// 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 MEDIA_BASE_DECRYPT_CONFIG_H_ #define MEDIA_BASE_DECRYPT_CONFIG_H_ #include #include #include #include "packager/base/memory/scoped_ptr.h" #include "packager/media/base/fourccs.h" namespace shaka { namespace media { /// The Common Encryption spec provides for subsample encryption, where portions /// of a sample are not encrypted. A SubsampleEntry specifies the number of /// clear and encrypted bytes in each subsample. For decryption, all of the /// encrypted bytes in a sample should be considered a single logical stream, /// regardless of how they are divided into subsamples, and the clear bytes /// should not be considered as part of decryption. This is logically equivalent /// to concatenating all @a cipher_bytes portions of subsamples, decrypting that /// result, and then copying each byte from the decrypted block over the /// corresponding encrypted byte. struct SubsampleEntry { SubsampleEntry() : clear_bytes(0), cipher_bytes(0) {} SubsampleEntry(uint16_t clear_bytes, uint32_t cipher_bytes) : clear_bytes(clear_bytes), cipher_bytes(cipher_bytes) {} uint16_t clear_bytes; uint32_t cipher_bytes; }; /// Contains all the information that a decryptor needs to decrypt a media /// sample. class DecryptConfig { public: /// Keys are always 128 bits. static const size_t kDecryptionKeySize = 16; /// Create a 'cenc' decrypt config. /// @param key_id is the ID that references the decryption key. /// @param iv is the initialization vector defined by the encryptor. /// @param subsamples defines the clear and encrypted portions of the sample /// as described in SubsampleEntry. A decrypted buffer will be equal /// in size to the sum of the subsample sizes. DecryptConfig(const std::vector& key_id, const std::vector& iv, const std::vector& subsamples); /// Create a general decrypt config with possible pattern-based encryption. /// @param key_id is the ID that references the decryption key. /// @param iv is the initialization vector defined by the encryptor. /// @param subsamples defines the clear and encrypted portions of the sample /// as described in SubsampleEntry. A decrypted buffer will be equal /// in size to the sum of the subsample sizes. /// @param protection_scheme specifies the protection scheme: 'cenc', 'cens', /// 'cbc1', 'cbcs'. /// @param crypt_byte_block indicates number of encrypted blocks (16-byte) in /// pattern based encryption, 'cens' and 'cbcs'. Ignored otherwise. /// @param skip_byte_block indicates number of unencrypted blocks (16-byte) /// in pattern based encryption, 'cens' and 'cbcs'. Ignored otherwise. DecryptConfig(const std::vector& key_id, const std::vector& iv, const std::vector& subsamples, FourCC protection_scheme, uint8_t crypt_byte_block, uint8_t skip_byte_block); ~DecryptConfig(); const std::vector& key_id() const { return key_id_; } const std::vector& iv() const { return iv_; } const std::vector& subsamples() const { return subsamples_; } FourCC protection_scheme() const { return protection_scheme_; } uint8_t crypt_byte_block() const { return crypt_byte_block_; } uint8_t skip_byte_block() const { return skip_byte_block_; } private: const std::vector key_id_; // Initialization vector. const std::vector iv_; // Subsample information. May be empty for some formats, meaning entire frame // (less data ignored by data_offset_) is encrypted. const std::vector subsamples_; const FourCC protection_scheme_; // For pattern-based protection schemes, like CENS and CBCS. const uint8_t crypt_byte_block_; const uint8_t skip_byte_block_; DISALLOW_COPY_AND_ASSIGN(DecryptConfig); }; } // namespace media } // namespace shaka #endif // MEDIA_BASE_DECRYPT_CONFIG_H_