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/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2015-2016 Intel Corporation
*/
#ifndef _RTE_AESNI_MB_PMD_PRIVATE_H_
#define _RTE_AESNI_MB_PMD_PRIVATE_H_
#include "aesni_mb_ops.h"
/*
* IMB_VERSION_NUM macro was introduced in version Multi-buffer 0.50,
* so if macro is not defined, it means that the version is 0.49.
*/
#if !defined(IMB_VERSION_NUM)
#define IMB_VERSION(a, b, c) (((a) << 16) + ((b) << 8) + (c))
#define IMB_VERSION_NUM IMB_VERSION(0, 49, 0)
#endif
#define CRYPTODEV_NAME_AESNI_MB_PMD crypto_aesni_mb
/**< AES-NI Multi buffer PMD device name */
/** AESNI_MB PMD LOGTYPE DRIVER */
int aesni_mb_logtype_driver;
#define AESNI_MB_LOG(level, fmt, ...) \
rte_log(RTE_LOG_ ## level, aesni_mb_logtype_driver, \
"%s() line %u: " fmt "\n", __func__, __LINE__, \
## __VA_ARGS__)
#define HMAC_IPAD_VALUE (0x36)
#define HMAC_OPAD_VALUE (0x5C)
/* Maximum length for digest (SHA-512 truncated needs 32 bytes) */
#define DIGEST_LENGTH_MAX 32
static const unsigned auth_blocksize[] = {
[MD5] = 64,
[SHA1] = 64,
[SHA_224] = 64,
[SHA_256] = 64,
[SHA_384] = 128,
[SHA_512] = 128,
[AES_XCBC] = 16,
[AES_CCM] = 16,
};
/**
* Get the blocksize in bytes for a specified authentication algorithm
*
* @Note: this function will not return a valid value for a non-valid
* authentication algorithm
*/
static inline unsigned
get_auth_algo_blocksize(JOB_HASH_ALG algo)
{
return auth_blocksize[algo];
}
static const unsigned auth_truncated_digest_byte_lengths[] = {
[MD5] = 12,
[SHA1] = 12,
[SHA_224] = 14,
[SHA_256] = 16,
[SHA_384] = 24,
[SHA_512] = 32,
[AES_XCBC] = 12,
[AES_CMAC] = 16,
[AES_CCM] = 8,
[NULL_HASH] = 0
};
/**
* Get the IPsec specified truncated length in bytes of the HMAC digest for a
* specified authentication algorithm
*
* @Note: this function will not return a valid value for a non-valid
* authentication algorithm
*/
static inline unsigned
get_truncated_digest_byte_length(JOB_HASH_ALG algo)
{
return auth_truncated_digest_byte_lengths[algo];
}
static const unsigned auth_digest_byte_lengths[] = {
[MD5] = 16,
[SHA1] = 20,
[SHA_224] = 28,
[SHA_256] = 32,
[SHA_384] = 48,
[SHA_512] = 64,
[AES_XCBC] = 16,
[AES_CMAC] = 16,
[NULL_HASH] = 0
};
/**
* Get the output digest size in bytes for a specified authentication algorithm
*
* @Note: this function will not return a valid value for a non-valid
* authentication algorithm
*/
static inline unsigned
get_digest_byte_length(JOB_HASH_ALG algo)
{
return auth_digest_byte_lengths[algo];
}
enum aesni_mb_operation {
AESNI_MB_OP_HASH_CIPHER,
AESNI_MB_OP_CIPHER_HASH,
AESNI_MB_OP_HASH_ONLY,
AESNI_MB_OP_CIPHER_ONLY,
AESNI_MB_OP_AEAD_HASH_CIPHER,
AESNI_MB_OP_AEAD_CIPHER_HASH,
AESNI_MB_OP_NOT_SUPPORTED
};
/** private data structure for each virtual AESNI device */
struct aesni_mb_private {
enum aesni_mb_vector_mode vector_mode;
/**< CPU vector instruction set mode */
unsigned max_nb_queue_pairs;
/**< Max number of queue pairs supported by device */
};
/** AESNI Multi buffer queue pair */
struct aesni_mb_qp {
uint16_t id;
/**< Queue Pair Identifier */
char name[RTE_CRYPTODEV_NAME_MAX_LEN];
/**< Unique Queue Pair Name */
const struct aesni_mb_op_fns *op_fns;
/**< Vector mode dependent pointer table of the multi-buffer APIs */
MB_MGR *mb_mgr;
/**< Multi-buffer instance */
struct rte_ring *ingress_queue;
/**< Ring for placing operations ready for processing */
struct rte_mempool *sess_mp;
/**< Session Mempool */
struct rte_cryptodev_stats stats;
/**< Queue pair statistics */
uint8_t digest_idx;
/**< Index of the next slot to be used in temp_digests,
* to store the digest for a given operation
*/
uint8_t temp_digests[MAX_JOBS][DIGEST_LENGTH_MAX];
/**< Buffers used to store the digest generated
* by the driver when verifying a digest provided
* by the user (using authentication verify operation)
*/
} __rte_cache_aligned;
/** AES-NI multi-buffer private session structure */
struct aesni_mb_session {
JOB_CHAIN_ORDER chain_order;
struct {
uint16_t length;
uint16_t offset;
} iv;
/**< IV parameters */
/** Cipher Parameters */
struct {
/** Cipher direction - encrypt / decrypt */
JOB_CIPHER_DIRECTION direction;
/** Cipher mode - CBC / Counter */
JOB_CIPHER_MODE mode;
uint64_t key_length_in_bytes;
union {
struct {
uint32_t encode[60] __rte_aligned(16);
/**< encode key */
uint32_t decode[60] __rte_aligned(16);
/**< decode key */
} expanded_aes_keys;
struct {
const void *ks_ptr[3];
uint64_t key[3][16];
} exp_3des_keys;
};
/**< Expanded AES keys - Allocating space to
* contain the maximum expanded key size which
* is 240 bytes for 256 bit AES, calculate by:
* ((key size (bytes)) *
* ((number of rounds) + 1))
*/
} cipher;
/** Authentication Parameters */
struct {
JOB_HASH_ALG algo; /**< Authentication Algorithm */
enum rte_crypto_auth_operation operation;
/**< auth operation generate or verify */
union {
struct {
uint8_t inner[128] __rte_aligned(16);
/**< inner pad */
uint8_t outer[128] __rte_aligned(16);
/**< outer pad */
} pads;
/**< HMAC Authentication pads -
* allocating space for the maximum pad
* size supported which is 128 bytes for
* SHA512
*/
struct {
uint32_t k1_expanded[44] __rte_aligned(16);
/**< k1 (expanded key). */
uint8_t k2[16] __rte_aligned(16);
/**< k2. */
uint8_t k3[16] __rte_aligned(16);
/**< k3. */
} xcbc;
struct {
uint32_t expkey[60] __rte_aligned(16);
/**< k1 (expanded key). */
uint32_t skey1[4] __rte_aligned(16);
/**< k2. */
uint32_t skey2[4] __rte_aligned(16);
/**< k3. */
} cmac;
/**< Expanded XCBC authentication keys */
};
/** digest size */
uint16_t digest_len;
} auth;
struct {
/** AAD data length */
uint16_t aad_len;
} aead;
} __rte_cache_aligned;
/**
*
*/
extern int
aesni_mb_set_session_parameters(const struct aesni_mb_op_fns *mb_ops,
struct aesni_mb_session *sess,
const struct rte_crypto_sym_xform *xform);
/** device specific operations function pointer structure */
extern struct rte_cryptodev_ops *rte_aesni_mb_pmd_ops;
#endif /* _RTE_AESNI_MB_PMD_PRIVATE_H_ */
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