/* * TLS CBC+HMAC AEAD * (C) 2016 Jack Lloyd * (C) 2016 Daniel Neus, Rohde & Schwarz Cybersecurity * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_TLS_CBC_HMAC_AEAD_H_ #define BOTAN_TLS_CBC_HMAC_AEAD_H_ #include #include #include namespace Botan { namespace TLS { /** * TLS CBC+HMAC AEAD base class (GenericBlockCipher in TLS spec) * This is the weird TLS-specific mode, not for general consumption. */ class BOTAN_TEST_API TLS_CBC_HMAC_AEAD_Mode : public AEAD_Mode { public: size_t process(uint8_t buf[], size_t sz) override final; std::string name() const override final; void set_associated_data(const uint8_t ad[], size_t ad_len) override; size_t update_granularity() const override final; Key_Length_Specification key_spec() const override final; bool valid_nonce_length(size_t nl) const override final; size_t tag_size() const override final { return m_tag_size; } size_t default_nonce_length() const override final { return m_iv_size; } void clear() override final; void reset() override final; protected: TLS_CBC_HMAC_AEAD_Mode(Cipher_Dir direction, std::unique_ptr cipher, std::unique_ptr mac, size_t cipher_keylen, size_t mac_keylen, bool use_explicit_iv, bool use_encrypt_then_mac); size_t cipher_keylen() const { return m_cipher_keylen; } size_t mac_keylen() const { return m_mac_keylen; } size_t iv_size() const { return m_iv_size; } size_t block_size() const { return m_block_size; } bool use_encrypt_then_mac() const { return m_use_encrypt_then_mac; } Cipher_Mode& cbc() const { return *m_cbc; } MessageAuthenticationCode& mac() const { BOTAN_ASSERT_NONNULL(m_mac); return *m_mac; } secure_vector& cbc_state() { return m_cbc_state; } std::vector& assoc_data() { return m_ad; } secure_vector& msg() { return m_msg; } std::vector assoc_data_with_len(uint16_t len); private: void start_msg(const uint8_t nonce[], size_t nonce_len) override final; void key_schedule(const uint8_t key[], size_t length) override final; const std::string m_cipher_name; const std::string m_mac_name; size_t m_cipher_keylen; size_t m_mac_keylen; size_t m_iv_size; size_t m_tag_size; size_t m_block_size; bool m_use_encrypt_then_mac; std::unique_ptr m_cbc; std::unique_ptr m_mac; secure_vector m_cbc_state; std::vector m_ad; secure_vector m_msg; }; /** * TLS_CBC_HMAC_AEAD Encryption */ class BOTAN_TEST_API TLS_CBC_HMAC_AEAD_Encryption final : public TLS_CBC_HMAC_AEAD_Mode { public: /** */ TLS_CBC_HMAC_AEAD_Encryption( std::unique_ptr cipher, std::unique_ptr mac, const size_t cipher_keylen, const size_t mac_keylen, bool use_explicit_iv, bool use_encrypt_then_mac) : TLS_CBC_HMAC_AEAD_Mode(ENCRYPTION, std::move(cipher), std::move(mac), cipher_keylen, mac_keylen, use_explicit_iv, use_encrypt_then_mac) {} void set_associated_data(const uint8_t ad[], size_t ad_len) override; size_t output_length(size_t input_length) const override; size_t minimum_final_size() const override { return 0; } void finish(secure_vector& final_block, size_t offset = 0) override; private: void cbc_encrypt_record(uint8_t record_contents[], size_t record_len); }; /** * TLS_CBC_HMAC_AEAD Decryption */ class BOTAN_TEST_API TLS_CBC_HMAC_AEAD_Decryption final : public TLS_CBC_HMAC_AEAD_Mode { public: /** */ TLS_CBC_HMAC_AEAD_Decryption(std::unique_ptr cipher, std::unique_ptr mac, const size_t cipher_keylen, const size_t mac_keylen, bool use_explicit_iv, bool use_encrypt_then_mac) : TLS_CBC_HMAC_AEAD_Mode(DECRYPTION, std::move(cipher), std::move(mac), cipher_keylen, mac_keylen, use_explicit_iv, use_encrypt_then_mac) {} size_t output_length(size_t input_length) const override; size_t minimum_final_size() const override { return tag_size(); } void finish(secure_vector& final_block, size_t offset = 0) override; private: void cbc_decrypt_record(uint8_t record_contents[], size_t record_len); void perform_additional_compressions(size_t plen, size_t padlen); }; /** * Check the TLS padding of a record * @param record the record bits * @param record_len length of record * @return 0 if padding is invalid, otherwise padding_bytes + 1 */ BOTAN_TEST_API uint16_t check_tls_cbc_padding(const uint8_t record[], size_t record_len); } } #endif