// 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. #ifndef CDM_CONTENT_DECRYPTION_MODULE_H_ #define CDM_CONTENT_DECRYPTION_MODULE_H_ #include #include "content_decryption_module_export.h" #include "content_decryption_module_proxy.h" #if defined(_MSC_VER) typedef unsigned char uint8_t; typedef unsigned int uint32_t; typedef int int32_t; typedef __int64 int64_t; #else # include #endif // The version number must be rolled when the exported functions are updated! // If the CDM and the adapter use different versions of these functions, the // adapter will fail to load or crash! #define CDM_MODULE_VERSION 4 // Build the versioned entrypoint name. // The extra macros are necessary to expand version to an actual value. #define INITIALIZE_CDM_MODULE \ BUILD_ENTRYPOINT(InitializeCdmModule, CDM_MODULE_VERSION) #define BUILD_ENTRYPOINT(name, version) \ BUILD_ENTRYPOINT_NO_EXPANSION(name, version) #define BUILD_ENTRYPOINT_NO_EXPANSION(name, version) name##_##version // Macro to check that |type| does the following: // 1. is a standard layout. // 2. is trivial. // 3. sizeof(type) matches the expected size in bytes. As some types contain // pointers, the size is specified for both 32 and 64 bit. #define CHECK_TYPE(type, size_32, size_64) \ static_assert(std::is_standard_layout(), \ #type " not standard_layout"); \ static_assert(std::is_trivial(), #type " not trivial"); \ static_assert((sizeof(void*) == 4 && sizeof(type) == size_32) || \ (sizeof(void*) == 8 && sizeof(type) == size_64), \ #type " size mismatch") extern "C" { CDM_API void INITIALIZE_CDM_MODULE(); CDM_API void DeinitializeCdmModule(); // Returns a pointer to the requested CDM Host interface upon success. // Returns NULL if the requested CDM Host interface is not supported. // The caller should cast the returned pointer to the type matching // |host_interface_version|. typedef void* (*GetCdmHostFunc)(int host_interface_version, void* user_data); // Returns a pointer to the requested CDM upon success. // Returns NULL if an error occurs or the requested |cdm_interface_version| or // |key_system| is not supported or another error occurs. // The caller should cast the returned pointer to the type matching // |cdm_interface_version|. // Caller retains ownership of arguments and must call Destroy() on the returned // object. CDM_API void* CreateCdmInstance(int cdm_interface_version, const char* key_system, uint32_t key_system_size, GetCdmHostFunc get_cdm_host_func, void* user_data); CDM_API const char* GetCdmVersion(); } // extern "C" namespace cdm { enum Status : uint32_t { kSuccess = 0, kNeedMoreData, // Decoder needs more data to produce a decoded frame/sample. kNoKey, // The required decryption key is not available. kInitializationError, // Initialization error. kDecryptError, // Decryption failed. kDecodeError, // Error decoding audio or video. kDeferredInitialization // Decoder is not ready for initialization. }; CHECK_TYPE(Status, 4, 4); // Exceptions used by the CDM to reject promises. // https://w3c.github.io/encrypted-media/#exceptions enum Exception : uint32_t { kExceptionTypeError, kExceptionNotSupportedError, kExceptionInvalidStateError, kExceptionQuotaExceededError }; CHECK_TYPE(Exception, 4, 4); // The encryption scheme. The definitions are from ISO/IEC 23001-7:2016. enum class EncryptionScheme : uint32_t { kUnencrypted = 0, kCenc, // 'cenc' subsample encryption using AES-CTR mode. kCbcs // 'cbcs' pattern encryption using AES-CBC mode. }; CHECK_TYPE(EncryptionScheme, 4, 4); // The pattern used for pattern encryption. Note that ISO/IEC 23001-7:2016 // defines each block to be 16-bytes. struct Pattern { uint32_t crypt_byte_block; // Count of the encrypted blocks. uint32_t skip_byte_block; // Count of the unencrypted blocks. }; CHECK_TYPE(Pattern, 8, 8); enum class ColorRange : uint8_t { kInvalid, kLimited, // 709 color range with RGB values ranging from 16 to 235. kFull, // Full RGB color range with RGB values from 0 to 255. kDerived // Range is defined by |transfer_id| and |matrix_id|. }; CHECK_TYPE(ColorRange, 1, 1); // Described in ISO 23001-8:2016, section 7. All the IDs are in the range // [0, 255] so 8-bit integer is sufficient. An unspecified ColorSpace should be // {2, 2, 2, ColorRange::kInvalid}, where value 2 means "Unspecified" for all // the IDs, as defined by the spec. struct ColorSpace { uint8_t primary_id; // 7.1 colour primaries, table 2 uint8_t transfer_id; // 7.2 transfer characteristics, table 3 uint8_t matrix_id; // 7.3 matrix coefficients, table 4 ColorRange range; }; CHECK_TYPE(ColorSpace, 4, 4); // Time is defined as the number of seconds since the Epoch // (00:00:00 UTC, January 1, 1970), not including any added leap second. // Also see Time definition in spec: https://w3c.github.io/encrypted-media/#time // Note that Time is defined in millisecond accuracy in the spec but in second // accuracy here. typedef double Time; // An input buffer can be split into several continuous subsamples. // A SubsampleEntry specifies the number of clear and cipher bytes in each // subsample. For example, the following buffer has three subsamples: // // |<----- subsample1 ----->|<----- subsample2 ----->|<----- subsample3 ----->| // | clear1 | cipher1 | clear2 | cipher2 | clear3 | cipher3 | // // For decryption, all of the cipher bytes in a buffer should be concatenated // (in the subsample order) into a single logical stream. The clear bytes should // not be considered as part of decryption. // // 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 buffer to form the output // buffer. Following the above example, the decrypted buffer should be: // // |<----- subsample1 ----->|<----- subsample2 ----->|<----- subsample3 ----->| // | clear1 | decrypted1| clear2 | decrypted2 | clear3 | decrypted3 | // struct SubsampleEntry { uint32_t clear_bytes; uint32_t cipher_bytes; }; CHECK_TYPE(SubsampleEntry, 8, 8); // Represents an input buffer to be decrypted (and possibly decoded). It does // not own any pointers in this struct. If |encryption_scheme| = kUnencrypted, // the data is unencrypted. // Note that this struct is organized so that sizeof(InputBuffer_2) // equals the sum of sizeof() all members in both 32-bit and 64-bit compiles. // Padding has been added to keep the fields aligned. struct InputBuffer_2 { const uint8_t* data; // Pointer to the beginning of the input data. uint32_t data_size; // Size (in bytes) of |data|. EncryptionScheme encryption_scheme; const uint8_t* key_id; // Key ID to identify the decryption key. uint32_t key_id_size; // Size (in bytes) of |key_id|. uint32_t : 32; // Padding. const uint8_t* iv; // Initialization vector. uint32_t iv_size; // Size (in bytes) of |iv|. uint32_t : 32; // Padding. const struct SubsampleEntry* subsamples; uint32_t num_subsamples; // Number of subsamples in |subsamples|. uint32_t : 32; // Padding. // |pattern| is required if |encryption_scheme| specifies pattern encryption. Pattern pattern; int64_t timestamp; // Presentation timestamp in microseconds. }; CHECK_TYPE(InputBuffer_2, 64, 80); enum AudioCodec : uint32_t { kUnknownAudioCodec = 0, kCodecVorbis, kCodecAac }; CHECK_TYPE(AudioCodec, 4, 4); struct AudioDecoderConfig_2 { AudioCodec codec; int32_t channel_count; int32_t bits_per_channel; int32_t samples_per_second; // Optional byte data required to initialize audio decoders, such as the // vorbis setup header. uint8_t* extra_data; uint32_t extra_data_size; // Encryption scheme. EncryptionScheme encryption_scheme; }; CHECK_TYPE(AudioDecoderConfig_2, 28, 32); // Supported sample formats for AudioFrames. enum AudioFormat : uint32_t { kUnknownAudioFormat = 0, // Unknown format value. Used for error reporting. kAudioFormatU8, // Interleaved unsigned 8-bit w/ bias of 128. kAudioFormatS16, // Interleaved signed 16-bit. kAudioFormatS32, // Interleaved signed 32-bit. kAudioFormatF32, // Interleaved float 32-bit. kAudioFormatPlanarS16, // Signed 16-bit planar. kAudioFormatPlanarF32, // Float 32-bit planar. }; CHECK_TYPE(AudioFormat, 4, 4); // Surface formats based on FOURCC labels, see: http://www.fourcc.org/yuv.php // Values are chosen to be consistent with Chromium's VideoPixelFormat values. enum VideoFormat : uint32_t { kUnknownVideoFormat = 0, // Unknown format value. Used for error reporting. kYv12 = 1, // 12bpp YVU planar 1x1 Y, 2x2 VU samples. kI420 = 2, // 12bpp YUV planar 1x1 Y, 2x2 UV samples. // In the following formats, each sample uses 16-bit in storage, while the // sample value is stored in the least significant N bits where N is // specified by the number after "P". For example, for YUV420P9, each Y, U, // and V sample is stored in the least significant 9 bits in a 2-byte block. kYUV420P9 = 16, kYUV420P10 = 17, kYUV422P9 = 18, kYUV422P10 = 19, kYUV444P9 = 20, kYUV444P10 = 21, kYUV420P12 = 22, kYUV422P12 = 23, kYUV444P12 = 24, }; CHECK_TYPE(VideoFormat, 4, 4); struct Size { int32_t width; int32_t height; }; CHECK_TYPE(Size, 8, 8); enum VideoCodec : uint32_t { kUnknownVideoCodec = 0, kCodecVp8, kCodecH264, kCodecVp9, kCodecAv1 }; CHECK_TYPE(VideoCodec, 4, 4); enum VideoCodecProfile : uint32_t { kUnknownVideoCodecProfile = 0, kProfileNotNeeded, kH264ProfileBaseline, kH264ProfileMain, kH264ProfileExtended, kH264ProfileHigh, kH264ProfileHigh10, kH264ProfileHigh422, kH264ProfileHigh444Predictive, kVP9Profile0, kVP9Profile1, kVP9Profile2, kVP9Profile3, kAv1ProfileMain, kAv1ProfileHigh, kAv1ProfilePro }; CHECK_TYPE(VideoCodecProfile, 4, 4); // Deprecated: New CDM implementations should use VideoDecoderConfig_3. // Note that this struct is organized so that sizeof(VideoDecoderConfig_2) // equals the sum of sizeof() all members in both 32-bit and 64-bit compiles. // Padding has been added to keep the fields aligned. struct VideoDecoderConfig_2 { VideoCodec codec; VideoCodecProfile profile; VideoFormat format; uint32_t : 32; // Padding. // Width and height of video frame immediately post-decode. Not all pixels // in this region are valid. Size coded_size; // Optional byte data required to initialize video decoders, such as H.264 // AAVC data. uint8_t* extra_data; uint32_t extra_data_size; // Encryption scheme. EncryptionScheme encryption_scheme; }; CHECK_TYPE(VideoDecoderConfig_2, 36, 40); struct VideoDecoderConfig_3 { VideoCodec codec; VideoCodecProfile profile; VideoFormat format; ColorSpace color_space; // Width and height of video frame immediately post-decode. Not all pixels // in this region are valid. Size coded_size; // Optional byte data required to initialize video decoders, such as H.264 // AAVC data. uint8_t* extra_data; uint32_t extra_data_size; EncryptionScheme encryption_scheme; }; CHECK_TYPE(VideoDecoderConfig_3, 36, 40); enum StreamType : uint32_t { kStreamTypeAudio = 0, kStreamTypeVideo = 1 }; CHECK_TYPE(StreamType, 4, 4); // Structure provided to ContentDecryptionModule::OnPlatformChallengeResponse() // after a platform challenge was initiated via Host::SendPlatformChallenge(). // All values will be NULL / zero in the event of a challenge failure. struct PlatformChallengeResponse { // |challenge| provided during Host::SendPlatformChallenge() combined with // nonce data and signed with the platform's private key. const uint8_t* signed_data; uint32_t signed_data_length; // RSASSA-PKCS1-v1_5-SHA256 signature of the |signed_data| block. const uint8_t* signed_data_signature; uint32_t signed_data_signature_length; // X.509 device specific certificate for the |service_id| requested. const uint8_t* platform_key_certificate; uint32_t platform_key_certificate_length; }; CHECK_TYPE(PlatformChallengeResponse, 24, 48); // The current status of the associated key. The valid types are defined in the // spec: https://w3c.github.io/encrypted-media/#dom-mediakeystatus enum KeyStatus : uint32_t { kUsable = 0, kInternalError = 1, kExpired = 2, kOutputRestricted = 3, kOutputDownscaled = 4, kStatusPending = 5, kReleased = 6 }; CHECK_TYPE(KeyStatus, 4, 4); // Used when passing arrays of key information. Does not own the referenced // data. |system_code| is an additional error code for unusable keys and // should be 0 when |status| == kUsable. struct KeyInformation { const uint8_t* key_id; uint32_t key_id_size; KeyStatus status; uint32_t system_code; }; CHECK_TYPE(KeyInformation, 16, 24); // Supported output protection methods for use with EnableOutputProtection() and // returned by OnQueryOutputProtectionStatus(). enum OutputProtectionMethods : uint32_t { kProtectionNone = 0, kProtectionHDCP = 1 << 0 }; CHECK_TYPE(OutputProtectionMethods, 4, 4); // Connected output link types returned by OnQueryOutputProtectionStatus(). enum OutputLinkTypes : uint32_t { kLinkTypeNone = 0, kLinkTypeUnknown = 1 << 0, kLinkTypeInternal = 1 << 1, kLinkTypeVGA = 1 << 2, kLinkTypeHDMI = 1 << 3, kLinkTypeDVI = 1 << 4, kLinkTypeDisplayPort = 1 << 5, kLinkTypeNetwork = 1 << 6 }; CHECK_TYPE(OutputLinkTypes, 4, 4); // Result of the QueryOutputProtectionStatus() call. enum QueryResult : uint32_t { kQuerySucceeded = 0, kQueryFailed }; CHECK_TYPE(QueryResult, 4, 4); // The Initialization Data Type. The valid types are defined in the spec: // https://w3c.github.io/encrypted-media/format-registry/initdata/index.html#registry enum InitDataType : uint32_t { kCenc = 0, kKeyIds = 1, kWebM = 2 }; CHECK_TYPE(InitDataType, 4, 4); // The type of session to create. The valid types are defined in the spec: // https://w3c.github.io/encrypted-media/#dom-mediakeysessiontype enum SessionType : uint32_t { kTemporary = 0, kPersistentLicense = 1, kPersistentUsageRecord = 2 }; CHECK_TYPE(SessionType, 4, 4); // The type of the message event. The valid types are defined in the spec: // https://w3c.github.io/encrypted-media/#dom-mediakeymessagetype enum MessageType : uint32_t { kLicenseRequest = 0, kLicenseRenewal = 1, kLicenseRelease = 2, kIndividualizationRequest = 3 }; CHECK_TYPE(MessageType, 4, 4); enum HdcpVersion : uint32_t { kHdcpVersionNone, kHdcpVersion1_0, kHdcpVersion1_1, kHdcpVersion1_2, kHdcpVersion1_3, kHdcpVersion1_4, kHdcpVersion2_0, kHdcpVersion2_1, kHdcpVersion2_2, kHdcpVersion2_3 }; CHECK_TYPE(HdcpVersion, 4, 4); struct Policy { HdcpVersion min_hdcp_version; }; CHECK_TYPE(Policy, 4, 4); // Represents a buffer created by Allocator implementations. class CDM_CLASS_API Buffer { public: // Destroys the buffer in the same context as it was created. virtual void Destroy() = 0; virtual uint32_t Capacity() const = 0; virtual uint8_t* Data() = 0; virtual void SetSize(uint32_t size) = 0; virtual uint32_t Size() const = 0; protected: Buffer() {} virtual ~Buffer() {} private: Buffer(const Buffer&); void operator=(const Buffer&); }; // Represents a decrypted block that has not been decoded. class CDM_CLASS_API DecryptedBlock { public: virtual void SetDecryptedBuffer(Buffer* buffer) = 0; virtual Buffer* DecryptedBuffer() = 0; // TODO(tomfinegan): Figure out if timestamp is really needed. If it is not, // we can just pass Buffer pointers around. virtual void SetTimestamp(int64_t timestamp) = 0; virtual int64_t Timestamp() const = 0; protected: DecryptedBlock() {} virtual ~DecryptedBlock() {} }; enum VideoPlane : uint32_t { kYPlane = 0, kUPlane = 1, kVPlane = 2, kMaxPlanes = 3, }; CHECK_TYPE(VideoPlane, 4, 4); class CDM_CLASS_API VideoFrame { public: virtual void SetFormat(VideoFormat format) = 0; virtual VideoFormat Format() const = 0; virtual void SetSize(cdm::Size size) = 0; virtual cdm::Size Size() const = 0; virtual void SetFrameBuffer(Buffer* frame_buffer) = 0; virtual Buffer* FrameBuffer() = 0; virtual void SetPlaneOffset(VideoPlane plane, uint32_t offset) = 0; virtual uint32_t PlaneOffset(VideoPlane plane) = 0; virtual void SetStride(VideoPlane plane, uint32_t stride) = 0; virtual uint32_t Stride(VideoPlane plane) = 0; // Sets and gets the presentation timestamp which is in microseconds. virtual void SetTimestamp(int64_t timestamp) = 0; virtual int64_t Timestamp() const = 0; protected: VideoFrame() {} virtual ~VideoFrame() {} }; // Represents a decoded video frame. The CDM should call the interface methods // to set the frame attributes. See DecryptAndDecodeFrame(). class CDM_CLASS_API VideoFrame_2 { public: virtual void SetFormat(VideoFormat format) = 0; virtual void SetSize(cdm::Size size) = 0; virtual void SetFrameBuffer(Buffer* frame_buffer) = 0; virtual void SetPlaneOffset(VideoPlane plane, uint32_t offset) = 0; virtual void SetStride(VideoPlane plane, uint32_t stride) = 0; // Sets the presentation timestamp which is in microseconds. virtual void SetTimestamp(int64_t timestamp) = 0; virtual void SetColorSpace(ColorSpace color_space) = 0; protected: VideoFrame_2() {} virtual ~VideoFrame_2() {} }; // Represents decrypted and decoded audio frames. AudioFrames can contain // multiple audio output buffers, which are serialized into this format: // // |<------------------- serialized audio buffer ------------------->| // | int64_t timestamp | int64_t length | length bytes of audio data | // // For example, with three audio output buffers, the AudioFrames will look // like this: // // |<----------------- AudioFrames ------------------>| // | audio buffer 0 | audio buffer 1 | audio buffer 2 | class CDM_CLASS_API AudioFrames { public: virtual void SetFrameBuffer(Buffer* buffer) = 0; virtual Buffer* FrameBuffer() = 0; // The CDM must call this method, providing a valid format, when providing // frame buffers. Planar data should be stored end to end; e.g., // |ch1 sample1||ch1 sample2|....|ch1 sample_last||ch2 sample1|... virtual void SetFormat(AudioFormat format) = 0; virtual AudioFormat Format() const = 0; protected: AudioFrames() {} virtual ~AudioFrames() {} }; // FileIO interface provides a way for the CDM to store data in a file in // persistent storage. This interface aims only at providing basic read/write // capabilities and should not be used as a full fledged file IO API. // Each CDM and origin (e.g. HTTPS, "foo.example.com", 443) combination has // its own persistent storage. All instances of a given CDM associated with a // given origin share the same persistent storage. // Note to implementors of this interface: // Per-origin storage and the ability for users to clear it are important. // See http://www.w3.org/TR/encrypted-media/#privacy-storedinfo. class CDM_CLASS_API FileIO { public: // Opens the file with |file_name| for read and write. // FileIOClient::OnOpenComplete() will be called after the opening // operation finishes. // - When the file is opened by a CDM instance, it will be classified as "in // use". In this case other CDM instances in the same domain may receive // kInUse status when trying to open it. // - |file_name| must only contain letters (A-Za-z), digits(0-9), or "._-". // It must not start with an underscore ('_'), and must be at least 1 // character and no more than 256 characters long. virtual void Open(const char* file_name, uint32_t file_name_size) = 0; // Reads the contents of the file. FileIOClient::OnReadComplete() will be // called with the read status. Read() should not be called if a previous // Read() or Write() call is still pending; otherwise OnReadComplete() will // be called with kInUse. virtual void Read() = 0; // Writes |data_size| bytes of |data| into the file. // FileIOClient::OnWriteComplete() will be called with the write status. // All existing contents in the file will be overwritten. Calling Write() with // NULL |data| will clear all contents in the file. Write() should not be // called if a previous Write() or Read() call is still pending; otherwise // OnWriteComplete() will be called with kInUse. virtual void Write(const uint8_t* data, uint32_t data_size) = 0; // Closes the file if opened, destroys this FileIO object and releases any // resources allocated. The CDM must call this method when it finished using // this object. A FileIO object must not be used after Close() is called. virtual void Close() = 0; protected: FileIO() {} virtual ~FileIO() {} }; // Responses to FileIO calls. All responses will be called asynchronously. // When kError is returned, the FileIO object could be in an error state. All // following calls (other than Close()) could return kError. The CDM should // still call Close() to destroy the FileIO object. class CDM_CLASS_API FileIOClient { public: enum class Status : uint32_t { kSuccess = 0, kInUse, kError }; // Response to a FileIO::Open() call with the open |status|. virtual void OnOpenComplete(Status status) = 0; // Response to a FileIO::Read() call to provide |data_size| bytes of |data| // read from the file. // - kSuccess indicates that all contents of the file has been successfully // read. In this case, 0 |data_size| means that the file is empty. // - kInUse indicates that there are other read/write operations pending. // - kError indicates read failure, e.g. the storage is not open or cannot be // fully read. virtual void OnReadComplete(Status status, const uint8_t* data, uint32_t data_size) = 0; // Response to a FileIO::Write() call. // - kSuccess indicates that all the data has been written into the file // successfully. // - kInUse indicates that there are other read/write operations pending. // - kError indicates write failure, e.g. the storage is not open or cannot be // fully written. Upon write failure, the contents of the file should be // regarded as corrupt and should not used. virtual void OnWriteComplete(Status status) = 0; protected: FileIOClient() {} virtual ~FileIOClient() {} }; class CDM_CLASS_API Host_10; class CDM_CLASS_API Host_11; // ContentDecryptionModule interface that all CDMs need to implement. // The interface is versioned for backward compatibility. // Note: ContentDecryptionModule implementations must use the allocator // provided in CreateCdmInstance() to allocate any Buffer that needs to // be passed back to the caller. Implementations must call Buffer::Destroy() // when a Buffer is created that will never be returned to the caller. class CDM_CLASS_API ContentDecryptionModule_10 { public: static const int kVersion = 10; static const bool kIsStable = true; typedef Host_10 Host; // Initializes the CDM instance, providing information about permitted // functionalities. The CDM must respond by calling Host::OnInitialized() // with whether the initialization succeeded. No other calls will be made by // the host before Host::OnInitialized() returns. // If |allow_distinctive_identifier| is false, messages from the CDM, // such as message events, must not contain a Distinctive Identifier, // even in an encrypted form. // If |allow_persistent_state| is false, the CDM must not attempt to // persist state. Calls to CreateFileIO() will fail. // If |use_hw_secure_codecs| is true, the CDM must ensure the decryption key // and video buffers (compressed and uncompressed) are securely protected by // hardware. virtual void Initialize(bool allow_distinctive_identifier, bool allow_persistent_state, bool use_hw_secure_codecs) = 0; // Gets the key status if the CDM has a hypothetical key with the |policy|. // The CDM must respond by calling either Host::OnResolveKeyStatusPromise() // with the result key status or Host::OnRejectPromise() if an unexpected // error happened or this method is not supported. virtual void GetStatusForPolicy(uint32_t promise_id, const Policy& policy) = 0; // SetServerCertificate(), CreateSessionAndGenerateRequest(), LoadSession(), // UpdateSession(), CloseSession(), and RemoveSession() all accept a // |promise_id|, which must be passed to the completion Host method // (e.g. Host::OnResolveNewSessionPromise()). // Provides a server certificate to be used to encrypt messages to the // license server. The CDM must respond by calling either // Host::OnResolvePromise() or Host::OnRejectPromise(). // If the CDM does not support server certificates, the promise should be // rejected with kExceptionNotSupportedError. If |server_certificate_data| // is empty, reject with kExceptionTypeError. Any other error should be // rejected with kExceptionInvalidStateError or kExceptionQuotaExceededError. // TODO(crbug.com/796417): Add support for the promise to return true or // false, rather than using kExceptionNotSupportedError to mean false. virtual void SetServerCertificate(uint32_t promise_id, const uint8_t* server_certificate_data, uint32_t server_certificate_data_size) = 0; // Creates a session given |session_type|, |init_data_type|, and |init_data|. // The CDM must respond by calling either Host::OnResolveNewSessionPromise() // or Host::OnRejectPromise(). virtual void CreateSessionAndGenerateRequest(uint32_t promise_id, SessionType session_type, InitDataType init_data_type, const uint8_t* init_data, uint32_t init_data_size) = 0; // Loads the session of type |session_type| specified by |session_id|. // The CDM must respond by calling either Host::OnResolveNewSessionPromise() // or Host::OnRejectPromise(). If the session is not found, call // Host::OnResolveNewSessionPromise() with session_id = NULL. virtual void LoadSession(uint32_t promise_id, SessionType session_type, const char* session_id, uint32_t session_id_size) = 0; // Updates the session with |response|. The CDM must respond by calling // either Host::OnResolvePromise() or Host::OnRejectPromise(). virtual void UpdateSession(uint32_t promise_id, const char* session_id, uint32_t session_id_size, const uint8_t* response, uint32_t response_size) = 0; // Requests that the CDM close the session. The CDM must respond by calling // either Host::OnResolvePromise() or Host::OnRejectPromise() when the request // has been processed. This may be before the session is closed. Once the // session is closed, Host::OnSessionClosed() must also be called. virtual void CloseSession(uint32_t promise_id, const char* session_id, uint32_t session_id_size) = 0; // Removes any stored session data associated with this session. Will only be // called for persistent sessions. The CDM must respond by calling either // Host::OnResolvePromise() or Host::OnRejectPromise() when the request has // been processed. virtual void RemoveSession(uint32_t promise_id, const char* session_id, uint32_t session_id_size) = 0; // Performs scheduled operation with |context| when the timer fires. virtual void TimerExpired(void* context) = 0; // Decrypts the |encrypted_buffer|. // // Returns kSuccess if decryption succeeded, in which case the callee // should have filled the |decrypted_buffer| and passed the ownership of // |data| in |decrypted_buffer| to the caller. // Returns kNoKey if the CDM did not have the necessary decryption key // to decrypt. // Returns kDecryptError if any other error happened. // If the return value is not kSuccess, |decrypted_buffer| should be ignored // by the caller. virtual Status Decrypt(const InputBuffer_2& encrypted_buffer, DecryptedBlock* decrypted_buffer) = 0; // Initializes the CDM audio decoder with |audio_decoder_config|. This // function must be called before DecryptAndDecodeSamples() is called. // // Returns kSuccess if the |audio_decoder_config| is supported and the CDM // audio decoder is successfully initialized. // Returns kInitializationError if |audio_decoder_config| is not supported. // The CDM may still be able to do Decrypt(). // Returns kDeferredInitialization if the CDM is not ready to initialize the // decoder at this time. Must call Host::OnDeferredInitializationDone() once // initialization is complete. virtual Status InitializeAudioDecoder( const AudioDecoderConfig_2& audio_decoder_config) = 0; // Initializes the CDM video decoder with |video_decoder_config|. This // function must be called before DecryptAndDecodeFrame() is called. // // Returns kSuccess if the |video_decoder_config| is supported and the CDM // video decoder is successfully initialized. // Returns kInitializationError if |video_decoder_config| is not supported. // The CDM may still be able to do Decrypt(). // Returns kDeferredInitialization if the CDM is not ready to initialize the // decoder at this time. Must call Host::OnDeferredInitializationDone() once // initialization is complete. virtual Status InitializeVideoDecoder( const VideoDecoderConfig_2& video_decoder_config) = 0; // De-initializes the CDM decoder and sets it to an uninitialized state. The // caller can initialize the decoder again after this call to re-initialize // it. This can be used to reconfigure the decoder if the configuration // changes. virtual void DeinitializeDecoder(StreamType decoder_type) = 0; // Resets the CDM decoder to an initialized clean state. All internal buffers // MUST be flushed. virtual void ResetDecoder(StreamType decoder_type) = 0; // Decrypts the |encrypted_buffer| and decodes the decrypted buffer into a // |video_frame|. Upon end-of-stream, the caller should call this function // repeatedly with empty |encrypted_buffer| (|data| == NULL) until // kNeedMoreData is returned. // // Returns kSuccess if decryption and decoding both succeeded, in which case // the callee will have filled the |video_frame| and passed the ownership of // |frame_buffer| in |video_frame| to the caller. // Returns kNoKey if the CDM did not have the necessary decryption key // to decrypt. // Returns kNeedMoreData if more data was needed by the decoder to generate // a decoded frame (e.g. during initialization and end-of-stream). // Returns kDecryptError if any decryption error happened. // Returns kDecodeError if any decoding error happened. // If the return value is not kSuccess, |video_frame| should be ignored by // the caller. virtual Status DecryptAndDecodeFrame(const InputBuffer_2& encrypted_buffer, VideoFrame* video_frame) = 0; // Decrypts the |encrypted_buffer| and decodes the decrypted buffer into // |audio_frames|. Upon end-of-stream, the caller should call this function // repeatedly with empty |encrypted_buffer| (|data| == NULL) until only empty // |audio_frames| is produced. // // Returns kSuccess if decryption and decoding both succeeded, in which case // the callee will have filled |audio_frames| and passed the ownership of // |data| in |audio_frames| to the caller. // Returns kNoKey if the CDM did not have the necessary decryption key // to decrypt. // Returns kNeedMoreData if more data was needed by the decoder to generate // audio samples (e.g. during initialization and end-of-stream). // Returns kDecryptError if any decryption error happened. // Returns kDecodeError if any decoding error happened. // If the return value is not kSuccess, |audio_frames| should be ignored by // the caller. virtual Status DecryptAndDecodeSamples(const InputBuffer_2& encrypted_buffer, AudioFrames* audio_frames) = 0; // Called by the host after a platform challenge was initiated via // Host::SendPlatformChallenge(). virtual void OnPlatformChallengeResponse( const PlatformChallengeResponse& response) = 0; // Called by the host after a call to Host::QueryOutputProtectionStatus(). The // |link_mask| is a bit mask of OutputLinkTypes and |output_protection_mask| // is a bit mask of OutputProtectionMethods. If |result| is kQueryFailed, // then |link_mask| and |output_protection_mask| are undefined and should // be ignored. virtual void OnQueryOutputProtectionStatus( QueryResult result, uint32_t link_mask, uint32_t output_protection_mask) = 0; // Called by the host after a call to Host::RequestStorageId(). If the // version of the storage ID requested is available, |storage_id| and // |storage_id_size| are set appropriately. |version| will be the same as // what was requested, unless 0 (latest) was requested, in which case // |version| will be the actual version number for the |storage_id| returned. // If the requested version is not available, null/zero will be provided as // |storage_id| and |storage_id_size|, respectively, and |version| should be // ignored. virtual void OnStorageId(uint32_t version, const uint8_t* storage_id, uint32_t storage_id_size) = 0; // Destroys the object in the same context as it was created. virtual void Destroy() = 0; protected: ContentDecryptionModule_10() {} virtual ~ContentDecryptionModule_10() {} }; // ----- Note: CDM interface(s) below still in development and not stable! ----- // ContentDecryptionModule interface that all CDMs need to implement. // The interface is versioned for backward compatibility. // Note: ContentDecryptionModule implementations must use the allocator // provided in CreateCdmInstance() to allocate any Buffer that needs to // be passed back to the caller. Implementations must call Buffer::Destroy() // when a Buffer is created that will never be returned to the caller. class CDM_CLASS_API ContentDecryptionModule_11 { public: static const int kVersion = 11; static const bool kIsStable = false; typedef Host_11 Host; // Initializes the CDM instance, providing information about permitted // functionalities. The CDM must respond by calling Host::OnInitialized() // with whether the initialization succeeded. No other calls will be made by // the host before Host::OnInitialized() returns. // If |allow_distinctive_identifier| is false, messages from the CDM, // such as message events, must not contain a Distinctive Identifier, // even in an encrypted form. // If |allow_persistent_state| is false, the CDM must not attempt to // persist state. Calls to CreateFileIO() will fail. // If |use_hw_secure_codecs| is true, the CDM must ensure the decryption key // and video buffers (compressed and uncompressed) are securely protected by // hardware. virtual void Initialize(bool allow_distinctive_identifier, bool allow_persistent_state, bool use_hw_secure_codecs) = 0; // Gets the key status if the CDM has a hypothetical key with the |policy|. // The CDM must respond by calling either Host::OnResolveKeyStatusPromise() // with the result key status or Host::OnRejectPromise() if an unexpected // error happened or this method is not supported. virtual void GetStatusForPolicy(uint32_t promise_id, const Policy& policy) = 0; // SetServerCertificate(), CreateSessionAndGenerateRequest(), LoadSession(), // UpdateSession(), CloseSession(), and RemoveSession() all accept a // |promise_id|, which must be passed to the completion Host method // (e.g. Host::OnResolveNewSessionPromise()). // Provides a server certificate to be used to encrypt messages to the // license server. The CDM must respond by calling either // Host::OnResolvePromise() or Host::OnRejectPromise(). // If the CDM does not support server certificates, the promise should be // rejected with kExceptionNotSupportedError. If |server_certificate_data| // is empty, reject with kExceptionTypeError. Any other error should be // rejected with kExceptionInvalidStateError or kExceptionQuotaExceededError. // TODO(crbug.com/796417): Add support for the promise to return true or // false, rather than using kExceptionNotSupportedError to mean false. virtual void SetServerCertificate(uint32_t promise_id, const uint8_t* server_certificate_data, uint32_t server_certificate_data_size) = 0; // Creates a session given |session_type|, |init_data_type|, and |init_data|. // The CDM must respond by calling either Host::OnResolveNewSessionPromise() // or Host::OnRejectPromise(). virtual void CreateSessionAndGenerateRequest(uint32_t promise_id, SessionType session_type, InitDataType init_data_type, const uint8_t* init_data, uint32_t init_data_size) = 0; // Loads the session of type |session_type| specified by |session_id|. // The CDM must respond by calling either Host::OnResolveNewSessionPromise() // or Host::OnRejectPromise(). If the session is not found, call // Host::OnResolveNewSessionPromise() with session_id = NULL. virtual void LoadSession(uint32_t promise_id, SessionType session_type, const char* session_id, uint32_t session_id_size) = 0; // Updates the session with |response|. The CDM must respond by calling // either Host::OnResolvePromise() or Host::OnRejectPromise(). virtual void UpdateSession(uint32_t promise_id, const char* session_id, uint32_t session_id_size, const uint8_t* response, uint32_t response_size) = 0; // Requests that the CDM close the session. The CDM must respond by calling // either Host::OnResolvePromise() or Host::OnRejectPromise() when the request // has been processed. This may be before the session is closed. Once the // session is closed, Host::OnSessionClosed() must also be called. virtual void CloseSession(uint32_t promise_id, const char* session_id, uint32_t session_id_size) = 0; // Removes any stored session data associated with this session. Removes all // license(s) and key(s) associated with the session, whether they are in // memory, persistent store, or both. For persistent session types, other // session data (e.g. record of license destruction) will be cleared as // defined for each session type once a release message acknowledgment is // processed by UpdateSession(). The CDM must respond by calling either // Host::OnResolvePromise() or Host::OnRejectPromise() when the request has // been processed. virtual void RemoveSession(uint32_t promise_id, const char* session_id, uint32_t session_id_size) = 0; // Performs scheduled operation with |context| when the timer fires. virtual void TimerExpired(void* context) = 0; // Decrypts the |encrypted_buffer|. // // Returns kSuccess if decryption succeeded, in which case the callee // should have filled the |decrypted_buffer| and passed the ownership of // |data| in |decrypted_buffer| to the caller. // Returns kNoKey if the CDM did not have the necessary decryption key // to decrypt. // Returns kDecryptError if any other error happened. // If the return value is not kSuccess, |decrypted_buffer| should be ignored // by the caller. virtual Status Decrypt(const InputBuffer_2& encrypted_buffer, DecryptedBlock* decrypted_buffer) = 0; // Initializes the CDM audio decoder with |audio_decoder_config|. This // function must be called before DecryptAndDecodeSamples() is called. // // Returns kSuccess if the |audio_decoder_config| is supported and the CDM // audio decoder is successfully initialized. // Returns kInitializationError if |audio_decoder_config| is not supported. // The CDM may still be able to do Decrypt(). // Returns kDeferredInitialization if the CDM is not ready to initialize the // decoder at this time. Must call Host::OnDeferredInitializationDone() once // initialization is complete. virtual Status InitializeAudioDecoder( const AudioDecoderConfig_2& audio_decoder_config) = 0; // Initializes the CDM video decoder with |video_decoder_config|. This // function must be called before DecryptAndDecodeFrame() is called. // // Returns kSuccess if the |video_decoder_config| is supported and the CDM // video decoder is successfully initialized. // Returns kInitializationError if |video_decoder_config| is not supported. // The CDM may still be able to do Decrypt(). // Returns kDeferredInitialization if the CDM is not ready to initialize the // decoder at this time. Must call Host::OnDeferredInitializationDone() once // initialization is complete. virtual Status InitializeVideoDecoder( const VideoDecoderConfig_3& video_decoder_config) = 0; // De-initializes the CDM decoder and sets it to an uninitialized state. The // caller can initialize the decoder again after this call to re-initialize // it. This can be used to reconfigure the decoder if the configuration // changes. virtual void DeinitializeDecoder(StreamType decoder_type) = 0; // Resets the CDM decoder to an initialized clean state. All internal buffers // MUST be flushed. virtual void ResetDecoder(StreamType decoder_type) = 0; // Decrypts the |encrypted_buffer| and decodes the decrypted buffer into a // |video_frame|. Upon end-of-stream, the caller should call this function // repeatedly with empty |encrypted_buffer| (|data| == NULL) until // kNeedMoreData is returned. // // Returns kSuccess if decryption and decoding both succeeded, in which case // the callee will have filled the |video_frame| and passed the ownership of // |frame_buffer| in |video_frame| to the caller. // Returns kNoKey if the CDM did not have the necessary decryption key // to decrypt. // Returns kNeedMoreData if more data was needed by the decoder to generate // a decoded frame (e.g. during initialization and end-of-stream). // Returns kDecryptError if any decryption error happened. // Returns kDecodeError if any decoding error happened. // If the return value is not kSuccess, |video_frame| should be ignored by // the caller. virtual Status DecryptAndDecodeFrame(const InputBuffer_2& encrypted_buffer, VideoFrame_2* video_frame) = 0; // Decrypts the |encrypted_buffer| and decodes the decrypted buffer into // |audio_frames|. Upon end-of-stream, the caller should call this function // repeatedly with empty |encrypted_buffer| (|data| == NULL) until only empty // |audio_frames| is produced. // // Returns kSuccess if decryption and decoding both succeeded, in which case // the callee will have filled |audio_frames| and passed the ownership of // |data| in |audio_frames| to the caller. // Returns kNoKey if the CDM did not have the necessary decryption key // to decrypt. // Returns kNeedMoreData if more data was needed by the decoder to generate // audio samples (e.g. during initialization and end-of-stream). // Returns kDecryptError if any decryption error happened. // Returns kDecodeError if any decoding error happened. // If the return value is not kSuccess, |audio_frames| should be ignored by // the caller. virtual Status DecryptAndDecodeSamples(const InputBuffer_2& encrypted_buffer, AudioFrames* audio_frames) = 0; // Called by the host after a platform challenge was initiated via // Host::SendPlatformChallenge(). virtual void OnPlatformChallengeResponse( const PlatformChallengeResponse& response) = 0; // Called by the host after a call to Host::QueryOutputProtectionStatus(). The // |link_mask| is a bit mask of OutputLinkTypes and |output_protection_mask| // is a bit mask of OutputProtectionMethods. If |result| is kQueryFailed, // then |link_mask| and |output_protection_mask| are undefined and should // be ignored. virtual void OnQueryOutputProtectionStatus( QueryResult result, uint32_t link_mask, uint32_t output_protection_mask) = 0; // Called by the host after a call to Host::RequestStorageId(). If the // version of the storage ID requested is available, |storage_id| and // |storage_id_size| are set appropriately. |version| will be the same as // what was requested, unless 0 (latest) was requested, in which case // |version| will be the actual version number for the |storage_id| returned. // If the requested version is not available, null/zero will be provided as // |storage_id| and |storage_id_size|, respectively, and |version| should be // ignored. virtual void OnStorageId(uint32_t version, const uint8_t* storage_id, uint32_t storage_id_size) = 0; // Destroys the object in the same context as it was created. virtual void Destroy() = 0; protected: ContentDecryptionModule_11() {} virtual ~ContentDecryptionModule_11() {} }; class CDM_CLASS_API Host_10 { public: static const int kVersion = 10; // Returns a Buffer* containing non-zero members upon success, or NULL on // failure. The caller owns the Buffer* after this call. The buffer is not // guaranteed to be zero initialized. The capacity of the allocated Buffer // is guaranteed to be not less than |capacity|. virtual Buffer* Allocate(uint32_t capacity) = 0; // Requests the host to call ContentDecryptionModule::TimerFired() |delay_ms| // from now with |context|. virtual void SetTimer(int64_t delay_ms, void* context) = 0; // Returns the current wall time. virtual Time GetCurrentWallTime() = 0; // Called by the CDM with the result after the CDM instance was initialized. virtual void OnInitialized(bool success) = 0; // Called by the CDM when a key status is available in response to // GetStatusForPolicy(). virtual void OnResolveKeyStatusPromise(uint32_t promise_id, KeyStatus key_status) = 0; // Called by the CDM when a session is created or loaded and the value for the // MediaKeySession's sessionId attribute is available (|session_id|). // This must be called before OnSessionMessage() or // OnSessionKeysChange() is called for the same session. |session_id_size| // should not include null termination. // When called in response to LoadSession(), the |session_id| must be the // same as the |session_id| passed in LoadSession(), or NULL if the // session could not be loaded. virtual void OnResolveNewSessionPromise(uint32_t promise_id, const char* session_id, uint32_t session_id_size) = 0; // Called by the CDM when a session is updated or released. virtual void OnResolvePromise(uint32_t promise_id) = 0; // Called by the CDM when an error occurs as a result of one of the // ContentDecryptionModule calls that accept a |promise_id|. // |exception| must be specified. |error_message| and |system_code| // are optional. |error_message_size| should not include null termination. virtual void OnRejectPromise(uint32_t promise_id, Exception exception, uint32_t system_code, const char* error_message, uint32_t error_message_size) = 0; // Called by the CDM when it has a message for session |session_id|. // Size parameters should not include null termination. virtual void OnSessionMessage(const char* session_id, uint32_t session_id_size, MessageType message_type, const char* message, uint32_t message_size) = 0; // Called by the CDM when there has been a change in keys or their status for // session |session_id|. |has_additional_usable_key| should be set if a // key is newly usable (e.g. new key available, previously expired key has // been renewed, etc.) and the browser should attempt to resume playback. // |keys_info| is the list of key IDs for this session along with their // current status. |keys_info_count| is the number of entries in |keys_info|. // Size parameter for |session_id| should not include null termination. virtual void OnSessionKeysChange(const char* session_id, uint32_t session_id_size, bool has_additional_usable_key, const KeyInformation* keys_info, uint32_t keys_info_count) = 0; // Called by the CDM when there has been a change in the expiration time for // session |session_id|. This can happen as the result of an Update() call // or some other event. If this happens as a result of a call to Update(), // it must be called before resolving the Update() promise. |new_expiry_time| // represents the time after which the key(s) in the session will no longer // be usable for decryption. It can be 0 if no such time exists or if the // license explicitly never expires. Size parameter should not include null // termination. virtual void OnExpirationChange(const char* session_id, uint32_t session_id_size, Time new_expiry_time) = 0; // Called by the CDM when session |session_id| is closed. Size // parameter should not include null termination. virtual void OnSessionClosed(const char* session_id, uint32_t session_id_size) = 0; // The following are optional methods that may not be implemented on all // platforms. // Sends a platform challenge for the given |service_id|. |challenge| is at // most 256 bits of data to be signed. Once the challenge has been completed, // the host will call ContentDecryptionModule::OnPlatformChallengeResponse() // with the signed challenge response and platform certificate. Size // parameters should not include null termination. virtual void SendPlatformChallenge(const char* service_id, uint32_t service_id_size, const char* challenge, uint32_t challenge_size) = 0; // Attempts to enable output protection (e.g. HDCP) on the display link. The // |desired_protection_mask| is a bit mask of OutputProtectionMethods. No // status callback is issued, the CDM must call QueryOutputProtectionStatus() // periodically to ensure the desired protections are applied. virtual void EnableOutputProtection(uint32_t desired_protection_mask) = 0; // Requests the current output protection status. Once the host has the status // it will call ContentDecryptionModule::OnQueryOutputProtectionStatus(). virtual void QueryOutputProtectionStatus() = 0; // Must be called by the CDM if it returned kDeferredInitialization during // InitializeAudioDecoder() or InitializeVideoDecoder(). virtual void OnDeferredInitializationDone(StreamType stream_type, Status decoder_status) = 0; // Creates a FileIO object from the host to do file IO operation. Returns NULL // if a FileIO object cannot be obtained. Once a valid FileIO object is // returned, |client| must be valid until FileIO::Close() is called. The // CDM can call this method multiple times to operate on different files. virtual FileIO* CreateFileIO(FileIOClient* client) = 0; // Requests a specific version of the storage ID. A storage ID is a stable, // device specific ID used by the CDM to securely store persistent data. The // ID will be returned by the host via ContentDecryptionModule::OnStorageId(). // If |version| is 0, the latest version will be returned. All |version|s // that are greater than or equal to 0x80000000 are reserved for the CDM and // should not be supported or returned by the host. The CDM must not expose // the ID outside the client device, even in encrypted form. virtual void RequestStorageId(uint32_t version) = 0; protected: Host_10() {} virtual ~Host_10() {} }; class CDM_CLASS_API Host_11 { public: static const int kVersion = 11; // Returns a Buffer* containing non-zero members upon success, or NULL on // failure. The caller owns the Buffer* after this call. The buffer is not // guaranteed to be zero initialized. The capacity of the allocated Buffer // is guaranteed to be not less than |capacity|. virtual Buffer* Allocate(uint32_t capacity) = 0; // Requests the host to call ContentDecryptionModule::TimerFired() |delay_ms| // from now with |context|. virtual void SetTimer(int64_t delay_ms, void* context) = 0; // Returns the current wall time. virtual Time GetCurrentWallTime() = 0; // Called by the CDM with the result after the CDM instance was initialized. virtual void OnInitialized(bool success) = 0; // Called by the CDM when a key status is available in response to // GetStatusForPolicy(). virtual void OnResolveKeyStatusPromise(uint32_t promise_id, KeyStatus key_status) = 0; // Called by the CDM when a session is created or loaded and the value for the // MediaKeySession's sessionId attribute is available (|session_id|). // This must be called before OnSessionMessage() or // OnSessionKeysChange() is called for the same session. |session_id_size| // should not include null termination. // When called in response to LoadSession(), the |session_id| must be the // same as the |session_id| passed in LoadSession(), or NULL if the // session could not be loaded. virtual void OnResolveNewSessionPromise(uint32_t promise_id, const char* session_id, uint32_t session_id_size) = 0; // Called by the CDM when a session is updated or released. virtual void OnResolvePromise(uint32_t promise_id) = 0; // Called by the CDM when an error occurs as a result of one of the // ContentDecryptionModule calls that accept a |promise_id|. // |exception| must be specified. |error_message| and |system_code| // are optional. |error_message_size| should not include null termination. virtual void OnRejectPromise(uint32_t promise_id, Exception exception, uint32_t system_code, const char* error_message, uint32_t error_message_size) = 0; // Called by the CDM when it has a message for session |session_id|. // Size parameters should not include null termination. virtual void OnSessionMessage(const char* session_id, uint32_t session_id_size, MessageType message_type, const char* message, uint32_t message_size) = 0; // Called by the CDM when there has been a change in keys or their status for // session |session_id|. |has_additional_usable_key| should be set if a // key is newly usable (e.g. new key available, previously expired key has // been renewed, etc.) and the browser should attempt to resume playback. // |keys_info| is the list of key IDs for this session along with their // current status. |keys_info_count| is the number of entries in |keys_info|. // Size parameter for |session_id| should not include null termination. virtual void OnSessionKeysChange(const char* session_id, uint32_t session_id_size, bool has_additional_usable_key, const KeyInformation* keys_info, uint32_t keys_info_count) = 0; // Called by the CDM when there has been a change in the expiration time for // session |session_id|. This can happen as the result of an Update() call // or some other event. If this happens as a result of a call to Update(), // it must be called before resolving the Update() promise. |new_expiry_time| // represents the time after which the key(s) in the session will no longer // be usable for decryption. It can be 0 if no such time exists or if the // license explicitly never expires. Size parameter should not include null // termination. virtual void OnExpirationChange(const char* session_id, uint32_t session_id_size, Time new_expiry_time) = 0; // Called by the CDM when session |session_id| is closed. Size // parameter should not include null termination. virtual void OnSessionClosed(const char* session_id, uint32_t session_id_size) = 0; // The following are optional methods that may not be implemented on all // platforms. // Sends a platform challenge for the given |service_id|. |challenge| is at // most 256 bits of data to be signed. Once the challenge has been completed, // the host will call ContentDecryptionModule::OnPlatformChallengeResponse() // with the signed challenge response and platform certificate. Size // parameters should not include null termination. virtual void SendPlatformChallenge(const char* service_id, uint32_t service_id_size, const char* challenge, uint32_t challenge_size) = 0; // Attempts to enable output protection (e.g. HDCP) on the display link. The // |desired_protection_mask| is a bit mask of OutputProtectionMethods. No // status callback is issued, the CDM must call QueryOutputProtectionStatus() // periodically to ensure the desired protections are applied. virtual void EnableOutputProtection(uint32_t desired_protection_mask) = 0; // Requests the current output protection status. Once the host has the status // it will call ContentDecryptionModule::OnQueryOutputProtectionStatus(). virtual void QueryOutputProtectionStatus() = 0; // Must be called by the CDM if it returned kDeferredInitialization during // InitializeAudioDecoder() or InitializeVideoDecoder(). virtual void OnDeferredInitializationDone(StreamType stream_type, Status decoder_status) = 0; // Creates a FileIO object from the host to do file IO operation. Returns NULL // if a FileIO object cannot be obtained. Once a valid FileIO object is // returned, |client| must be valid until FileIO::Close() is called. The // CDM can call this method multiple times to operate on different files. virtual FileIO* CreateFileIO(FileIOClient* client) = 0; // Requests a CdmProxy that proxies part of CDM functionalities to a different // entity, e.g. a hardware CDM module. A CDM instance can have at most one // CdmProxy throughout its lifetime, which must be requested and initialized // during CDM instance initialization time, i.e. in or after CDM::Initialize() // and before OnInitialized() is called, to ensure proper connection of the // CdmProxy and the media player (e.g. hardware decoder). The CdmProxy is // owned by the host and is guaranteed to be valid throughout the CDM // instance's lifetime. The CDM must ensure that the |client| remain valid // before the CDM instance is destroyed. Returns null if CdmProxy is not // supported, called before CDM::Initialize(), RequestCdmProxy() is called // more than once, or called after the CDM instance has been initialized. virtual CdmProxy* RequestCdmProxy(CdmProxyClient* client) = 0; // Requests a specific version of the storage ID. A storage ID is a stable, // device specific ID used by the CDM to securely store persistent data. The // ID will be returned by the host via ContentDecryptionModule::OnStorageId(). // If |version| is 0, the latest version will be returned. All |version|s // that are greater than or equal to 0x80000000 are reserved for the CDM and // should not be supported or returned by the host. The CDM must not expose // the ID outside the client device, even in encrypted form. virtual void RequestStorageId(uint32_t version) = 0; protected: Host_11() {} virtual ~Host_11() {} }; } // namespace cdm #endif // CDM_CONTENT_DECRYPTION_MODULE_H_