305921f450
Added enablement for CCM parser, to allow the application to parser the ccm request files and to validate all test types supported. Signed-off-by: Marko Kovacevic <marko.kovacevic@intel.com> Signed-off-by: Fan Zhang <roy.fan.zhang@intel.com> Acked-by: Arek Kusztal <arkadiuszx.kusztal@intel.com> Reviewed-by: Akhil Goyal <akhil.goyal@nxp.com>
273 lines
6.7 KiB
C
273 lines
6.7 KiB
C
/* SPDX-License-Identifier: BSD-3-Clause
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* Copyright(c) 2018 Intel Corporation
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*/
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#include <stdio.h>
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#include <string.h>
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#include <rte_string_fns.h>
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#include <rte_cryptodev.h>
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#include <rte_malloc.h>
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#include "fips_validation.h"
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#define DVPT_STR "CCM-DVPT"
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#define VADT_STR "CCM-VADT"
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#define VPT_STR "CCM-VPT"
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#define VNT_STR "CCM-VNT"
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#define VTT_STR "CCM-VTT"
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#define PARAM_PREFIX "["
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#define ALEN_PREFIX "Alen = "
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#define PLEN_PREFIX "Plen = "
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#define IVLEN_PREFIX "Nlen = "
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#define DIGESTL_PREFIX "Tlen = "
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#define COUNT_STR "Count = "
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#define KEY_STR "Key = "
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#define IV_STR "Nonce = "
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#define PT_STR "Payload = "
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#define CT_STR "CT = "
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#define AAD_STR "Adata = "
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#define POS_NEG_STR "Result = "
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#define POS_KEYWORD "Pass"
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#define NEG_KEYWORD "Fail"
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static int
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parser_dvpt_interim(const char *key, char *src, struct fips_val *val)
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{
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char *tmp, c, value[10];
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char num_pattern[] = "0123456789";
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int i = 0;
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memset(value, 0, 10);
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tmp = strstr(src, key);
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if (!tmp)
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return -1;
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tmp += strlen(key);
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c = tmp[0];
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while (strchr(num_pattern, c) && i < 10) {
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value[i++] = c;
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c = tmp[i];
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}
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return parser_read_uint32_val("", value, val);
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}
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static int
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parse_dvpt_ct_hex_str(const char *key, char *src, struct fips_val *val)
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{
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int ret;
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val->len = vec.pt.len;
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ret = parse_uint8_known_len_hex_str(key, src, val);
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if (ret < 0)
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return ret;
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src += strlen(key) + val->len * 2;
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ret = parse_uint8_known_len_hex_str("", src, &vec.aead.digest);
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if (ret < 0) {
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rte_free(val->val);
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memset(val, 0, sizeof(*val));
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return ret;
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}
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return 0;
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}
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static int
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parse_uint8_ccm_aad_str(const char *key, char *src, struct fips_val *val)
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{
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uint32_t len = val->len, j;
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src += strlen(key);
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/* CCM aad requires 18 bytes padding before the real content */
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val->val = rte_zmalloc(NULL, len + 18, 0);
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if (!val->val)
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return -1;
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for (j = 0; j < len; j++) {
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char byte[3] = {src[j * 2], src[j * 2 + 1], '\0'};
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if (parser_read_uint8_hex(&val->val[j + 18], byte) < 0) {
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rte_free(val->val);
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memset(val, 0, sizeof(*val));
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return -EINVAL;
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}
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}
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return 0;
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}
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struct fips_test_callback ccm_vnt_vec[] = {
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{IV_STR, parse_uint8_known_len_hex_str, &vec.iv},
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{AAD_STR, parse_uint8_ccm_aad_str, &vec.aead.aad},
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{PT_STR, parse_uint8_known_len_hex_str, &vec.pt},
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{NULL, NULL, NULL} /**< end pointer */
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};
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struct fips_test_callback ccm_vnt_interim_vec[] = {
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{ALEN_PREFIX, parser_read_uint32_val, &vec.aead.aad},
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{PLEN_PREFIX, parser_read_uint32_val, &vec.pt},
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{DIGESTL_PREFIX, parser_read_uint32_val, &vec.aead.digest},
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{IVLEN_PREFIX, parser_read_uint32_val, &vec.iv},
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{KEY_STR, parse_uint8_hex_str, &vec.aead.key},
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{NULL, NULL, NULL} /**< end pointer */
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};
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struct fips_test_callback ccm_vtt_vec[] = {
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{AAD_STR, parse_uint8_ccm_aad_str, &vec.aead.aad},
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{PT_STR, parse_uint8_known_len_hex_str, &vec.pt},
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{NULL, NULL, NULL} /**< end pointer */
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};
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struct fips_test_callback ccm_vtt_interim_vec[] = {
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{ALEN_PREFIX, parser_read_uint32_val, &vec.aead.aad},
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{PLEN_PREFIX, parser_read_uint32_val, &vec.pt},
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{IVLEN_PREFIX, parser_read_uint32_val, &vec.iv},
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{DIGESTL_PREFIX, parser_read_uint32_val, &vec.aead.digest},
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{KEY_STR, parse_uint8_hex_str, &vec.aead.key},
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{IV_STR, parse_uint8_known_len_hex_str, &vec.iv},
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{NULL, NULL, NULL} /**< end pointer */
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};
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struct fips_test_callback ccm_vadt_vec[] = {
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{AAD_STR, parse_uint8_ccm_aad_str, &vec.aead.aad},
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{PT_STR, parse_uint8_known_len_hex_str, &vec.pt},
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{NULL, NULL, NULL} /**< end pointer */
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};
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struct fips_test_callback ccm_vadt_interim_vec[] = {
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{PLEN_PREFIX, parser_read_uint32_val, &vec.pt},
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{IVLEN_PREFIX, parser_read_uint32_val, &vec.iv},
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{ALEN_PREFIX, parser_read_uint32_val, &vec.aead.aad},
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{DIGESTL_PREFIX, parser_read_uint32_val, &vec.aead.digest},
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{KEY_STR, parse_uint8_hex_str, &vec.aead.key},
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{IV_STR, parse_uint8_known_len_hex_str, &vec.iv},
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{NULL, NULL, NULL} /**< end pointer */
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};
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struct fips_test_callback ccm_vpt_vec[] = {
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{AAD_STR, parse_uint8_ccm_aad_str, &vec.aead.aad},
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{PT_STR, parse_uint8_known_len_hex_str, &vec.pt},
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{NULL, NULL, NULL} /**< end pointer */
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};
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struct fips_test_callback ccm_vpt_interim_vec[] = {
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{ALEN_PREFIX, parser_read_uint32_val, &vec.aead.aad},
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{IVLEN_PREFIX, parser_read_uint32_val, &vec.iv},
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{DIGESTL_PREFIX, parser_read_uint32_val, &vec.aead.digest},
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{PLEN_PREFIX, parser_read_uint32_val, &vec.pt},
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{KEY_STR, parse_uint8_hex_str, &vec.aead.key},
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{IV_STR, parse_uint8_known_len_hex_str, &vec.iv},
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{NULL, NULL, NULL} /**< end pointer */
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};
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struct fips_test_callback ccm_dvpt_vec[] = {
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{IV_STR, parse_uint8_known_len_hex_str, &vec.iv},
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{AAD_STR, parse_uint8_ccm_aad_str, &vec.aead.aad},
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{CT_STR, parse_dvpt_ct_hex_str, &vec.ct},
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{NULL, NULL, NULL} /**< end pointer */
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};
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struct fips_test_callback ccm_dvpt_interim_vec[] = {
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{ALEN_PREFIX, parser_dvpt_interim, &vec.aead.aad},
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{PLEN_PREFIX, parser_dvpt_interim, &vec.pt},
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{IVLEN_PREFIX, parser_dvpt_interim, &vec.iv},
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{DIGESTL_PREFIX, parser_dvpt_interim, &vec.aead.digest},
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{KEY_STR, parse_uint8_hex_str, &vec.aead.key},
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{NULL, NULL, NULL} /**< end pointer */
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};
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struct ccm_test_types {
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const char *str;
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uint32_t type;
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const struct fips_test_callback *cb;
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const struct fips_test_callback *cb_interim;
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enum fips_test_op op;
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} ctt[] = {
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{DVPT_STR, CCM_DVPT, ccm_dvpt_vec, ccm_dvpt_interim_vec,
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FIPS_TEST_DEC_AUTH_VERIF},
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{VPT_STR, CCM_VPT, ccm_vpt_vec, ccm_vpt_interim_vec,
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FIPS_TEST_ENC_AUTH_GEN},
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{VADT_STR, CCM_VADT, ccm_vadt_vec, ccm_vadt_interim_vec,
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FIPS_TEST_ENC_AUTH_GEN},
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{VNT_STR, CCM_VNT, ccm_vnt_vec, ccm_vnt_interim_vec,
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FIPS_TEST_ENC_AUTH_GEN},
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{VTT_STR, CCM_VTT, ccm_vtt_vec, ccm_vtt_interim_vec,
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FIPS_TEST_ENC_AUTH_GEN},
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};
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static int
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parse_test_ccm_writeback(struct fips_val *val)
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{
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struct fips_val tmp_val;
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switch (info.interim_info.ccm_data.test_type) {
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case CCM_DVPT:
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fprintf(info.fp_wr, "%s", POS_NEG_STR);
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if (vec.status == RTE_CRYPTO_OP_STATUS_SUCCESS) {
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fprintf(info.fp_wr, "%s\n", POS_KEYWORD);
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fprintf(info.fp_wr, "%s", PT_STR);
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tmp_val.val = val->val;
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tmp_val.len = vec.pt.len;
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if (tmp_val.len == 0)
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fprintf(info.fp_wr, "00\n");
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else
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parse_write_hex_str(&tmp_val);
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} else
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fprintf(info.fp_wr, "%s\n", NEG_KEYWORD);
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break;
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case CCM_VADT:
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case CCM_VNT:
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case CCM_VPT:
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case CCM_VTT:
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fprintf(info.fp_wr, "%s", CT_STR);
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parse_write_hex_str(val);
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break;
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}
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return 0;
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}
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int
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parse_test_ccm_init(void)
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{
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uint32_t i;
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for (i = 0; i < info.nb_vec_lines; i++) {
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char *line = info.vec[i];
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uint32_t j;
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for (j = 0; j < RTE_DIM(ctt); j++)
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if (strstr(line, ctt[j].str)) {
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info.interim_info.ccm_data.test_type =
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ctt[j].type;
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info.callbacks = ctt[j].cb;
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info.interim_callbacks = ctt[j].cb_interim;
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info.op = ctt[j].op;
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break;
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}
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}
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info.parse_writeback = parse_test_ccm_writeback;
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return 0;
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}
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