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crypt_algo.hpp
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crypt_algo.hpp
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#pragma once
#include <array>
#include <cstddef>
#include <cstdint>
#include <vector>
namespace cipher
{
namespace crypt
{
/**
* @enum Confidentiality Algorithms
*
* The Confidentiality Algorithm Number specifies the encryption/decryption
* algorithm field that is used for encrypted payload data under the session.
* The ‘encrypted’ bit in the payload type field being set identifies packets
* with payloads that include data that is encrypted per this specification.
* When payload data is encrypted, there may be additional “Confidentiality
* Header” and/or “Confidentiality Trailer” fields that are included within the
* payload. The size and definition of those fields is specific to the
* particular confidentiality algorithm. Based on security recommendations
* encrypting IPMI traffic is preferred, so NONE is not supported.
*/
enum class Algorithms : uint8_t
{
NONE, /**< No encryption (mandatory , not supported) */
AES_CBC_128, /**< AES-CBC-128 Algorithm (mandatory option) */
xRC4_128, /**< xRC4-128 Algorithm (optional option) */
xRC4_40, /**< xRC4-40 Algorithm (optional option) */
};
/**
* @class Interface
*
* Interface is the base class for the Confidentiality Algorithms.
*/
class Interface
{
public:
/**
* @brief Constructor for Interface
*/
explicit Interface(const std::vector<uint8_t>& k2) : k2(k2) {}
Interface() = delete;
virtual ~Interface() = default;
Interface(const Interface&) = default;
Interface& operator=(const Interface&) = default;
Interface(Interface&&) = default;
Interface& operator=(Interface&&) = default;
/**
* @brief Decrypt the incoming payload
*
* @param[in] packet - Incoming IPMI packet
* @param[in] sessHeaderLen - Length of the IPMI Session Header
* @param[in] payloadLen - Length of the encrypted IPMI payload
*
* @return decrypted payload if the operation is successful
*/
virtual std::vector<uint8_t> decryptPayload(
const std::vector<uint8_t>& packet, const size_t sessHeaderLen,
const size_t payloadLen) const = 0;
/**
* @brief Encrypt the outgoing payload
*
* @param[in] payload - plain payload for the outgoing IPMI packet
*
* @return encrypted payload if the operation is successful
*
*/
virtual std::vector<uint8_t>
encryptPayload(std::vector<uint8_t>& payload) const = 0;
/**
* @brief Check if the Confidentiality algorithm is supported
*
* @param[in] algo - confidentiality algorithm
*
* @return true if algorithm is supported else false
*
*/
static bool isAlgorithmSupported(Algorithms algo)
{
if (algo == Algorithms::AES_CBC_128)
{
return true;
}
else
{
return false;
}
}
protected:
/**
* @brief The Cipher Key is the first 128-bits of key “K2”, K2 is
* generated by processing a pre-defined constant keyed by Session
* Integrity Key (SIK) that was created during session activation.
*/
std::vector<uint8_t> k2;
};
/**
* @class AlgoAES128
*
* @brief Implementation of the AES-CBC-128 Confidentiality algorithm
*
* AES-128 uses a 128-bit Cipher Key. The Cipher Key is the first 128-bits of
* key “K2”.Once the Cipher Key has been generated it is used to encrypt
* the payload data. The payload data is padded to make it an integral numbers
* of blocks in length (a block is 16 bytes for AES). The payload is then
* encrypted one block at a time from the lowest data offset to the highest
* using Cipher_Key as specified in AES.
*/
class AlgoAES128 final : public Interface
{
public:
static constexpr size_t AESCBC128ConfHeader = 16;
static constexpr size_t AESCBC128BlockSize = 16;
/**
* If confidentiality bytes are present, the value of the first byte is
* one (01h). and all subsequent bytes shall have a monotonically
* increasing value (e.g., 02h, 03h, 04h, etc). The receiver, as an
* additional check for proper decryption, shall check the value of each
* byte of Confidentiality Pad. For AES algorithm, the pad bytes will
* range from 0 to 15 bytes. This predefined array would help in
* doing the additional check.
*/
static constexpr std::array<uint8_t, AESCBC128BlockSize - 1> confPadBytes =
{0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08,
0x09, 0x0A, 0x0B, 0x0C, 0x0D, 0x0E, 0x0F};
/**
* @brief Constructor for AlgoAES128
*
* @param[in] - Session Integrity key
*/
explicit AlgoAES128(const std::vector<uint8_t>& k2) : Interface(k2) {}
AlgoAES128() = delete;
~AlgoAES128() = default;
AlgoAES128(const AlgoAES128&) = default;
AlgoAES128& operator=(const AlgoAES128&) = default;
AlgoAES128(AlgoAES128&&) = default;
AlgoAES128& operator=(AlgoAES128&&) = default;
/**
* @brief Decrypt the incoming payload
*
* @param[in] packet - Incoming IPMI packet
* @param[in] sessHeaderLen - Length of the IPMI Session Header
* @param[in] payloadLen - Length of the encrypted IPMI payload
*
* @return decrypted payload if the operation is successful
*/
std::vector<uint8_t> decryptPayload(const std::vector<uint8_t>& packet,
const size_t sessHeaderLen,
const size_t payloadLen) const override;
/**
* @brief Encrypt the outgoing payload
*
* @param[in] payload - plain payload for the outgoing IPMI packet
*
* @return encrypted payload if the operation is successful
*
*/
std::vector<uint8_t>
encryptPayload(std::vector<uint8_t>& payload) const override;
private:
/**
* @brief Decrypt the passed data
*
* @param[in] iv - Initialization vector
* @param[in] input - Pointer to input data
* @param[in] inputLen - Length of input data
*
* @return decrypted data if the operation is successful
*/
std::vector<uint8_t> decryptData(const uint8_t* iv, const uint8_t* input,
const int inputLen) const;
/**
* @brief Encrypt the passed data
*
* @param[in] input - Pointer to input data
* @param[in] inputLen - Length of input data
*
* @return encrypted data if the operation is successful
*/
std::vector<uint8_t> encryptData(const uint8_t* input,
const int inputLen) const;
};
} // namespace crypt
} // namespace cipher