// Copyright 2017 Google Inc. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file or at // https://developers.google.com/open-source/licenses/bsd #ifndef PACKAGER_MEDIA_CRYPTO_ENCRYPTION_HANDLER_H_ #define PACKAGER_MEDIA_CRYPTO_ENCRYPTION_HANDLER_H_ #include "packager/media/base/key_source.h" #include "packager/media/base/media_handler.h" #include "packager/media/public/crypto_params.h" namespace shaka { namespace media { class AesCryptor; class AesEncryptorFactory; class SubsampleGenerator; struct EncryptionKey; class EncryptionHandler : public MediaHandler { public: EncryptionHandler(const EncryptionParams& encryption_params, KeySource* key_source); ~EncryptionHandler() override; protected: /// @name MediaHandler implementation overrides. /// @{ Status InitializeInternal() override; Status Process(std::unique_ptr stream_data) override; /// @} private: friend class EncryptionHandlerTest; EncryptionHandler(const EncryptionHandler&) = delete; EncryptionHandler& operator=(const EncryptionHandler&) = delete; // Processes |stream_info| and sets up stream specific variables. Status ProcessStreamInfo(const StreamInfo& stream_info); // Processes media sample and encrypts it if needed. Status ProcessMediaSample(std::shared_ptr clear_sample); void SetupProtectionPattern(StreamType stream_type); bool CreateEncryptor(const EncryptionKey& encryption_key); // Encrypt an E-AC3 frame with size |source_size| according to SAMPLE-AES // specification. |dest| should have at least |source_size| bytes. bool SampleAesEncryptEac3Frame(const uint8_t* source, size_t source_size, uint8_t* dest); // Encrypt an array with size |source_size|. |dest| should have at // least |source_size| bytes. void EncryptBytes(const uint8_t* source, size_t source_size, uint8_t* dest); // An E-AC3 frame comprises of one or more syncframes. This function extracts // the syncframe sizes from the source bytes. // Returns false if the frame is not well formed. bool ExtractEac3SyncframeSizes(const uint8_t* source, size_t source_size, std::vector* syncframe_sizes); // Testing injections. void InjectSubsampleGeneratorForTesting( std::unique_ptr generator); void InjectEncryptorFactoryForTesting( std::unique_ptr encryptor_factory); const EncryptionParams encryption_params_; const FourCC protection_scheme_ = FOURCC_NULL; KeySource* key_source_ = nullptr; std::string stream_label_; // Current encryption config and encryptor. std::shared_ptr encryption_config_; std::unique_ptr encryptor_; Codec codec_ = kUnknownCodec; // Remaining clear lead in the stream's time scale. int64_t remaining_clear_lead_ = 0; // Crypto period duration in the stream's time scale. int64_t crypto_period_duration_ = 0; // Previous crypto period index if key rotation is enabled. int64_t prev_crypto_period_index_ = -1; bool check_new_crypto_period_ = false; std::unique_ptr subsample_generator_; std::unique_ptr encryptor_factory_; // Number of encrypted blocks (16-byte-block) in pattern based encryption. uint8_t crypt_byte_block_ = 0; /// Number of unencrypted blocks (16-byte-block) in pattern based encryption. uint8_t skip_byte_block_ = 0; }; } // namespace media } // namespace shaka #endif // PACKAGER_MEDIA_CRYPTO_ENCRYPTION_HANDLER_H_