/** * @file utests.h * @author Radek Iša * @author Radek Krejci * @author Michal Vasko * @brief this file contains macros for simplification test writing * * Copyright (c) 2021 - 2022 CESNET, z.s.p.o. * * This source code is licensed under BSD 3-Clause License (the "License"). * You may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://opensource.org/licenses/BSD-3-Clause */ #ifndef _UTESTS_H_ #define _UTESTS_H_ #define _POSIX_C_SOURCE 200809L /* strdup */ #include #include #include #include #include #include #include #include "libyang.h" #include "plugins_exts/metadata.h" #include "plugins_internal.h" #include "plugins_types.h" #include "tests_config.h" #include "tree_schema_internal.h" /** * TESTS OVERVIEW * * To include utest's environment, just include "utests.h" in the test's source * code. In case it is the main source code for a cmocka test group (there is a * main() function), define _UTEST_MAIN_ before including this header. * * TESTS VARIABLES * * Checking macros use internal storage to store various variables necessary * during the checking. It is possible to access these variables using the * following macros: * * UTEST_LYCTX - libyang context * UTEST_IN - input handler * UTEST_OUT - output handler * * All these variables are cleaned with test's teardown. * * TESTS SETUP * * CMocka's CMUnitTest list definition macros (cmoka_unit_test*()) are replaced * by UTEST macro with possibility to specify own setup and teardown functions: * * UTEST(test_func) - only implicit setup and teardown functions are used * UTEST(test_func, setup) - implicit teardown but own setup * UTEST(test_func, setup, teardown) - both setup and teardown are test-specific * * Note that the tests environment always provide (and need) internal setup and * teardown functions. In case the test-specific setup or teardown are used, they * are supposed to include UTEST_SETUP at the setup beginning and UTEST_TEARDOWN * at the teardown end. * * Libyang context is part of the prepared environment. To add a schema into the * context (despite it is in the test-specific setup or in test function itself), * use UTEST_ADD_MODULE macro. * * LOGGING * * There are 2 macros to check content of the log from the previously called * libyang function. CHECK_LOG macro test only the last error message and path * stored directly via logging callback. CHECK_LOG_CTX gets error message and * path from the libyang context (in case the function does not store the error * information into the libyang context, the message cannot be checked this way). * libyang is set to store multiple error information, so multiple couples of * error message and path can be provided to be checked (the first couple * corresponds to the latest error). The macro also cleanups the errors list, so * it is fine to check that there is no error after succeeding successful * function call. */ /** * @brief Test's context to provide common storage for various variables. */ struct utest_context { struct ly_ctx *ctx; /**< libyang context */ struct ly_in *in; /**< Input handler */ struct ly_out *out; /**< Outpu handler */ char *orig_tz; /**< Original "TZ" environment variable value */ }; /** * @brief Shortcut to access utest_context. */ #define _UC ((struct utest_context *)*state) /** * @brief libyang context provider. */ #define UTEST_LYCTX (_UC->ctx) /** * @brief Context's input handler provider */ #define UTEST_IN (_UC->in) /** * @brief Context's input handler provider */ #define UTEST_OUT (_UC->out) /** * @brief Parse (and validate) data from the input handler as a YANG data tree. * * @param[in] INPUT The input data in the specified @p format to parse (and validate) * @param[in] INPUT_FORMAT Format of the input data to be parsed. Can be 0 to try to detect format from the input handler. * @param[in] PARSE_OPTIONS Options for parser, see @ref dataparseroptions. * @param[in] VALIDATE_OPTIONS Options for the validation phase, see @ref datavalidationoptions. * @param[in] RET expected return status * @param[out] OUT_NODE Resulting data tree built from the input data. Note that NULL can be a valid result as a * representation of an empty YANG data tree. */ #define CHECK_PARSE_LYD_PARAM(INPUT, INPUT_FORMAT, PARSE_OPTIONS, VALIDATE_OPTIONS, RET, OUT_NODE) \ { \ LY_ERR _r = lyd_parse_data_mem(_UC->ctx, INPUT, INPUT_FORMAT, PARSE_OPTIONS, VALIDATE_OPTIONS, &OUT_NODE); \ if (_r != RET) { \ if (_r) { \ fail_msg("%s != 0x%d; MSG: %s", #RET, _r, ly_err_last(_UC->ctx)->msg); \ } else { \ fail_msg("%s != 0x%d", #RET, _r); \ } \ } \ } /** * @brief Check if lyd_node and his subnodes have correct values. Print lyd_node and his subnodes into a string in json or xml format. * @param[in] NODE pointer to lyd_node * @param[in] TEXT expected output string in json or xml format. * @param[in] FORMAT format of input text. LYD_JSON, LYD_XML * @param[in] PARAM options [Data printer flags](@ref dataprinterflags). */ #define CHECK_LYD_STRING_PARAM(NODE, TEXT, FORMAT, PARAM) \ { \ char *str; \ LY_ERR _r = lyd_print_mem(&str, NODE, FORMAT, PARAM); \ if (_r) { \ fail_msg("Print err 0x%d; MSG: %s", _r, ly_err_last(_UC->ctx)->msg); \ } \ assert_string_equal(str, TEXT); \ free(str); \ } /** * @brief Compare two lyd_node structure. Macro print lyd_node structure into string and then compare string. Print function use these two parameters. LYD_PRINT_WITHSIBLINGS | LYD_PRINT_SHRINK; * @param[in] NODE_1 pointer to lyd_node * @param[in] NODE_2 pointer to lyd_node */ #define CHECK_LYD(NODE_1, NODE_2) \ { \ char *str1; \ char *str2; \ assert_int_equal(LY_SUCCESS, lyd_print_mem(&str1, NODE_1, LYD_XML, LYD_PRINT_WITHSIBLINGS | LYD_PRINT_SHRINK)); \ assert_int_equal(LY_SUCCESS, lyd_print_mem(&str2, NODE_2, LYD_XML, LYD_PRINT_WITHSIBLINGS | LYD_PRINT_SHRINK)); \ assert_non_null(str1); \ assert_non_null(str2); \ assert_string_equal(str1, str2); \ free(str1); \ free(str2); \ } /* * SUPPORT MACROS */ /** * @brief Internal macro witch assert that two given string are equal or are both null. * * @param[in] STRING string to check * @param[in] TEXT string to compare */ #define CHECK_STRING(STRING, TEXT)\ if (TEXT == NULL) { \ assert_null(STRING); \ } else { \ assert_non_null(STRING); \ assert_string_equal(STRING, TEXT); \ } /** * @brief Internal macro witch assert that pointer is null when flag is 0. * * @param[in] POINTER pointer to check * @param[in] FLAG 0 -> pointer is NULL, 1 -> pointer is not null */ #define CHECK_POINTER(POINTER, FLAG) \ assert_true(FLAG == 0 ? POINTER == NULL : POINTER != NULL) /** * @brief Internal macro check size of [sized array](@ref sizedarrays)'s * * @param[in] ARRAY pointer to [sized array](@ref sizedarrays) * @param[in] SIZE expected [sized array](@ref sizedarrays) size of array */ #define CHECK_ARRAY(ARRAY, SIZE) \ assert_true((SIZE == 0) ? \ (ARRAY == NULL) : \ (ARRAY != NULL && SIZE == LY_ARRAY_COUNT(ARRAY))); /* * LIBYANG NODE CHECKING */ /** * @brief check compileted type * * @param[in] NODE pointer to lysc_type value * @param[in] TYPE expected type [LY_DATA_TYPE](@ref LY_DATA_TYPE) * @param[in] EXTS expected [sized array](@ref sizedarrays) size of extens list */ #define CHECK_LYSC_TYPE(NODE, TYPE, EXTS) \ assert_non_null(NODE); \ assert_int_equal((NODE)->basetype, TYPE); \ CHECK_ARRAY((NODE)->exts, EXTS); \ assert_ptr_equal((NODE)->plugin, lyplg_type_plugin_find(NULL, "", NULL, ly_data_type2str[TYPE])) /** * @brief check compileted numeric type * * @param[in] NODE pointer to lysc_type_num value * @param[in] TYPE expected type [LY_DATA_TYPE](@ref LY_DATA_TYPE) * @param[in] EXTS expected [sized array](@ref sizedarrays) size of extens list * @warning only integer types INT, UINT, NUM */ #define CHECK_LYSC_TYPE_NUM(NODE, TYPE, EXTS, RANGE) \ CHECK_LYSC_TYPE(NODE, TYPE, EXTS);\ CHECK_POINTER((NODE)->range, RANGE) /** * @brief check compiled string type * * @param[in] NODE pointer to lysc_type_num value * @param[in] EXTS expected [sized array](@ref sizedarrays) size of extens list * @param[in] LENGTH 0 -> node dosnt have length limitation, 1 -> node have length limitation * @param[in] PATTERNS expected number of patterns [sized array](@ref sizedarrays) * @warning only integer types INT, UINT, NUM */ #define CHECK_LYSC_TYPE_STR(NODE, EXTS, LENGTH, PATTERNS) \ CHECK_LYSC_TYPE(NODE, LY_TYPE_STRING, EXTS); \ CHECK_POINTER((NODE)->length, LENGTH); \ CHECK_ARRAY((NODE)->patterns, PATTERNS) /** * @brief check compiled bits type * * @param[in] NODE pointer to lysc_type_num value * @param[in] EXTS expected [sized array](@ref sizedarrays) size of extens list * @param[in] BITS expected number of bits * @warning only integer types INT, UINT, NUM */ #define CHECK_LYSC_TYPE_BITS(NODE, EXTS, BITS) \ CHECK_LYSC_TYPE(NODE, LY_TYPE_BITS, EXTS); \ CHECK_ARRAY((NODE)->bits, BITS) #define CHECK_LYSC_TYPE_BITENUM_ITEM(NODE, POSITION, DSC, EXTS, FLAGS, NAME, REF)\ assert_non_null(NODE); \ assert_int_equal((NODE)->position, POSITION); \ CHECK_STRING((NODE)->dsc, DSC); \ CHECK_ARRAY((NODE)->exts, EXTS); \ assert_int_equal((NODE)->flags, FLAGS); \ CHECK_STRING((NODE)->name, NAME); \ CHECK_STRING((NODE)->ref, REF) \ /** * @brief check range * * @param[in] NODE pointer to lysc_range value * @param[in] DSC expected descriptin (string) * @param[in] EAPPTAG expected string reprezenting error-app-tag value * @param[in] EMSG expected string reprezenting error message * @param[in] EXTS expected [sized array](@ref sizedarrays) size of extens list * @param[in] PARTS expected [sized array](@ref sizedarrays) number of rang limitations * @param[in] REF expected reference */ #define CHECK_LYSC_RANGE(NODE, DSC, EAPPTAG, EMSG, EXTS, PARTS, REF) \ assert_non_null(NODE); \ CHECK_STRING((NODE)->dsc, DSC); \ CHECK_STRING((NODE)->eapptag, EAPPTAG); \ CHECK_STRING((NODE)->emsg, EMSG); \ CHECK_ARRAY((NODE)->exts, EXTS); \ CHECK_ARRAY((NODE)->parts, PARTS); \ CHECK_STRING((NODE)->ref, REF) /** * @brief check pattern * * @param[in] NODE pointer to lysc_pattern value * @param[in] DSC expected descriptin (string) * @param[in] EAPPTAG expected string reprezenting error-app-tag value * @param[in] EMSG expected string reprezenting error message * @param[in] EEXPR expected string reprezenting original, not compiled, regular expression * @param[in] EXTS expected [sized array](@ref sizedarrays) size of extens list * @param[in] INVERTED if regular expression is inverted. * @param[in] REF expected reference */ #define CHECK_LYSC_PATTERN(NODE, DSC, EAPPTAG, EMSG, EXPR, EXTS, INVERTED, REF) \ assert_non_null(NODE); \ assert_non_null((NODE)->code); \ CHECK_STRING((NODE)->dsc, DSC); \ CHECK_STRING((NODE)->eapptag, EAPPTAG); \ CHECK_STRING((NODE)->emsg, EMSG); \ CHECK_STRING((NODE)->expr, EXPR); \ CHECK_ARRAY((NODE)->exts, EXTS); \ assert_int_equal((NODE)->inverted, INVERTED); \ CHECK_STRING((NODE)->ref, REF) /** * @brief assert that lysp_action_inout structure members are correct * * @param[in] NODE pointer to lysp_action_inout variable * @param[in] DATA 0 -> check if pointer to data is NULL, 1 -> check if pointer to data is not null * @param[in] EXTS expected [sized array](@ref sizedarrays) size of extens list * @param[in] GROUPINGS expected [sized array](@ref sizedarrays) size of grouping list * @param[in] MUSTS expected [sized array](@ref sizedarrays) size of must restriction list * @param[in] NODETYPE node type. LYS_INPUT or LYS_OUTPUT * @param[in] PARENT 0 -> check if node is root, 1 -> check if node is not root * @param[in] TYPEDEFS expected [sized array](@ref sizedarrays) size of typedefs list */ #define CHECK_LYSP_ACTION_INOUT(NODE, DATA, EXTS, GROUPINGS, MUSTS, NODETYPE, PARENT, TYPEDEFS) \ assert_non_null(NODE); \ CHECK_POINTER((NODE)->child, DATA); \ CHECK_ARRAY((NODE)->exts, EXTS); \ CHECK_POINTER((NODE)->groupings, GROUPINGS); \ CHECK_ARRAY((NODE)->musts, MUSTS); \ assert_int_equal((NODE)->nodetype, NODETYPE); \ CHECK_POINTER((NODE)->parent, PARENT); \ CHECK_ARRAY((NODE)->typedefs, TYPEDEFS); /** * @brief assert that lysp_action structure members are correct * * @param[in] NODE pointer to lysp_action variable * @param[in] DSC expected description * @param[in] EXTS expected [sized array](@ref sizedarrays) size of extension list * @param[in] FLAGS expected [schema node flags](@ref snodeflags) * @param[in] GROUPINGS expected [sized array](@ref sizedarrays) size of grouping list * @param[in] IFFEATURES expected [sized array](@ref sizedarrays) size of if-feature expressions list * @param[in] INPUT_* ::LYSP_ACTION_INOUT_CHECK * @param[in] NAME expected name * @param[in] NODETYPE node type. LYS_RPC or LYS_ACTION * @param[in] OUTPUT_* ::LYSP_ACTION_INOUT_CHECK * @param[in] PARENT 0-> check if node is root, 1-> check if node is not root * @param[in] REF expected reference * @param[in] TYPEDEFS expected [sized array](@ref sizedarrays) size of list of typedefs */ #define CHECK_LYSP_ACTION(NODE, DSC, EXTS, FLAGS, GROUPINGS, IFFEATURES, \ INPUT_DATA, INPUT_EXTS, INPUT_GROUPINGS, INPUT_MUSTS, \ INPUT_PARENT, INPUT_TYPEDEFS, \ NAME, NODETYPE, \ OUTPUT_DATA, OUTPUT_EXTS, OUTPUT_GROUPINGS, OUTPUT_MUSTS, \ OUTPUT_PARENT, OUTPUT_TYPEDEFS, \ PARENT, REF, TYPEDEFS) \ assert_non_null(NODE); \ CHECK_STRING((NODE)->dsc, DSC); \ CHECK_ARRAY((NODE)->exts, EXTS); \ assert_int_equal((NODE)->flags, FLAGS); \ CHECK_POINTER((NODE)->groupings, GROUPINGS); \ CHECK_ARRAY((NODE)->iffeatures, IFFEATURES); \ CHECK_LYSP_ACTION_INOUT(&((NODE)->input), INPUT_DATA, INPUT_EXTS, INPUT_GROUPINGS, \ INPUT_MUSTS, LYS_INPUT, INPUT_PARENT, INPUT_TYPEDEFS); \ assert_string_equal((NODE)->name, NAME); \ assert_int_equal((NODE)->nodetype, NODETYPE); \ CHECK_LYSP_ACTION_INOUT(&((NODE)->output), OUTPUT_DATA, OUTPUT_EXTS, OUTPUT_GROUPINGS, \ OUTPUT_MUSTS, LYS_OUTPUT, OUTPUT_PARENT, OUTPUT_TYPEDEFS); \ CHECK_POINTER((NODE)->parent, PARENT); \ CHECK_STRING((NODE)->ref, REF); \ CHECK_ARRAY((NODE)->typedefs, TYPEDEFS) \ /** * @brief assert that lysp_when structure members are correct * * @param[in] NODE pointer to lysp_when variable * @param[in] COND expected string specifid condition * @param[in] DSC expected string description statement * @param[in] EXTS expected [sized array](@ref sizedarrays) size of list of extension array * @param[in] REF expected string reference */ #define CHECK_LYSP_WHEN(NODE, COND, DSC, EXTS, REF) \ assert_non_null(NODE); \ assert_string_equal((NODE)->cond, COND); \ CHECK_STRING((NODE)->dsc, DSC); \ CHECK_ARRAY((NODE)->exts, EXTS); \ if (REF == NULL) { \ assert_null((NODE)->ref); \ } else { \ assert_non_null((NODE)->ref); \ assert_string_equal((NODE)->ref, REF); \ } /** * @brief assert that lysp_restr structure members are correct * * @param[in] NODE pointer to lysp_restr variable * @param[in] ARG_STR expected string. The restriction expression/value * @param[in] DSC expected descrition * @param[in] EAPPTAG expected string reprezenting error-app-tag value * @param[in] EMSG expected string reprezenting error message * @param[in] EXTS expected [sized array](@ref sizedarrays) size of list of extension array * @param[in] REF expected reference */ #define CHECK_LYSP_RESTR(NODE, ARG_STR, DSC, EAPPTAG, EMSG, EXTS, REF) \ assert_non_null(NODE); \ assert_non_null((NODE)->arg.mod); \ assert_string_equal((NODE)->arg.str, ARG_STR); \ CHECK_STRING((NODE)->dsc, DSC); \ CHECK_STRING((NODE)->eapptag, EAPPTAG); \ CHECK_STRING((NODE)->emsg, EMSG); \ CHECK_ARRAY((NODE)->exts, EXTS); \ CHECK_STRING((NODE)->ref, REF); /** * @brief assert that lysp_import structure members are correct * * @param[in] NODE pointer to lysp_import variable * @param[in] DSC expected description or NULL * @param[in] EXTS expected [sized array](@ref sizedarrays) size of list of extensions * @param[in] NAME expected name of imported module * @param[in] PREFIX expected prefix for the data from the imported schema * @param[in] REF expected reference * @param[in] REV expected reprezenting date in format "11-10-2020" */ #define CHECK_LYSP_IMPORT(NODE, DSC, EXTS, NAME, PREFIX, REF, REV) \ assert_non_null(NODE); \ CHECK_STRING((NODE)->dsc, DSC); \ CHECK_ARRAY((NODE)->exts, EXTS); \ assert_string_equal((NODE)->name, NAME); \ assert_string_equal((NODE)->prefix, PREFIX); \ CHECK_STRING((NODE)->ref, REF); \ CHECK_STRING((NODE)->rev, REV); \ /** * @brief assert that lysp_ext structure members are correct * * @param[in] NODE pointer to lysp_ext_instance variable * @param[in] ARGNAME expected argument name * @param[in] COMPILED 0 -> compiled data dosnt exists, 1 -> compiled data exists * @param[in] DSC expected string reprezent description * @param[in] EXTS expected [sized array](@ref sizedarrays) size of list of extension instances * @param[in] FLAGS expected LYS_STATUS_* and LYS_YINELEM_* values (@ref snodeflags) * @param[in] NAME expected name * @param[in] REF expected ref */ #define CHECK_LYSP_EXT(NODE, ARGNAME, COMPILED, DSC, EXTS, FLAGS, NAME, REF) \ assert_non_null(NODE); \ CHECK_STRING((NODE)->argname, ARGNAME); \ CHECK_POINTER((NODE)->compiled, COMPILED); \ CHECK_STRING((NODE)->dsc, DSC); \ CHECK_ARRAY((NODE)->exts, EXTS); \ assert_int_equal((NODE)->flags, FLAGS); \ assert_string_equal((NODE)->name, NAME); \ CHECK_STRING((NODE)->ref, REF); /** * @brief assert that lysp_ext_instance structure members are correct * * @param[in] NODE pointer to lysp_ext_instance variable * @param[in] ARGUMENT expected optional value of the extension's argument * @param[in] CHILD 0 -> node doesnt have child, 1 -> node have children * @param[in] PARENT_STMT expected value identifying placement of the extension instance * @param[in] PARENT_STMT_INDEX expected indentifi index * @param[in] FORMAT expected format */ #define CHECK_LYSP_EXT_INSTANCE(NODE, ARGUMENT, CHILD, PARENT_STMT, PARENT_STMT_INDEX, NAME, FORMAT) \ assert_non_null(NODE); \ CHECK_STRING((NODE)->argument, ARGUMENT); \ CHECK_POINTER((NODE)->child, CHILD); \ assert_int_equal((NODE)->parent_stmt, PARENT_STMT); \ assert_int_equal((NODE)->parent_stmt_index, PARENT_STMT_INDEX); \ assert_string_equal((NODE)->name, NAME); \ assert_int_equal((NODE)->format, FORMAT); /** * @brief assert that lysp_stmt structure members are correct * * @param[in] NODE pointer to lysp_stmt variable * @param[in] ARG expected statemet argumet * @param[in] CHILD 0 -> node doesnt have child, 1 -> node have children * @param[in] FLAGS expected statement flags, can be set to LYS_YIN_ATTR * @param[in] KW expected numeric respresentation of the stmt value * @param[in] NEXT 0 -> pointer is NULL, 1 -> pointer is not null * @param[in] STMS expected identifier of the statement */ #define CHECK_LYSP_STMT(NODE, ARG, CHILD, FLAGS, KW, NEXT, STMT) \ assert_non_null(NODE); \ CHECK_STRING((NODE)->arg, ARG); \ CHECK_POINTER((NODE)->child, CHILD); \ assert_int_equal((NODE)->flags, FLAGS); \ assert_int_equal((NODE)->kw, KW); \ CHECK_POINTER((NODE)->next, NEXT); \ assert_string_equal((NODE)->stmt, STMT); \ /** * @brief assert that lysp_type_enum structure members are correct * * @param[in] NODE pointer to lysp_type_enum variable * @param[in] DSC expected description * @param[in] EXTS expected [sized array](@ref sizedarrays) size of list of the extension instances * @param[in] FLAGS only LYS_STATUS_ and LYS_SET_VALUE values are allowed * @param[in] IFFEATURES expected [sized array](@ref sizedarrays) size of list of the extension instances * @param[in] NAME expected name * @param[in] REF expected reference statement * @param[in] VALUE expected enum's value or bit's position */ #define CHECK_LYSP_TYPE_ENUM(NODE, DSC, EXTS, FLAGS, IFFEATURES, NAME, REF, VALUE) \ assert_non_null(NODE); \ CHECK_STRING((NODE)->dsc, DSC); \ CHECK_ARRAY((NODE)->exts, EXTS); \ assert_int_equal((NODE)->flags, FLAGS); \ CHECK_ARRAY((NODE)->iffeatures, IFFEATURES); \ CHECK_STRING((NODE)->name, NAME); \ CHECK_STRING((NODE)->ref, REF); \ assert_int_equal(VALUE, (NODE)->value); /** * @brief assert that lysp_type_enum structure members are correct * * @param[in] NODE pointer to lysp_type variable * @param[in] BASES expected [sized array](@ref sizedarrays) size of list of indentifiers * @param[in] BITS expected [sized array](@ref sizedarrays) size of list of bits * @param[in] COMPILED 0 -> pointer to compiled type is null, 1 -> pointer to compilet type is valid * @param[in] ENUMS expected [sized array](@ref sizedarrays) size of list of enums-stmts * @param[in] EXTS expected [sized array](@ref sizedarrays) size of list of extension instances * @param[in] FLAGS expected flags * @param[in] FRACTION_DIGITS expected number of fraction digits decimal64 * @param[in] LENGTH expected 0 -> there isnt any restriction on length, 1 -> type is restricted on length (string, binary) * @param[in] NAME expected name of type * @param[in] PATH 0 -> no pointer to parsed path, 1 -> pointer to parsed path is valid * @param[in] PATTERNS expected [sized array](@ref sizedarrays) size of list of patterns for string * @param[in] PMOD expected submodule where type is defined 0 -> pointer is null, 1 -> pointer is not null * @param[in] RANGE expected [sized array](@ref sizedarrays) size of list of range restriction * @param[in] REQUIRE_INSTANCE expected require instance flag * @param[in] TYPES expected [sized array](@ref sizedarrays) size of list of sub-types */ #define CHECK_LYSP_TYPE(NODE, BASES, BITS, COMPILED, ENUMS, EXTS, FLAGS, FRACTIONS_DIGITS, \ LENGTH, NAME, PATH, PATTERNS, PMOD, RANGE, REQUIRE_INSTANCE, TYPES) \ assert_non_null(NODE);\ CHECK_ARRAY((NODE)->bases, BASES); \ CHECK_ARRAY((NODE)->bits, BITS); \ CHECK_POINTER((NODE)->compiled, COMPILED); \ CHECK_ARRAY((NODE)->enums, ENUMS); \ CHECK_ARRAY((NODE)->exts, EXTS); \ assert_int_equal((NODE)->flags, FLAGS); \ assert_int_equal((NODE)->fraction_digits, FRACTIONS_DIGITS); \ CHECK_POINTER((NODE)->length, LENGTH); \ CHECK_STRING((NODE)->name, NAME); \ CHECK_POINTER((NODE)->path, PATH); \ CHECK_ARRAY((NODE)->patterns, PATTERNS); \ CHECK_POINTER((NODE)->pmod, PMOD); \ CHECK_POINTER((NODE)->range, RANGE); \ assert_int_equal((NODE)->require_instance, REQUIRE_INSTANCE); \ CHECK_ARRAY((NODE)->types , TYPES) /** * @brief assert that lysp_node structure members are correct * * @param[in] NODE pointer to lysp_node variable * @param[in] DSC expected description statement * @param[in] EXTS expected [sized array](@ref sizedarrays) size of list of the extension instances * @param[in] FLAGS [schema node flags](@ref snodeflags) * @param[in] IFFEATURES expected [sized array](@ref sizedarrays) size of list of the extension instances * @param[in] NAME expected name * @param[in] NEXT 0 pointer is null, 1 pointer is not null * @param[in] NODETYPE node type LYS_UNKNOWN, LYS_CONTAINER, LYS_CHOICE, LYS_LEAF, LYS_LEAFLIST, * LYS_LIST, LYS_ANYXML, LYS_ANYDATA, LYS_CASE, LYS_RPC, LYS_ACTION, LYS_NOTIF, * LYS_USES, LYS_INPUT, LYS_OUTPUT, LYS_GROUPING, LYS_AUGMENT * @param[in] PARENT 0-> check if node is root, 1-> check if node is not root * @param[in] REF expected reference statement * @param[in] WHEN 0-> pointer is null, 1 -> pointer is not null */ #define CHECK_LYSP_NODE(NODE, DSC, EXTS, FLAGS, IFFEATURES, NAME, NEXT, NODETYPE, PARENT, REF, WHEN) \ assert_non_null(NODE); \ CHECK_STRING((NODE)->dsc, DSC); \ CHECK_ARRAY((NODE)->exts, EXTS); \ assert_int_equal((NODE)->flags, FLAGS); \ CHECK_ARRAY((NODE)->iffeatures, IFFEATURES); \ CHECK_STRING((NODE)->name, NAME); \ CHECK_POINTER((NODE)->next, NEXT); \ assert_int_equal((NODE)->nodetype, NODETYPE); \ CHECK_POINTER((NODE)->parent, PARENT); \ CHECK_STRING((NODE)->ref, REF); \ CHECK_POINTER(lysp_node_when((struct lysp_node *)NODE), WHEN); /** * @brief assert that lysp_node structure members are correct * * @param[in] NODE pointer to lysp_node variable * @param[in] DSC expected description statement * @param[in] EXTS expected [sized array](@ref sizedarrays) size of list of the extension instances * @param[in] FLAGS [schema node flags](@ref snodeflags) * @param[in] IFFEATURES expected [sized array](@ref sizedarrays) size of list of the extension instances * @param[in] NAME expected name * @param[in] NEXT 0 pointer is null, 1 pointer is not null * @param[in] PARENT 0-> check if node is root, 1-> check if node is not root * @param[in] REF expected reference statement * @param[in] WHEN 0-> pointer is null, 1 -> pointer is not null * @param[in] MUSTS expected [sized array](@ref sizedarrays) size of list of must restriction * @param[in] UNITS expected string reprezenting units * @param[in] DFLT 0-> node dosn't have default value. 1 -> node have default value */ #define CHECK_LYSP_NODE_LEAF(NODE, DSC, EXTS, FLAGS, IFFEATURES, NAME, NEXT, \ PARENT, REF, WHEN, MUSTS, UNITS, DFLT) \ CHECK_LYSP_NODE(NODE, DSC, EXTS, FLAGS, IFFEATURES, NAME, NEXT, LYS_LEAF, PARENT, REF, WHEN); \ CHECK_ARRAY((NODE)->musts, MUSTS); \ CHECK_STRING((NODE)->units, UNITS); \ CHECK_STRING((NODE)->dflt.str, DFLT); /** * @brief assert that lysc_notif structure members are correct * * @param[in] NODE pointer to lysp_notif variable * @param[in] DATA 0 pointer is null, 1 pointer is not null * @param[in] DSC expected description * @param[in] EXTS expected [sized array](@ref sizedarrays) size of list of the extension instances * @param[in] FLAGS [schema node flags](@ref snodeflags) * @param[in] MODULE 0 pointer is null, 1 pointer is not null * @param[in] MUSTS expected [sized array](@ref sizedarrays) size of list of must restriction * @param[in] NAME expected name * @param[in] PARENT 0-> check if node is root, 1-> check if node is not root * @param[in] PRIV 0-> pointer is null, 1-> pointer is not null * @param[in] REF expected reference * @param[in] WHEN expected [sized array](@ref sizedarrays) size of list of pointers to when statements */ #define CHECK_LYSC_NOTIF(NODE, DATA, DSC, EXTS, FLAGS, MODULE, MUSTS, NAME, PARENT, PRIV, REF, WHEN) \ assert_non_null(NODE); \ CHECK_POINTER((NODE)->child, DATA); \ CHECK_STRING((NODE)->dsc, DSC); \ CHECK_ARRAY((NODE)->exts, EXTS); \ assert_int_equal((NODE)->flags, FLAGS); \ CHECK_POINTER((NODE)->module, MODULE); \ CHECK_ARRAY((NODE)->musts, MUSTS); \ assert_string_equal((NODE)->name, NAME); \ assert_int_equal((NODE)->nodetype, LYS_NOTIF); \ CHECK_POINTER((NODE)->parent, PARENT); \ CHECK_POINTER((NODE)->priv, PRIV); \ CHECK_STRING((NODE)->ref, REF); \ CHECK_ARRAY(lysc_node_when((const struct lysc_node *)NODE), WHEN); /** * @brief assert that lysc_action_inout structure members are correct * * @param[in] NODE pointer to lysp_notif variable * @param[in] DATA 0 pointer is null, 1 pointer is not null * @param[in] MUST expected [sized array](@ref sizedarrays) size of list of must restrictions * @param[in] NODETYPE LYS_INPUT or LYS_OUTPUT */ #define CHECK_LYSC_ACTION_INOUT(NODE, DATA, MUST, NODETYPE) \ assert_non_null(NODE); \ CHECK_POINTER((NODE)->child, DATA); \ CHECK_ARRAY((NODE)->musts, MUST); \ assert_int_equal((NODE)->nodetype, NODETYPE); /** * @brief assert that lysc_action structure members are correct * * @param[in] NODE pointer to lysp_action variable * @param[in] DSC string description statement * @param[in] EXTS expected [sized array](@ref sizedarrays) size of list of the extension instances * @param[in] FLAGS [schema node flags](@ref snodeflags) * @param[in] INPUT_DATA 0 pointer is null, 1 pointer is not null * @param[in] INPUT_MUST expected [sized array](@ref sizedarrays) size of input list of must restrictions * @param[in] INPUT_EXTS expected [sized array](@ref sizedarrays) size of the input extension instances of input * @param[in] MODULE 0 pointer is null, 1 pointer is not null * @param[in] NAME expected name * @param[in] NODETYPE LYS_RPC, LYS_ACTION * @param[in] OUTPUT_DATA 0 pointer is null, 1 pointer is not null * @param[in] OUTPUT_MUST expected [sized array](@ref sizedarrays) size of output list of must restrictions * @param[in] OUTPUT_EXTS expected [sized array](@ref sizedarrays) size of the output extension instances of input * @param[in] PARENT 0-> check if node is root, 1-> check if node is not root * @param[in] PRIV 0-> pointer is null, 1-> pointer is not null * @param[in] REF expected reference * @param[in] WHEN expected [sized array](@ref sizedarrays) size of list of pointers to when statements */ #define CHECK_LYSC_ACTION(NODE, DSC, EXTS, FLAGS, INPUT_DATA, INPUT_MUST, INPUT_EXTS, MODULE, NAME, NODETYPE, \ OUTPUT_DATA, OUTPUT_MUST, OUTPUT_EXTS, PARENT, PRIV, REF, WHEN) \ assert_non_null(NODE); \ CHECK_STRING((NODE)->dsc, DSC); \ CHECK_ARRAY((NODE)->exts, EXTS); \ assert_int_equal((NODE)->flags, FLAGS); \ CHECK_LYSC_ACTION_INOUT(&(NODE)->input, INPUT_DATA, INPUT_MUST, LYS_INPUT); \ CHECK_ARRAY((NODE)->input.exts, INPUT_EXTS); \ CHECK_POINTER((NODE)->module, MODULE); \ assert_string_equal((NODE)->name, NAME); \ assert_int_equal((NODE)->nodetype, NODETYPE); \ CHECK_LYSC_ACTION_INOUT(&(NODE)->output, OUTPUT_DATA, OUTPUT_MUST, LYS_OUTPUT); \ CHECK_ARRAY((NODE)->output.exts, OUTPUT_EXTS); \ CHECK_POINTER((NODE)->parent, PARENT); \ CHECK_POINTER((NODE)->priv, PRIV); \ CHECK_STRING((NODE)->ref, REF); \ CHECK_ARRAY(lysc_node_when((const struct lysc_node *)NODE), WHEN); /** * @brief assert that lysc_node structure members are correct * * @param[in] NODE pointer to lysc_node variable * @param[in] DSC expected description * @param[in] EXTS expected [sized array](@ref sizedarrays) size of list of the extension instances * @param[in] FLAGS [schema node flags](@ref snodeflags) * @param[in] MODULE 0 pointer is null, 1 pointer is not null * @param[in] NAME expected name * @param[in] NEXT 0 pointer is null, 1 pointer is not null * @param[in] NODETYPE type of the node LYS_UNKNOWN, LYS_CONTAINER, LYS_CHOICE, LYS_LEAF, * LYS_LEAFLIST, LYS_LIST, LYS_ANYXML, LYS_ANYDATA, LYS_CASE, LYS_RPC, * LYS_ACTION, LYS_NOTIF, LYS_USES, LYS_INPUT, LYS_OUTPUT, LYS_GROUPING, * LYS_AUGMENT * @param[in] PARENT 0-> check if node is root, 1-> check if node is not root * @param[in] PRIV 0-> pointer is null, 1-> pointer is not null * @param[in] REF expected reference * @param[in] WHEN expected [sized array](@ref sizedarrays) size of list of pointers to when statements */ #define CHECK_LYSC_NODE(NODE, DSC, EXTS, FLAGS, MODULE, NAME, NEXT, NODETYPE, PARENT, PRIV, REF, WHEN) \ assert_non_null(NODE); \ CHECK_STRING((NODE)->dsc, DSC); \ CHECK_ARRAY((NODE)->exts, EXTS); \ assert_int_equal((NODE)->flags, FLAGS); \ CHECK_POINTER((NODE)->module, MODULE); \ assert_string_equal((NODE)->name, NAME); \ CHECK_POINTER((NODE)->next, NEXT); \ assert_int_equal((NODE)->nodetype, NODETYPE); \ CHECK_POINTER((NODE)->parent, PARENT); \ assert_non_null((NODE)->prev); \ CHECK_POINTER((NODE)->priv, PRIV); \ CHECK_STRING((NODE)->ref, REF); \ CHECK_ARRAY(lysc_node_when((const struct lysc_node *)NODE), WHEN); /** * @brief assert that lysc_node_leaf structure members are correct * * @param[in] NODE pointer to lysc_node variable * @param[in] DSC expected description * @param[in] EXTS expected [sized array](@ref sizedarrays) size of list of the extension instances * @param[in] FLAGS [schema node flags](@ref snodeflags) * @param[in] MODULE 0 pointer is null, 1 pointer is not null * @param[in] NAME expected name * @param[in] NEXT 0 pointer is null, 1 pointer is not null * @param[in] PARENT 0-> check if node is root, 1-> check if node is not root * @param[in] PRIV 0-> pointer is null, 1-> pointer is not null * @param[in] REF expected reference * @param[in] ACTIONS 1 if is set pointer to structure lysc_node_action other 0 * @param[in] CHILD 1 if is set pointer to child other 0 * @param[in] MAX possible maximum elements in list * @param[in] MIN possible minimum elements in list * @param[in] MUSTS [sized array](@ref sizedarrays) number of must node elements in array * @param[in] NOTIFS 1 if is set pointer to any notifs node * @param[in] UNIQUES [sized array](@ref sizedarrays) number of unique nodes element in array * @param[in] WHEN [sized array](@ref sizedarrays) size of when node array */ #define CHECK_LYSC_NODE_LIST(NODE, DSC, EXTS, FLAGS, MODULE, NAME, NEXT, \ PARENT, PRIV, REF, ACTIONS, CHILD, MAX, MIN, MUSTS, NOTIFS, UNIQUES, WHEN) \ CHECK_LYSC_NODE(NODE, DSC, EXTS, FLAGS, MODULE, NAME, NEXT, LYS_LIST, PARENT, PRIV, REF, WHEN); \ CHECK_POINTER((NODE)->actions, ACTIONS); \ CHECK_POINTER((NODE)->child, CHILD); \ assert_int_equal((NODE)->max, MAX); \ assert_int_equal((NODE)->min, MIN); \ CHECK_ARRAY((NODE)->musts, MUSTS); \ CHECK_POINTER((NODE)->notifs, NOTIFS); \ CHECK_ARRAY((NODE)->uniques, UNIQUES); \ CHECK_ARRAY(lysc_node_when((const struct lysc_node *)NODE), WHEN) /** * @brief assert that lysc_node_leaf structure members are correct * * @param[in] NODE pointer to lysc_node variable * @param[in] DSC expected description * @param[in] EXTS expected [sized array](@ref sizedarrays) size of list of the extension instances * @param[in] FLAGS [schema node flags](@ref snodeflags) * @param[in] MODULE 0 pointer is null, 1 pointer is not null * @param[in] NAME expected name * @param[in] NEXT 0 pointer is null, 1 pointer is not null * @param[in] PARENT 0-> check if node is root, 1-> check if node is not root * @param[in] PRIV 0-> pointer is null, 1-> pointer is not null * @param[in] REF expected reference * @param[in] WHEN expected [sized array](@ref sizedarrays) size of list of pointers to when statements * @param[in] MUSTS expected [sized array](@ref sizedarrays) size of list of must restriction * @param[in] UNITS expected string reprezenting units * @param[in] DFLT 0-> node dosn't have default value. 1 -> node have default value */ #define CHECK_LYSC_NODE_LEAF(NODE, DSC, EXTS, FLAGS, MODULE, NAME, NEXT, \ PARENT, PRIV, REF, WHEN, MUSTS, UNITS, DFLT) \ CHECK_LYSC_NODE(NODE, DSC, EXTS, FLAGS, MODULE, NAME, NEXT, LYS_LEAF, PARENT, PRIV, REF, WHEN); \ CHECK_ARRAY((NODE)->musts, MUSTS); \ assert_non_null((NODE)->type); \ CHECK_STRING((NODE)->units, UNITS); \ CHECK_POINTER((NODE)->dflt, DFLT); /** * @brief assert that lyd_meta structure members are correct * * @param[in] NODE pointer to lyd_meta variable * @param[in] ANNOTATION 0 pointer is null, 1 pointer is not null * @param[in] NAME expected name * @param[in] NEXT 0 pointer is null, 1 pointer is not null * @param[in] TYPE_VAL value type. EMPTY, UNION, BITS, INST, ENUM, INT8, INT16, UINT8, STRING, LEAFREF, DEC64, BINARY, BOOL, IDENT * part of text reprezenting LY_DATA_TYPE. * @param[in] ... ::CHECK_LYD_VALUE */ #define CHECK_LYD_META(NODE, ANNOTATION, NAME, NEXT, PARENT, TYPE_VAL, ...) \ assert_non_null(NODE); \ CHECK_POINTER((NODE)->annotation, ANNOTATION); \ assert_string_equal((NODE)->name, NAME); \ CHECK_POINTER((NODE)->next, NEXT); \ CHECK_POINTER((NODE)->parent, PARENT); \ CHECK_LYD_VALUE((NODE)->value, TYPE_VAL, __VA_ARGS__); /** * @brief assert that lyd_node_term structure members are correct * * @param[in] NODE pointer to lyd_node_term variable * @param[in] FLAGS expected [data node flags](@ref dnodeflags) * @param[in] META 0 -> meta is not prezent, 1 -> meta is prezent * @param[in] NEXT 0 -> next node is not prezent, 1 -> next node is prezent * @param[in] TYPE_VAL value type. EMPTY, UNION, BITS, INST, ENUM, INT8, INT16, UINT8, STRING, LEAFREF, DEC64, BINARY, BOOL, IDENT * part of text reprezenting LY_DATA_TYPE. * @param[in] ... ::CHECK_LYD_VALUE */ #define CHECK_LYD_NODE_TERM(NODE, FLAGS, META, NEXT, PARENT, SCHEMA, VALUE_TYPE, ...) \ assert_non_null(NODE); \ assert_int_equal((NODE)->flags, FLAGS); \ CHECK_POINTER((NODE)->meta, META); \ CHECK_POINTER((NODE)->next, NEXT); \ CHECK_POINTER((NODE)->parent, PARENT); \ assert_non_null((NODE)->prev); \ CHECK_POINTER((NODE)->schema, SCHEMA); \ CHECK_LYD_VALUE((NODE)->value, VALUE_TYPE, __VA_ARGS__); /** * @brief assert that lyd_node_any structure members are correct * * @param[in] NODE pointer to lyd_node_term variable * @param[in] FLAGS expected [data node flags](@ref dnodeflags) * @param[in] META 0 meta isnt present , 1 meta is present * @param[in] PARENT 0 it is root node , 1 node have parent * @param[in] VALUE_TYPE value type ::lyd_node_any.value */ #define CHECK_LYD_NODE_ANY(NODE, FLAGS, META, PARENT, VALUE_TYPE) \ assert_non_null(NODE); \ assert_int_equal((NODE)->flags, FLAGS); \ CHECK_POINTER((NODE)->meta, META); \ CHECK_POINTER((NODE)->meta, PARENT); \ assert_non_null((NODE)->prev); \ assert_non_null((NODE)->schema); \ assert_int_equal((NODE)->value_type, VALUE_TYPE); /** * @brief assert that lyd_node_opaq structure members are correct * * @param[in] NODE pointer to lyd_node_opaq variable * @param[in] ATTR 0 if pointer is null ,1 if pointer is not null * @param[in] CHILD 0 if pointer is null ,1 if pointer is not null * @param[in] FORMAT LY_PREF_XML or LY_PREF_JSON * @param[in] VAL_PREFS 0 if pointer is null ,1 if pointer is not null * @param[in] NAME expected name * @param[in] value expected orignal value */ #define CHECK_LYD_NODE_OPAQ(NODE, ATTR, CHILD, FORMAT, NAME, NEXT, PARENT, PREFIX, VAL_PREFS, VALUE) \ assert_non_null(NODE); \ CHECK_POINTER((NODE)->attr, ATTR); \ CHECK_POINTER((NODE)->child, CHILD); \ assert_ptr_equal((NODE)->ctx, UTEST_LYCTX); \ assert_int_equal((NODE)->flags, 0); \ assert_true((NODE)->format == FORMAT); \ assert_int_equal((NODE)->hash, 0); \ assert_string_equal((NODE)->name.name, NAME); \ assert_non_null((NODE)->prev); \ assert_null((NODE)->schema); \ CHECK_POINTER((NODE)->val_prefix_data, VAL_PREFS); \ assert_string_equal((NODE)->value, VALUE); /** * @brief assert that lyd_node_opaq structure members are correct * * @param[in] NODE pointer to lyd_node_opaq variable * @param[in] CHILD 1 if node has children other 0 * @param[in] HILD_HT 1 if node has children hash table other 0 * @param[in] META 1 if node has metadata other 0 * @param[in] FLAGS expected flag * @param[in] NEXT 1 if next node is present other 0 * @param[in] PARENT 1 if node has parent other 0 * @param[in] PRIV 1 if node has private data other 0 * @param[in] SCHEMA 1 if node has schema other 0 */ #define CHECK_LYD_NODE_INNER(NODE, CHILD, CHILD_HT, META, FLAGS, NEXT, PARENT, PRIV, SCHEMA) \ assert_non_null(NODE); \ CHECK_POINTER((NODE)->child, CHILD); \ CHECK_POINTER((NODE)->children_ht, CHILD_HT); \ CHECK_POINTER((NODE)->meta, META); \ assert_int_equal((NODE)->flags, FLAGS); \ CHECK_POINTER((NODE)->parent, PARENT); \ assert_non_null((NODE)->prev); \ CHECK_POINTER((NODE)->next, NEXT); \ CHECK_POINTER((NODE)->priv, PRIV); \ CHECK_POINTER((NODE)->schema, SCHEMA) /** * @brief assert that lyd_value structure members are correct * * @param[in] NODE lyd_value * @param[in] TYPE_VAL value type. EMPTY, UNION, BITS, INST, ENUM, INT8, INT16, UINT8, STRING, LEAFREF, DEC64, BINARY, BOOL, IDENT * part of text reprezenting LY_DATA_TYPE. * @param[in] ... Unspecified parameters. Type and numbers of parameters are specified * by type of value. These parameters are passed to macro * CHECK_LYD_VALUE_ ## TYPE_VAL. */ #define CHECK_LYD_VALUE(NODE, TYPE_VAL, ...) \ CHECK_LYD_VALUE_ ## TYPE_VAL (NODE, __VA_ARGS__); /* * LYD VALUES CHECKING SPECIALIZATION */ /** * @brief Internal macro. Assert that lyd_value structure members are correct. Lyd value is type EMPTY * Example CHECK_LYD_VALUE(node->value, EMPTY, ""); * * @param[in] NODE lyd_value variable * @param[in] CANNONICAL_VAL expected cannonical value */ #define CHECK_LYD_VALUE_EMPTY(NODE, CANNONICAL_VAL) \ assert_non_null((NODE).realtype->plugin->print(UTEST_LYCTX, &(NODE), LY_VALUE_CANON, NULL, NULL, NULL)); \ assert_string_equal((NODE)._canonical, CANNONICAL_VAL); \ assert_non_null((NODE).realtype); \ assert_int_equal((NODE).realtype->basetype, LY_TYPE_EMPTY); /** * @brief Internal macro. Assert that lyd_value structure members are correct. Lyd value is type UNION * Example CHECK_LYD_VALUE(node->value, UNION, "12", INT8, "12", 12); * @warning type of subvalue cannot be UNION. Example of calling * * @param[in] NODE lyd_value variable * @param[in] CANNONICAL_VAL expected cannonical value * @param[in] TYPE_VAL value type. EMPTY, UNION, BITS, INST, ENUM, INT8, INT16, UINT8, STRING, LEAFREF, DEC64, BINARY, BOOL, IDENT * @param[in] ... Unspecified parameters. Type and numbers of parameters are specified * by type of value. These parameters are passed to macro * CHECK_LYD_VALUE_ ## TYPE_VAL. */ #define CHECK_LYD_VALUE_UNION(NODE, CANNONICAL_VAL, TYPE_VAL, ...) \ assert_non_null((NODE).realtype->plugin->print(UTEST_LYCTX, &(NODE), LY_VALUE_CANON, NULL, NULL, NULL)); \ assert_string_equal((NODE)._canonical, CANNONICAL_VAL); \ assert_non_null((NODE).realtype); \ assert_int_equal(LY_TYPE_UNION, (NODE).realtype->basetype); \ assert_non_null((NODE).subvalue); \ assert_non_null((NODE).subvalue->prefix_data); \ CHECK_LYD_VALUE_ ## TYPE_VAL ((NODE).subvalue->value, __VA_ARGS__) /** * @brief Internal macro. Get 1st variadic argument. */ #define _GETARG1(ARG1, ...) ARG1 /** * @brief Internal macro. Assert that lyd_value structure members are correct. Lyd value is type BITS * Example arr[] = {"a", "b"}; CHECK_LYD_VALUE(node->value, BITS, "a b", arr); * * @param[in] NODE lyd_value variable * @param[in] CANNONICAL_VAL expected cannonical value * @param[in] VALUE expected array of bits names */ #define CHECK_LYD_VALUE_BITS(NODE, ...) \ assert_non_null((NODE).realtype->plugin->print(UTEST_LYCTX, &(NODE), LY_VALUE_CANON, NULL, NULL, NULL)); \ assert_string_equal((NODE)._canonical, _GETARG1(__VA_ARGS__, DUMMY)); \ assert_non_null((NODE).realtype); \ assert_int_equal(LY_TYPE_BITS, (NODE).realtype->basetype); \ { \ const char *arr[] = { __VA_ARGS__ }; \ LY_ARRAY_COUNT_TYPE arr_size = (sizeof(arr) / sizeof(arr[0])) - 1; \ struct lyd_value_bits *_val; \ LYD_VALUE_GET(&(NODE), _val); \ assert_int_equal(arr_size, LY_ARRAY_COUNT(_val->items)); \ for (LY_ARRAY_COUNT_TYPE it = 0; it < arr_size; it++) { \ assert_string_equal(arr[it + 1], _val->items[it]->name); \ } \ } /** * @brief Internal macro. Assert that lyd_value structure members are correct. Lyd value is type INST * * @param[in] NODE lyd_value variable * @param[in] CANNONICAL_VAL expected cannonical value * @param[in] VALUE expected array of enum ly_path_pred_type * @brief Example enum arr[] = {0x0, 0x1}; CHECK_LYD_VALUE(node->value, INST, "test/d", arr); */ #define CHECK_LYD_VALUE_INST(NODE, CANNONICAL_VAL, VALUE) \ assert_non_null((NODE).realtype->plugin->print(UTEST_LYCTX, &(NODE), LY_VALUE_CANON, NULL, NULL, NULL)); \ assert_string_equal((NODE)._canonical, CANNONICAL_VAL); \ assert_non_null((NODE).realtype); \ assert_int_equal(LY_TYPE_INST, (NODE).realtype->basetype); \ { \ LY_ARRAY_COUNT_TYPE arr_size = sizeof(VALUE) / sizeof(VALUE[0]); \ assert_int_equal(arr_size, LY_ARRAY_COUNT((NODE).target)); \ for (LY_ARRAY_COUNT_TYPE it = 0; it < arr_size; it++) { \ if ((NODE).target[it].predicates) { \ assert_int_equal(VALUE[it], (NODE).target[it].predicates[0].type); \ } \ } \ } /** * @brief Internal macro. Assert that lyd_value structure members are correct. Lyd value is type ENUM. * Example CHECK_LYD_VALUE(node->value, ENUM, "item_name", "item_name"); * * @param[in] NODE lyd_value variable * @param[in] CANNONICAL_VAL expected cannonical value * @param[in] VALUE expected enum item name */ #define CHECK_LYD_VALUE_ENUM(NODE, CANNONICAL_VAL, VALUE) \ assert_non_null((NODE).realtype->plugin->print(UTEST_LYCTX, &(NODE), LY_VALUE_CANON, NULL, NULL, NULL)); \ assert_string_equal((NODE)._canonical, CANNONICAL_VAL); \ assert_non_null((NODE).realtype); \ assert_int_equal(LY_TYPE_ENUM, (NODE).realtype->basetype); \ assert_string_equal(VALUE, (NODE).enum_item->name); /** * @brief Internal macro. Assert that lyd_value structure members are correct. Lyd value is type INT8 * Example CHECK_LYD_VALUE(node->value, INT8, "12", 12); * * @param[in] NODE lyd_value variable * @param[in] CANNONICAL_VAL expected cannonical value * @param[in] VALUE expected inteager value (-128 to 127). */ #define CHECK_LYD_VALUE_INT8(NODE, CANNONICAL_VAL, VALUE) \ assert_non_null((NODE).realtype->plugin->print(UTEST_LYCTX, &(NODE), LY_VALUE_CANON, NULL, NULL, NULL)); \ assert_string_equal((NODE)._canonical, CANNONICAL_VAL); \ assert_non_null((NODE).realtype); \ assert_int_equal(LY_TYPE_INT8, (NODE).realtype->basetype); \ assert_int_equal(VALUE, (NODE).int8); /** * @brief Internal macro. Assert that lyd_value structure members are correct. Lyd value is type INT16 * Example CHECK_LYD_VALUE(node->value, INT8, "12", 12); * * @param[in] NODE lyd_value variable * @param[in] CANNONICAL_VAL expected cannonical value * @param[in] VALUE expected inteager value. */ #define CHECK_LYD_VALUE_INT16(NODE, CANNONICAL_VAL, VALUE) \ assert_non_null((NODE).realtype->plugin->print(UTEST_LYCTX, &(NODE), LY_VALUE_CANON, NULL, NULL, NULL)); \ assert_string_equal((NODE)._canonical, CANNONICAL_VAL); \ assert_non_null((NODE).realtype); \ assert_int_equal(LY_TYPE_INT16, (NODE).realtype->basetype); \ assert_int_equal(VALUE, (NODE).int16); /** * @brief Internal macro. Assert that lyd_value structure members are correct. Lyd value is type UINT8. * Example CHECK_LYD_VALUE(node->value, UINT8, "12", 12); * * @param[in] NODE lyd_value variable * @param[in] CANNONICAL_VAL expected cannonical value * @param[in] VALUE expected inteager (0 to 255). */ #define CHECK_LYD_VALUE_UINT8(NODE, CANNONICAL_VAL, VALUE) \ assert_non_null((NODE).realtype->plugin->print(UTEST_LYCTX, &(NODE), LY_VALUE_CANON, NULL, NULL, NULL)); \ assert_string_equal((NODE)._canonical, CANNONICAL_VAL); \ assert_non_null((NODE).realtype); \ assert_int_equal(LY_TYPE_UINT8, (NODE).realtype->basetype); \ assert_int_equal(VALUE, (NODE).uint8); /** * @brief Internal macro. Assert that lyd_value structure members are correct. Lyd value is type UINT32. * Example CHECK_LYD_VALUE(node->value, UINT32, "12", 12); * * @param[in] NODE lyd_value variable * @param[in] CANNONICAL_VAL expected cannonical value * @param[in] VALUE expected inteager (0 to MAX_UINT32). */ #define CHECK_LYD_VALUE_UINT32(NODE, CANNONICAL_VAL, VALUE) \ assert_non_null((NODE).realtype->plugin->print(UTEST_LYCTX, &(NODE), LY_VALUE_CANON, NULL, NULL, NULL)); \ assert_string_equal((NODE)._canonical, CANNONICAL_VAL); \ assert_non_null((NODE).realtype); \ assert_int_equal(LY_TYPE_UINT32, (NODE).realtype->basetype); \ assert_int_equal(VALUE, (NODE).uint32); /** * @brief Internal macro. Assert that lyd_value structure members are correct. Lyd value is type STRING. * Example CHECK_LYD_VALUE(node->value, STRING, "text"); * * @param[in] NODE lyd_value variable * @param[in] CANNONICAL_VAL expected cannonical value */ #define CHECK_LYD_VALUE_STRING(NODE, CANNONICAL_VAL) \ assert_non_null((NODE).realtype->plugin->print(UTEST_LYCTX, &(NODE), LY_VALUE_CANON, NULL, NULL, NULL)); \ assert_string_equal((NODE)._canonical, CANNONICAL_VAL); \ assert_non_null((NODE).realtype); \ assert_int_equal(LY_TYPE_STRING, (NODE).realtype->basetype); /** * @brief Internal macro. Assert that lyd_value structure members are correct. Lyd value is type LEAFREF * Example CHECK_LYD_VALUE(node->value, LEAFREF, ""); * * @param[in] NODE lyd_value variable * @param[in] CANNONICAL_VAL expected cannonical value */ #define CHECK_LYD_VALUE_LEAFREF(NODE, CANNONICAL_VAL) \ assert_non_null((NODE).realtype->plugin->print(UTEST_LYCTX, &(NODE), LY_VALUE_CANON, NULL, NULL, NULL)); \ assert_string_equal((NODE)._canonical, CANNONICAL_VAL); \ assert_non_null((NODE).realtype); \ assert_int_equal(LY_TYPE_LEAFREF, (NODE).realtype->basetype); \ assert_non_null((NODE).ptr) /** * @brief Internal macro. Assert that lyd_value structure members are correct. Lyd value is type DEC64 * Example CHECK_LYD_VALUE(node->value, DEC64, "125", 125); * * @param[in] NODE lyd_value variable * @param[in] CANNONICAL_VAL expected cannonical value * @param[in] VALUE expected value 64bit inteager */ #define CHECK_LYD_VALUE_DEC64(NODE, CANNONICAL_VAL, VALUE) \ assert_non_null((NODE).realtype->plugin->print(UTEST_LYCTX, &(NODE), LY_VALUE_CANON, NULL, NULL, NULL)); \ assert_string_equal((NODE)._canonical, CANNONICAL_VAL); \ assert_non_null((NODE).realtype); \ assert_int_equal(LY_TYPE_DEC64, (NODE).realtype->basetype); \ assert_int_equal(VALUE, (NODE).dec64); /** * @brief Internal macro. Assert that lyd_value structure members are correct. Lyd value is type BINARY. * Example CHECK_LYD_VALUE(node->value, BINARY, "aGVs\nbG8="); * * @param[in] NODE lyd_value variable * @param[in] CANNONICAL_VAL expected cannonical value * @param[in] VALUE expected value data * @param[in] SIZE expected value data size */ #define CHECK_LYD_VALUE_BINARY(NODE, CANNONICAL_VAL, VALUE, SIZE) \ { \ struct lyd_value_binary *_val; \ LYD_VALUE_GET(&(NODE), _val); \ assert_int_equal(_val->size, SIZE); \ assert_int_equal(0, memcmp(_val->data, VALUE, SIZE)); \ assert_non_null((NODE).realtype->plugin->print(UTEST_LYCTX, &(NODE), LY_VALUE_CANON, NULL, NULL, NULL)); \ assert_string_equal((NODE)._canonical, CANNONICAL_VAL); \ assert_non_null((NODE).realtype); \ assert_int_equal(LY_TYPE_BINARY, (NODE).realtype->basetype); \ } /** * @brief Internal macro. Assert that lyd_value structure members are correct. Lyd value is type BOOL. * Example CHECK_LYD_VALUE(node->value, BOOL, "true", 1); * * @param[in] NODE lyd_value variable * @param[in] CANNONICAL_VAL expected cannonical value * @param[in] VALUE expected boolean value 0,1 */ #define CHECK_LYD_VALUE_BOOL(NODE, CANNONICAL_VAL, VALUE) \ assert_non_null((NODE).realtype->plugin->print(UTEST_LYCTX, &(NODE), LY_VALUE_CANON, NULL, NULL, NULL)); \ assert_string_equal((NODE)._canonical, CANNONICAL_VAL); \ assert_non_null((NODE).realtype); \ assert_int_equal(LY_TYPE_BOOL, (NODE).realtype->basetype); \ assert_int_equal(VALUE, (NODE).boolean); /** * @brief Internal macro. Assert that lyd_value structure members are correct. Lyd value is type IDENT. * Example CHECK_LYD_VALUE(node->value, IDENT, "types:gigabit-ethernet", "gigabit-ethernet"); * * @param[in] NODE lyd_value variable * @param[in] CANNONICAL_VAL expected cannonical value * @param[in] VALUE expected ident name */ #define CHECK_LYD_VALUE_IDENT(NODE, CANNONICAL_VAL, VALUE) \ assert_non_null((NODE).realtype->plugin->print(UTEST_LYCTX, &(NODE), LY_VALUE_CANON, NULL, NULL, NULL)); \ assert_string_equal((NODE)._canonical, CANNONICAL_VAL); \ assert_non_null((NODE).realtype); \ assert_int_equal(LY_TYPE_IDENT, (NODE).realtype->basetype); \ assert_string_equal(VALUE, (NODE).ident->name); /** * @brief Macro testing parser when parsing incorrect module; * * @param[in] DATA String storing the schema module representation. * @param[in] FORMAT Schema format of the @p DATA * @param[in] FEATURES Array of module's features to enable * @param[in] RET_VAL ly_in_new_memory return error value */ #define UTEST_INVALID_MODULE(DATA, FORMAT, FEATURES, RET_VAL) \ { \ struct lys_module *mod; \ assert_int_equal(LY_SUCCESS, ly_in_new_memory(DATA, &_UC->in)); \ assert_int_equal(RET_VAL, lys_parse(_UC->ctx, _UC->in, FORMAT, FEATURES, &mod)); \ assert_null(mod); \ } \ ly_in_free(_UC->in, 0); \ _UC->in = NULL; \ /** * @brief Add module (from a string) into the used libyang context. * * @param[in] DATA String storing the schema module representation. * @param[in] FORMAT Schema format of the @p DATA * @param[in] FEATURES Array of module's features to enable * @param[out] MOD Optional parameter as a pointer to variable to store the resulting module. */ #define UTEST_ADD_MODULE(DATA, FORMAT, FEATURES, MOD) \ assert_int_equal(LY_SUCCESS, ly_in_new_memory(DATA, &_UC->in)); \ { \ LY_ERR __r = lys_parse(_UC->ctx, _UC->in, FORMAT, FEATURES, MOD); \ if (__r != LY_SUCCESS) { \ print_message("[ MSG ] Module parsing failed:\n"); \ for (const struct ly_err_item *e = ly_err_first(_UC->ctx); e; e = e->next) { \ print_message("[ MSG ] \t%s Schema path %s\n", e->msg, e->schema_path); \ } \ fail(); \ } \ } \ ly_in_free(_UC->in, 0); \ _UC->in = NULL /** * @brief Check expected last error message. * * @param[in] MSG Expected error message. */ #define CHECK_LOG_LASTMSG(MSG) \ CHECK_STRING(ly_last_logmsg(), MSG) /** * @brief Check expected last error in libyang context, which is then cleared. Can be called repeatedly to check * several errors. If NULL is provided as MSG, no error info record (NULL) is expected. * * @param[in] MSG Expected error message. * @param[in] PATH Expected error data/schema path. * @param[in] LINE Expected error line. */ #define CHECK_LOG_CTX(MSG, PATH, LINE) \ { \ struct ly_err_item *_e = (struct ly_err_item *)ly_err_last(_UC->ctx); \ if (!MSG) { \ assert_null(_e); \ } else { \ assert_non_null(_e); \ CHECK_STRING(_e->msg, MSG); \ if (_e->data_path) { \ CHECK_STRING(_e->data_path, PATH); \ } else { \ CHECK_STRING(_e->schema_path, PATH); \ } \ assert_int_equal(_e->line, LINE); \ } \ ly_err_clean(_UC->ctx, _e); \ } /** * @brief Check expected error in libyang context including error-app-tag. * * @param[in] MSG Expected error message. * @param[in] PATH Expected error data/schema path. * @param[in] LINE Expected error line. * @param[in] APPTAG Expected error-app-tag. */ #define CHECK_LOG_CTX_APPTAG(MSG, PATH, LINE, APPTAG) \ { \ struct ly_err_item *_e = (struct ly_err_item *)ly_err_last(_UC->ctx); \ if (!MSG) { \ assert_null(_e); \ } else { \ assert_non_null(_e); \ CHECK_STRING(_e->msg, MSG); \ if (_e->data_path) { \ CHECK_STRING(_e->data_path, PATH); \ } else { \ CHECK_STRING(_e->schema_path, PATH); \ } \ assert_int_equal(_e->line, LINE); \ CHECK_STRING(_e->apptag, APPTAG); \ } \ ly_err_clean(_UC->ctx, _e); \ } /** * @brief Clear all errors stored in the libyang context. */ #define UTEST_LOG_CTX_CLEAN \ ly_err_clean(_UC->ctx, NULL) #ifdef _UTEST_MAIN_ /* * Functions inlined into each C source file including this header with _UTEST_MAIN_ defined */ /** * @brief Global variable holding the tests context to simplify access to it. */ struct utest_context *current_utest_context; /** * @brief Generic utest's setup */ static int utest_setup(void **state) { char *cur_tz; /* setup the logger */ ly_log_options(/*LY_LOLOG |*/ LY_LOSTORE); current_utest_context = calloc(1, sizeof *current_utest_context); assert_non_null(current_utest_context); *state = current_utest_context; /* libyang context */ assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, 0, ¤t_utest_context->ctx)); /* backup timezone, if any */ cur_tz = getenv("TZ"); if (cur_tz) { current_utest_context->orig_tz = strdup(cur_tz); } /* set CET */ setenv("TZ", "CET+02:00", 1); return 0; } /** * @brief macro to include generic utest's setup into the test-specific setup. * * Place at the beginning of the test-specific setup */ #define UTEST_SETUP \ assert_int_equal(0, utest_setup(state)) /** * @brief Generic utest's teardown */ static int utest_teardown(void **state) { *state = NULL; /* libyang context, no leftover messages */ assert_null(ly_err_last(current_utest_context->ctx)); ly_ctx_destroy(current_utest_context->ctx); if (current_utest_context->orig_tz) { /* restore TZ */ setenv("TZ", current_utest_context->orig_tz, 1); } /* utest context */ ly_in_free(current_utest_context->in, 0); free(current_utest_context->orig_tz); free(current_utest_context); current_utest_context = NULL; return 0; } /** * @brief macro to include generic utest's teardown into the test-specific teardown. * * Place at the end of the test-specific teardown */ #define UTEST_TEARDOWN \ assert_int_equal(0, utest_teardown(state)) /** * @brief Internal macro for utest setup with test-specific setup and teardown */ #define _UTEST_SETUP_TEARDOWN(FUNC, SETUP, TEARDOWN) \ cmocka_unit_test_setup_teardown(FUNC, SETUP, TEARDOWN) /** * @brief Internal macro for utest setup with test-specific setup and generic teardown */ #define _UTEST_SETUP(FUNC, SETUP) \ cmocka_unit_test_setup_teardown(FUNC, SETUP, utest_teardown) /** * @brief Internal macro for utest setup with generic setup and teardown */ #define _UTEST(FUNC) \ cmocka_unit_test_setup_teardown(FUNC, utest_setup, utest_teardown) /** * @brief Internal helper macro to select _UTEST* macro according to the provided parameters. */ #define _GET_UTEST_MACRO(_1, _2, _3, NAME, ...) NAME /** * @brief Macro to specify test function using utest environment. Macro has variadic parameters * to provide test-specific setup/teardown functions: * * UTEST(test_func) - only implicit setup and teardown functions are used * UTEST(test_func, setup) - implicit teardown but own setup * UTEST(test_func, setup, teardown) - both setup and teardown are test-specific */ #define UTEST(...) \ _GET_UTEST_MACRO(__VA_ARGS__, _UTEST_SETUP_TEARDOWN, _UTEST_SETUP, _UTEST, DUMMY)(__VA_ARGS__) #else /* _UTEST_MAIN_ */ extern struct utest_context *current_utest_context; #endif /* _UTEST_MAIN_ */ #endif /* _UTESTS_H_ */