size(4)]
 enum PP_VideoCodec {
   PP_VIDEOCODEC_UNKNOWN = 0,
   PP_VIDEOCODEC_VP8 = 1,
   PP_VIDEOCODEC_H264 = 2,
   PP_VIDEOCODEC_VP9 = 3
 };

 /**
  * <code>PP_VideoCodecProfile</code> contains video codec profile type
  * constants required for video decoder configuration.
  *.
  */
 [assert_size(4)]
 enum PP_VideoCodecProfile {
   PP_VIDEOCODECPROFILE_UNKNOWN = 0,
   PP_VIDEOCODECPROFILE_NOT_NEEDED = 1,
   PP_VIDEOCODECPROFILE_H264_BASELINE = 2,
   PP_VIDEOCODECPROFILE_H264_MAIN = 3,
   PP_VIDEOCODECPROFILE_H264_EXTENDED = 4,
   PP_VIDEOCODECPROFILE_H264_HIGH = 5,
   PP_VIDEOCODECPROFILE_H264_HIGH_10 = 6,
   PP_VIDEOCODECPROFILE_H264_HIGH_422 = 7,
   PP_VIDEOCODECPROFILE_H264_HIGH_444_PREDICTIVE = 8
 };

 /**
  * <code>PP_VideoDecoderConfig</code> contains video decoder configuration
  * information required to initialize video decoders, and a request ID
  * that allows clients to associate a decoder initialization request with a
  * status response. Note: When <code>codec</code> requires extra data for
  * initialization, the data is sent as a <code>PP_Resource</code> carried
  * alongside <code>PP_VideoDecoderConfig</code>.
  */
 [assert_size(24)]
 struct PP_VideoDecoderConfig {
   /**
    * The video codec to initialize.
    */
   PP_VideoCodec codec;

   /**
    * Profile to use when initializing the video codec.
    */
   PP_VideoCodecProfile profile;

   /**
    * Output video format.
    */
   PP_DecryptedFrameFormat format;

   /**
    * Width of decoded video frames, in pixels.
    */
   int32_t width;

   /**
    * Height of decoded video frames, in pixels.
    */
   int32_t height;

   /**
    * Client-specified identifier for the associated video decoder initialization
    * request. By using this value, the client can associate a decoder
    * initialization status response with an initialization request.
    */
   uint32_t request_id;
 };

 /**
  * <code>PP_HdcpVersion</code> contains HDCP version constants.
  */
 [assert_size(4)]
 enum PP_HdcpVersion {
   PP_HDCPVERSION_NONE = 0,
   PP_HDCPVERSION_1_0 = 1,
   PP_HDCPVERSION_1_1 = 2,
   PP_HDCPVERSION_1_2 = 3,
   PP_HDCPVERSION_1_3 = 4,
   PP_HDCPVERSION_1_4 = 5,
   PP_HDCPVERSION_2_0 = 6,
   PP_HDCPVERSION_2_1 = 7,
   PP_HDCPVERSION_2_2 = 8,
   PP_HDCPVERSION_MAX = PP_HDCPVERSION_2_2
 };

 /**
  * <code>PP_DecryptorStreamType</code> contains stream type constants.
  */
 [assert_size(4)]
 enum PP_DecryptorStreamType {
   PP_DECRYPTORSTREAMTYPE_AUDIO = 0,
   PP_DECRYPTORSTREAMTYPE_VIDEO = 1,
   PP_DECRYPTORSTREAMTYPE_MAX = PP_DECRYPTORSTREAMTYPE_VIDEO
 };

 /**
  * <code>PP_SessionType</code> contains session type constants.
  */
 [assert_size(4)]
 enum PP_SessionType {
   PP_SESSIONTYPE_TEMPORARY = 0,
   PP_SESSIONTYPE_PERSISTENT_LICENSE = 1,
   PP_SESSIONTYPE_PERSISTENT_RELEASE = 2,
   PP_SESSIONTYPE_MAX = PP_SESSIONTYPE_PERSISTENT_RELEASE
 };

 /**
  * <code>PP_InitDataType</code> contains Initialization Data Type constants.
  */
 [assert_size(4)]
 enum PP_InitDataType {
   PP_INITDATATYPE_CENC = 0,
   PP_INITDATATYPE_KEYIDS = 1,
   PP_INITDATATYPE_WEBM = 2,
   PP_INITDATATYPE_MAX = PP_INITDATATYPE_WEBM
 };

 /**
  * <code>PP_CdmExceptionCode</code> contains exception code constants.
  */
 [assert_size(4)]
 enum PP_CdmExceptionCode {
   PP_CDMEXCEPTIONCODE_NOTSUPPORTEDERROR = 1,
   PP_CDMEXCEPTIONCODE_INVALIDSTATEERROR = 2,
   PP_CDMEXCEPTIONCODE_INVALIDACCESSERROR = 3,
   PP_CDMEXCEPTIONCODE_QUOTAEXCEEDEDERROR = 4,
   PP_CDMEXCEPTIONCODE_UNKNOWNERROR = 5,
   PP_CDMEXCEPTIONCODE_CLIENTERROR = 6,
   PP_CDMEXCEPTIONCODE_OUTPUTERROR = 7,
   PP_CDMEXCEPTIONCODE_MAX = PP_CDMEXCEPTIONCODE_OUTPUTERROR
 };

 /**
  * <code>PP_CdmMessageType</code> contains message type constants.
  */
 [assert_size(4)]
 enum PP_CdmMessageType {
   PP_CDMMESSAGETYPE_LICENSE_REQUEST = 0,
   PP_CDMMESSAGETYPE_LICENSE_RENEWAL = 1,
   PP_CDMMESSAGETYPE_LICENSE_RELEASE = 2,
   PP_CDMMESSAGETYPE_MAX = PP_CDMMESSAGETYPE_LICENSE_RELEASE
 };

 /**
  * <code>PP_CdmKeyStatus</code> contains key status constants.
  */
 [assert_size(4)]
 enum PP_CdmKeyStatus {
   PP_CDMKEYSTATUS_USABLE = 0,
   PP_CDMKEYSTATUS_INVALID = 1,
   PP_CDMKEYSTATUS_EXPIRED = 2,
   PP_CDMKEYSTATUS_OUTPUTRESTRICTED = 3,
   PP_CDMKEYSTATUS_OUTPUTDOWNSCALED = 4,
   PP_CDMKEYSTATUS_STATUSPENDING = 5,
   PP_CDMKEYSTATUS_RELEASED = 6,
   PP_CDMKEYSTATUS_MAX = PP_CDMKEYSTATUS_RELEASED
 };

 /**
  * The <code>PP_KeyInformation</code> struct contains information about a
  * key used for decryption.
  */
 [assert_size(524)]
 struct PP_KeyInformation {
   /**
    * Key ID.
    */
   uint8_t[512] key_id;
   uint32_t key_id_size;

   /**
    * Status of this key.
    */
   PP_CdmKeyStatus key_status;

   /**
    * Optional error code for keys that are not usable.
    */
   uint32_t system_code;
 };
	/* Copyright (c) 2012 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.
	*/

	/**
	* The <code>PP_DecryptTrackingInfo</code> struct contains necessary information
	* that can be used to associate the decrypted block with a decrypt request
	* and/or an input block.
	*/
	[assert_size(16)]
	struct PP_DecryptTrackingInfo {
	/**
	* Client-specified identifier for the associated decrypt request. By using
	* this value, the client can associate the decrypted block with a decryption
	* request.
	*/
	uint32_t request_id;

	/**
	* A unique buffer ID to identify a PPB_Buffer_Dev. Unlike a PP_Resource,
	* this ID is identical at both the renderer side and the plugin side.
	* In <code>PPB_ContentDecryptor_Private</code> calls, this is the ID of the
	* buffer associated with the decrypted block/frame/samples.
	* In <code>PPP_ContentDecryptor_Private</code> calls, this is the ID of a
	* buffer that is no longer need at the renderer side, which can be released
	* or recycled by the plugin. This ID can be 0 if there is no buffer to be
	* released or recycled.
	*/
	uint32_t buffer_id;

	/**
	* Timestamp in microseconds of the associated block. By using this value,
	* the client can associate the decrypted (and decoded) data with an input
	* block. This is needed because buffers may be delivered out of order and
	* not in response to the <code>request_id</code> they were provided with.
	*/
	int64_t timestamp;
	};

	/**
	* The <code>PP_DecryptSubsampleDescription</code> struct contains information
	* to support subsample decryption.
	*
	* An input block can be split into several continuous subsamples.
	* A <code>PP_DecryptSubsampleEntry</code> specifies the number of clear and
	* cipher bytes in each subsample. For example, the following block has three
	* subsamples:
	*
	* \|<----- subsample1 ----->\|<----- subsample2 ----->\|<----- subsample3 ----->\|
	* \| clear1 \| cipher1 \| clear2 \| cipher2 \| clear3 \| cipher3 \|
	*
	* For decryption, all of the cipher bytes in a block should be treated as a
	* contiguous (in the subsample order) logical stream. The clear bytes should
	* not be considered as part of decryption.
	*
	* Logical stream to decrypt: \| cipher1 \| cipher2 \| cipher3 \|
	* Decrypted stream: \| decrypted1\| decrypted2 \| decrypted3 \|
	*
	* After decryption, the decrypted bytes should be copied over the position
	* of the corresponding cipher bytes in the original block to form the output
	* block. Following the above example, the decrypted block should be:
	*
	* \|<----- subsample1 ----->\|<----- subsample2 ----->\|<----- subsample3 ----->\|
	* \| clear1 \| decrypted1\| clear2 \| decrypted2 \| clear3 \| decrypted3 \|
	*/
	[assert_size(8)]
	struct PP_DecryptSubsampleDescription {
	/**
	* Size in bytes of clear data in a subsample entry.
	*/
	uint32_t clear_bytes;

	/**
	* Size in bytes of encrypted data in a subsample entry.
	*/
	uint32_t cipher_bytes;
	};

	/**
	* The <code>PP_EncryptedBlockInfo</code> struct contains all the information
	* needed to decrypt an encrypted block.
	*/
	[assert_size(368)]
	struct PP_EncryptedBlockInfo {
	/**
	* Information needed by the client to track the block to be decrypted.
	*/
	PP_DecryptTrackingInfo tracking_info;

	/**
	* Size in bytes of data to be decrypted (data_offset included).
	*/
	uint32_t data_size;

	/**
	* Key ID of the block to be decrypted.
	*
	* For WebM the key ID can be as large as 2048 bytes in theory. But it's not
	* used in current implementations. If we really need to support it, we should
	* move key ID out as a separate parameter, e.g. as a <code>PP_Var</code>, or
	* make the whole <code>PP_EncryptedBlockInfo</code> as a
	* <code>PP_Resource</code>.
	*/
	uint8_t[64] key_id;
	uint32_t key_id_size;

	/**
	* Initialization vector of the block to be decrypted.
	*/
	uint8_t[16] iv;
	uint32_t iv_size;

	/**
	* Subsample information of the block to be decrypted.
	*
	* We need to have a fixed size of \|subsamples\| here. Choose 32 because it is
	* sufficient for almost all real life scenarios. Note that in theory the
	* number of subsamples could be larger than 32. If that happens, playback
	* will fail.
	*/
	PP_DecryptSubsampleDescription[32] subsamples;
	uint32_t num_subsamples;
	};

	/**
	* <code>PP_DecryptedFrameFormat</code> contains video frame formats.
	*/
	[assert_size(4)]
	enum PP_DecryptedFrameFormat {
	PP_DECRYPTEDFRAMEFORMAT_UNKNOWN = 0,
	PP_DECRYPTEDFRAMEFORMAT_YV12 = 1,
	PP_DECRYPTEDFRAMEFORMAT_I420 = 2
	};

	/**
	* <code>PP_DecryptedSampleFormat</code> contains audio sample formats.
	*/
	[assert_size(4)]
	enum PP_DecryptedSampleFormat {
	PP_DECRYPTEDSAMPLEFORMAT_UNKNOWN = 0,
	PP_DECRYPTEDSAMPLEFORMAT_U8 = 1,
	PP_DECRYPTEDSAMPLEFORMAT_S16 = 2,
	PP_DECRYPTEDSAMPLEFORMAT_S32 = 3,
	PP_DECRYPTEDSAMPLEFORMAT_F32 = 4,
	PP_DECRYPTEDSAMPLEFORMAT_PLANAR_S16 = 5,
	PP_DECRYPTEDSAMPLEFORMAT_PLANAR_F32 = 6
	};

	/**
	* The <code>PP_DecryptResult</code> enum contains decryption and decoding
	* result constants.
	*/
	[assert_size(4)]
	enum PP_DecryptResult {
	/** The decryption (and/or decoding) operation finished successfully. */
	PP_DECRYPTRESULT_SUCCESS = 0,
	/** The decryptor did not have the necessary decryption key. */
	PP_DECRYPTRESULT_DECRYPT_NOKEY = 1,
	/** The input was accepted by the decoder but no frame(s) can be produced. */
	PP_DECRYPTRESULT_NEEDMOREDATA = 2,
	/** An unexpected error happened during decryption. */
	PP_DECRYPTRESULT_DECRYPT_ERROR = 3,
	/** An unexpected error happened during decoding. */
	PP_DECRYPTRESULT_DECODE_ERROR = 4
	};

	/**
	* <code>PP_DecryptedBlockInfo</code> struct contains the decryption result and
	* tracking info associated with the decrypted block.
	*/
	[assert_size(24)]
	struct PP_DecryptedBlockInfo {
	/**
	* Result of the decryption (and/or decoding) operation.
	*/
	PP_DecryptResult result;

	/**
	* Size in bytes of decrypted data, which may be less than the size of the
	* corresponding buffer.
	*/
	uint32_t data_size;

	/**
	* Information needed by the client to track the block to be decrypted.
	*/
	PP_DecryptTrackingInfo tracking_info;
	};

	/**
	* <code>PP_DecryptedFramePlanes</code> provides YUV plane index values for
	* accessing plane offsets stored in <code>PP_DecryptedFrameInfo</code>.
	*/
	[assert_size(4)]
	enum PP_DecryptedFramePlanes {
	PP_DECRYPTEDFRAMEPLANES_Y = 0,
	PP_DECRYPTEDFRAMEPLANES_U = 1,
	PP_DECRYPTEDFRAMEPLANES_V = 2
	};

	/**
	* <code>PP_DecryptedFrameInfo</code> contains the result of the
	* decrypt and decode operation on the associated frame, information required
	* to access the frame data in buffer, and tracking info.
	*/
	[assert_size(56)]
	struct PP_DecryptedFrameInfo {
	/**
	* Result of the decrypt and decode operation.
	*/
	PP_DecryptResult result;

	/**
	* Format of the decrypted frame.
	*/
	PP_DecryptedFrameFormat format;

	/**
	* Offsets into the buffer resource for accessing video planes.
	*/
	int32_t[3] plane_offsets;

	/**
	* Stride of each plane.
	*/
	int32_t[3] strides;

	/**
	* Width of the video frame, in pixels.
	*/
	int32_t width;

	/**
	* Height of the video frame, in pixels.
	*/
	int32_t height;

	/**
	* Information needed by the client to track the decrypted frame.
	*/
	PP_DecryptTrackingInfo tracking_info;
	};

	/**
	* <code>PP_DecryptedSampleInfo</code> contains the result of the
	* decrypt and decode operation on the associated samples, information required
	* to access the sample data in buffer, and tracking info.
	*/
	[assert_size(32)]
	struct PP_DecryptedSampleInfo {
	/**
	* Result of the decrypt and decode operation.
	*/
	PP_DecryptResult result;

	/**
	* Format of the decrypted samples.
	*/
	PP_DecryptedSampleFormat format;

	/**
	* Size in bytes of decrypted samples.
	*/
	uint32_t data_size;

	/**
	* 4-byte padding to make the size of <code>PP_DecryptedSampleInfo</code>
	* a multiple of 8 bytes. The value of this field should not be used.
	*/
	uint32_t padding;

	/**
	* Information needed by the client to track the decrypted samples.
	*/
	PP_DecryptTrackingInfo tracking_info;
	};

	/**
	* <code>PP_AudioCodec</code> contains audio codec type constants.
	*/
	[assert_size(4)]
	enum PP_AudioCodec {
	PP_AUDIOCODEC_UNKNOWN = 0,
	PP_AUDIOCODEC_VORBIS = 1,
	PP_AUDIOCODEC_AAC = 2
	};

	/**
	* <code>PP_AudioDecoderConfig</code> contains audio decoder configuration
	* information required to initialize audio decoders, and a request ID
	* that allows clients to associate a decoder initialization request with a
	* status response. Note: When <code>codec</code> requires extra data for
	* initialization, the data is sent as a <code>PP_Resource</code> carried
	* alongside <code>PP_AudioDecoderConfig</code>.
	*/
	[assert_size(20)]
	struct PP_AudioDecoderConfig {
	/**
	* The audio codec to initialize.
	*/
	PP_AudioCodec codec;

	/**
	* Number of audio channels.
	*/
	int32_t channel_count;

	/**
	* Size of each audio channel.
	*/
	int32_t bits_per_channel;

	/**
	* Audio sampling rate.
	*/
	int32_t samples_per_second;

	/**
	* Client-specified identifier for the associated audio decoder initialization
	* request. By using this value, the client can associate a decoder
	* initialization status response with an initialization request.
	*/
	uint32_t request_id;
	};

	/**
	* <code>PP_VideoCodec</code> contains video codec type constants.
	*/
	[assert_size(4)]
	enum PP_VideoCodec {
	PP_VIDEOCODEC_UNKNOWN = 0,
	PP_VIDEOCODEC_VP8 = 1,
	PP_VIDEOCODEC_H264 = 2,
	PP_VIDEOCODEC_VP9 = 3
	};

	/**
	* <code>PP_VideoCodecProfile</code> contains video codec profile type
	* constants required for video decoder configuration.
	*.
	*/
	[assert_size(4)]
	enum PP_VideoCodecProfile {
	PP_VIDEOCODECPROFILE_UNKNOWN = 0,
	PP_VIDEOCODECPROFILE_NOT_NEEDED = 1,
	PP_VIDEOCODECPROFILE_H264_BASELINE = 2,
	PP_VIDEOCODECPROFILE_H264_MAIN = 3,
	PP_VIDEOCODECPROFILE_H264_EXTENDED = 4,
	PP_VIDEOCODECPROFILE_H264_HIGH = 5,
	PP_VIDEOCODECPROFILE_H264_HIGH_10 = 6,
	PP_VIDEOCODECPROFILE_H264_HIGH_422 = 7,
	PP_VIDEOCODECPROFILE_H264_HIGH_444_PREDICTIVE = 8
	};

	/**
	* <code>PP_VideoDecoderConfig</code> contains video decoder configuration
	* information required to initialize video decoders, and a request ID
	* that allows clients to associate a decoder initialization request with a
	* status response. Note: When <code>codec</code> requires extra data for
	* initialization, the data is sent as a <code>PP_Resource</code> carried
	* alongside <code>PP_VideoDecoderConfig</code>.
	*/
	[assert_size(24)]
	struct PP_VideoDecoderConfig {
	/**
	* The video codec to initialize.
	*/
	PP_VideoCodec codec;

	/**
	* Profile to use when initializing the video codec.
	*/
	PP_VideoCodecProfile profile;

	/**
	* Output video format.
	*/
	PP_DecryptedFrameFormat format;

	/**
	* Width of decoded video frames, in pixels.
	*/
	int32_t width;

	/**
	* Height of decoded video frames, in pixels.
	*/
	int32_t height;

	/**
	* Client-specified identifier for the associated video decoder initialization
	* request. By using this value, the client can associate a decoder
	* initialization status response with an initialization request.
	*/
	uint32_t request_id;
	};

	/**
	* <code>PP_HdcpVersion</code> contains HDCP version constants.
	*/
	[assert_size(4)]
	enum PP_HdcpVersion {
	PP_HDCPVERSION_NONE = 0,
	PP_HDCPVERSION_1_0 = 1,
	PP_HDCPVERSION_1_1 = 2,
	PP_HDCPVERSION_1_2 = 3,
	PP_HDCPVERSION_1_3 = 4,
	PP_HDCPVERSION_1_4 = 5,
	PP_HDCPVERSION_2_0 = 6,
	PP_HDCPVERSION_2_1 = 7,
	PP_HDCPVERSION_2_2 = 8,
	PP_HDCPVERSION_MAX = PP_HDCPVERSION_2_2
	};

	/**
	* <code>PP_DecryptorStreamType</code> contains stream type constants.
	*/
	[assert_size(4)]
	enum PP_DecryptorStreamType {
	PP_DECRYPTORSTREAMTYPE_AUDIO = 0,
	PP_DECRYPTORSTREAMTYPE_VIDEO = 1,
	PP_DECRYPTORSTREAMTYPE_MAX = PP_DECRYPTORSTREAMTYPE_VIDEO
	};

	/**
	* <code>PP_SessionType</code> contains session type constants.
	*/
	[assert_size(4)]
	enum PP_SessionType {
	PP_SESSIONTYPE_TEMPORARY = 0,
	PP_SESSIONTYPE_PERSISTENT_LICENSE = 1,
	PP_SESSIONTYPE_PERSISTENT_RELEASE = 2,
	PP_SESSIONTYPE_MAX = PP_SESSIONTYPE_PERSISTENT_RELEASE
	};

	/**
	* <code>PP_InitDataType</code> contains Initialization Data Type constants.
	*/
	[assert_size(4)]
	enum PP_InitDataType {
	PP_INITDATATYPE_CENC = 0,
	PP_INITDATATYPE_KEYIDS = 1,
	PP_INITDATATYPE_WEBM = 2,
	PP_INITDATATYPE_MAX = PP_INITDATATYPE_WEBM
	};

	/**
	* <code>PP_CdmExceptionCode</code> contains exception code constants.
	*/
	[assert_size(4)]
	enum PP_CdmExceptionCode {
	PP_CDMEXCEPTIONCODE_NOTSUPPORTEDERROR = 1,
	PP_CDMEXCEPTIONCODE_INVALIDSTATEERROR = 2,
	PP_CDMEXCEPTIONCODE_INVALIDACCESSERROR = 3,
	PP_CDMEXCEPTIONCODE_QUOTAEXCEEDEDERROR = 4,
	PP_CDMEXCEPTIONCODE_UNKNOWNERROR = 5,
	PP_CDMEXCEPTIONCODE_CLIENTERROR = 6,
	PP_CDMEXCEPTIONCODE_OUTPUTERROR = 7,
	PP_CDMEXCEPTIONCODE_MAX = PP_CDMEXCEPTIONCODE_OUTPUTERROR
	};

	/**
	* <code>PP_CdmMessageType</code> contains message type constants.
	*/
	[assert_size(4)]
	enum PP_CdmMessageType {
	PP_CDMMESSAGETYPE_LICENSE_REQUEST = 0,
	PP_CDMMESSAGETYPE_LICENSE_RENEWAL = 1,
	PP_CDMMESSAGETYPE_LICENSE_RELEASE = 2,
	PP_CDMMESSAGETYPE_MAX = PP_CDMMESSAGETYPE_LICENSE_RELEASE
	};

	/**
	* <code>PP_CdmKeyStatus</code> contains key status constants.
	*/
	[assert_size(4)]
	enum PP_CdmKeyStatus {
	PP_CDMKEYSTATUS_USABLE = 0,
	PP_CDMKEYSTATUS_INVALID = 1,
	PP_CDMKEYSTATUS_EXPIRED = 2,
	PP_CDMKEYSTATUS_OUTPUTRESTRICTED = 3,
	PP_CDMKEYSTATUS_OUTPUTDOWNSCALED = 4,
	PP_CDMKEYSTATUS_STATUSPENDING = 5,
	PP_CDMKEYSTATUS_RELEASED = 6,
	PP_CDMKEYSTATUS_MAX = PP_CDMKEYSTATUS_RELEASED
	};

	/**
	* The <code>PP_KeyInformation</code> struct contains information about a
	* key used for decryption.
	*/
	[assert_size(524)]
	struct PP_KeyInformation {
	/**
	* Key ID.
	*/
	uint8_t[512] key_id;
	uint32_t key_id_size;

	/**
	* Status of this key.
	*/
	PP_CdmKeyStatus key_status;

	/**
	* Optional error code for keys that are not usable.
	*/
	uint32_t system_code;
	};