/* ** Zabbix ** Copyright (C) 2001-2017 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 "zbxmocktest.h" #include "zbxmockdata.h" #include "common.h" #include "cfg.h" void zbx_mock_test_entry(void **state) { zbx_mock_error_t error; zbx_mock_handle_t handle, parameters, parameter; const char *cfg_file, *validation, *tmp, **multi_string, *string_list; int strict = 42, exit_code, parameter_count = 0, i; struct cfg_line *cfg = NULL; void **expected_values = NULL; ZBX_UNUSED(state); if (ZBX_MOCK_SUCCESS != (error = zbx_mock_in_parameter("configuration file", &handle)) || ZBX_MOCK_SUCCESS != (error = zbx_mock_string(handle, &cfg_file))) { fail_msg("Cannot get configuration file from test case data: %s", zbx_mock_error_string(error)); } if (ZBX_MOCK_SUCCESS != (error = zbx_mock_in_parameter("validation", &handle)) || ZBX_MOCK_SUCCESS != (error = zbx_mock_string(handle, &validation))) { fail_msg("Cannot get validation mode from test case data: %s", zbx_mock_error_string(error)); } if (0 == strcmp(validation, "not strict")) strict = ZBX_CFG_NOT_STRICT; else if (0 == strcmp(validation, "strict")) strict = ZBX_CFG_STRICT; else fail_msg("Invalid validation mode \"%s\".", validation); if (ZBX_MOCK_SUCCESS != (error = zbx_mock_in_parameter("parameters", ¶meters))) fail_msg("Cannot get description of parameters from test case data: %s", zbx_mock_error_string(error)); while (ZBX_MOCK_SUCCESS == (error = zbx_mock_vector_element(parameters, ¶meter))) { cfg = zbx_realloc(cfg, (parameter_count + 1) * sizeof(struct cfg_line)); expected_values = zbx_realloc(expected_values, (parameter_count + 1) * sizeof(void *)); if (ZBX_MOCK_SUCCESS != (error = zbx_mock_object_member(parameter, "name", &handle)) || ZBX_MOCK_SUCCESS != (error = zbx_mock_string(handle, &tmp))) { fail_msg("Cannot get name of parameter #%d: %s", parameter_count + 1, zbx_mock_error_string(error)); } cfg[parameter_count].parameter = tmp; if (ZBX_MOCK_SUCCESS != (error = zbx_mock_object_member(parameter, "type", &handle)) || ZBX_MOCK_SUCCESS != (error = zbx_mock_string(handle, &tmp))) { fail_msg("Cannot get type of parameter #%d: %s", parameter_count + 1, zbx_mock_error_string(error)); } if (0 == strcmp(tmp, "numeric")) { if (ZBX_MOCK_NO_SUCH_MEMBER == (error = zbx_mock_object_member(parameter, "expected", &handle))) { expected_values[parameter_count] = NULL; } else if (ZBX_MOCK_SUCCESS == error && ZBX_MOCK_SUCCESS == (error = zbx_mock_string(handle, &tmp))) { expected_values[parameter_count] = zbx_malloc(NULL, sizeof(zbx_uint64_t)); if (SUCCEED != is_uint64(tmp, expected_values[parameter_count])) { fail_msg("Expected value \"%s\" of parameter #%d is not numeric.", tmp, parameter_count + 1); } } else break; cfg[parameter_count].variable = zbx_malloc(NULL, sizeof(zbx_uint64_t)); *(zbx_uint64_t *)cfg[parameter_count].variable = (zbx_uint64_t)-1; if (ZBX_MOCK_NO_SUCH_MEMBER == (error = zbx_mock_object_member(parameter, "expected", &handle))) { expected_values[parameter_count] = NULL; } else if (ZBX_MOCK_SUCCESS == error && ZBX_MOCK_SUCCESS == (error = zbx_mock_string(handle, &tmp))) { expected_values[parameter_count] = zbx_malloc(NULL, sizeof(zbx_uint64_t)); if (SUCCEED != is_uint64(tmp, expected_values[parameter_count])) { fail_msg("Expected value \"%s\" of parameter #%d is not numeric.", tmp, parameter_count + 1); } } else break; if (ZBX_MOCK_NO_SUCH_MEMBER == (error = zbx_mock_object_member(parameter, "min", &handle))) { cfg[parameter_count].min = 0; } else if (ZBX_MOCK_SUCCESS == error && ZBX_MOCK_SUCCESS == (error = zbx_mock_string(handle, &tmp))) { zbx_uint64_t min; if (SUCCEED != is_uint64(tmp, &min)) { fail_msg("Minimum allowed value \"%s\" of parameter #%d is not numeric.", tmp, parameter_count + 1); } } else break; if (ZBX_MOCK_NO_SUCH_MEMBER == (error = zbx_mock_object_member(parameter, "max", &handle))) { cfg[parameter_count].max = 0; } else if (ZBX_MOCK_SUCCESS == error && ZBX_MOCK_SUCCESS == (error = zbx_mock_string(handle, &tmp))) { zbx_uint64_t max; if (SUCCEED != is_uint64(tmp, &max)) { fail_msg("Maximum allowed value \"%s\" of parameter #%d is not numeric.", tmp, parameter_count + 1); } } else break; cfg[parameter_count].type = TYPE_UINT64; /* no separate treatment for TYPE_INT */ } else if (0 == strcmp(tmp, "string")) { if (ZBX_MOCK_NO_SUCH_MEMBER == (error = zbx_mock_object_member(parameter, "expected", &handle))) { expected_values[parameter_count] = NULL; } else if (ZBX_MOCK_SUCCESS == error && ZBX_MOCK_SUCCESS == (error = zbx_mock_string(handle, &tmp))) { expected_values[parameter_count] = zbx_malloc(NULL, sizeof(char *)); *(const char **)expected_values[parameter_count] = tmp; } else break; cfg[parameter_count].variable = zbx_malloc(NULL, sizeof(char *)); *(char **)cfg[parameter_count].variable = NULL; cfg[parameter_count].min = 0; cfg[parameter_count].max = 0; cfg[parameter_count].type = TYPE_STRING; } else if (0 == strcmp(tmp, "string list")) { expected_values[parameter_count] = zbx_malloc(NULL, sizeof(zbx_mock_handle_t)); if (ZBX_MOCK_NO_SUCH_MEMBER == (error = zbx_mock_object_member(parameter, "expected", expected_values[parameter_count]))) { fail_msg("Missing expected field for parameter #%d of string list type, use [] instead.", parameter_count + 1); } if (ZBX_MOCK_SUCCESS != error) break; cfg[parameter_count].variable = zbx_malloc(NULL, sizeof(char *)); *(char **)cfg[parameter_count].variable = NULL; cfg[parameter_count].min = 0; cfg[parameter_count].max = 0; cfg[parameter_count].type = TYPE_STRING_LIST; } else if (0 == strcmp(tmp, "multi string")) { expected_values[parameter_count] = zbx_malloc(NULL, sizeof(zbx_mock_handle_t)); if (ZBX_MOCK_NO_SUCH_MEMBER == (error = zbx_mock_object_member(parameter, "expected", expected_values[parameter_count]))) { fail_msg("Missing expected field for parameter #%d of multi string type, use [] instead.", parameter_count + 1); } if (ZBX_MOCK_SUCCESS != error) break; cfg[parameter_count].variable = zbx_malloc(NULL, sizeof(char **)); *(char ***)cfg[parameter_count].variable = NULL; zbx_strarr_init((char ***)cfg[parameter_count].variable); cfg[parameter_count].min = 0; cfg[parameter_count].max = 0; cfg[parameter_count].type = TYPE_MULTISTRING; } else fail_msg("Invalid type \"%s\" of parameter #%d.", tmp, parameter_count + 1); if (ZBX_MOCK_SUCCESS != (error = zbx_mock_object_member(parameter, "mandatory", &handle)) || ZBX_MOCK_SUCCESS != (error = zbx_mock_string(handle, &tmp))) { fail_msg("Cannot get mandatory flag of parameter #%d: %s", parameter_count + 1, zbx_mock_error_string(error)); } if (0 == strcmp(tmp, "yes")) cfg[parameter_count].mandatory = PARM_MAND; else if (0 == strcmp(tmp, "no")) cfg[parameter_count].mandatory = PARM_OPT; else fail_msg("Invalid mandatory flag \"%s\" of parameter #%d.", tmp, parameter_count + 1); parameter_count++; } if (ZBX_MOCK_END_OF_VECTOR != error) { fail_msg("Cannot get description of parameter #%d from test case data: %s", parameter_count + 1, zbx_mock_error_string(error)); } cfg = zbx_realloc(cfg, (parameter_count + 1) * sizeof(struct cfg_line)); cfg[parameter_count].parameter = NULL; parse_cfg_file(cfg_file, cfg, ZBX_CFG_FILE_REQUIRED, strict); if (ZBX_MOCK_NO_EXIT_CODE != (error = zbx_mock_exit_code(&exit_code))) { if (ZBX_MOCK_SUCCESS == error) fail_msg("parse_cfg_file() was expected to call exit(%d), but has not.", exit_code); else fail_msg("Cannot get exit code from test case data: %s", zbx_mock_error_string(error)); } for (i = 0; i < parameter_count; i++) { switch (cfg[i].type) { case TYPE_MULTISTRING: multi_string = *(const char ***)cfg[i].variable; while (ZBX_MOCK_SUCCESS == (error = zbx_mock_vector_element( *(zbx_mock_handle_t *)expected_values[i], &handle)) && ZBX_MOCK_SUCCESS == (error = zbx_mock_string(handle, &tmp))) { if (NULL == *multi_string) { fail_msg("Values of multi string parameter \"%s\" ended while \"%s\"" " was expected.", cfg[i].parameter, tmp); } if (0 != strcmp(*multi_string, tmp)) { fail_msg("Value \"%s\" of multi string parameter \"%s\"" " differs from expected \"%s\".", *multi_string, cfg[i].parameter, tmp); } multi_string++; } if (ZBX_MOCK_END_OF_VECTOR != error) { fail_msg("Cannot get expected values of multi string parameter \"%s\": %s", cfg[i].parameter, zbx_mock_error_string(error)); } if (NULL != *multi_string) { fail_msg("Value of multi string parameter \"%s\" ends with unexpected \"%s\"" " (and maybe more).", cfg[i].parameter, *multi_string); } break; case TYPE_STRING_LIST: string_list = *(const char **)cfg[i].variable; while (ZBX_MOCK_SUCCESS == (error = zbx_mock_vector_element( *(zbx_mock_handle_t *)expected_values[i], &handle)) && ZBX_MOCK_SUCCESS == (error = zbx_mock_string(handle, &tmp))) { if ('\0' == *string_list) { fail_msg("Value of string list parameter \"%s\" ended when \"%s{,...}\"" " was expected.", cfg[i].parameter, tmp); } if (0 != strncmp(string_list, tmp, strlen(tmp))) { fail_msg("Value of string list parameter \"%s\" starting with \"%s\"" " differs from expected \"%s{,...}\".", cfg[i].parameter, string_list, tmp); } string_list += strlen(tmp); if (',' != *string_list) { if ('\0' != *string_list) { fail_msg("Value of string list parameter \"%s\" starting with" " \"%s\" differs from expected.", cfg[i].parameter, string_list); } } else string_list++; } if (ZBX_MOCK_END_OF_VECTOR != error) { fail_msg("Cannot get expected value of string list parameter \"%s\": %s", cfg[i].parameter, zbx_mock_error_string(error)); } if ('\0' != *string_list) { fail_msg("Values of string list parameter \"%s\" ends with unexpected \"%s\".", cfg[i].parameter, string_list); } break; case TYPE_STRING: if (0 != strcmp(*(char **)cfg[i].variable, *(char **)expected_values[i])) { fail_msg("Value \"%s\" of string parameter \"%s\" differs from expected \"%s\".", *(char **)cfg[i].variable, cfg[i].parameter, *(char **)expected_values[i]); } break; case TYPE_UINT64: if (*(zbx_uint64_t *)cfg[i].variable != *(zbx_uint64_t *)expected_values[i]) { fail_msg("Value " ZBX_FS_UI64 " of numeric parameter \"%s\"" " differs from expected (" ZBX_FS_UI64 ").", *(zbx_uint64_t *)cfg[i].variable, cfg[i].parameter, *(zbx_uint64_t *)expected_values[i]); } break; default: fail_msg("Invalid type of parameter \"%s\" when doing validation.", cfg[i].parameter); } } for (i = 0; i < parameter_count; i++) { switch (cfg[i].type) { case TYPE_MULTISTRING: zbx_strarr_free(*(char ***)cfg[i].variable); zbx_free(cfg[i].variable); zbx_free(expected_values[i]); break; case TYPE_STRING_LIST: case TYPE_STRING: zbx_free(*(char **)cfg[i].variable); zbx_free(cfg[i].variable); zbx_free(expected_values[i]); break; case TYPE_UINT64: zbx_free(cfg[i].variable); zbx_free(expected_values[i]); break; default: fail_msg("Invalid type of parameter \"%s\" when doing cleanup.", cfg[i].parameter); } } zbx_free(expected_values); zbx_free(cfg); }