1 /* SPDX-License-Identifier: BSD-3-Clause
2 * Copyright 2018, Olivier MATZ <zer0@droids-corp.org>
11 #include <ecoli_string.h>
12 #include <ecoli_malloc.h>
13 #include <ecoli_keyval.h>
14 #include <ecoli_node.h>
15 #include <ecoli_log.h>
16 #include <ecoli_test.h>
17 #include <ecoli_config.h>
19 EC_LOG_TYPE_REGISTER(config);
21 const char *ec_config_reserved_keys[] = {
29 __ec_config_dump(FILE *out, const char *key, const struct ec_config *config,
32 ec_config_dict_validate(const struct ec_keyval *dict,
33 const struct ec_config_schema *schema);
36 ec_config_key_is_reserved(const char *name)
40 for (i = 0; i < EC_COUNT_OF(ec_config_reserved_keys); i++) {
41 if (!strcmp(name, ec_config_reserved_keys[i]))
47 /* return ec_value type as a string */
49 ec_config_type_str(enum ec_config_type type)
52 case EC_CONFIG_TYPE_BOOL: return "bool";
53 case EC_CONFIG_TYPE_INT64: return "int64";
54 case EC_CONFIG_TYPE_UINT64: return "uint64";
55 case EC_CONFIG_TYPE_STRING: return "string";
56 case EC_CONFIG_TYPE_NODE: return "node";
57 case EC_CONFIG_TYPE_LIST: return "list";
58 case EC_CONFIG_TYPE_DICT: return "dict";
59 default: return "unknown";
64 ec_config_schema_len(const struct ec_config_schema *schema)
70 for (i = 0; schema[i].type != EC_CONFIG_TYPE_NONE; i++)
76 __ec_config_schema_validate(const struct ec_config_schema *schema,
77 enum ec_config_type type)
82 if (type == EC_CONFIG_TYPE_LIST) {
83 if (schema[0].key != NULL) {
85 EC_LOG(EC_LOG_ERR, "list schema key must be NULL\n");
88 } else if (type == EC_CONFIG_TYPE_DICT) {
89 for (i = 0; schema[i].type != EC_CONFIG_TYPE_NONE; i++) {
90 if (schema[i].key == NULL) {
93 "dict schema key should not be NULL\n");
99 EC_LOG(EC_LOG_ERR, "invalid schema type\n");
103 for (i = 0; schema[i].type != EC_CONFIG_TYPE_NONE; i++) {
104 if (schema[i].key != NULL &&
105 ec_config_key_is_reserved(schema[i].key)) {
108 "key name <%s> is reserved\n", schema[i].key);
111 /* check for duplicate name if more than one element */
112 for (j = i + 1; schema[j].type != EC_CONFIG_TYPE_NONE; j++) {
113 if (!strcmp(schema[i].key, schema[j].key)) {
116 "duplicate key <%s> in schema\n",
122 switch (schema[i].type) {
123 case EC_CONFIG_TYPE_BOOL:
124 case EC_CONFIG_TYPE_INT64:
125 case EC_CONFIG_TYPE_UINT64:
126 case EC_CONFIG_TYPE_STRING:
127 case EC_CONFIG_TYPE_NODE:
128 if (schema[i].subschema != NULL || ec_config_schema_len(
129 schema[i].subschema) != 0) {
132 "key <%s> should not have subtype/subschema\n",
137 case EC_CONFIG_TYPE_LIST:
138 if (schema[i].subschema == NULL || ec_config_schema_len(
139 schema[i].subschema) != 1) {
142 "key <%s> must have subschema of length 1\n",
147 case EC_CONFIG_TYPE_DICT:
148 if (schema[i].subschema == NULL || ec_config_schema_len(
149 schema[i].subschema) == 0) {
152 "key <%s> must have subschema\n",
158 EC_LOG(EC_LOG_ERR, "invalid type for key <%s>\n",
164 if (schema[i].subschema == NULL)
167 ret = __ec_config_schema_validate(schema[i].subschema,
170 EC_LOG(EC_LOG_ERR, "cannot parse subschema %s%s\n",
171 schema[i].key ? "key=" : "",
172 schema[i].key ? : "");
181 ec_config_schema_validate(const struct ec_config_schema *schema)
183 return __ec_config_schema_validate(schema, EC_CONFIG_TYPE_DICT);
187 __ec_config_schema_dump(FILE *out, const struct ec_config_schema *schema,
192 for (i = 0; schema[i].type != EC_CONFIG_TYPE_NONE; i++) {
193 fprintf(out, "%*s" "%s%s%stype=%s desc='%s'\n",
195 schema[i].key ? "key=": "",
196 schema[i].key ? : "",
197 schema[i].key ? " ": "",
198 ec_config_type_str(schema[i].type),
200 if (schema[i].subschema == NULL)
202 __ec_config_schema_dump(out, schema[i].subschema,
208 ec_config_schema_dump(FILE *out, const struct ec_config_schema *schema)
210 fprintf(out, "------------------- schema dump:\n");
212 if (schema == NULL) {
213 fprintf(out, "no schema\n");
217 __ec_config_schema_dump(out, schema, 0);
220 enum ec_config_type ec_config_get_type(const struct ec_config *config)
226 ec_config_bool(bool boolean)
228 struct ec_config *value = NULL;
230 value = ec_calloc(1, sizeof(*value));
234 value->type = EC_CONFIG_TYPE_BOOL;
235 value->boolean = boolean;
241 ec_config_i64(int64_t i64)
243 struct ec_config *value = NULL;
245 value = ec_calloc(1, sizeof(*value));
249 value->type = EC_CONFIG_TYPE_INT64;
256 ec_config_u64(uint64_t u64)
258 struct ec_config *value = NULL;
260 value = ec_calloc(1, sizeof(*value));
264 value->type = EC_CONFIG_TYPE_UINT64;
270 /* duplicate string */
272 ec_config_string(const char *string)
274 struct ec_config *value = NULL;
280 s = ec_strdup(string);
284 value = ec_calloc(1, sizeof(*value));
288 value->type = EC_CONFIG_TYPE_STRING;
299 /* "consume" the node */
301 ec_config_node(struct ec_node *node)
303 struct ec_config *value = NULL;
308 value = ec_calloc(1, sizeof(*value));
312 value->type = EC_CONFIG_TYPE_NODE;
326 struct ec_config *value = NULL;
327 struct ec_keyval *dict = NULL;
333 value = ec_calloc(1, sizeof(*value));
337 value->type = EC_CONFIG_TYPE_DICT;
343 ec_keyval_free(dict);
351 struct ec_config *value = NULL;
353 value = ec_calloc(1, sizeof(*value));
357 value->type = EC_CONFIG_TYPE_LIST;
358 TAILQ_INIT(&value->list);
363 const struct ec_config_schema *
364 ec_config_schema_lookup(const struct ec_config_schema *schema,
369 for (i = 0; schema[i].type != EC_CONFIG_TYPE_NONE; i++) {
370 if (!strcmp(key, schema[i].key))
379 ec_config_schema_type(const struct ec_config_schema *schema_elt)
381 return schema_elt->type;
384 const struct ec_config_schema *
385 ec_config_schema_sub(const struct ec_config_schema *schema_elt)
387 return schema_elt->subschema;
391 ec_config_free(struct ec_config *value)
396 switch (value->type) {
397 case EC_CONFIG_TYPE_STRING:
398 ec_free(value->string);
400 case EC_CONFIG_TYPE_NODE:
401 ec_node_free(value->node);
403 case EC_CONFIG_TYPE_LIST:
404 while (!TAILQ_EMPTY(&value->list)) {
406 v = TAILQ_FIRST(&value->list);
407 TAILQ_REMOVE(&value->list, v, next);
411 case EC_CONFIG_TYPE_DICT:
412 ec_keyval_free(value->dict);
422 ec_config_list_cmp(const struct ec_config_list *list1,
423 const struct ec_config_list *list2)
425 const struct ec_config *v1, *v2;
427 for (v1 = TAILQ_FIRST(list1), v2 = TAILQ_FIRST(list2);
428 v1 != NULL && v2 != NULL;
429 v1 = TAILQ_NEXT(v1, next), v2 = TAILQ_NEXT(v2, next)) {
430 if (ec_config_cmp(v1, v2))
433 if (v1 != NULL || v2 != NULL)
439 /* XXX -> ec_keyval_cmp() */
441 ec_config_dict_cmp(const struct ec_keyval *d1,
442 const struct ec_keyval *d2)
444 const struct ec_config *v1, *v2;
445 struct ec_keyval_iter *iter = NULL;
448 if (ec_keyval_len(d1) != ec_keyval_len(d2))
451 for (iter = ec_keyval_iter(d1);
452 ec_keyval_iter_valid(iter);
453 ec_keyval_iter_next(iter)) {
454 key = ec_keyval_iter_get_key(iter);
455 v1 = ec_keyval_iter_get_val(iter);
456 v2 = ec_keyval_get(d2, key);
458 if (ec_config_cmp(v1, v2))
462 ec_keyval_iter_free(iter);
466 ec_keyval_iter_free(iter);
471 ec_config_cmp(const struct ec_config *value1,
472 const struct ec_config *value2)
474 if (value1 == NULL || value2 == NULL) {
479 if (value1->type != value2->type)
482 switch (value1->type) {
483 case EC_CONFIG_TYPE_BOOL:
484 if (value1->boolean == value2->boolean)
486 case EC_CONFIG_TYPE_INT64:
487 if (value1->i64 == value2->i64)
489 case EC_CONFIG_TYPE_UINT64:
490 if (value1->u64 == value2->u64)
492 case EC_CONFIG_TYPE_STRING:
493 if (!strcmp(value1->string, value2->string))
495 case EC_CONFIG_TYPE_NODE:
496 if (value1->node == value2->node)
498 case EC_CONFIG_TYPE_LIST:
499 return ec_config_list_cmp(&value1->list, &value2->list);
500 case EC_CONFIG_TYPE_DICT:
501 return ec_config_dict_cmp(value1->dict, value2->dict);
510 ec_config_list_validate(const struct ec_config_list *list,
511 const struct ec_config_schema *sch)
513 const struct ec_config *value;
515 TAILQ_FOREACH(value, list, next) {
516 if (value->type != sch->type) {
521 if (value->type == EC_CONFIG_TYPE_LIST) {
522 if (ec_config_list_validate(&value->list,
525 } else if (value->type == EC_CONFIG_TYPE_DICT) {
526 if (ec_config_dict_validate(value->dict,
536 ec_config_dict_validate(const struct ec_keyval *dict,
537 const struct ec_config_schema *schema)
539 const struct ec_config *value;
540 struct ec_keyval_iter *iter = NULL;
541 const struct ec_config_schema *sch;
544 for (iter = ec_keyval_iter(dict);
545 ec_keyval_iter_valid(iter);
546 ec_keyval_iter_next(iter)) {
548 key = ec_keyval_iter_get_key(iter);
549 value = ec_keyval_iter_get_val(iter);
550 sch = ec_config_schema_lookup(schema, key);
551 if (sch == NULL || sch->type != value->type) {
555 if (value->type == EC_CONFIG_TYPE_LIST) {
556 if (ec_config_list_validate(&value->list,
559 } else if (value->type == EC_CONFIG_TYPE_DICT) {
560 if (ec_config_dict_validate(value->dict,
566 ec_keyval_iter_free(iter);
570 ec_keyval_iter_free(iter);
575 ec_config_validate(const struct ec_config *dict,
576 const struct ec_config_schema *schema)
578 if (dict->type != EC_CONFIG_TYPE_DICT || schema == NULL) {
583 if (ec_config_dict_validate(dict->dict, schema) < 0)
593 ec_config_dict_get(const struct ec_config *config, const char *key)
595 if (config == NULL) {
600 if (config->type != EC_CONFIG_TYPE_DICT) {
605 return ec_keyval_get(config->dict, key);
609 ec_config_list_first(struct ec_config *list)
611 if (list == NULL || list->type != EC_CONFIG_TYPE_LIST) {
616 return TAILQ_FIRST(&list->list);
620 ec_config_list_next(struct ec_config *list, struct ec_config *config)
623 return TAILQ_NEXT(config, next);
626 /* value is consumed */
627 int ec_config_dict_set(struct ec_config *config, const char *key,
628 struct ec_config *value)
630 void (*free_cb)(struct ec_config *) = ec_config_free;
632 if (config == NULL || key == NULL || value == NULL) {
636 if (config->type != EC_CONFIG_TYPE_DICT) {
641 return ec_keyval_set(config->dict, key, value,
642 (void (*)(void *))free_cb);
645 ec_config_free(value);
649 int ec_config_dict_del(struct ec_config *config, const char *key)
651 if (config == NULL || key == NULL) {
655 if (config->type != EC_CONFIG_TYPE_DICT) {
660 return ec_keyval_del(config->dict, key);
663 /* value is consumed */
665 ec_config_list_add(struct ec_config *list,
666 struct ec_config *value)
668 if (list == NULL || list->type != EC_CONFIG_TYPE_LIST || value == NULL) {
673 TAILQ_INSERT_TAIL(&list->list, value, next);
678 ec_config_free(value);
682 int ec_config_list_del(struct ec_config *list, struct ec_config *config)
684 if (list == NULL || list->type != EC_CONFIG_TYPE_LIST) {
689 TAILQ_REMOVE(&list->list, config, next);
690 ec_config_free(config);
694 static struct ec_config *
695 ec_config_list_dup(const struct ec_config_list *list)
697 struct ec_config *dup = NULL, *v, *value;
699 dup = ec_config_list();
703 TAILQ_FOREACH(v, list, next) {
704 value = ec_config_dup(v);
707 if (ec_config_list_add(dup, value) < 0)
718 static struct ec_config *
719 ec_config_dict_dup(const struct ec_keyval *dict)
721 struct ec_config *dup = NULL, *value;
722 struct ec_keyval_iter *iter = NULL;
725 dup = ec_config_dict();
729 for (iter = ec_keyval_iter(dict);
730 ec_keyval_iter_valid(iter);
731 ec_keyval_iter_next(iter)) {
732 key = ec_keyval_iter_get_key(iter);
733 value = ec_config_dup(ec_keyval_iter_get_val(iter));
736 if (ec_config_dict_set(dup, key, value) < 0)
739 ec_keyval_iter_free(iter);
745 ec_keyval_iter_free(iter);
750 ec_config_dup(const struct ec_config *config)
752 if (config == NULL) {
757 switch (config->type) {
758 case EC_CONFIG_TYPE_BOOL:
759 return ec_config_bool(config->boolean);
760 case EC_CONFIG_TYPE_INT64:
761 return ec_config_i64(config->i64);
762 case EC_CONFIG_TYPE_UINT64:
763 return ec_config_u64(config->u64);
764 case EC_CONFIG_TYPE_STRING:
765 return ec_config_string(config->string);
766 case EC_CONFIG_TYPE_NODE:
767 return ec_config_node(ec_node_clone(config->node));
768 case EC_CONFIG_TYPE_LIST:
769 return ec_config_list_dup(&config->list);
770 case EC_CONFIG_TYPE_DICT:
771 return ec_config_dict_dup(config->dict);
781 ec_config_list_dump(FILE *out, const struct ec_config_list *list,
784 const struct ec_config *v;
786 fprintf(out, "%*s" "type=list:\n", (int)indent * 4, "");
788 TAILQ_FOREACH(v, list, next) {
789 if (__ec_config_dump(out, NULL, v, indent + 1) < 0)
797 ec_config_dict_dump(FILE *out, const struct ec_keyval *dict,
800 const struct ec_config *value;
801 struct ec_keyval_iter *iter;
804 fprintf(out, "%*s" "type=dict:\n", (int)indent * 4, "");
805 for (iter = ec_keyval_iter(dict);
806 ec_keyval_iter_valid(iter);
807 ec_keyval_iter_next(iter)) {
808 key = ec_keyval_iter_get_key(iter);
809 value = ec_keyval_iter_get_val(iter);
810 if (__ec_config_dump(out, key, value, indent + 1) < 0)
813 ec_keyval_iter_free(iter);
817 ec_keyval_iter_free(iter);
822 __ec_config_dump(FILE *out, const char *key, const struct ec_config *value,
825 char *val_str = NULL;
827 switch (value->type) {
828 case EC_CONFIG_TYPE_BOOL:
830 ec_asprintf(&val_str, "true");
832 ec_asprintf(&val_str, "false");
834 case EC_CONFIG_TYPE_INT64:
835 ec_asprintf(&val_str, "%"PRIu64, value->u64);
837 case EC_CONFIG_TYPE_UINT64:
838 ec_asprintf(&val_str, "%"PRIi64, value->i64);
840 case EC_CONFIG_TYPE_STRING:
841 ec_asprintf(&val_str, "%s", value->string);
843 case EC_CONFIG_TYPE_NODE:
844 ec_asprintf(&val_str, "%p", value->node);
846 case EC_CONFIG_TYPE_LIST:
847 return ec_config_list_dump(out, &value->list, indent);
848 case EC_CONFIG_TYPE_DICT:
849 return ec_config_dict_dump(out, value->dict, indent);
855 /* errno is already set on error */
859 fprintf(out, "%*s" "%s%s%stype=%s val=%s\n", (int)indent * 4, "",
863 ec_config_type_str(value->type), val_str);
874 ec_config_dump(FILE *out, const struct ec_config *config)
876 fprintf(out, "------------------- config dump:\n");
878 if (config == NULL) {
879 fprintf(out, "no config\n");
883 if (__ec_config_dump(out, NULL, config, 0) < 0)
884 fprintf(out, "error while dumping\n");
887 /* LCOV_EXCL_START */
888 static const struct ec_config_schema sch_intlist_elt[] = {
890 .desc = "This is a description for int",
891 .type = EC_CONFIG_TYPE_INT64,
894 .type = EC_CONFIG_TYPE_NONE,
898 static const struct ec_config_schema sch_dict[] = {
901 .desc = "This is a description for int",
902 .type = EC_CONFIG_TYPE_INT64,
906 .desc = "This is a description for int2",
907 .type = EC_CONFIG_TYPE_INT64,
910 .type = EC_CONFIG_TYPE_NONE,
914 static const struct ec_config_schema sch_dictlist_elt[] = {
916 .desc = "This is a description for dict",
917 .type = EC_CONFIG_TYPE_DICT,
918 .subschema = sch_dict,
921 .type = EC_CONFIG_TYPE_NONE,
925 static const struct ec_config_schema sch_baseconfig[] = {
928 .desc = "This is a description for bool",
929 .type = EC_CONFIG_TYPE_BOOL,
933 .desc = "This is a description for int",
934 .type = EC_CONFIG_TYPE_INT64,
938 .desc = "This is a description for string",
939 .type = EC_CONFIG_TYPE_STRING,
943 .desc = "This is a description for node",
944 .type = EC_CONFIG_TYPE_NODE,
948 .desc = "This is a description for list",
949 .type = EC_CONFIG_TYPE_LIST,
950 .subschema = sch_intlist_elt,
953 .key = "my_dictlist",
954 .desc = "This is a description for list",
955 .type = EC_CONFIG_TYPE_LIST,
956 .subschema = sch_dictlist_elt,
959 .type = EC_CONFIG_TYPE_NONE,
963 static int ec_config_testcase(void)
965 struct ec_node *node = NULL;
966 struct ec_keyval *dict = NULL;
967 const struct ec_config *value = NULL;
968 struct ec_config *config = NULL, *config2 = NULL;
969 struct ec_config *list = NULL, *subconfig = NULL;
970 struct ec_config *list_, *config_;
974 testres |= EC_TEST_CHECK(ec_config_key_is_reserved("id"),
975 "'id' should be reserved");
976 testres |= EC_TEST_CHECK(!ec_config_key_is_reserved("foo"),
977 "'foo' should not be reserved");
979 node = ec_node("empty", EC_NO_ID);
983 if (ec_config_schema_validate(sch_baseconfig) < 0) {
984 EC_LOG(EC_LOG_ERR, "invalid config schema\n");
988 ec_config_schema_dump(stdout, sch_baseconfig);
990 config = ec_config_dict();
994 ret = ec_config_dict_set(config, "my_bool", ec_config_bool(true));
995 testres |= EC_TEST_CHECK(ret == 0, "cannot set boolean");
996 value = ec_config_dict_get(config, "my_bool");
997 testres |= EC_TEST_CHECK(
999 value->type == EC_CONFIG_TYPE_BOOL &&
1000 value->boolean == true,
1001 "unexpected boolean value");
1003 ret = ec_config_dict_set(config, "my_int", ec_config_i64(1234));
1004 testres |= EC_TEST_CHECK(ret == 0, "cannot set int");
1005 value = ec_config_dict_get(config, "my_int");
1006 testres |= EC_TEST_CHECK(
1008 value->type == EC_CONFIG_TYPE_INT64 &&
1010 "unexpected int value");
1012 testres |= EC_TEST_CHECK(
1013 ec_config_validate(config, sch_baseconfig) == 0,
1014 "cannot validate config\n");
1016 ret = ec_config_dict_set(config, "my_string", ec_config_string("toto"));
1017 testres |= EC_TEST_CHECK(ret == 0, "cannot set string");
1018 value = ec_config_dict_get(config, "my_string");
1019 testres |= EC_TEST_CHECK(
1021 value->type == EC_CONFIG_TYPE_STRING &&
1022 !strcmp(value->string, "toto"),
1023 "unexpected string value");
1025 list = ec_config_list();
1029 subconfig = ec_config_dict();
1030 if (subconfig == NULL)
1033 ret = ec_config_dict_set(subconfig, "my_int", ec_config_i64(1));
1034 testres |= EC_TEST_CHECK(ret == 0, "cannot set int");
1035 value = ec_config_dict_get(subconfig, "my_int");
1036 testres |= EC_TEST_CHECK(
1038 value->type == EC_CONFIG_TYPE_INT64 &&
1040 "unexpected int value");
1042 ret = ec_config_dict_set(subconfig, "my_int2", ec_config_i64(2));
1043 testres |= EC_TEST_CHECK(ret == 0, "cannot set int");
1044 value = ec_config_dict_get(subconfig, "my_int2");
1045 testres |= EC_TEST_CHECK(
1047 value->type == EC_CONFIG_TYPE_INT64 &&
1049 "unexpected int value");
1051 testres |= EC_TEST_CHECK(
1052 ec_config_validate(subconfig, sch_dict) == 0,
1053 "cannot validate subconfig\n");
1055 ret = ec_config_list_add(list, subconfig);
1056 subconfig = NULL; /* freed */
1057 testres |= EC_TEST_CHECK(ret == 0, "cannot add in list");
1059 subconfig = ec_config_dict();
1060 if (subconfig == NULL)
1063 ret = ec_config_dict_set(subconfig, "my_int", ec_config_i64(3));
1064 testres |= EC_TEST_CHECK(ret == 0, "cannot set int");
1065 value = ec_config_dict_get(subconfig, "my_int");
1066 testres |= EC_TEST_CHECK(
1068 value->type == EC_CONFIG_TYPE_INT64 &&
1070 "unexpected int value");
1072 ret = ec_config_dict_set(subconfig, "my_int2", ec_config_i64(4));
1073 testres |= EC_TEST_CHECK(ret == 0, "cannot set int");
1074 value = ec_config_dict_get(subconfig, "my_int2");
1075 testres |= EC_TEST_CHECK(
1077 value->type == EC_CONFIG_TYPE_INT64 &&
1079 "unexpected int value");
1081 testres |= EC_TEST_CHECK(
1082 ec_config_validate(subconfig, sch_dict) == 0,
1083 "cannot validate subconfig\n");
1085 ret = ec_config_list_add(list, subconfig);
1086 subconfig = NULL; /* freed */
1087 testres |= EC_TEST_CHECK(ret == 0, "cannot add in list");
1089 ret = ec_config_dict_set(config, "my_dictlist", list);
1091 testres |= EC_TEST_CHECK(ret == 0, "cannot set list");
1093 testres |= EC_TEST_CHECK(
1094 ec_config_validate(config, sch_baseconfig) == 0,
1095 "cannot validate config\n");
1097 list_ = ec_config_dict_get(config, "my_dictlist");
1098 for (config_ = ec_config_list_first(list_); config_ != NULL;
1099 config_ = ec_config_list_next(list_, config_)) {
1100 ec_config_dump(stdout, config_);
1103 ec_config_dump(stdout, config);
1105 config2 = ec_config_dup(config);
1106 testres |= EC_TEST_CHECK(config2 != NULL, "cannot duplicate config");
1107 testres |= EC_TEST_CHECK(
1108 ec_config_cmp(config, config2) == 0,
1109 "fail to compare config");
1110 ec_config_free(config2);
1113 /* remove the first element */
1114 ec_config_list_del(list_, ec_config_list_first(list_));
1115 testres |= EC_TEST_CHECK(
1116 ec_config_validate(config, sch_baseconfig) == 0,
1117 "cannot validate config\n");
1119 ec_config_dump(stdout, config);
1121 ec_config_free(list);
1122 ec_config_free(subconfig);
1123 ec_config_free(config);
1124 ec_keyval_free(dict);
1130 ec_config_free(list);
1131 ec_config_free(subconfig);
1132 ec_config_free(config);
1133 ec_config_free(config2);
1134 ec_keyval_free(dict);
1139 /* LCOV_EXCL_STOP */
1141 static struct ec_test ec_config_test = {
1143 .test = ec_config_testcase,
1146 EC_TEST_REGISTER(ec_config_test);