/* ** Zabbix ** Copyright (C) 2001-2023 Zabbix SIA ** ** This program is free software; you can redistribute it and/or modify ** it under the terms of the GNU General Public License as published by ** the Free Software Foundation; either version 2 of the License, or ** (at your option) any later version. ** ** This program is distributed in the hope that it will be useful, ** but WITHOUT ANY WARRANTY; without even the implied warranty of ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ** GNU General Public License for more details. ** ** You should have received a copy of the GNU General Public License ** along with this program; if not, write to the Free Software ** Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. **/ #include "zbxmockassert.h" #include "zbxmockdata.h" #include "zbxmockutil.h" #include "valuecache_mock.h" #include "zbxcachevalue.h" #include "zbxnum.h" #include "zbxlog.h" #include "zbxmutexs.h" #include "zbxshmem.h" #include "zbxalgo.h" #include "zbxhistory.h" #include "history.h" #include "zbxcacheconfig.h" #include "zbx_dbversion_constants.h" #include #include /* * data source */ static zbx_vcmock_ds_t vc_ds; static zbx_timespec_t vcmock_ts; int __wrap_zbx_mutex_create(zbx_mutex_t *mutex, zbx_mutex_name_t name, char **error); void __wrap_zbx_mutex_destroy(zbx_mutex_t *mutex); int __wrap_zbx_shmem_create(zbx_shmem_info_t **info, zbx_uint64_t size, const char *descr, const char *param, int allow_oom, char **error); void __wrap_zbx_shmem_destroy(zbx_shmem_info_t *info); void *__wrap___zbx_shmem_malloc(const char *file, int line, zbx_shmem_info_t *info, const void *old, size_t size); void *__wrap___zbx_shmem_realloc(const char *file, int line, zbx_shmem_info_t *info, void *old, size_t size); void __wrap___zbx_shmem_free(const char *file, int line, zbx_shmem_info_t *info, void *ptr); void __wrap_zbx_shmem_dump_stats(int level, zbx_shmem_info_t *info); int __wrap_zbx_history_get_values(zbx_uint64_t itemid, int value_type, int start, int count, int end, zbx_vector_history_record_t *values); int __wrap_zbx_history_add_values(const zbx_vector_ptr_t *history); void __wrap_zbx_history_sql_init(zbx_history_iface_t *hist, unsigned char value_type); int __wrap_zbx_history_elastic_init(zbx_history_iface_t *hist, unsigned char value_type, char **error); void __wrap_zbx_elastic_version_extract(void); int __wrap_zbx_elastic_version_get(void); time_t __wrap_time(time_t *ptr); void __wrap_zbx_timespec(zbx_timespec_t *ts); void zbx_vc_set_mode(int mode); /* comparison function to sort history record vector by timestamps in ascending order */ static int history_compare(const void *d1, const void *d2) { zbx_history_record_t *h1 = (zbx_history_record_t *)d1; zbx_history_record_t *h2 = (zbx_history_record_t *)d2; return zbx_timespec_compare(&h1->timestamp, &h2->timestamp); } /****************************************************************************** * * * Purpose: reads history value and timestamp from input data * * * * Parameters: hvalue - [IN] handle to the history record mapping * * value_type - [IN] the value type of the history data * * value - [OUT] the history value * * ts - [OUT] the history value timestamp * * * ******************************************************************************/ static void zbx_vcmock_read_history_value(zbx_mock_handle_t hvalue, unsigned char value_type, zbx_history_value_t *value, zbx_timespec_t *ts) { const char *data; zbx_mock_error_t err; zbx_mock_handle_t handle; handle = zbx_mock_get_object_member_handle(hvalue, "value"); if (ZBX_MOCK_SUCCESS != (err = zbx_mock_string_ex(handle, &data))) fail_msg("Cannot read history value: %s", zbx_mock_error_string(err)); if (ITEM_VALUE_TYPE_LOG != value_type) { switch (value_type) { case ITEM_VALUE_TYPE_STR: case ITEM_VALUE_TYPE_TEXT: value->str = zbx_strdup(NULL, data); break; case ITEM_VALUE_TYPE_UINT64: if (FAIL == zbx_is_uint64(data, &value->ui64)) fail_msg("Invalid uint64 value \"%s\"", data); break; case ITEM_VALUE_TYPE_FLOAT: value->dbl = atof(data); break; case ITEM_VALUE_TYPE_BIN: break; case ITEM_VALUE_TYPE_NONE: default: fail_msg("Unexpected value type: %c", value_type); } } else { zbx_log_value_t *log; log = (zbx_log_value_t *)zbx_malloc(NULL, sizeof(zbx_log_value_t)); log->value = zbx_strdup(NULL, data); log->source = zbx_strdup(NULL, zbx_mock_get_object_member_string(hvalue, "source")); data = zbx_mock_get_object_member_string(hvalue, "logeventid"); if (FAIL == zbx_is_uint32(data, &log->logeventid)) fail_msg("Invalid log logeventid value \"%s\"", data); data = zbx_mock_get_object_member_string(hvalue, "severity"); if (FAIL == zbx_is_uint32(data, &log->severity)) fail_msg("Invalid log severity value \"%s\"", data); data = zbx_mock_get_object_member_string(hvalue, "timestamp"); if (FAIL == zbx_is_uint32(data, &log->timestamp)) fail_msg("Invalid log timestamp value \"%s\"", data); value->log = log; } data = zbx_mock_get_object_member_string(hvalue, "ts"); if (ZBX_MOCK_SUCCESS != (err = zbx_strtime_to_timespec(data, ts))) fail_msg("Invalid value timestamp \"%s\": %s", data, zbx_mock_error_string(err)); } /****************************************************************************** * * * Purpose: reads value cache data store item * * * * Parameters: hvalue - [IN] handle to the history record mapping * * item - [OUT] the data store item * * * ******************************************************************************/ static void zbx_vcmock_ds_read_item(zbx_mock_handle_t hitem, zbx_vcmock_ds_item_t *item) { const char *itemid; itemid = zbx_mock_get_object_member_string(hitem, "itemid"); if (SUCCEED != zbx_is_uint64(itemid, &item->itemid)) fail_msg("Invalid itemid \"%s\"", itemid); item->value_type = zbx_mock_str_to_value_type(zbx_mock_get_object_member_string(hitem, "value type")); zbx_vector_history_record_create(&item->data); zbx_vcmock_read_values(zbx_mock_get_object_member_handle(hitem, "data"), item->value_type, &item->data); zbx_vector_history_record_sort(&item->data, history_compare); } /****************************************************************************** * * * Purpose: duplicates history record * * * * Parameters: src - [IN] source history record * * value_type - [IN] the history record value type * * dst - [OUT] the output record with duplicated data * * * ******************************************************************************/ static void zbx_vcmock_ds_clone_record(const zbx_history_record_t *src, unsigned char value_type, zbx_history_record_t *dst) { zbx_log_value_t *log; dst->timestamp = src->timestamp; switch (value_type) { case ITEM_VALUE_TYPE_FLOAT: case ITEM_VALUE_TYPE_UINT64: dst->value = src->value; break; case ITEM_VALUE_TYPE_STR: case ITEM_VALUE_TYPE_TEXT: dst->value.str = zbx_strdup(NULL, src->value.str); break; case ITEM_VALUE_TYPE_LOG: log = (zbx_log_value_t *)zbx_malloc(NULL, sizeof(zbx_log_value_t)); log->value = zbx_strdup(NULL, src->value.log->value); log->source = zbx_strdup(NULL, src->value.log->source); log->logeventid = src->value.log->logeventid; log->severity = src->value.log->severity; log->timestamp = src->value.log->timestamp; dst->value.log = log; break; case ITEM_VALUE_TYPE_BIN: case ITEM_VALUE_TYPE_NONE: default: fail_msg("Unexpected value type: %c", value_type); } } /****************************************************************************** * * * Purpose: reads historical values from input data * * * * Parameters: hdata - [IN] handle to the history values in input data * * value_type - [IN] the history record value type * * values - [OUT] the read values * * * ******************************************************************************/ void zbx_vcmock_read_values(zbx_mock_handle_t hdata, unsigned char value_type, zbx_vector_history_record_t *values) { zbx_mock_error_t err; zbx_mock_handle_t hvalue; zbx_history_record_t rec; while (ZBX_MOCK_END_OF_VECTOR != (err = (zbx_mock_vector_element(hdata, &hvalue)))) { zbx_vcmock_read_history_value(hvalue, value_type, &rec.value, &rec.timestamp); zbx_vector_history_record_append_ptr(values, &rec); } } /****************************************************************************** * * * Purpose: initializes history data storage * * * * Comments: History data storage is used to emulate history storage backend. * * * ******************************************************************************/ void zbx_vcmock_ds_init(void) { zbx_mock_handle_t hitems, hitem; zbx_mock_error_t err; int items_num = 0; zbx_vcmock_ds_item_t item; if (0 != setenv("TZ", "UTC", 1)) fail_msg("Cannot set 'TZ' environment variable: %s", zbx_strerror(errno)); tzset(); zbx_hashset_create(&vc_ds.items, 10, ZBX_DEFAULT_UINT64_HASH_FUNC, ZBX_DEFAULT_UINT64_COMPARE_FUNC); hitems = zbx_mock_get_parameter_handle("in.history"); while (ZBX_MOCK_END_OF_VECTOR != (err = (zbx_mock_vector_element(hitems, &hitem)))) { if (ZBX_MOCK_SUCCESS != err) fail_msg("Cannot read 'history' element #%d: %s", items_num, zbx_mock_error_string(err)); zbx_vcmock_ds_read_item(hitem, &item); zbx_hashset_insert(&vc_ds.items, &item, sizeof(item)); items_num++; } } /****************************************************************************** * * * Purpose: destroys history data storage * * * ******************************************************************************/ void zbx_vcmock_ds_destroy(void) { zbx_hashset_iter_t iter; zbx_vcmock_ds_item_t *item; zbx_hashset_iter_reset(&vc_ds.items, &iter); while (NULL != (item = zbx_hashset_iter_next(&iter))) zbx_history_record_vector_destroy(&item->data, item->value_type); zbx_hashset_destroy(&vc_ds.items); } /****************************************************************************** * * * Purpose: dumps history record vector contents to standard output * * * ******************************************************************************/ static void zbx_vcmock_history_dump(unsigned char value_type, const zbx_vector_history_record_t *values) { int i; char buffer[256]; for (i = 0; i < values->values_num; i++) { const zbx_history_record_t *rec = &values->values[i]; zbx_timespec_to_strtime(&rec->timestamp, buffer, sizeof(buffer)); printf(" - %s\n", buffer); zbx_history_value2str(buffer, sizeof(buffer), &rec->value, value_type); printf(" %s\n", buffer); } } /****************************************************************************** * * * Purpose: dumps history data store to standard output * * * ******************************************************************************/ void zbx_vcmock_ds_dump(void) { zbx_hashset_iter_t iter; zbx_vcmock_ds_item_t *item; zbx_hashset_iter_reset((zbx_hashset_t *)&vc_ds.items, &iter); while (NULL != (item = zbx_hashset_iter_next(&iter))) { printf("itemid:" ZBX_FS_UI64 ", value_type:%d\n", item->itemid, item->value_type); zbx_vcmock_history_dump(item->value_type, &item->data); } } /****************************************************************************** * * * Purpose: returns first item in value cache mock data source * * * ******************************************************************************/ zbx_vcmock_ds_item_t *zbx_vcmock_ds_first_item(void) { zbx_hashset_iter_t iter; zbx_hashset_iter_reset((zbx_hashset_t *)&vc_ds.items, &iter); return (zbx_vcmock_ds_item_t *)zbx_hashset_iter_next(&iter); } /****************************************************************************** * * * Purpose: converts value cache mode from text format * * * ******************************************************************************/ int zbx_vcmock_str_to_cache_mode(const char *mode) { if (0 == strcmp(mode, "ZBX_VC_MODE_NORMAL")) return ZBX_VC_MODE_NORMAL; if (0 == strcmp(mode, "ZBX_VC_MODE_LOWMEM")) return ZBX_VC_MODE_LOWMEM; fail_msg("Unknown value cache mode \"%s\"", mode); return FAIL; } /****************************************************************************** * * * Purpose: converts value cache item status from text format * * * ******************************************************************************/ int zbx_vcmock_str_to_item_status(const char *str) { if (0 == strcmp(str, "ZBX_ITEM_STATUS_CACHED_ALL")) return ZBX_ITEM_STATUS_CACHED_ALL; return 0; } /****************************************************************************** * * * Purpose: Compares two history record vectors and throw assertion if either * * values or timestamps don't match * * * * Parameters: prefix - [IN] the assert message prefix * * value_type - [IN] the value type * * expected_values - [IN] the expected history records * * returned_values - [IN] the returned history records * * * ******************************************************************************/ void zbx_vcmock_check_records(const char *prefix, unsigned char value_type, const zbx_vector_history_record_t *expected_values, const zbx_vector_history_record_t *returned_values) { int i; const zbx_history_record_t *expected, *returned; const zbx_log_value_t *expected_log, *returned_log; printf("Expected values:\n"); zbx_vcmock_history_dump(value_type, expected_values); printf("Returned values:\n"); zbx_vcmock_history_dump(value_type, returned_values); zbx_mock_assert_int_eq(prefix, expected_values->values_num, returned_values->values_num); for (i = 0; i < expected_values->values_num; i++) { expected = &expected_values->values[i]; returned = &returned_values->values[i]; zbx_mock_assert_timespec_eq(prefix, &expected->timestamp, &returned->timestamp); switch (value_type) { case ITEM_VALUE_TYPE_STR: case ITEM_VALUE_TYPE_TEXT: zbx_mock_assert_str_eq(prefix, expected->value.str, returned->value.str); break; case ITEM_VALUE_TYPE_UINT64: zbx_mock_assert_uint64_eq(prefix, expected->value.ui64, returned->value.ui64); break; case ITEM_VALUE_TYPE_LOG: expected_log = expected->value.log; returned_log = returned->value.log; zbx_mock_assert_str_eq(prefix, expected_log->value, returned_log->value); zbx_mock_assert_str_eq(prefix, expected_log->source, returned_log->source); zbx_mock_assert_uint64_eq(prefix, expected_log->logeventid, returned_log->logeventid); break; case ITEM_VALUE_TYPE_FLOAT: zbx_mock_assert_double_eq(prefix, expected->value.dbl, returned->value.dbl); break; case ITEM_VALUE_TYPE_BIN: case ITEM_VALUE_TYPE_NONE: default: fail_msg("Unexpected value type: %c", value_type); } } } /****************************************************************************** * * * Purpose: reads zbx_dc_history_t vector from input data * * * * Parameters: handle - [IN] the history data handle in input data * * history - [OUT] the history records * * * ******************************************************************************/ void zbx_vcmock_get_dc_history(zbx_mock_handle_t handle, zbx_vector_ptr_t *history) { zbx_mock_handle_t hitem, hdata; zbx_mock_error_t err; zbx_dc_history_t *data; const char *itemid; while (ZBX_MOCK_END_OF_VECTOR != (err = (zbx_mock_vector_element(handle, &hitem)))) { if (ZBX_MOCK_SUCCESS != err) { fail_msg("Cannot read 'values' element #%d: %s", history->values_num, zbx_mock_error_string(err)); } data = (zbx_dc_history_t *)zbx_malloc(NULL, sizeof(zbx_dc_history_t)); memset(data, 0, sizeof(zbx_dc_history_t)); itemid = zbx_mock_get_object_member_string(hitem, "itemid"); if (SUCCEED != zbx_is_uint64(itemid, &data->itemid)) fail_msg("Invalid itemid \"%s\"", itemid); data->value_type = zbx_mock_str_to_value_type(zbx_mock_get_object_member_string(hitem, "value type")); hdata = zbx_mock_get_object_member_handle(hitem, "data"); zbx_vcmock_read_history_value(hdata, data->value_type, &data->value, &data->ts); zbx_vector_ptr_append(history, data); } } /****************************************************************************** * * * Purpose: frees zbx_dc_history_t structure * * * ******************************************************************************/ void zbx_vcmock_free_dc_history(void *ptr) { zbx_dc_history_t *h = (zbx_dc_history_t *)ptr; switch (h->value_type) { case ITEM_VALUE_TYPE_STR: case ITEM_VALUE_TYPE_TEXT: zbx_free(h->value.str); break; case ITEM_VALUE_TYPE_LOG: zbx_free(h->value.log->source); zbx_free(h->value.log->value); zbx_free(h->value.log); break; case ITEM_VALUE_TYPE_UINT64: case ITEM_VALUE_TYPE_FLOAT: break; case ITEM_VALUE_TYPE_BIN: case ITEM_VALUE_TYPE_NONE: default: fail_msg("Unexpected value type: %c", h->value_type); } zbx_free(h); } /* * mock functions */ static zbx_mutex_t *vc_mutex = NULL; zbx_shmem_info_t *vc_meminfo = NULL; static size_t vcmock_mem = ZBX_MEBIBYTE * 1024; int __wrap_zbx_mutex_create(zbx_mutex_t *mutex, zbx_mutex_name_t name, char **error) { vc_mutex = mutex; ZBX_UNUSED(name); ZBX_UNUSED(error); return SUCCEED; } void __wrap_zbx_mutex_destroy(zbx_mutex_t *mutex) { zbx_mock_assert_ptr_eq("Attempting to destroy unknown mutex", vc_mutex, mutex); } int __wrap_zbx_shmem_create(zbx_shmem_info_t **info, zbx_uint64_t size, const char *descr, const char *param, int allow_oom, char **error) { *info = vc_meminfo; ZBX_UNUSED(size); ZBX_UNUSED(descr); ZBX_UNUSED(param); ZBX_UNUSED(allow_oom); ZBX_UNUSED(error); return SUCCEED; } void __wrap_zbx_shmem_destroy(zbx_shmem_info_t *info) { zbx_free(info); } void *__wrap___zbx_shmem_malloc(const char *file, int line, zbx_shmem_info_t *info, const void *old, size_t size) { size_t *psize; ZBX_UNUSED(file); ZBX_UNUSED(line); zbx_mock_assert_ptr_eq("Unknown memory info block in memory allocator", vc_meminfo, info); zbx_mock_assert_ptr_eq("Allocating unfreed memory", NULL, old); if (vcmock_mem < size) return NULL; psize = (size_t *)zbx_malloc(NULL, size + sizeof(size_t)); vcmock_mem -= size; *psize = size; return (void *)(psize + 1); } void *__wrap___zbx_shmem_realloc(const char *file, int line, zbx_shmem_info_t *info, void *old, size_t size) { size_t *psize; ZBX_UNUSED(file); ZBX_UNUSED(line); zbx_mock_assert_ptr_eq("Unknown memory info block in memory reallocator", vc_meminfo, info); psize = (size_t *)((char *)old - sizeof(size_t)); if (vcmock_mem + *psize < size) return NULL; psize = (size_t *)zbx_realloc(psize, size + sizeof(size_t)); vcmock_mem -= size; *psize = size; return (void *)(psize + 1); } void __wrap___zbx_shmem_free(const char *file, int line, zbx_shmem_info_t *info, void *ptr) { size_t *psize; ZBX_UNUSED(file); ZBX_UNUSED(line); zbx_mock_assert_ptr_eq("Unknown memory info block in memory destructor", vc_meminfo, info); if (NULL == ptr) return; psize = (size_t *)((char *)ptr - sizeof(size_t)); vcmock_mem += *psize; zbx_free(psize); } void __wrap_zbx_shmem_dump_stats(int level, zbx_shmem_info_t *info) { ZBX_UNUSED(level); ZBX_UNUSED(info); } int __wrap_zbx_history_get_values(zbx_uint64_t itemid, int value_type, int start, int count, int end, zbx_vector_history_record_t *values) { zbx_vcmock_ds_item_t *item; zbx_history_record_t *rec, rec_local; int i; if (0 > start) fail_msg("invalid parameters passed to zbx_history_get_values function (start < 0)"); if (start >= end) fail_msg("invalid parameters passed to zbx_history_get_values function (start >= end)"); if (NULL == (item = zbx_hashset_search(&vc_ds.items, &itemid))) return SUCCEED; if (0 == count) count--; for (i = item->data.values_num - 1; 0 <= i; i--) { rec = &item->data.values[i]; if (rec->timestamp.sec > end) continue; if (rec->timestamp.sec <= start || 0 == count--) break; zbx_vcmock_ds_clone_record(rec, value_type, &rec_local); zbx_vector_history_record_append_ptr(values, &rec_local); } return SUCCEED; } int __wrap_zbx_history_add_values(const zbx_vector_ptr_t *history) { int i; zbx_vcmock_ds_item_t *item, item_local; zbx_history_record_t src, dst; ZBX_UNUSED(history); for (i = 0; i < history->values_num; i++) { const zbx_dc_history_t *h = (zbx_dc_history_t *)history->values[i]; if (NULL == (item = zbx_hashset_search(&vc_ds.items, &h->itemid))) { item_local.itemid = h->itemid; item_local.value_type = h->value_type; zbx_history_record_vector_create(&item_local.data); item = zbx_hashset_insert(&vc_ds.items, &item_local, sizeof(item_local)); } src.value = h->value; src.timestamp = h->ts; zbx_vcmock_ds_clone_record(&src, h->value_type, &dst); zbx_vector_history_record_append_ptr(&item->data, &dst); zbx_vector_history_record_sort(&item->data, history_compare); } return SUCCEED; } void __wrap_zbx_history_sql_init(zbx_history_iface_t *hist, unsigned char value_type) { ZBX_UNUSED(hist); ZBX_UNUSED(value_type); } int __wrap_zbx_history_elastic_init(zbx_history_iface_t *hist, unsigned char value_type, char **error) { ZBX_UNUSED(hist); ZBX_UNUSED(value_type); ZBX_UNUSED(error); return SUCCEED; } void __wrap_zbx_elastic_version_extract(void) { } int __wrap_zbx_elastic_version_get(void) { return ZBX_DBVERSION_UNDEFINED; } /* * cache allocator size limit handling */ /****************************************************************************** * * * Purpose: sets the available memory for the wrapped memory allocator * * * ******************************************************************************/ void zbx_vcmock_set_available_mem(size_t size) { vcmock_mem = size; } /****************************************************************************** * * * Purpose: retrieves the memory available in the wrapped memory allocator * * * ******************************************************************************/ size_t zbx_vcmock_get_available_mem(void) { return vcmock_mem; } /****************************************************************************** * * * Purpose: sets the available size in value cache if the specified key is * * present in input data * * * ******************************************************************************/ void zbx_vcmock_set_cache_size(zbx_mock_handle_t hitem, const char *key) { const char *data; zbx_mock_handle_t hmem; zbx_uint64_t cache_size; if (ZBX_MOCK_SUCCESS == zbx_mock_object_member(hitem, key, &hmem)) { if (ZBX_MOCK_SUCCESS != zbx_mock_string(hmem, &data) || SUCCEED != zbx_is_uint64(data, &cache_size)) fail_msg("Cannot read \"%s\" parameter", key); else zbx_vcmock_set_available_mem(cache_size); } } /* * input data parsing utility functions */ /****************************************************************************** * * * Purpose: gets value cache precache or requests parameters from input data * * * ******************************************************************************/ void zbx_vcmock_get_request_params(zbx_mock_handle_t handle, zbx_uint64_t *itemid, unsigned char *value_type, int *seconds, int *count, zbx_timespec_t *end) { if (FAIL == zbx_is_uint64(zbx_mock_get_object_member_string(handle, "itemid"), itemid)) fail_msg("Invalid itemid value"); *value_type = zbx_mock_str_to_value_type(zbx_mock_get_object_member_string(handle, "value type")); *seconds = atoi(zbx_mock_get_object_member_string(handle, "seconds")); *count = atoi(zbx_mock_get_object_member_string(handle, "count")); zbx_strtime_to_timespec(zbx_mock_get_object_member_string(handle, "end"), end); } /* * cache working mode handling */ /****************************************************************************** * * * Purpose: sets value cache mode if the specified key is present in input * * data * * * ******************************************************************************/ void zbx_vcmock_set_mode(zbx_mock_handle_t hitem, const char *key) { const char *data; zbx_mock_handle_t hmode; zbx_mock_error_t err; if (ZBX_MOCK_SUCCESS == zbx_mock_object_member(hitem, key, &hmode)) { if (ZBX_MOCK_SUCCESS != (err = zbx_mock_string(hmode, &data))) fail_msg("Cannot read \"%s\" parameter: %s", key, zbx_mock_error_string(err)); zbx_vc_set_mode(zbx_vcmock_str_to_cache_mode(data)); } } /* * time() emulation */ time_t __wrap_time(time_t *ptr) { if (NULL != ptr) *ptr = vcmock_ts.sec; return vcmock_ts.sec; } /* * zbx_timespec() emulation */ void __wrap_zbx_timespec(zbx_timespec_t *ts) { *ts = vcmock_ts; } /****************************************************************************** * * * Purpose: sets the current time. The key must be present in input data or * * the test case will fail * * * ******************************************************************************/ void zbx_vcmock_set_time(zbx_mock_handle_t hitem, const char *key) { zbx_mock_error_t err; const char *data; data = zbx_mock_get_object_member_string(hitem, key); if (ZBX_MOCK_SUCCESS != (err = zbx_strtime_to_timespec(data, &vcmock_ts))) fail_msg("Cannot read \"%s\" parameter", key); } /****************************************************************************** * * * Purpose: returns the mocked current time * * * ******************************************************************************/ zbx_timespec_t zbx_vcmock_get_ts(void) { return vcmock_ts; }