1 /* SPDX-License-Identifier: BSD-3-Clause
2 * Copyright(c) 2016-2017 Intel Corporation
8 #include <rte_cryptodev.h>
9 #include <rte_malloc.h>
10 #include <rte_ether.h>
12 #include "cperf_options.h"
14 #define AES_BLOCK_SIZE 16
15 #define DES_BLOCK_SIZE 8
25 printf("%s [EAL options] --\n"
26 " --silent: disable options dump\n"
27 " --ptest throughput / latency / verify / pmd-cyclecount :"
29 " --pool_sz N: set the number of crypto ops/mbufs allocated\n"
30 " --total-ops N: set the number of total operations performed\n"
31 " --burst-sz N: set the number of packets per burst\n"
32 " --buffer-sz N: set the size of a single packet\n"
33 " --imix N: set the distribution of packet sizes\n"
34 " --segment-sz N: set the size of the segment to use\n"
35 " --desc-nb N: set number of descriptors for each crypto device\n"
36 " --devtype TYPE: set crypto device type to use\n"
37 " --optype cipher-only / auth-only / cipher-then-auth /\n"
38 " auth-then-cipher / aead : set operation type\n"
39 " --sessionless: enable session-less crypto operations\n"
40 " --out-of-place: enable out-of-place crypto operations\n"
41 " --test-file NAME: set the test vector file path\n"
42 " --test-name NAME: set specific test name section in test file\n"
43 " --cipher-algo ALGO: set cipher algorithm\n"
44 " --cipher-op encrypt / decrypt: set the cipher operation\n"
45 " --cipher-key-sz N: set the cipher key size\n"
46 " --cipher-iv-sz N: set the cipher IV size\n"
47 " --auth-algo ALGO: set auth algorithm\n"
48 " --auth-op generate / verify: set the auth operation\n"
49 " --auth-key-sz N: set the auth key size\n"
50 " --auth-iv-sz N: set the auth IV size\n"
51 " --aead-algo ALGO: set AEAD algorithm\n"
52 " --aead-op encrypt / decrypt: set the AEAD operation\n"
53 " --aead-key-sz N: set the AEAD key size\n"
54 " --aead-iv-sz N: set the AEAD IV size\n"
55 " --aead-aad-sz N: set the AEAD AAD size\n"
56 " --digest-sz N: set the digest size\n"
57 " --pmd-cyclecount-delay-ms N: set delay between enqueue\n"
58 " and dequeue in pmd-cyclecount benchmarking mode\n"
59 " --csv-friendly: enable test result output CSV friendly\n"
60 #ifdef RTE_LIB_SECURITY
61 " --pdcp-sn-sz N: set PDCP SN size N <5/7/12/15/18>\n"
62 " --pdcp-domain DOMAIN: set PDCP domain <control/user>\n"
63 " --pdcp-ses-hfn-en: enable session based fixed HFN\n"
64 " --docsis-hdr-sz: set DOCSIS header size\n"
66 " -h: prints this help\n",
71 get_str_key_id_mapping(struct name_id_map *map, unsigned int map_len,
76 for (i = 0; i < map_len; i++) {
78 if (strcmp(str_key, map[i].name) == 0)
86 parse_cperf_test_type(struct cperf_options *opts, const char *arg)
88 struct name_id_map cperftest_namemap[] = {
90 cperf_test_type_strs[CPERF_TEST_TYPE_THROUGHPUT],
91 CPERF_TEST_TYPE_THROUGHPUT
94 cperf_test_type_strs[CPERF_TEST_TYPE_VERIFY],
95 CPERF_TEST_TYPE_VERIFY
98 cperf_test_type_strs[CPERF_TEST_TYPE_LATENCY],
99 CPERF_TEST_TYPE_LATENCY
102 cperf_test_type_strs[CPERF_TEST_TYPE_PMDCC],
103 CPERF_TEST_TYPE_PMDCC
107 int id = get_str_key_id_mapping(
108 (struct name_id_map *)cperftest_namemap,
109 RTE_DIM(cperftest_namemap), arg);
111 RTE_LOG(ERR, USER1, "failed to parse test type");
115 opts->test = (enum cperf_perf_test_type)id;
121 parse_uint32_t(uint32_t *value, const char *arg)
124 unsigned long n = strtoul(arg, &end, 10);
126 if ((optarg[0] == '\0') || (end == NULL) || (*end != '\0'))
132 *value = (uint32_t) n;
138 parse_uint16_t(uint16_t *value, const char *arg)
141 int ret = parse_uint32_t(&val, arg);
146 if (val > UINT16_MAX)
149 *value = (uint16_t) val;
155 parse_range(const char *arg, uint32_t *min, uint32_t *max, uint32_t *inc)
160 char *copy_arg = strdup(arg);
162 if (copy_arg == NULL)
166 token = strtok(copy_arg, ":");
168 /* Parse minimum value */
170 number = strtoul(token, NULL, 10);
172 if (errno == EINVAL || errno == ERANGE ||
180 token = strtok(NULL, ":");
182 /* Parse increment value */
184 number = strtoul(token, NULL, 10);
186 if (errno == EINVAL || errno == ERANGE ||
194 token = strtok(NULL, ":");
196 /* Parse maximum value */
198 number = strtoul(token, NULL, 10);
200 if (errno == EINVAL || errno == ERANGE ||
209 if (strtok(NULL, ":") != NULL)
221 parse_list(const char *arg, uint32_t *list, uint32_t *min, uint32_t *max)
229 char *copy_arg = strdup(arg);
231 if (copy_arg == NULL)
235 token = strtok(copy_arg, ",");
237 /* Parse first value */
239 number = strtoul(token, NULL, 10);
241 if (errno == EINVAL || errno == ERANGE ||
245 list[count++] = number;
251 token = strtok(NULL, ",");
253 while (token != NULL) {
254 if (count == MAX_LIST) {
255 RTE_LOG(WARNING, USER1, "Using only the first %u sizes\n",
260 number = strtoul(token, NULL, 10);
262 if (errno == EINVAL || errno == ERANGE ||
266 list[count++] = number;
268 if (number < temp_min)
270 if (number > temp_max)
273 token = strtok(NULL, ",");
290 parse_total_ops(struct cperf_options *opts, const char *arg)
292 int ret = parse_uint32_t(&opts->total_ops, arg);
295 RTE_LOG(ERR, USER1, "failed to parse total operations count\n");
297 if (opts->total_ops == 0) {
299 "invalid total operations count number specified\n");
307 parse_pool_sz(struct cperf_options *opts, const char *arg)
309 int ret = parse_uint32_t(&opts->pool_sz, arg);
312 RTE_LOG(ERR, USER1, "failed to parse pool size");
317 parse_burst_sz(struct cperf_options *opts, const char *arg)
321 /* Try parsing the argument as a range, if it fails, parse it as a list */
322 if (parse_range(arg, &opts->min_burst_size, &opts->max_burst_size,
323 &opts->inc_burst_size) < 0) {
324 ret = parse_list(arg, opts->burst_size_list,
325 &opts->min_burst_size,
326 &opts->max_burst_size);
328 RTE_LOG(ERR, USER1, "failed to parse burst size/s\n");
331 opts->burst_size_count = ret;
338 parse_buffer_sz(struct cperf_options *opts, const char *arg)
342 /* Try parsing the argument as a range, if it fails, parse it as a list */
343 if (parse_range(arg, &opts->min_buffer_size, &opts->max_buffer_size,
344 &opts->inc_buffer_size) < 0) {
345 ret = parse_list(arg, opts->buffer_size_list,
346 &opts->min_buffer_size,
347 &opts->max_buffer_size);
349 RTE_LOG(ERR, USER1, "failed to parse buffer size/s\n");
352 opts->buffer_size_count = ret;
359 parse_segment_sz(struct cperf_options *opts, const char *arg)
361 int ret = parse_uint32_t(&opts->segment_sz, arg);
364 RTE_LOG(ERR, USER1, "failed to parse segment size\n");
368 if (opts->segment_sz == 0) {
369 RTE_LOG(ERR, USER1, "Segment size has to be bigger than 0\n");
377 parse_imix(struct cperf_options *opts, const char *arg)
381 ret = parse_list(arg, opts->imix_distribution_list,
384 RTE_LOG(ERR, USER1, "failed to parse imix distribution\n");
388 opts->imix_distribution_count = ret;
390 if (opts->imix_distribution_count <= 1) {
391 RTE_LOG(ERR, USER1, "imix distribution should have "
392 "at least two entries\n");
400 parse_desc_nb(struct cperf_options *opts, const char *arg)
402 int ret = parse_uint32_t(&opts->nb_descriptors, arg);
405 RTE_LOG(ERR, USER1, "failed to parse descriptors number\n");
409 if (opts->nb_descriptors == 0) {
410 RTE_LOG(ERR, USER1, "invalid descriptors number specified\n");
418 parse_device_type(struct cperf_options *opts, const char *arg)
420 if (strlen(arg) > (sizeof(opts->device_type) - 1))
423 strncpy(opts->device_type, arg, sizeof(opts->device_type) - 1);
424 *(opts->device_type + sizeof(opts->device_type) - 1) = '\0';
430 parse_op_type(struct cperf_options *opts, const char *arg)
432 struct name_id_map optype_namemap[] = {
434 cperf_op_type_strs[CPERF_CIPHER_ONLY],
438 cperf_op_type_strs[CPERF_AUTH_ONLY],
442 cperf_op_type_strs[CPERF_CIPHER_THEN_AUTH],
443 CPERF_CIPHER_THEN_AUTH
446 cperf_op_type_strs[CPERF_AUTH_THEN_CIPHER],
447 CPERF_AUTH_THEN_CIPHER
450 cperf_op_type_strs[CPERF_AEAD],
454 cperf_op_type_strs[CPERF_PDCP],
458 cperf_op_type_strs[CPERF_DOCSIS],
463 int id = get_str_key_id_mapping(optype_namemap,
464 RTE_DIM(optype_namemap), arg);
466 RTE_LOG(ERR, USER1, "invalid opt type specified\n");
470 opts->op_type = (enum cperf_op_type)id;
476 parse_sessionless(struct cperf_options *opts,
477 const char *arg __rte_unused)
479 opts->sessionless = 1;
484 parse_out_of_place(struct cperf_options *opts,
485 const char *arg __rte_unused)
487 opts->out_of_place = 1;
492 parse_test_file(struct cperf_options *opts,
495 opts->test_file = strdup(arg);
496 if (access(opts->test_file, F_OK) != -1)
498 RTE_LOG(ERR, USER1, "Test vector file doesn't exist\n");
504 parse_test_name(struct cperf_options *opts,
507 char *test_name = (char *) rte_zmalloc(NULL,
508 sizeof(char) * (strlen(arg) + 3), 0);
509 snprintf(test_name, strlen(arg) + 3, "[%s]", arg);
510 opts->test_name = test_name;
516 parse_silent(struct cperf_options *opts,
517 const char *arg __rte_unused)
525 parse_cipher_algo(struct cperf_options *opts, const char *arg)
528 enum rte_crypto_cipher_algorithm cipher_algo;
530 if (rte_cryptodev_get_cipher_algo_enum(&cipher_algo, arg) < 0) {
531 RTE_LOG(ERR, USER1, "Invalid cipher algorithm specified\n");
535 opts->cipher_algo = cipher_algo;
541 parse_cipher_op(struct cperf_options *opts, const char *arg)
543 struct name_id_map cipher_op_namemap[] = {
545 rte_crypto_cipher_operation_strings
546 [RTE_CRYPTO_CIPHER_OP_ENCRYPT],
547 RTE_CRYPTO_CIPHER_OP_ENCRYPT },
549 rte_crypto_cipher_operation_strings
550 [RTE_CRYPTO_CIPHER_OP_DECRYPT],
551 RTE_CRYPTO_CIPHER_OP_DECRYPT
555 int id = get_str_key_id_mapping(cipher_op_namemap,
556 RTE_DIM(cipher_op_namemap), arg);
558 RTE_LOG(ERR, USER1, "Invalid cipher operation specified\n");
562 opts->cipher_op = (enum rte_crypto_cipher_operation)id;
568 parse_cipher_key_sz(struct cperf_options *opts, const char *arg)
570 return parse_uint16_t(&opts->cipher_key_sz, arg);
574 parse_cipher_iv_sz(struct cperf_options *opts, const char *arg)
576 return parse_uint16_t(&opts->cipher_iv_sz, arg);
580 parse_auth_algo(struct cperf_options *opts, const char *arg)
582 enum rte_crypto_auth_algorithm auth_algo;
584 if (rte_cryptodev_get_auth_algo_enum(&auth_algo, arg) < 0) {
585 RTE_LOG(ERR, USER1, "Invalid authentication algorithm specified\n");
589 opts->auth_algo = auth_algo;
595 parse_auth_op(struct cperf_options *opts, const char *arg)
597 struct name_id_map auth_op_namemap[] = {
599 rte_crypto_auth_operation_strings
600 [RTE_CRYPTO_AUTH_OP_GENERATE],
601 RTE_CRYPTO_AUTH_OP_GENERATE },
603 rte_crypto_auth_operation_strings
604 [RTE_CRYPTO_AUTH_OP_VERIFY],
605 RTE_CRYPTO_AUTH_OP_VERIFY
609 int id = get_str_key_id_mapping(auth_op_namemap,
610 RTE_DIM(auth_op_namemap), arg);
612 RTE_LOG(ERR, USER1, "invalid authentication operation specified"
617 opts->auth_op = (enum rte_crypto_auth_operation)id;
623 parse_auth_key_sz(struct cperf_options *opts, const char *arg)
625 return parse_uint16_t(&opts->auth_key_sz, arg);
629 parse_digest_sz(struct cperf_options *opts, const char *arg)
631 return parse_uint16_t(&opts->digest_sz, arg);
634 #ifdef RTE_LIB_SECURITY
636 parse_pdcp_sn_sz(struct cperf_options *opts, const char *arg)
639 int ret = parse_uint32_t(&val, arg);
644 if (val != RTE_SECURITY_PDCP_SN_SIZE_5 &&
645 val != RTE_SECURITY_PDCP_SN_SIZE_7 &&
646 val != RTE_SECURITY_PDCP_SN_SIZE_12 &&
647 val != RTE_SECURITY_PDCP_SN_SIZE_15 &&
648 val != RTE_SECURITY_PDCP_SN_SIZE_18) {
649 printf("\nInvalid pdcp SN size: %u\n", val);
652 opts->pdcp_sn_sz = val;
657 const char *cperf_pdcp_domain_strs[] = {
658 [RTE_SECURITY_PDCP_MODE_CONTROL] = "control",
659 [RTE_SECURITY_PDCP_MODE_DATA] = "data"
663 parse_pdcp_domain(struct cperf_options *opts, const char *arg)
665 struct name_id_map pdcp_domain_namemap[] = {
667 cperf_pdcp_domain_strs
668 [RTE_SECURITY_PDCP_MODE_CONTROL],
669 RTE_SECURITY_PDCP_MODE_CONTROL },
671 cperf_pdcp_domain_strs
672 [RTE_SECURITY_PDCP_MODE_DATA],
673 RTE_SECURITY_PDCP_MODE_DATA
677 int id = get_str_key_id_mapping(pdcp_domain_namemap,
678 RTE_DIM(pdcp_domain_namemap), arg);
680 RTE_LOG(ERR, USER1, "invalid pdcp domain specified"
685 opts->pdcp_domain = (enum rte_security_pdcp_domain)id;
691 parse_pdcp_ses_hfn_en(struct cperf_options *opts, const char *arg __rte_unused)
693 opts->pdcp_ses_hfn_en = 1;
698 parse_docsis_hdr_sz(struct cperf_options *opts, const char *arg)
700 return parse_uint16_t(&opts->docsis_hdr_sz, arg);
705 parse_auth_iv_sz(struct cperf_options *opts, const char *arg)
707 return parse_uint16_t(&opts->auth_iv_sz, arg);
711 parse_aead_algo(struct cperf_options *opts, const char *arg)
713 enum rte_crypto_aead_algorithm aead_algo;
715 if (rte_cryptodev_get_aead_algo_enum(&aead_algo, arg) < 0) {
716 RTE_LOG(ERR, USER1, "Invalid AEAD algorithm specified\n");
720 opts->aead_algo = aead_algo;
726 parse_aead_op(struct cperf_options *opts, const char *arg)
728 struct name_id_map aead_op_namemap[] = {
730 rte_crypto_aead_operation_strings
731 [RTE_CRYPTO_AEAD_OP_ENCRYPT],
732 RTE_CRYPTO_AEAD_OP_ENCRYPT },
734 rte_crypto_aead_operation_strings
735 [RTE_CRYPTO_AEAD_OP_DECRYPT],
736 RTE_CRYPTO_AEAD_OP_DECRYPT
740 int id = get_str_key_id_mapping(aead_op_namemap,
741 RTE_DIM(aead_op_namemap), arg);
743 RTE_LOG(ERR, USER1, "invalid AEAD operation specified"
748 opts->aead_op = (enum rte_crypto_aead_operation)id;
754 parse_aead_key_sz(struct cperf_options *opts, const char *arg)
756 return parse_uint16_t(&opts->aead_key_sz, arg);
760 parse_aead_iv_sz(struct cperf_options *opts, const char *arg)
762 return parse_uint16_t(&opts->aead_iv_sz, arg);
766 parse_aead_aad_sz(struct cperf_options *opts, const char *arg)
768 return parse_uint16_t(&opts->aead_aad_sz, arg);
772 parse_csv_friendly(struct cperf_options *opts, const char *arg __rte_unused)
780 parse_pmd_cyclecount_delay_ms(struct cperf_options *opts,
783 int ret = parse_uint32_t(&opts->pmdcc_delay, arg);
786 RTE_LOG(ERR, USER1, "failed to parse pmd-cyclecount delay\n");
793 typedef int (*option_parser_t)(struct cperf_options *opts,
796 struct long_opt_parser {
797 const char *lgopt_name;
798 option_parser_t parser_fn;
802 static struct option lgopts[] = {
804 { CPERF_PTEST_TYPE, required_argument, 0, 0 },
806 { CPERF_POOL_SIZE, required_argument, 0, 0 },
807 { CPERF_TOTAL_OPS, required_argument, 0, 0 },
808 { CPERF_BURST_SIZE, required_argument, 0, 0 },
809 { CPERF_BUFFER_SIZE, required_argument, 0, 0 },
810 { CPERF_SEGMENT_SIZE, required_argument, 0, 0 },
811 { CPERF_DESC_NB, required_argument, 0, 0 },
813 { CPERF_IMIX, required_argument, 0, 0 },
814 { CPERF_DEVTYPE, required_argument, 0, 0 },
815 { CPERF_OPTYPE, required_argument, 0, 0 },
817 { CPERF_SILENT, no_argument, 0, 0 },
818 { CPERF_SESSIONLESS, no_argument, 0, 0 },
819 { CPERF_OUT_OF_PLACE, no_argument, 0, 0 },
820 { CPERF_TEST_FILE, required_argument, 0, 0 },
821 { CPERF_TEST_NAME, required_argument, 0, 0 },
823 { CPERF_CIPHER_ALGO, required_argument, 0, 0 },
824 { CPERF_CIPHER_OP, required_argument, 0, 0 },
826 { CPERF_CIPHER_KEY_SZ, required_argument, 0, 0 },
827 { CPERF_CIPHER_IV_SZ, required_argument, 0, 0 },
829 { CPERF_AUTH_ALGO, required_argument, 0, 0 },
830 { CPERF_AUTH_OP, required_argument, 0, 0 },
832 { CPERF_AUTH_KEY_SZ, required_argument, 0, 0 },
833 { CPERF_AUTH_IV_SZ, required_argument, 0, 0 },
835 { CPERF_AEAD_ALGO, required_argument, 0, 0 },
836 { CPERF_AEAD_OP, required_argument, 0, 0 },
838 { CPERF_AEAD_KEY_SZ, required_argument, 0, 0 },
839 { CPERF_AEAD_AAD_SZ, required_argument, 0, 0 },
840 { CPERF_AEAD_IV_SZ, required_argument, 0, 0 },
842 { CPERF_DIGEST_SZ, required_argument, 0, 0 },
844 #ifdef RTE_LIB_SECURITY
845 { CPERF_PDCP_SN_SZ, required_argument, 0, 0 },
846 { CPERF_PDCP_DOMAIN, required_argument, 0, 0 },
847 { CPERF_PDCP_SES_HFN_EN, no_argument, 0, 0 },
848 { CPERF_DOCSIS_HDR_SZ, required_argument, 0, 0 },
850 { CPERF_CSV, no_argument, 0, 0},
852 { CPERF_PMDCC_DELAY_MS, required_argument, 0, 0 },
858 cperf_options_default(struct cperf_options *opts)
860 opts->test = CPERF_TEST_TYPE_THROUGHPUT;
862 opts->pool_sz = 8192;
863 opts->total_ops = 10000000;
864 opts->nb_descriptors = 2048;
866 opts->buffer_size_list[0] = 64;
867 opts->buffer_size_count = 1;
868 opts->max_buffer_size = 64;
869 opts->min_buffer_size = 64;
870 opts->inc_buffer_size = 0;
872 opts->burst_size_list[0] = 32;
873 opts->burst_size_count = 1;
874 opts->max_burst_size = 32;
875 opts->min_burst_size = 32;
876 opts->inc_burst_size = 0;
879 * Will be parsed from command line or set to
880 * maximum buffer size + digest, later
882 opts->segment_sz = 0;
884 opts->imix_distribution_count = 0;
885 strncpy(opts->device_type, "crypto_aesni_mb",
886 sizeof(opts->device_type));
889 opts->op_type = CPERF_CIPHER_THEN_AUTH;
892 opts->test_file = NULL;
893 opts->test_name = NULL;
894 opts->sessionless = 0;
895 opts->out_of_place = 0;
898 opts->cipher_algo = RTE_CRYPTO_CIPHER_AES_CBC;
899 opts->cipher_op = RTE_CRYPTO_CIPHER_OP_ENCRYPT;
900 opts->cipher_key_sz = 16;
901 opts->cipher_iv_sz = 16;
903 opts->auth_algo = RTE_CRYPTO_AUTH_SHA1_HMAC;
904 opts->auth_op = RTE_CRYPTO_AUTH_OP_GENERATE;
906 opts->auth_key_sz = 64;
907 opts->auth_iv_sz = 0;
909 opts->aead_key_sz = 0;
910 opts->aead_iv_sz = 0;
911 opts->aead_aad_sz = 0;
913 opts->digest_sz = 12;
915 opts->pmdcc_delay = 0;
916 #ifdef RTE_LIB_SECURITY
917 opts->pdcp_sn_sz = 12;
918 opts->pdcp_domain = RTE_SECURITY_PDCP_MODE_CONTROL;
919 opts->pdcp_ses_hfn_en = 0;
920 opts->docsis_hdr_sz = 17;
925 cperf_opts_parse_long(int opt_idx, struct cperf_options *opts)
927 struct long_opt_parser parsermap[] = {
928 { CPERF_PTEST_TYPE, parse_cperf_test_type },
929 { CPERF_SILENT, parse_silent },
930 { CPERF_POOL_SIZE, parse_pool_sz },
931 { CPERF_TOTAL_OPS, parse_total_ops },
932 { CPERF_BURST_SIZE, parse_burst_sz },
933 { CPERF_BUFFER_SIZE, parse_buffer_sz },
934 { CPERF_SEGMENT_SIZE, parse_segment_sz },
935 { CPERF_DESC_NB, parse_desc_nb },
936 { CPERF_DEVTYPE, parse_device_type },
937 { CPERF_OPTYPE, parse_op_type },
938 { CPERF_SESSIONLESS, parse_sessionless },
939 { CPERF_OUT_OF_PLACE, parse_out_of_place },
940 { CPERF_IMIX, parse_imix },
941 { CPERF_TEST_FILE, parse_test_file },
942 { CPERF_TEST_NAME, parse_test_name },
943 { CPERF_CIPHER_ALGO, parse_cipher_algo },
944 { CPERF_CIPHER_OP, parse_cipher_op },
945 { CPERF_CIPHER_KEY_SZ, parse_cipher_key_sz },
946 { CPERF_CIPHER_IV_SZ, parse_cipher_iv_sz },
947 { CPERF_AUTH_ALGO, parse_auth_algo },
948 { CPERF_AUTH_OP, parse_auth_op },
949 { CPERF_AUTH_KEY_SZ, parse_auth_key_sz },
950 { CPERF_AUTH_IV_SZ, parse_auth_iv_sz },
951 { CPERF_AEAD_ALGO, parse_aead_algo },
952 { CPERF_AEAD_OP, parse_aead_op },
953 { CPERF_AEAD_KEY_SZ, parse_aead_key_sz },
954 { CPERF_AEAD_IV_SZ, parse_aead_iv_sz },
955 { CPERF_AEAD_AAD_SZ, parse_aead_aad_sz },
956 { CPERF_DIGEST_SZ, parse_digest_sz },
957 #ifdef RTE_LIB_SECURITY
958 { CPERF_PDCP_SN_SZ, parse_pdcp_sn_sz },
959 { CPERF_PDCP_DOMAIN, parse_pdcp_domain },
960 { CPERF_PDCP_SES_HFN_EN, parse_pdcp_ses_hfn_en },
961 { CPERF_DOCSIS_HDR_SZ, parse_docsis_hdr_sz },
963 { CPERF_CSV, parse_csv_friendly},
964 { CPERF_PMDCC_DELAY_MS, parse_pmd_cyclecount_delay_ms},
968 for (i = 0; i < RTE_DIM(parsermap); i++) {
969 if (strncmp(lgopts[opt_idx].name, parsermap[i].lgopt_name,
970 strlen(lgopts[opt_idx].name)) == 0)
971 return parsermap[i].parser_fn(opts, optarg);
978 cperf_options_parse(struct cperf_options *options, int argc, char **argv)
980 int opt, retval, opt_idx;
982 while ((opt = getopt_long(argc, argv, "h", lgopts, &opt_idx)) != EOF) {
986 rte_exit(EXIT_SUCCESS, "Displayed help\n");
990 retval = cperf_opts_parse_long(opt_idx, options);
1006 check_cipher_buffer_length(struct cperf_options *options)
1008 uint32_t buffer_size, buffer_size_idx = 0;
1010 if (options->cipher_algo == RTE_CRYPTO_CIPHER_AES_CBC ||
1011 options->cipher_algo == RTE_CRYPTO_CIPHER_AES_ECB) {
1012 if (options->inc_buffer_size != 0)
1013 buffer_size = options->min_buffer_size;
1015 buffer_size = options->buffer_size_list[0];
1017 while (buffer_size <= options->max_buffer_size) {
1018 if ((buffer_size % AES_BLOCK_SIZE) != 0) {
1019 RTE_LOG(ERR, USER1, "Some of the buffer sizes are "
1020 "not suitable for the algorithm selected\n");
1024 if (options->inc_buffer_size != 0)
1025 buffer_size += options->inc_buffer_size;
1027 if (++buffer_size_idx == options->buffer_size_count)
1029 buffer_size = options->buffer_size_list[buffer_size_idx];
1035 if (options->cipher_algo == RTE_CRYPTO_CIPHER_DES_CBC ||
1036 options->cipher_algo == RTE_CRYPTO_CIPHER_3DES_CBC ||
1037 options->cipher_algo == RTE_CRYPTO_CIPHER_3DES_ECB) {
1038 if (options->inc_buffer_size != 0)
1039 buffer_size = options->min_buffer_size;
1041 buffer_size = options->buffer_size_list[0];
1043 while (buffer_size <= options->max_buffer_size) {
1044 if ((buffer_size % DES_BLOCK_SIZE) != 0) {
1045 RTE_LOG(ERR, USER1, "Some of the buffer sizes are "
1046 "not suitable for the algorithm selected\n");
1050 if (options->inc_buffer_size != 0)
1051 buffer_size += options->inc_buffer_size;
1053 if (++buffer_size_idx == options->buffer_size_count)
1055 buffer_size = options->buffer_size_list[buffer_size_idx];
1064 #ifdef RTE_LIB_SECURITY
1066 check_docsis_buffer_length(struct cperf_options *options)
1068 uint32_t buffer_size, buffer_size_idx = 0;
1070 if (options->inc_buffer_size != 0)
1071 buffer_size = options->min_buffer_size;
1073 buffer_size = options->buffer_size_list[0];
1075 while (buffer_size <= options->max_buffer_size) {
1076 if (buffer_size < (uint32_t)(options->docsis_hdr_sz +
1077 RTE_ETHER_HDR_LEN + RTE_ETHER_CRC_LEN)) {
1078 RTE_LOG(ERR, USER1, "Some of the buffer sizes are not "
1079 "valid for DOCSIS\n");
1083 if (options->inc_buffer_size != 0)
1084 buffer_size += options->inc_buffer_size;
1086 if (++buffer_size_idx == options->buffer_size_count)
1089 options->buffer_size_list[buffer_size_idx];
1098 cperf_options_check(struct cperf_options *options)
1100 if (options->op_type == CPERF_CIPHER_ONLY ||
1101 options->op_type == CPERF_DOCSIS)
1102 options->digest_sz = 0;
1104 if (options->out_of_place &&
1105 options->segment_sz <= options->max_buffer_size) {
1106 RTE_LOG(ERR, USER1, "Out of place mode can only work "
1107 "with non segmented buffers\n");
1112 * If segment size is not set, assume only one segment,
1113 * big enough to contain the largest buffer and the digest
1115 if (options->segment_sz == 0)
1116 options->segment_sz = options->max_buffer_size +
1119 if (options->segment_sz < options->digest_sz) {
1121 "Segment size should be at least "
1122 "the size of the digest\n");
1126 if ((options->imix_distribution_count != 0) &&
1127 (options->imix_distribution_count !=
1128 options->buffer_size_count)) {
1129 RTE_LOG(ERR, USER1, "IMIX distribution must have the same "
1130 "number of buffer sizes\n");
1134 if (options->test == CPERF_TEST_TYPE_VERIFY &&
1135 options->test_file == NULL) {
1136 RTE_LOG(ERR, USER1, "Define path to the file with test"
1141 if (options->test == CPERF_TEST_TYPE_VERIFY &&
1142 options->op_type != CPERF_CIPHER_ONLY &&
1143 options->test_name == NULL) {
1144 RTE_LOG(ERR, USER1, "Define test name to get the correct digest"
1145 " from the test vectors.\n");
1149 if (options->test_name != NULL && options->test_file == NULL) {
1150 RTE_LOG(ERR, USER1, "Define path to the file with test"
1155 if (options->auth_op == RTE_CRYPTO_AUTH_OP_VERIFY &&
1156 options->test_file == NULL) {
1157 RTE_LOG(ERR, USER1, "Define path to the file with test"
1162 if (options->test == CPERF_TEST_TYPE_VERIFY &&
1163 (options->inc_buffer_size != 0 ||
1164 options->buffer_size_count > 1)) {
1165 RTE_LOG(ERR, USER1, "Only one buffer size is allowed when "
1166 "using the verify test.\n");
1170 if (options->test == CPERF_TEST_TYPE_VERIFY &&
1171 (options->inc_burst_size != 0 ||
1172 options->burst_size_count > 1)) {
1173 RTE_LOG(ERR, USER1, "Only one burst size is allowed when "
1174 "using the verify test.\n");
1178 if (options->test == CPERF_TEST_TYPE_PMDCC &&
1179 options->pool_sz < options->nb_descriptors) {
1180 RTE_LOG(ERR, USER1, "For pmd cyclecount benchmarks, pool size "
1181 "must be equal or greater than the number of "
1182 "cryptodev descriptors.\n");
1186 if (options->test == CPERF_TEST_TYPE_VERIFY &&
1187 options->imix_distribution_count > 0) {
1188 RTE_LOG(ERR, USER1, "IMIX is not allowed when "
1189 "using the verify test.\n");
1193 if (options->op_type == CPERF_CIPHER_THEN_AUTH) {
1194 if (options->cipher_op != RTE_CRYPTO_CIPHER_OP_ENCRYPT &&
1196 RTE_CRYPTO_AUTH_OP_GENERATE) {
1197 RTE_LOG(ERR, USER1, "Option cipher then auth must use"
1198 " options: encrypt and generate.\n");
1201 } else if (options->op_type == CPERF_AUTH_THEN_CIPHER) {
1202 if (options->cipher_op != RTE_CRYPTO_CIPHER_OP_DECRYPT &&
1204 RTE_CRYPTO_AUTH_OP_VERIFY) {
1205 RTE_LOG(ERR, USER1, "Option auth then cipher must use"
1206 " options: decrypt and verify.\n");
1211 if (options->op_type == CPERF_CIPHER_ONLY ||
1212 options->op_type == CPERF_CIPHER_THEN_AUTH ||
1213 options->op_type == CPERF_AUTH_THEN_CIPHER) {
1214 if (check_cipher_buffer_length(options) < 0)
1218 #ifdef RTE_LIB_SECURITY
1219 if (options->op_type == CPERF_DOCSIS) {
1220 if (check_docsis_buffer_length(options) < 0)
1229 cperf_options_dump(struct cperf_options *opts)
1233 printf("# Crypto Performance Application Options:\n");
1235 printf("# cperf test: %s\n", cperf_test_type_strs[opts->test]);
1237 printf("# size of crypto op / mbuf pool: %u\n", opts->pool_sz);
1238 printf("# total number of ops: %u\n", opts->total_ops);
1239 if (opts->inc_buffer_size != 0) {
1240 printf("# buffer size:\n");
1241 printf("#\t min: %u\n", opts->min_buffer_size);
1242 printf("#\t max: %u\n", opts->max_buffer_size);
1243 printf("#\t inc: %u\n", opts->inc_buffer_size);
1245 printf("# buffer sizes: ");
1246 for (size_idx = 0; size_idx < opts->buffer_size_count; size_idx++)
1247 printf("%u ", opts->buffer_size_list[size_idx]);
1250 if (opts->inc_burst_size != 0) {
1251 printf("# burst size:\n");
1252 printf("#\t min: %u\n", opts->min_burst_size);
1253 printf("#\t max: %u\n", opts->max_burst_size);
1254 printf("#\t inc: %u\n", opts->inc_burst_size);
1256 printf("# burst sizes: ");
1257 for (size_idx = 0; size_idx < opts->burst_size_count; size_idx++)
1258 printf("%u ", opts->burst_size_list[size_idx]);
1261 printf("\n# segment size: %u\n", opts->segment_sz);
1263 printf("# cryptodev type: %s\n", opts->device_type);
1265 printf("# number of queue pairs per device: %u\n", opts->nb_qps);
1266 printf("# crypto operation: %s\n", cperf_op_type_strs[opts->op_type]);
1267 printf("# sessionless: %s\n", opts->sessionless ? "yes" : "no");
1268 printf("# out of place: %s\n", opts->out_of_place ? "yes" : "no");
1269 if (opts->test == CPERF_TEST_TYPE_PMDCC)
1270 printf("# inter-burst delay: %u ms\n", opts->pmdcc_delay);
1274 if (opts->op_type == CPERF_AUTH_ONLY ||
1275 opts->op_type == CPERF_CIPHER_THEN_AUTH ||
1276 opts->op_type == CPERF_AUTH_THEN_CIPHER) {
1277 printf("# auth algorithm: %s\n",
1278 rte_crypto_auth_algorithm_strings[opts->auth_algo]);
1279 printf("# auth operation: %s\n",
1280 rte_crypto_auth_operation_strings[opts->auth_op]);
1281 printf("# auth key size: %u\n", opts->auth_key_sz);
1282 printf("# auth iv size: %u\n", opts->auth_iv_sz);
1283 printf("# auth digest size: %u\n", opts->digest_sz);
1287 if (opts->op_type == CPERF_CIPHER_ONLY ||
1288 opts->op_type == CPERF_CIPHER_THEN_AUTH ||
1289 opts->op_type == CPERF_AUTH_THEN_CIPHER) {
1290 printf("# cipher algorithm: %s\n",
1291 rte_crypto_cipher_algorithm_strings[opts->cipher_algo]);
1292 printf("# cipher operation: %s\n",
1293 rte_crypto_cipher_operation_strings[opts->cipher_op]);
1294 printf("# cipher key size: %u\n", opts->cipher_key_sz);
1295 printf("# cipher iv size: %u\n", opts->cipher_iv_sz);
1299 if (opts->op_type == CPERF_AEAD) {
1300 printf("# aead algorithm: %s\n",
1301 rte_crypto_aead_algorithm_strings[opts->aead_algo]);
1302 printf("# aead operation: %s\n",
1303 rte_crypto_aead_operation_strings[opts->aead_op]);
1304 printf("# aead key size: %u\n", opts->aead_key_sz);
1305 printf("# aead iv size: %u\n", opts->aead_iv_sz);
1306 printf("# aead digest size: %u\n", opts->digest_sz);
1307 printf("# aead aad size: %u\n", opts->aead_aad_sz);
1311 #ifdef RTE_LIB_SECURITY
1312 if (opts->op_type == CPERF_DOCSIS) {
1313 printf("# docsis header size: %u\n", opts->docsis_hdr_sz);