/* * KASUMI header * * See kasumi.c for details * The parameters are described in TS 135 202. */ #pragma once #include /*! \brief Single iteration of KASUMI cipher * \param[in] P Block, 64 bits to be processed in this round * \param[in] KLi1 Expanded subkeys * \param[in] KLi2 Expanded subkeys * \param[in] KOi1 Expanded subkeys * \param[in] KOi2 Expanded subkeys * \param[in] KOi3 Expanded subkeys * \param[in] KIi1 Expanded subkeys * \param[in] KIi2 Expanded subkeys * \param[in] KIi3 Expanded subkeys * \returns processed block of 64 bits */ uint64_t _kasumi(uint64_t P, const uint16_t *KLi1, const uint16_t *KLi2, const uint16_t *KOi1, const uint16_t *KOi2, const uint16_t *KOi3, const uint16_t *KIi1, const uint16_t *KIi2, const uint16_t *KIi3); /*! \brief Implementation of the KGCORE algorithm (used by A5/3, A5/4, GEA3, GEA4 and ECSD) * \param[in] CA * \param[in] cb * \param[in] cc * \param[in] cd * \param[in] ck 8-bytes long key * \param[out] co cl-dependent * \param[in] cl */ void _kasumi_kgcore(uint8_t CA, uint8_t cb, uint32_t cc, uint8_t cd, const uint8_t *ck, uint8_t *co, uint16_t cl); /*! \brief Expand key into set of subkeys - see TS 135 202 for details * \param[in] key (128 bits) as array of bytes * \param[out] KLi1 Expanded subkeys * \param[out] KLi2 Expanded subkeys * \param[out] KOi1 Expanded subkeys * \param[out] KOi2 Expanded subkeys * \param[out] KOi3 Expanded subkeys * \param[out] KIi1 Expanded subkeys * \param[out] KIi2 Expanded subkeys * \param[out] KIi3 Expanded subkeys */ void _kasumi_key_expand(const uint8_t *key, uint16_t *KLi1, uint16_t *KLi2, uint16_t *KOi1, uint16_t *KOi2, uint16_t *KOi3, uint16_t *KIi1, uint16_t *KIi2, uint16_t *KIi3);