blob: 26be1900a62ccb5dad477d3b82aa9446e60e67d0 [file] [log] [blame]
/*
* @file test_parser_yang.c
* @author: Radek Krejci <rkrejci@cesnet.cz>
* @brief unit tests for functions from parser_yang.c
*
* Copyright (c) 2018-2020 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
*/
#define _UTEST_MAIN_
#include "utests.h"
#include <stdio.h>
#include <string.h>
#include "common.h"
#include "in_internal.h"
#include "parser_internal.h"
#include "schema_compile.h"
#include "tree_edit.h"
#include "tree_schema.h"
#include "tree_schema_internal.h"
/* originally static functions from tree_schema_free.c and parser_yang.c */
void lysp_ext_instance_free(struct ly_ctx *ctx, struct lysp_ext_instance *ext);
void lysp_deviation_free(struct ly_ctx *ctx, struct lysp_deviation *dev);
void lysp_grp_free(struct ly_ctx *ctx, struct lysp_node_grp *grp);
void lysp_augment_free(struct ly_ctx *ctx, struct lysp_node_augment *augment);
void lysp_deviate_free(struct ly_ctx *ctx, struct lysp_deviate *d);
void lysp_node_free(struct ly_ctx *ctx, struct lysp_node *node);
void lysp_when_free(struct ly_ctx *ctx, struct lysp_when *when);
LY_ERR buf_add_char(struct ly_ctx *ctx, struct ly_in *in, size_t len, char **buf, size_t *buf_len, size_t *buf_used);
LY_ERR buf_store_char(struct lys_yang_parser_ctx *ctx, enum yang_arg arg, char **word_p,
size_t *word_len, char **word_b, size_t *buf_len, uint8_t need_buf, uint8_t *prefix);
LY_ERR get_keyword(struct lys_yang_parser_ctx *ctx, enum ly_stmt *kw, char **word_p, size_t *word_len);
LY_ERR get_argument(struct lys_yang_parser_ctx *ctx, enum yang_arg arg,
uint16_t *flags, char **word_p, char **word_b, size_t *word_len);
LY_ERR skip_comment(struct lys_yang_parser_ctx *ctx, uint8_t comment);
LY_ERR parse_action(struct lys_yang_parser_ctx *ctx, struct lysp_node *parent, struct lysp_node_action **actions);
LY_ERR parse_any(struct lys_yang_parser_ctx *ctx, enum ly_stmt kw, struct lysp_node *parent, struct lysp_node **siblings);
LY_ERR parse_augment(struct lys_yang_parser_ctx *ctx, struct lysp_node *parent, struct lysp_node_augment **augments);
LY_ERR parse_case(struct lys_yang_parser_ctx *ctx, struct lysp_node *parent, struct lysp_node **siblings);
LY_ERR parse_container(struct lys_yang_parser_ctx *ctx, struct lysp_node *parent, struct lysp_node **siblings);
LY_ERR parse_deviate(struct lys_yang_parser_ctx *ctx, struct lysp_deviate **deviates);
LY_ERR parse_deviation(struct lys_yang_parser_ctx *ctx, struct lysp_deviation **deviations);
LY_ERR parse_grouping(struct lys_yang_parser_ctx *ctx, struct lysp_node *parent, struct lysp_node_grp **groupings);
LY_ERR parse_choice(struct lys_yang_parser_ctx *ctx, struct lysp_node *parent, struct lysp_node **siblings);
LY_ERR parse_leaf(struct lys_yang_parser_ctx *ctx, struct lysp_node *parent, struct lysp_node **siblings);
LY_ERR parse_leaflist(struct lys_yang_parser_ctx *ctx, struct lysp_node *parent, struct lysp_node **siblings);
LY_ERR parse_list(struct lys_yang_parser_ctx *ctx, struct lysp_node *parent, struct lysp_node **siblings);
LY_ERR parse_maxelements(struct lys_yang_parser_ctx *ctx, uint32_t *max, uint16_t *flags, struct lysp_ext_instance **exts);
LY_ERR parse_minelements(struct lys_yang_parser_ctx *ctx, uint32_t *min, uint16_t *flags, struct lysp_ext_instance **exts);
LY_ERR parse_module(struct lys_yang_parser_ctx *ctx, struct lysp_module *mod);
LY_ERR parse_notif(struct lys_yang_parser_ctx *ctx, struct lysp_node *parent, struct lysp_node_notif **notifs);
LY_ERR parse_submodule(struct lys_yang_parser_ctx *ctx, struct lysp_submodule *submod);
LY_ERR parse_uses(struct lys_yang_parser_ctx *ctx, struct lysp_node *parent, struct lysp_node **siblings);
LY_ERR parse_when(struct lys_yang_parser_ctx *ctx, struct lysp_when **when_p);
LY_ERR parse_type_enum_value_pos(struct lys_yang_parser_ctx *ctx, enum ly_stmt val_kw, int64_t *value, uint16_t *flags, struct lysp_ext_instance **exts);
struct lys_yang_parser_ctx *YCTX;
struct ly_in in = {0};
#define YCTX_INIT \
in.line = 1; \
YCTX->in = &in; \
LOG_LOCINIT(UTEST_LYCTX, NULL, NULL, NULL, &in)
static int
setup(void **state)
{
UTEST_SETUP;
/* allocate parser context */
YCTX = calloc(1, sizeof(*YCTX));
YCTX->format = LYS_IN_YANG;
/* allocate new parsed module */
YCTX->parsed_mod = calloc(1, sizeof *YCTX->parsed_mod);
/* allocate new module */
YCTX->parsed_mod->mod = calloc(1, sizeof *YCTX->parsed_mod->mod);
YCTX->parsed_mod->mod->ctx = UTEST_LYCTX;
YCTX->parsed_mod->mod->parsed = YCTX->parsed_mod;
/* initilize and use the global easily available and customizable input handler */
in.line = 1;
YCTX->in = &in;
LOG_LOCINIT(NULL, NULL, NULL, &in);
return 0;
}
static int
teardown(void **state)
{
lys_module_free(YCTX->parsed_mod->mod);
LOG_LOCBACK(0, 0, 0, 1);
free(YCTX);
YCTX = NULL;
UTEST_TEARDOWN;
return 0;
}
#define TEST_DUP_GENERIC(PREFIX, MEMBER, VALUE1, VALUE2, FUNC, RESULT, LINE, CLEANUP) \
in.current = PREFIX MEMBER" "VALUE1";"MEMBER" "VALUE2";} ..."; \
assert_int_equal(LY_EVALID, FUNC(YCTX, RESULT)); \
CHECK_LOG_CTX("Duplicate keyword \""MEMBER"\".", "Line number "LINE".");\
CLEANUP
static void
test_helpers(void **state)
{
char *buf, *p;
size_t len, size;
uint8_t prefix = 0;
/* storing into buffer */
in.current = "abcd";
buf = NULL;
size = len = 0;
assert_int_equal(LY_SUCCESS, buf_add_char(NULL, &in, 2, &buf, &size, &len));
assert_int_not_equal(0, size);
assert_int_equal(2, len);
assert_string_equal("cd", in.current);
assert_false(strncmp("ab", buf, 2));
free(buf);
buf = NULL;
/* invalid first characters */
len = 0;
in.current = "2invalid";
assert_int_equal(LY_EVALID, buf_store_char(YCTX, Y_IDENTIF_ARG, &p, &len, &buf, &size, 1, &prefix));
in.current = ".invalid";
assert_int_equal(LY_EVALID, buf_store_char(YCTX, Y_IDENTIF_ARG, &p, &len, &buf, &size, 1, &prefix));
in.current = "-invalid";
assert_int_equal(LY_EVALID, buf_store_char(YCTX, Y_IDENTIF_ARG, &p, &len, &buf, &size, 1, &prefix));
/* invalid following characters */
len = 3; /* number of characters read before the str content */
in.current = "!";
assert_int_equal(LY_EVALID, buf_store_char(YCTX, Y_IDENTIF_ARG, &p, &len, &buf, &size, 1, &prefix));
in.current = ":";
assert_int_equal(LY_EVALID, buf_store_char(YCTX, Y_IDENTIF_ARG, &p, &len, &buf, &size, 1, &prefix));
/* valid colon for prefixed identifiers */
len = size = 0;
p = NULL;
prefix = 0;
in.current = "x:id";
assert_int_equal(LY_SUCCESS, buf_store_char(YCTX, Y_PREF_IDENTIF_ARG, &p, &len, &buf, &size, 0, &prefix));
assert_int_equal(1, len);
assert_null(buf);
assert_string_equal(":id", in.current);
assert_int_equal('x', p[len - 1]);
assert_int_equal(LY_SUCCESS, buf_store_char(YCTX, Y_PREF_IDENTIF_ARG, &p, &len, &buf, &size, 1, &prefix));
assert_int_equal(2, len);
assert_string_equal("id", in.current);
assert_int_equal(':', p[len - 1]);
free(buf);
prefix = 0;
/* checking identifiers */
assert_int_equal(LY_EVALID, lysp_check_identifierchar((struct lys_parser_ctx *)YCTX, ':', 0, NULL));
CHECK_LOG_CTX("Invalid identifier character ':' (0x003a).", "Line number 1.");
assert_int_equal(LY_EVALID, lysp_check_identifierchar((struct lys_parser_ctx *)YCTX, '#', 1, NULL));
CHECK_LOG_CTX("Invalid identifier first character '#' (0x0023).", "Line number 1.");
assert_int_equal(LY_SUCCESS, lysp_check_identifierchar((struct lys_parser_ctx *)YCTX, 'a', 1, &prefix));
assert_int_equal(0, prefix);
assert_int_equal(LY_SUCCESS, lysp_check_identifierchar((struct lys_parser_ctx *)YCTX, ':', 0, &prefix));
assert_int_equal(1, prefix);
assert_int_equal(LY_EVALID, lysp_check_identifierchar((struct lys_parser_ctx *)YCTX, ':', 0, &prefix));
assert_int_equal(1, prefix);
assert_int_equal(LY_SUCCESS, lysp_check_identifierchar((struct lys_parser_ctx *)YCTX, 'b', 0, &prefix));
assert_int_equal(2, prefix);
/* second colon is invalid */
assert_int_equal(LY_EVALID, lysp_check_identifierchar((struct lys_parser_ctx *)YCTX, ':', 0, &prefix));
CHECK_LOG_CTX("Invalid identifier character ':' (0x003a).", "Line number 1.");
}
#define TEST_GET_ARGUMENT_SUCCESS(INPUT_TEXT, CTX, ARG_TYPE, EXPECT_WORD, EXPECT_LEN, EXPECT_CURRENT, EXPECT_LINE)\
{\
const char * text = INPUT_TEXT;\
in.line = 1;\
in.current = text;\
assert_int_equal(LY_SUCCESS, get_argument(CTX, Y_MAYBE_STR_ARG, NULL, &word, &buf, &len));\
assert_string_equal(word, EXPECT_WORD);\
assert_int_equal(len, EXPECT_LEN);\
assert_string_equal(EXPECT_CURRENT, in.current);\
assert_int_equal(EXPECT_LINE, in.line);\
}
static void
test_comments(void **state)
{
char *word, *buf;
size_t len;
TEST_GET_ARGUMENT_SUCCESS(" // this is a text of / one * line */ comment\nargument;",
YCTX, Y_STR_ARG, "argument;", 8, ";", 2);
assert_null(buf);
TEST_GET_ARGUMENT_SUCCESS("/* this is a \n * text // of / block * comment */\"arg\" + \"ume\" \n + \n \"nt\";",
YCTX, Y_STR_ARG, "argument", 8, ";", 4);
assert_ptr_equal(buf, word);
free(word);
in.line = 1;
in.current = " this is one line comment on last line";
assert_int_equal(LY_SUCCESS, skip_comment(YCTX, 1));
assert_true(in.current[0] == '\0');
in.line = 1;
in.current = " this is a not terminated comment x";
assert_int_equal(LY_EVALID, skip_comment(YCTX, 2));
CHECK_LOG_CTX("Unexpected end-of-input, non-terminated comment.", "Line number 1.");
assert_true(in.current[0] == '\0');
}
static void
test_arg(void **state)
{
char *word, *buf;
size_t len;
/* missing argument */
in.current = ";";
assert_int_equal(LY_SUCCESS, get_argument(YCTX, Y_MAYBE_STR_ARG, NULL, &word, &buf, &len));
assert_null(word);
in.current = "{";
assert_int_equal(LY_EVALID, get_argument(YCTX, Y_STR_ARG, NULL, &word, &buf, &len));
CHECK_LOG_CTX("Invalid character sequence \"{\", expected an argument.", "Line number 1.");
/* invalid escape sequence */
in.current = "\"\\s\"";
assert_int_equal(LY_EVALID, get_argument(YCTX, Y_STR_ARG, NULL, &word, &buf, &len));
CHECK_LOG_CTX("Double-quoted string unknown special character \'\\s\'.", "Line number 1.");
TEST_GET_ARGUMENT_SUCCESS("\'\\s\'", YCTX, Y_STR_ARG, "\\s\'", 2, "", 1);
/* invalid character after the argument */
in.current = "hello\"";
assert_int_equal(LY_EVALID, get_argument(YCTX, Y_STR_ARG, NULL, &word, &buf, &len));
CHECK_LOG_CTX("Invalid character sequence \"\"\", expected unquoted string character, optsep, semicolon or opening brace.", "Line number 1.");
in.current = "hello}";
assert_int_equal(LY_EVALID, get_argument(YCTX, Y_STR_ARG, NULL, &word, &buf, &len));
CHECK_LOG_CTX("Invalid character sequence \"}\", expected unquoted string character, optsep, semicolon or opening brace.", "Line number 1.");
/* invalid identifier-ref-arg-str */
in.current = "pre:pre:value";
assert_int_equal(LY_EVALID, get_argument(YCTX, Y_PREF_IDENTIF_ARG, NULL, &word, &buf, &len));
CHECK_LOG_CTX("Invalid identifier character ':' (0x003a).", "Line number 1.");
in.current = "\"\";"; /* empty identifier is not allowed */
assert_int_equal(LY_EVALID, get_argument(YCTX, Y_IDENTIF_ARG, NULL, &word, &buf, &len));
CHECK_LOG_CTX("Statement argument is required.", "Line number 1.");
in.current = "\"\";"; /* empty reference identifier is not allowed */
assert_int_equal(LY_EVALID, get_argument(YCTX, Y_PREF_IDENTIF_ARG, NULL, &word, &buf, &len));
CHECK_LOG_CTX("Statement argument is required.", "Line number 1.");
/* slash is not an invalid character */
TEST_GET_ARGUMENT_SUCCESS("hello/x\t", YCTX, Y_STR_ARG, "hello/x\t", 7, "\t", 1);
assert_null(buf);
/* different quoting */
TEST_GET_ARGUMENT_SUCCESS("hello/x\t", YCTX, Y_STR_ARG, "hello/x\t", 7, "\t", 1);
TEST_GET_ARGUMENT_SUCCESS("hello ", YCTX, Y_STR_ARG, "hello ", 5, " ", 1);
TEST_GET_ARGUMENT_SUCCESS("hello/*comment*/\n", YCTX, Y_STR_ARG, "hello/*comment*/\n", 5, "\n", 1);
TEST_GET_ARGUMENT_SUCCESS("\"hello\\n\\t\\\"\\\\\";", YCTX, Y_STR_ARG, "hello\n\t\"\\", 9, ";", 1);
free(buf);
YCTX->indent = 14;
/* - space and tabs before newline are stripped out
* - space and tabs after newline (indentation) are stripped out
*/
TEST_GET_ARGUMENT_SUCCESS("\"hello \t\n\t\t world!\"", YCTX, Y_STR_ARG, "hello\n world!", 14, "", 2);
free(buf);
/* In contrast to previous, the backslash-escaped tabs are expanded after trimming, so they are preserved */
YCTX->indent = 14;
TEST_GET_ARGUMENT_SUCCESS("\"hello \\t\n\t\\t world!\"", YCTX, Y_STR_ARG, "hello \t\n\t world!", 16, "", 2);
assert_ptr_equal(word, buf);
free(buf);
/* Do not handle whitespaces after backslash-escaped newline as indentation */
YCTX->indent = 14;
TEST_GET_ARGUMENT_SUCCESS("\"hello\\n\t\t world!\"", YCTX, Y_STR_ARG, "hello\n\t\t world!", 15, "", 1);
assert_ptr_equal(word, buf);
free(buf);
YCTX->indent = 14;
TEST_GET_ARGUMENT_SUCCESS("\"hello\n \tworld!\"", YCTX, Y_STR_ARG, "hello\nworld!", 12, "", 2);
assert_ptr_equal(word, buf);
free(buf);
TEST_GET_ARGUMENT_SUCCESS("\'hello\'", YCTX, Y_STR_ARG, "hello'", 5, "", 1);
TEST_GET_ARGUMENT_SUCCESS("\"hel\" +\t\n\"lo\"", YCTX, Y_STR_ARG, "hello", 5, "", 2);
assert_ptr_equal(word, buf);
free(buf);
in.line = 1;
in.current = "\"hel\" +\t\nlo"; /* unquoted the second part */
assert_int_equal(LY_EVALID, get_argument(YCTX, Y_STR_ARG, NULL, &word, &buf, &len));
CHECK_LOG_CTX("Both string parts divided by '+' must be quoted.", "Line number 2.");
TEST_GET_ARGUMENT_SUCCESS("\'he\'\t\n+ \"llo\"", YCTX, Y_STR_ARG, "hello", 5, "", 2);
free(buf);
TEST_GET_ARGUMENT_SUCCESS(" \t\n\"he\"+\'llo\'", YCTX, Y_STR_ARG, "hello", 5, "", 2);
free(buf);
/* missing argument */
in.line = 1;
in.current = ";";
assert_int_equal(LY_EVALID, get_argument(YCTX, Y_STR_ARG, NULL, &word, &buf, &len));
CHECK_LOG_CTX("Invalid character sequence \";\", expected an argument.", "Line number 1.");
}
#define TEST_STMS_SUCCESS(INPUT_TEXT, CTX, ACTION, EXPECT_WORD)\
in.current = INPUT_TEXT;\
assert_int_equal(LY_SUCCESS, get_keyword(CTX, &kw, &word, &len));\
assert_int_equal(ACTION, kw);\
assert_int_equal(strlen(EXPECT_WORD), len);\
assert_true(0 == strncmp(EXPECT_WORD, word, len))
static void
test_stmts(void **state)
{
const char *p;
enum ly_stmt kw;
char *word;
size_t len;
in.current = "\n// comment\n\tinput\t{";
assert_int_equal(LY_SUCCESS, get_keyword(YCTX, &kw, &word, &len));
assert_int_equal(LY_STMT_INPUT, kw);
assert_int_equal(5, len);
assert_string_equal("input\t{", word);
assert_string_equal("\t{", in.current);
in.current = "\t /* comment */\t output\n\t{";
assert_int_equal(LY_SUCCESS, get_keyword(YCTX, &kw, &word, &len));
assert_int_equal(LY_STMT_OUTPUT, kw);
assert_int_equal(6, len);
assert_string_equal("output\n\t{", word);
assert_string_equal("\n\t{", in.current);
assert_int_equal(LY_SUCCESS, get_keyword(YCTX, &kw, &word, &len));
assert_int_equal(LY_STMT_SYNTAX_LEFT_BRACE, kw);
assert_int_equal(1, len);
assert_string_equal("{", word);
assert_string_equal("", in.current);
in.current = "/input { "; /* invalid slash */
assert_int_equal(LY_EVALID, get_keyword(YCTX, &kw, &word, &len));
CHECK_LOG_CTX("Invalid identifier first character '/'.", "Line number 4.");
in.current = "not-a-statement-nor-extension { "; /* invalid identifier */
assert_int_equal(LY_EVALID, get_keyword(YCTX, &kw, &word, &len));
CHECK_LOG_CTX("Invalid character sequence \"not-a-statement-nor-extension\", expected a keyword.", "Line number 4.");
in.current = "path;"; /* missing sep after the keyword */
assert_int_equal(LY_EVALID, get_keyword(YCTX, &kw, &word, &len));
CHECK_LOG_CTX("Invalid character sequence \"path;\", expected a keyword followed by a separator.", "Line number 4.");
TEST_STMS_SUCCESS("action ", YCTX, LY_STMT_ACTION, "action");
TEST_STMS_SUCCESS("anydata ", YCTX, LY_STMT_ANYDATA, "anydata");
TEST_STMS_SUCCESS("anyxml ", YCTX, LY_STMT_ANYXML, "anyxml");
TEST_STMS_SUCCESS("argument ", YCTX, LY_STMT_ARGUMENT, "argument");
TEST_STMS_SUCCESS("augment ", YCTX, LY_STMT_AUGMENT, "augment");
TEST_STMS_SUCCESS("base ", YCTX, LY_STMT_BASE, "base");
TEST_STMS_SUCCESS("belongs-to ", YCTX, LY_STMT_BELONGS_TO, "belongs-to");
TEST_STMS_SUCCESS("bit ", YCTX, LY_STMT_BIT, "bit");
TEST_STMS_SUCCESS("case ", YCTX, LY_STMT_CASE, "case");
TEST_STMS_SUCCESS("choice ", YCTX, LY_STMT_CHOICE, "choice");
TEST_STMS_SUCCESS("config ", YCTX, LY_STMT_CONFIG, "config");
TEST_STMS_SUCCESS("contact ", YCTX, LY_STMT_CONTACT, "contact");
TEST_STMS_SUCCESS("container ", YCTX, LY_STMT_CONTAINER, "container");
TEST_STMS_SUCCESS("default ", YCTX, LY_STMT_DEFAULT, "default");
TEST_STMS_SUCCESS("description ", YCTX, LY_STMT_DESCRIPTION, "description");
TEST_STMS_SUCCESS("deviate ", YCTX, LY_STMT_DEVIATE, "deviate");
TEST_STMS_SUCCESS("deviation ", YCTX, LY_STMT_DEVIATION, "deviation");
TEST_STMS_SUCCESS("enum ", YCTX, LY_STMT_ENUM, "enum");
TEST_STMS_SUCCESS("error-app-tag ", YCTX, LY_STMT_ERROR_APP_TAG, "error-app-tag");
TEST_STMS_SUCCESS("error-message ", YCTX, LY_STMT_ERROR_MESSAGE, "error-message");
TEST_STMS_SUCCESS("extension ", YCTX, LY_STMT_EXTENSION, "extension");
TEST_STMS_SUCCESS("feature ", YCTX, LY_STMT_FEATURE, "feature");
TEST_STMS_SUCCESS("fraction-digits ", YCTX, LY_STMT_FRACTION_DIGITS, "fraction-digits");
TEST_STMS_SUCCESS("grouping ", YCTX, LY_STMT_GROUPING, "grouping");
TEST_STMS_SUCCESS("identity ", YCTX, LY_STMT_IDENTITY, "identity");
TEST_STMS_SUCCESS("if-feature ", YCTX, LY_STMT_IF_FEATURE, "if-feature");
TEST_STMS_SUCCESS("import ", YCTX, LY_STMT_IMPORT, "import");
TEST_STMS_SUCCESS("include ", YCTX, LY_STMT_INCLUDE, "include");
TEST_STMS_SUCCESS("input{", YCTX, LY_STMT_INPUT, "input");
TEST_STMS_SUCCESS("key ", YCTX, LY_STMT_KEY, "key");
TEST_STMS_SUCCESS("leaf ", YCTX, LY_STMT_LEAF, "leaf");
TEST_STMS_SUCCESS("leaf-list ", YCTX, LY_STMT_LEAF_LIST, "leaf-list");
TEST_STMS_SUCCESS("length ", YCTX, LY_STMT_LENGTH, "length");
TEST_STMS_SUCCESS("list ", YCTX, LY_STMT_LIST, "list");
TEST_STMS_SUCCESS("mandatory ", YCTX, LY_STMT_MANDATORY, "mandatory");
TEST_STMS_SUCCESS("max-elements ", YCTX, LY_STMT_MAX_ELEMENTS, "max-elements");
TEST_STMS_SUCCESS("min-elements ", YCTX, LY_STMT_MIN_ELEMENTS, "min-elements");
TEST_STMS_SUCCESS("modifier ", YCTX, LY_STMT_MODIFIER, "modifier");
TEST_STMS_SUCCESS("module ", YCTX, LY_STMT_MODULE, "module");
TEST_STMS_SUCCESS("must ", YCTX, LY_STMT_MUST, "must");
TEST_STMS_SUCCESS("namespace ", YCTX, LY_STMT_NAMESPACE, "namespace");
TEST_STMS_SUCCESS("notification ", YCTX, LY_STMT_NOTIFICATION, "notification");
TEST_STMS_SUCCESS("ordered-by ", YCTX, LY_STMT_ORDERED_BY, "ordered-by");
TEST_STMS_SUCCESS("organization ", YCTX, LY_STMT_ORGANIZATION, "organization");
TEST_STMS_SUCCESS("output ", YCTX, LY_STMT_OUTPUT, "output");
TEST_STMS_SUCCESS("path ", YCTX, LY_STMT_PATH, "path");
TEST_STMS_SUCCESS("pattern ", YCTX, LY_STMT_PATTERN, "pattern");
TEST_STMS_SUCCESS("position ", YCTX, LY_STMT_POSITION, "position");
TEST_STMS_SUCCESS("prefix ", YCTX, LY_STMT_PREFIX, "prefix");
TEST_STMS_SUCCESS("presence ", YCTX, LY_STMT_PRESENCE, "presence");
TEST_STMS_SUCCESS("range ", YCTX, LY_STMT_RANGE, "range");
TEST_STMS_SUCCESS("reference ", YCTX, LY_STMT_REFERENCE, "reference");
TEST_STMS_SUCCESS("refine ", YCTX, LY_STMT_REFINE, "refine");
TEST_STMS_SUCCESS("require-instance ", YCTX, LY_STMT_REQUIRE_INSTANCE, "require-instance");
TEST_STMS_SUCCESS("revision ", YCTX, LY_STMT_REVISION, "revision");
TEST_STMS_SUCCESS("revision-date ", YCTX, LY_STMT_REVISION_DATE, "revision-date");
TEST_STMS_SUCCESS("rpc ", YCTX, LY_STMT_RPC, "rpc");
TEST_STMS_SUCCESS("status ", YCTX, LY_STMT_STATUS, "status");
TEST_STMS_SUCCESS("submodule ", YCTX, LY_STMT_SUBMODULE, "submodule");
TEST_STMS_SUCCESS("type ", YCTX, LY_STMT_TYPE, "type");
TEST_STMS_SUCCESS("typedef ", YCTX, LY_STMT_TYPEDEF, "typedef");
TEST_STMS_SUCCESS("unique ", YCTX, LY_STMT_UNIQUE, "unique");
TEST_STMS_SUCCESS("units ", YCTX, LY_STMT_UNITS, "units");
TEST_STMS_SUCCESS("uses ", YCTX, LY_STMT_USES, "uses");
TEST_STMS_SUCCESS("value ", YCTX, LY_STMT_VALUE, "value");
TEST_STMS_SUCCESS("when ", YCTX, LY_STMT_WHEN, "when");
TEST_STMS_SUCCESS("yang-version ", YCTX, LY_STMT_YANG_VERSION, "yang-version");
TEST_STMS_SUCCESS("yin-element ", YCTX, LY_STMT_YIN_ELEMENT, "yin-element");
TEST_STMS_SUCCESS(";config false;", YCTX, LY_STMT_SYNTAX_SEMICOLON, ";");
assert_string_equal("config false;", in.current);
TEST_STMS_SUCCESS("{ config false;", YCTX, LY_STMT_SYNTAX_LEFT_BRACE, "{");
assert_string_equal(" config false;", in.current);
TEST_STMS_SUCCESS("}", YCTX, LY_STMT_SYNTAX_RIGHT_BRACE, "}");
assert_string_equal("", in.current);
/* geenric extension */
in.current = p = "nacm:default-deny-write;";
assert_int_equal(LY_SUCCESS, get_keyword(YCTX, &kw, &word, &len));
assert_int_equal(LY_STMT_EXTENSION_INSTANCE, kw);
assert_int_equal(23, len);
assert_ptr_equal(p, word);
}
#define TEST_MINMAX_SUCCESS(INPUT_TEXT, CTX, TYPE, VALUE)\
in.current = INPUT_TEXT;\
if(TYPE == LYS_SET_MIN){\
assert_int_equal(LY_SUCCESS, parse_minelements(CTX, &value, &flags, &ext));\
}\
if(TYPE == LYS_SET_MAX){\
assert_int_equal(LY_SUCCESS, parse_maxelements(CTX, &value, &flags, &ext));\
}\
assert_int_equal(TYPE, flags);\
assert_int_equal(VALUE, value)
static void
test_minmax(void **state)
{
uint16_t flags = 0;
uint32_t value = 0;
struct lysp_ext_instance *ext = NULL;
YCTX->parsed_mod->version = 2; /* simulate YANG 1.1 */
in.current = " 1invalid; ...";
assert_int_equal(LY_EVALID, parse_minelements(YCTX, &value, &flags, &ext));
CHECK_LOG_CTX("Invalid value \"1invalid\" of \"min-elements\".", "Line number 1.");
flags = value = 0;
in.current = " -1; ...";
assert_int_equal(LY_EVALID, parse_minelements(YCTX, &value, &flags, &ext));
CHECK_LOG_CTX("Invalid value \"-1\" of \"min-elements\".", "Line number 1.");
/* implementation limit */
flags = value = 0;
in.current = " 4294967296; ...";
assert_int_equal(LY_EVALID, parse_minelements(YCTX, &value, &flags, &ext));
CHECK_LOG_CTX("Value \"4294967296\" is out of \"min-elements\" bounds.", "Line number 1.");
flags = value = 0;
TEST_MINMAX_SUCCESS(" 1; ...", YCTX, LYS_SET_MIN, 1);
flags = value = 0;
TEST_MINMAX_SUCCESS(" 1 {m:ext;} ...", YCTX, LYS_SET_MIN, 1);
assert_non_null(ext);
FREE_ARRAY(YCTX->parsed_mod->mod->ctx, ext, lysp_ext_instance_free);
ext = NULL;
flags = value = 0;
in.current = " 1 {config true;} ...";
assert_int_equal(LY_EVALID, parse_minelements(YCTX, &value, &flags, &ext));
CHECK_LOG_CTX("Invalid keyword \"config\" as a child of \"min-elements\".", "Line number 1.");
in.current = " 1invalid; ...";
assert_int_equal(LY_EVALID, parse_maxelements(YCTX, &value, &flags, &ext));
CHECK_LOG_CTX("Invalid value \"1invalid\" of \"max-elements\".", "Line number 1.");
flags = value = 0;
in.current = " -1; ...";
assert_int_equal(LY_EVALID, parse_maxelements(YCTX, &value, &flags, &ext));
CHECK_LOG_CTX("Invalid value \"-1\" of \"max-elements\".", "Line number 1.");
/* implementation limit */
flags = value = 0;
in.current = " 4294967296; ...";
assert_int_equal(LY_EVALID, parse_maxelements(YCTX, &value, &flags, &ext));
CHECK_LOG_CTX("Value \"4294967296\" is out of \"max-elements\" bounds.", "Line number 1.");
flags = value = 0;
TEST_MINMAX_SUCCESS(" 1; ...", YCTX, LYS_SET_MAX, 1);
flags = value = 0;
TEST_MINMAX_SUCCESS(" unbounded; ...", YCTX, LYS_SET_MAX, 0);
flags = value = 0;
TEST_MINMAX_SUCCESS(" 1 {m:ext;} ...", YCTX, LYS_SET_MAX, 1);
assert_non_null(ext);
FREE_ARRAY(YCTX->parsed_mod->mod->ctx, ext, lysp_ext_instance_free);
ext = NULL;
flags = value = 0;
in.current = " 1 {config true;} ...";
assert_int_equal(LY_EVALID, parse_maxelements(YCTX, &value, &flags, &ext));
CHECK_LOG_CTX("Invalid keyword \"config\" as a child of \"max-elements\".", "Line number 1.");
}
static struct lysp_module *
mod_renew(struct lys_yang_parser_ctx *ctx)
{
struct ly_ctx *ly_ctx = ctx->parsed_mod->mod->ctx;
lys_module_free(ctx->parsed_mod->mod);
ctx->parsed_mod = calloc(1, sizeof *ctx->parsed_mod);
ctx->parsed_mod->mod = calloc(1, sizeof *ctx->parsed_mod->mod);
ctx->parsed_mod->mod->parsed = ctx->parsed_mod;
ctx->parsed_mod->mod->ctx = ly_ctx;
ctx->in->line = 1;
return ctx->parsed_mod;
}
static struct lysp_submodule *
submod_renew(struct lys_yang_parser_ctx *ctx)
{
struct ly_ctx *ly_ctx = ctx->parsed_mod->mod->ctx;
lys_module_free(ctx->parsed_mod->mod);
ctx->parsed_mod = calloc(1, sizeof(struct lysp_submodule));
ctx->parsed_mod->mod = calloc(1, sizeof *ctx->parsed_mod->mod);
lydict_insert(ly_ctx, "name", 0, &ctx->parsed_mod->mod->name);
ctx->parsed_mod->mod->parsed = ctx->parsed_mod;
ctx->parsed_mod->mod->ctx = ly_ctx;
return (struct lysp_submodule *)ctx->parsed_mod;
}
static LY_ERR
test_imp_clb(const char *UNUSED(mod_name), const char *UNUSED(mod_rev), const char *UNUSED(submod_name),
const char *UNUSED(sub_rev), void *user_data, LYS_INFORMAT *format,
const char **module_data, void (**free_module_data)(void *model_data, void *user_data))
{
*module_data = user_data;
*format = LYS_IN_YANG;
*free_module_data = NULL;
return LY_SUCCESS;
}
static void
test_module(void **state)
{
struct lysp_module *mod = NULL;
struct lysp_submodule *submod = NULL;
struct lys_module *m;
struct lys_yang_parser_ctx *ctx_p;
mod = mod_renew(YCTX);
/* missing mandatory substatements */
in.current = " name {}";
assert_int_equal(LY_EVALID, parse_module(YCTX, mod));
assert_string_equal("name", mod->mod->name);
CHECK_LOG_CTX("Missing mandatory keyword \"namespace\" as a child of \"module\".", "Line number 1.");
mod = mod_renew(YCTX);
in.current = " name {namespace urn:x;}";
assert_int_equal(LY_EVALID, parse_module(YCTX, mod));
assert_string_equal("urn:x", mod->mod->ns);
CHECK_LOG_CTX("Missing mandatory keyword \"prefix\" as a child of \"module\".", "Line number 1.");
mod = mod_renew(YCTX);
in.current = " name {namespace urn:x;prefix \"x\";}";
assert_int_equal(LY_SUCCESS, parse_module(YCTX, mod));
assert_string_equal("x", mod->mod->prefix);
mod = mod_renew(YCTX);
#define SCHEMA_BEGINNING " name {yang-version 1.1;namespace urn:x;prefix \"x\";"
#define SCHEMA_BEGINNING2 " name {namespace urn:x;prefix \"x\";"
#define TEST_NODE(NODETYPE, INPUT, NAME) \
in.current = SCHEMA_BEGINNING INPUT; \
assert_int_equal(LY_SUCCESS, parse_module(YCTX, mod)); \
assert_non_null(mod->data); \
assert_int_equal(NODETYPE, mod->data->nodetype); \
assert_string_equal(NAME, mod->data->name); \
mod = mod_renew(YCTX);
#define TEST_GENERIC(INPUT, TARGET, TEST) \
in.current = SCHEMA_BEGINNING INPUT; \
assert_int_equal(LY_SUCCESS, parse_module(YCTX, mod)); \
assert_non_null(TARGET); \
TEST; \
mod = mod_renew(YCTX);
#define TEST_DUP(MEMBER, VALUE1, VALUE2, LINE) \
TEST_DUP_GENERIC(SCHEMA_BEGINNING, MEMBER, VALUE1, VALUE2, \
parse_module, mod, LINE, mod = mod_renew(YCTX))
/* duplicated namespace, prefix */
TEST_DUP("namespace", "y", "z", "1");
TEST_DUP("prefix", "y", "z", "1");
TEST_DUP("contact", "a", "b", "1");
TEST_DUP("description", "a", "b", "1");
TEST_DUP("organization", "a", "b", "1");
TEST_DUP("reference", "a", "b", "1");
/* not allowed in module (submodule-specific) */
in.current = SCHEMA_BEGINNING "belongs-to master {prefix m;}}";
assert_int_equal(LY_EVALID, parse_module(YCTX, mod));
CHECK_LOG_CTX("Invalid keyword \"belongs-to\" as a child of \"module\".", "Line number 1.");
mod = mod_renew(YCTX);
/* anydata */
TEST_NODE(LYS_ANYDATA, "anydata test;}", "test");
/* anyxml */
TEST_NODE(LYS_ANYXML, "anyxml test;}", "test");
/* augment */
TEST_GENERIC("augment /somepath;}", mod->augments,
assert_string_equal("/somepath", mod->augments[0].nodeid));
/* choice */
TEST_NODE(LYS_CHOICE, "choice test;}", "test");
/* contact 0..1 */
TEST_GENERIC("contact \"firstname\" + \n\t\" surname\";}", mod->mod->contact,
assert_string_equal("firstname surname", mod->mod->contact));
/* container */
TEST_NODE(LYS_CONTAINER, "container test;}", "test");
/* description 0..1 */
TEST_GENERIC("description \'some description\';}", mod->mod->dsc,
assert_string_equal("some description", mod->mod->dsc));
/* deviation */
TEST_GENERIC("deviation /somepath {deviate not-supported;}}", mod->deviations,
assert_string_equal("/somepath", mod->deviations[0].nodeid));
/* extension */
TEST_GENERIC("extension test;}", mod->extensions,
assert_string_equal("test", mod->extensions[0].name));
/* feature */
TEST_GENERIC("feature test;}", mod->features,
assert_string_equal("test", mod->features[0].name));
/* grouping */
TEST_GENERIC("grouping grp;}", mod->groupings,
assert_string_equal("grp", mod->groupings[0].name));
/* identity */
TEST_GENERIC("identity test;}", mod->identities,
assert_string_equal("test", mod->identities[0].name));
/* import */
ly_ctx_set_module_imp_clb(YCTX->parsed_mod->mod->ctx, test_imp_clb, "module zzz { namespace urn:zzz; prefix z;}");
TEST_GENERIC("import zzz {prefix z;}}", mod->imports,
assert_string_equal("zzz", mod->imports[0].name));
/* import - prefix collision */
in.current = SCHEMA_BEGINNING "import zzz {prefix x;}}";
assert_int_equal(LY_EVALID, parse_module(YCTX, mod));
CHECK_LOG_CTX("Prefix \"x\" already used as module prefix.", "Line number 1.");
mod = mod_renew(YCTX);
in.current = SCHEMA_BEGINNING "import zzz {prefix y;}import zzz {prefix y;}}";
assert_int_equal(LY_EVALID, parse_module(YCTX, mod));
CHECK_LOG_CTX("Prefix \"y\" already used to import \"zzz\" module.", "Line number 1.");
mod = mod_renew(YCTX);
LOG_LOCBACK(0, 0, 0, 1);
in.current = "module name10 {yang-version 1.1;namespace urn:x;prefix \"x\";import zzz {prefix y;}import zzz {prefix z;}}";
assert_int_equal(lys_parse_mem(YCTX->parsed_mod->mod->ctx, in.current, LYS_IN_YANG, NULL), LY_SUCCESS);
CHECK_LOG_CTX("Single revision of the module \"zzz\" imported twice.", NULL);
/* include */
ly_ctx_set_module_imp_clb(YCTX->parsed_mod->mod->ctx, test_imp_clb, "module xxx { namespace urn:xxx; prefix x;}");
in.current = "module" SCHEMA_BEGINNING "include xxx;}";
assert_int_equal(lys_parse_mem(YCTX->parsed_mod->mod->ctx, in.current, LYS_IN_YANG, NULL), LY_EVALID);
CHECK_LOG_CTX("Including \"xxx\" submodule into \"name\" failed.", NULL);
ly_ctx_set_module_imp_clb(YCTX->parsed_mod->mod->ctx, test_imp_clb, "submodule xxx {belongs-to wrong-name {prefix w;}}");
in.current = "module" SCHEMA_BEGINNING "include xxx;}";
assert_int_equal(lys_parse_mem(YCTX->parsed_mod->mod->ctx, in.current, LYS_IN_YANG, NULL), LY_EVALID);
CHECK_LOG_CTX("Including \"xxx\" submodule into \"name\" failed.", NULL);
ly_ctx_set_module_imp_clb(YCTX->parsed_mod->mod->ctx, test_imp_clb, "submodule xxx {belongs-to name {prefix x;}}");
TEST_GENERIC("include xxx;}", mod->includes,
assert_string_equal("xxx", mod->includes[0].name));
/* leaf */
TEST_NODE(LYS_LEAF, "leaf test {type string;}}", "test");
/* leaf-list */
TEST_NODE(LYS_LEAFLIST, "leaf-list test {type string;}}", "test");
/* list */
TEST_NODE(LYS_LIST, "list test {key a;leaf a {type string;}}}", "test");
/* notification */
TEST_GENERIC("notification test;}", mod->notifs,
assert_string_equal("test", mod->notifs[0].name));
/* organization 0..1 */
TEST_GENERIC("organization \"CESNET a.l.e.\";}", mod->mod->org,
assert_string_equal("CESNET a.l.e.", mod->mod->org));
/* reference 0..1 */
TEST_GENERIC("reference RFC7950;}", mod->mod->ref,
assert_string_equal("RFC7950", mod->mod->ref));
/* revision */
TEST_GENERIC("revision 2018-10-12;}", mod->revs,
assert_string_equal("2018-10-12", mod->revs[0].date));
/* rpc */
TEST_GENERIC("rpc test;}", mod->rpcs,
assert_string_equal("test", mod->rpcs[0].name));
/* typedef */
TEST_GENERIC("typedef test{type string;}}", mod->typedefs,
assert_string_equal("test", mod->typedefs[0].name));
/* uses */
TEST_NODE(LYS_USES, "uses test;}", "test");
/* yang-version */
in.current = SCHEMA_BEGINNING2 "\n\tyang-version 10;}";
assert_int_equal(LY_EVALID, parse_module(YCTX, mod));
CHECK_LOG_CTX("Invalid value \"10\" of \"yang-version\".", NULL);
mod = mod_renew(YCTX);
in.current = SCHEMA_BEGINNING2 "yang-version 1;yang-version 1.1;}";
assert_int_equal(LY_EVALID, parse_module(YCTX, mod));
CHECK_LOG_CTX("Duplicate keyword \"yang-version\".", NULL);
mod = mod_renew(YCTX);
in.current = SCHEMA_BEGINNING2 "yang-version 1;}";
assert_int_equal(LY_SUCCESS, parse_module(YCTX, mod));
assert_int_equal(1, mod->version);
mod = mod_renew(YCTX);
in.current = SCHEMA_BEGINNING2 "yang-version \"1.1\";}";
assert_int_equal(LY_SUCCESS, parse_module(YCTX, mod));
assert_int_equal(2, mod->version);
mod = mod_renew(YCTX);
in.current = "module " SCHEMA_BEGINNING "} module q {namespace urn:q;prefixq;}";
m = calloc(1, sizeof *m);
m->ctx = YCTX->parsed_mod->mod->ctx;
assert_int_equal(LY_EVALID, yang_parse_module(&ctx_p, &in, m));
CHECK_LOG_CTX("Trailing garbage \"module q {names...\" after module, expected end-of-input.", "Line number 1.");
yang_parser_ctx_free(ctx_p);
lys_module_free(m);
in.current = "prefix " SCHEMA_BEGINNING "}";
m = calloc(1, sizeof *m);
m->ctx = YCTX->parsed_mod->mod->ctx;
assert_int_equal(LY_EVALID, yang_parse_module(&ctx_p, &in, m));
CHECK_LOG_CTX("Invalid keyword \"prefix\", expected \"module\" or \"submodule\".", "Line number 1.");
yang_parser_ctx_free(ctx_p);
lys_module_free(m);
in.current = "module " SCHEMA_BEGINNING "leaf enum {type enumeration {enum seven { position 7;}}}}";
m = calloc(1, sizeof *m);
m->ctx = YCTX->parsed_mod->mod->ctx;
assert_int_equal(LY_EVALID, yang_parse_module(&ctx_p, &in, m));
CHECK_LOG_CTX("Invalid keyword \"position\" as a child of \"enum\".", "Line number 1.");
yang_parser_ctx_free(ctx_p);
lys_module_free(m);
/* extensions */
TEST_GENERIC("prefix:test;}", mod->exts,
assert_string_equal("prefix:test", mod->exts[0].name);
assert_int_equal(LY_STMT_MODULE, mod->exts[0].parent_stmt));
mod = mod_renew(YCTX);
/* invalid substatement */
in.current = SCHEMA_BEGINNING "must false;}";
assert_int_equal(LY_EVALID, parse_module(YCTX, mod));
CHECK_LOG_CTX("Invalid keyword \"must\" as a child of \"module\".", NULL);
/* submodule */
submod = submod_renew(YCTX);
/* missing mandatory substatements */
in.current = " subname {}";
assert_int_equal(LY_EVALID, parse_submodule(YCTX, submod));
CHECK_LOG_CTX("Missing mandatory keyword \"belongs-to\" as a child of \"submodule\".", NULL);
assert_string_equal("subname", submod->name);
submod = submod_renew(YCTX);
in.current = " subname {belongs-to name {prefix x;}}";
assert_int_equal(LY_SUCCESS, parse_submodule(YCTX, submod));
assert_string_equal("name", submod->mod->name);
submod = submod_renew(YCTX);
#undef SCHEMA_BEGINNING
#define SCHEMA_BEGINNING " subname {belongs-to name {prefix x;}"
/* duplicated namespace, prefix */
in.current = " subname {belongs-to name {prefix x;}belongs-to module1;belongs-to module2;} ...";
assert_int_equal(LY_EVALID, parse_submodule(YCTX, submod));
CHECK_LOG_CTX("Duplicate keyword \"belongs-to\".", NULL);
submod = submod_renew(YCTX);
/* not allowed in submodule (module-specific) */
in.current = SCHEMA_BEGINNING "namespace \"urn:z\";}";
assert_int_equal(LY_EVALID, parse_submodule(YCTX, submod));
CHECK_LOG_CTX("Invalid keyword \"namespace\" as a child of \"submodule\".", NULL);
submod = submod_renew(YCTX);
in.current = SCHEMA_BEGINNING "prefix m;}}";
assert_int_equal(LY_EVALID, parse_submodule(YCTX, submod));
CHECK_LOG_CTX("Invalid keyword \"prefix\" as a child of \"submodule\".", NULL);
submod = submod_renew(YCTX);
in.current = "submodule " SCHEMA_BEGINNING "} module q {namespace urn:q;prefixq;}";
assert_int_equal(LY_EVALID, yang_parse_submodule(&ctx_p, YCTX->parsed_mod->mod->ctx, (struct lys_parser_ctx *)YCTX, YCTX->in, &submod));
CHECK_LOG_CTX("Trailing garbage \"module q {names...\" after submodule, expected end-of-input.", "Line number 1.");
yang_parser_ctx_free(ctx_p);
in.current = "prefix " SCHEMA_BEGINNING "}";
assert_int_equal(LY_EVALID, yang_parse_submodule(&ctx_p, YCTX->parsed_mod->mod->ctx, (struct lys_parser_ctx *)YCTX, YCTX->in, &submod));
CHECK_LOG_CTX("Invalid keyword \"prefix\", expected \"module\" or \"submodule\".", "Line number 1.");
yang_parser_ctx_free(ctx_p);
submod = submod_renew(YCTX);
#undef TEST_GENERIC
#undef TEST_NODE
#undef TEST_DUP
#undef SCHEMA_BEGINNING
}
static void
test_deviation(void **state)
{
struct lysp_deviation *d = NULL;
/* invalid cardinality */
#define TEST_DUP(MEMBER, VALUE1, VALUE2) \
TEST_DUP_GENERIC(" test {deviate not-supported;", MEMBER, VALUE1, VALUE2, parse_deviation, \
&d, "1", FREE_ARRAY(YCTX->parsed_mod->mod->ctx, d, lysp_deviation_free); d = NULL)
TEST_DUP("description", "a", "b");
TEST_DUP("reference", "a", "b");
/* full content */
in.current = " test {deviate not-supported;description text;reference \'another text\';prefix:ext;} ...";
assert_int_equal(LY_SUCCESS, parse_deviation(YCTX, &d));
assert_non_null(d);
assert_string_equal(" ...", in.current);
FREE_ARRAY(YCTX->parsed_mod->mod->ctx, d, lysp_deviation_free);
d = NULL;
/* missing mandatory substatement */
in.current = " test {description text;}";
assert_int_equal(LY_EVALID, parse_deviation(YCTX, &d));
CHECK_LOG_CTX("Missing mandatory keyword \"deviate\" as a child of \"deviation\".", "Line number 1.");
FREE_ARRAY(YCTX->parsed_mod->mod->ctx, d, lysp_deviation_free);
d = NULL;
/* invalid substatement */
in.current = " test {deviate not-supported; status obsolete;}";
assert_int_equal(LY_EVALID, parse_deviation(YCTX, &d));
CHECK_LOG_CTX("Invalid keyword \"status\" as a child of \"deviation\".", "Line number 1.");
FREE_ARRAY(YCTX->parsed_mod->mod->ctx, d, lysp_deviation_free);
d = NULL;
#undef TEST_DUP
}
#define TEST_DEVIATE_SUCCESS(INPUT_TEXT, REMAIN_TEXT)\
in.current = INPUT_TEXT;\
assert_int_equal(LY_SUCCESS, parse_deviate(YCTX, &d));\
assert_non_null(d);\
assert_string_equal(REMAIN_TEXT, in.current);\
lysp_deviate_free(YCTX->parsed_mod->mod->ctx, d); free(d); d = NULL
static void
test_deviate(void **state)
{
struct lysp_deviate *d = NULL;
/* invalid cardinality */
#define TEST_DUP(TYPE, MEMBER, VALUE1, VALUE2) \
TEST_DUP_GENERIC(TYPE" {", MEMBER, VALUE1, VALUE2, parse_deviate, \
&d, "1", lysp_deviate_free(YCTX->parsed_mod->mod->ctx, d); free(d); d = NULL)
TEST_DUP("add", "config", "true", "false");
#if 0
/*test on int8 now is in file tests/utest/types/int8.c */
TEST_DUP("replace", "default", "int8", "uint8");
#endif
TEST_DUP("add", "mandatory", "true", "false");
TEST_DUP("add", "max-elements", "1", "2");
TEST_DUP("add", "min-elements", "1", "2");
#if 0
/*test on int8 now is in file tests/utest/types/int8.c*/
TEST_DUP("replace", "type", "int8", "uint8");
#endif
TEST_DUP("add", "units", "kilometers", "miles");
/* full contents */
TEST_DEVIATE_SUCCESS(" not-supported {prefix:ext;} ...", " ...");
TEST_DEVIATE_SUCCESS(" add {units meters; must 1; must 2; unique x; unique y; default a; default b; config true; mandatory true; min-elements 1; max-elements 2; prefix:ext;} ...", " ...");
TEST_DEVIATE_SUCCESS(" delete {units meters; must 1; must 2; unique x; unique y; default a; default b; prefix:ext;} ...", " ...");
TEST_DEVIATE_SUCCESS(" replace {type string; units meters; default a; config true; mandatory true; min-elements 1; max-elements 2; prefix:ext;} ...", " ...");
/* invalid substatements */
#define TEST_NOT_SUP(DEV, STMT, VALUE) \
in.current = " "DEV" {"STMT" "VALUE";}..."; \
assert_int_equal(LY_EVALID, parse_deviate(YCTX, &d)); \
CHECK_LOG_CTX("Deviate \""DEV"\" does not support keyword \""STMT"\".", "Line number 1.");\
lysp_deviate_free(YCTX->parsed_mod->mod->ctx, d); free(d); d = NULL
TEST_NOT_SUP("not-supported", "units", "meters");
TEST_NOT_SUP("not-supported", "must", "1");
TEST_NOT_SUP("not-supported", "unique", "x");
TEST_NOT_SUP("not-supported", "default", "a");
TEST_NOT_SUP("not-supported", "config", "true");
TEST_NOT_SUP("not-supported", "mandatory", "true");
TEST_NOT_SUP("not-supported", "min-elements", "1");
TEST_NOT_SUP("not-supported", "max-elements", "2");
TEST_NOT_SUP("not-supported", "type", "string");
TEST_NOT_SUP("add", "type", "string");
TEST_NOT_SUP("delete", "config", "true");
TEST_NOT_SUP("delete", "mandatory", "true");
TEST_NOT_SUP("delete", "min-elements", "1");
TEST_NOT_SUP("delete", "max-elements", "2");
TEST_NOT_SUP("delete", "type", "string");
TEST_NOT_SUP("replace", "must", "1");
TEST_NOT_SUP("replace", "unique", "a");
in.current = " nonsence; ...";
assert_int_equal(LY_EVALID, parse_deviate(YCTX, &d));
CHECK_LOG_CTX("Invalid value \"nonsence\" of \"deviate\".", "Line number 1.");\
assert_null(d);
#undef TEST_NOT_SUP
#undef TEST_DUP
}
static void
test_container(void **state)
{
struct lysp_node_container *c = NULL;
YCTX->parsed_mod->version = 2; /* simulate YANG 1.1 */
YCTX->main_ctx = (struct lys_parser_ctx *)YCTX;
/* invalid cardinality */
#define TEST_DUP(MEMBER, VALUE1, VALUE2) \
in.current = "cont {" MEMBER" "VALUE1";"MEMBER" "VALUE2";} ..."; \
assert_int_equal(LY_EVALID, parse_container(YCTX, NULL, (struct lysp_node**)&c)); \
CHECK_LOG_CTX("Duplicate keyword \""MEMBER"\".", "Line number 1."); \
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node*)c); c = NULL;
TEST_DUP("config", "true", "false");
TEST_DUP("description", "text1", "text2");
TEST_DUP("presence", "true", "false");
TEST_DUP("reference", "1", "2");
TEST_DUP("status", "current", "obsolete");
TEST_DUP("when", "true", "false");
#undef TEST_DUP
/* full content */
in.current = "cont {action x;anydata any;anyxml anyxml; choice ch;config false;container c;description test;grouping g;if-feature f; leaf l {type string;}"
"leaf-list ll {type string;} list li;must 'expr';notification not; presence true; reference test;status current;typedef t {type int8;}uses g;when true;m:ext;} ...";
assert_int_equal(LY_SUCCESS, parse_container(YCTX, NULL, (struct lysp_node **)&c));
CHECK_LYSP_NODE(c, "test", 1, LYS_CONFIG_R | LYS_STATUS_CURR, 1, "cont", 0, LYS_CONTAINER, 0, "test", 1);
assert_non_null(c->actions);
assert_non_null(c->child);
assert_non_null(c->groupings);
assert_non_null(c->musts);
assert_non_null(c->notifs);
assert_string_equal("true", c->presence);
assert_non_null(c->typedefs);
ly_set_erase(&YCTX->tpdfs_nodes, NULL);
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)c); c = NULL;
/* invalid */
in.current = " cont {augment /root;} ...";
assert_int_equal(LY_EVALID, parse_container(YCTX, NULL, (struct lysp_node **)&c));
CHECK_LOG_CTX("Invalid keyword \"augment\" as a child of \"container\".", "Line number 1.");
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)c); c = NULL;
in.current = " cont {nonsence true;} ...";
assert_int_equal(LY_EVALID, parse_container(YCTX, NULL, (struct lysp_node **)&c));
CHECK_LOG_CTX("Invalid character sequence \"nonsence\", expected a keyword.", "Line number 1.");
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)c); c = NULL;
YCTX->parsed_mod->version = 1; /* simulate YANG 1.0 */
in.current = " cont {action x;} ...";
assert_int_equal(LY_EVALID, parse_container(YCTX, NULL, (struct lysp_node **)&c));
CHECK_LOG_CTX("Invalid keyword \"action\" as a child of \"container\" - "
"the statement is allowed only in YANG 1.1 modules.", "Line number 1.");
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)c); c = NULL;
}
static void
test_leaf(void **state)
{
struct lysp_node_leaf *l = NULL;
/* invalid cardinality */
#define TEST_DUP(MEMBER, VALUE1, VALUE2) \
in.current = "l {" MEMBER" "VALUE1";"MEMBER" "VALUE2";} ..."; \
assert_int_equal(LY_EVALID, parse_leaf(YCTX, NULL, (struct lysp_node**)&l)); \
CHECK_LOG_CTX("Duplicate keyword \""MEMBER"\".", "Line number 1."); \
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node*)l); l = NULL;
TEST_DUP("config", "true", "false");
TEST_DUP("default", "x", "y");
TEST_DUP("description", "text1", "text2");
TEST_DUP("mandatory", "true", "false");
TEST_DUP("reference", "1", "2");
TEST_DUP("status", "current", "obsolete");
TEST_DUP("type", "int8", "uint8");
TEST_DUP("units", "text1", "text2");
TEST_DUP("when", "true", "false");
#undef TEST_DUP
/* full content - without mandatory which is mutual exclusive with default */
in.current = "l {config false;default \"xxx\";description test;if-feature f;"
"must 'expr';reference test;status current;type string; units yyy;when true;m:ext;} ...";
assert_int_equal(LY_SUCCESS, parse_leaf(YCTX, NULL, (struct lysp_node **)&l));
CHECK_LYSP_NODE(l, "test", 1, LYS_CONFIG_R | LYS_STATUS_CURR, 1, "l", 0, LYS_LEAF, 0, "test", 1);
assert_string_equal("xxx", l->dflt.str);
assert_string_equal("yyy", l->units);
assert_string_equal("string", l->type.name);
assert_non_null(l->musts);
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)l); l = NULL;
/* full content - now with mandatory */
in.current = "l {mandatory true; type string;} ...";
assert_int_equal(LY_SUCCESS, parse_leaf(YCTX, NULL, (struct lysp_node **)&l));
CHECK_LYSP_NODE(l, NULL, 0, LYS_MAND_TRUE, 0, "l", 0, LYS_LEAF, 0, NULL, 0);
assert_string_equal("string", l->type.name);
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)l); l = NULL;
/* invalid */
in.current = " l {description \"missing type\";} ...";
assert_int_equal(LY_EVALID, parse_leaf(YCTX, NULL, (struct lysp_node **)&l));
CHECK_LOG_CTX("Missing mandatory keyword \"type\" as a child of \"leaf\".", "Line number 1.");
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)l); l = NULL;
in.current = "l { type iid { path qpud wrong {";
assert_int_equal(LY_EVALID, parse_leaf(YCTX, NULL, (struct lysp_node **)&l));
CHECK_LOG_CTX("Invalid character sequence \"wrong\", expected a keyword.", "Line number 1.");
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)l); l = NULL;
}
static void
test_leaflist(void **state)
{
struct lysp_node_leaflist *ll = NULL;
YCTX->parsed_mod->version = 2; /* simulate YANG 1.1 */
/* invalid cardinality */
#define TEST_DUP(MEMBER, VALUE1, VALUE2) \
in.current = "ll {" MEMBER" "VALUE1";"MEMBER" "VALUE2";} ..."; \
assert_int_equal(LY_EVALID, parse_leaflist(YCTX, NULL, (struct lysp_node**)&ll)); \
CHECK_LOG_CTX("Duplicate keyword \""MEMBER"\".", "Line number 1."); \
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node*)ll); ll = NULL;
TEST_DUP("config", "true", "false");
TEST_DUP("description", "text1", "text2");
TEST_DUP("max-elements", "10", "20");
TEST_DUP("min-elements", "10", "20");
TEST_DUP("ordered-by", "user", "system");
TEST_DUP("reference", "1", "2");
TEST_DUP("status", "current", "obsolete");
TEST_DUP("type", "int8", "uint8");
TEST_DUP("units", "text1", "text2");
TEST_DUP("when", "true", "false");
#undef TEST_DUP
/* full content - without min-elements which is mutual exclusive with default */
in.current = "ll {config false;default \"xxx\"; default \"yyy\";description test;if-feature f;"
"max-elements 10;must 'expr';ordered-by user;reference test;"
"status current;type string; units zzz;when true;m:ext;} ...";
assert_int_equal(LY_SUCCESS, parse_leaflist(YCTX, NULL, (struct lysp_node **)&ll));
CHECK_LYSP_NODE(ll, "test", 1, 0x446, 1, "ll", 0, LYS_LEAFLIST, 0, "test", 1);
assert_non_null(ll->dflts);
assert_int_equal(2, LY_ARRAY_COUNT(ll->dflts));
assert_string_equal("xxx", ll->dflts[0].str);
assert_string_equal("yyy", ll->dflts[1].str);
assert_string_equal("zzz", ll->units);
assert_int_equal(10, ll->max);
assert_int_equal(0, ll->min);
assert_string_equal("string", ll->type.name);
assert_non_null(ll->musts);
assert_int_equal(LYS_CONFIG_R | LYS_STATUS_CURR | LYS_ORDBY_USER | LYS_SET_MAX, ll->flags);
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)ll); ll = NULL;
/* full content - now with min-elements */
in.current = "ll {min-elements 10; type string;} ...";
assert_int_equal(LY_SUCCESS, parse_leaflist(YCTX, NULL, (struct lysp_node **)&ll));
CHECK_LYSP_NODE(ll, NULL, 0, 0x200, 0, "ll", 0, LYS_LEAFLIST, 0, NULL, 0);
assert_string_equal("string", ll->type.name);
assert_int_equal(0, ll->max);
assert_int_equal(10, ll->min);
assert_int_equal(LYS_SET_MIN, ll->flags);
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)ll); ll = NULL;
/* invalid */
in.current = " ll {description \"missing type\";} ...";
assert_int_equal(LY_EVALID, parse_leaflist(YCTX, NULL, (struct lysp_node **)&ll));
CHECK_LOG_CTX("Missing mandatory keyword \"type\" as a child of \"leaf-list\".", "Line number 1.");
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)ll); ll = NULL;
YCTX->parsed_mod->version = 1; /* simulate YANG 1.0 - default statement is not allowed */
in.current = " ll {default xx; type string;} ...";
assert_int_equal(LY_EVALID, parse_leaflist(YCTX, NULL, (struct lysp_node **)&ll));
CHECK_LOG_CTX("Invalid keyword \"default\" as a child of \"leaf-list\" - the statement is allowed only in YANG 1.1 modules.", "Line number 1.");
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)ll); ll = NULL;
}
static void
test_list(void **state)
{
struct lysp_node_list *l = NULL;
YCTX->parsed_mod->version = 2; /* simulate YANG 1.1 */
YCTX->main_ctx = (struct lys_parser_ctx *)YCTX;
/* invalid cardinality */
#define TEST_DUP(MEMBER, VALUE1, VALUE2) \
in.current = "l {" MEMBER" "VALUE1";"MEMBER" "VALUE2";} ..."; \
assert_int_equal(LY_EVALID, parse_list(YCTX, NULL, (struct lysp_node**)&l)); \
CHECK_LOG_CTX("Duplicate keyword \""MEMBER"\".", "Line number 1."); \
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node*)l); l = NULL;
TEST_DUP("config", "true", "false");
TEST_DUP("description", "text1", "text2");
TEST_DUP("key", "one", "two");
TEST_DUP("max-elements", "10", "20");
TEST_DUP("min-elements", "10", "20");
TEST_DUP("ordered-by", "user", "system");
TEST_DUP("reference", "1", "2");
TEST_DUP("status", "current", "obsolete");
TEST_DUP("when", "true", "false");
#undef TEST_DUP
/* full content */
in.current = "l {action x;anydata any;anyxml anyxml; choice ch;config false;container c;description test;grouping g;if-feature f; key l; leaf l {type string;}"
"leaf-list ll {type string;} list li;max-elements 10; min-elements 1;must 'expr';notification not; ordered-by system; reference test;"
"status current;typedef t {type int8;}unique xxx;unique yyy;uses g;when true;m:ext;} ...";
assert_int_equal(LY_SUCCESS, parse_list(YCTX, NULL, (struct lysp_node **)&l));
CHECK_LYSP_NODE(l, "test", 1, LYS_CONFIG_R | LYS_STATUS_CURR | LYS_ORDBY_SYSTEM | LYS_SET_MAX | LYS_SET_MIN, 1, "l",
0, LYS_LIST, 0, "test", 1);
assert_string_equal("l", l->key);
assert_non_null(l->uniques);
assert_int_equal(2, LY_ARRAY_COUNT(l->uniques));
assert_string_equal("xxx", l->uniques[0].str);
assert_string_equal("yyy", l->uniques[1].str);
assert_int_equal(10, l->max);
assert_int_equal(1, l->min);
assert_non_null(l->musts);
ly_set_erase(&YCTX->tpdfs_nodes, NULL);
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)l); l = NULL;
/* invalid content */
YCTX->parsed_mod->version = 1; /* simulate YANG 1.0 */
in.current = "l {action x;} ...";
assert_int_equal(LY_EVALID, parse_list(YCTX, NULL, (struct lysp_node **)&l));
CHECK_LOG_CTX("Invalid keyword \"action\" as a child of \"list\" - the statement is allowed only in YANG 1.1 modules.", "Line number 1.");
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)l); l = NULL;
}
static void
test_choice(void **state)
{
struct lysp_node_choice *ch = NULL;
YCTX->parsed_mod->version = 2; /* simulate YANG 1.1 */
/* invalid cardinality */
#define TEST_DUP(MEMBER, VALUE1, VALUE2) \
in.current = "ch {" MEMBER" "VALUE1";"MEMBER" "VALUE2";} ..."; \
assert_int_equal(LY_EVALID, parse_choice(YCTX, NULL, (struct lysp_node**)&ch)); \
CHECK_LOG_CTX("Duplicate keyword \""MEMBER"\".", "Line number 1."); \
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node*)ch); ch = NULL;
TEST_DUP("config", "true", "false");
TEST_DUP("default", "a", "b");
TEST_DUP("description", "text1", "text2");
TEST_DUP("mandatory", "true", "false");
TEST_DUP("reference", "1", "2");
TEST_DUP("status", "current", "obsolete");
TEST_DUP("when", "true", "false");
#undef TEST_DUP
/* full content - without default due to a collision with mandatory */
in.current = "ch {anydata any;anyxml anyxml; case c;choice ch;config false;container c;description test;if-feature f;leaf l {type string;}"
"leaf-list ll {type string;} list li;mandatory true;reference test;status current;when true;m:ext;} ...";
assert_int_equal(LY_SUCCESS, parse_choice(YCTX, NULL, (struct lysp_node **)&ch));
CHECK_LYSP_NODE(ch, "test", 1, LYS_CONFIG_R | LYS_STATUS_CURR | LYS_MAND_TRUE, 1, "ch", 0, LYS_CHOICE, 0, "test", 1);
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)ch); ch = NULL;
/* full content - the default missing from the previous node */
in.current = "ch {default c;case c;} ...";
assert_int_equal(LY_SUCCESS, parse_choice(YCTX, NULL, (struct lysp_node **)&ch));
CHECK_LYSP_NODE(ch, NULL, 0, 0, 0, "ch", 0, LYS_CHOICE, 0, NULL, 0);
assert_string_equal("c", ch->dflt.str);
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)ch); ch = NULL;
}
static void
test_case(void **state)
{
struct lysp_node_case *cs = NULL;
YCTX->parsed_mod->version = 2; /* simulate YANG 1.1 */
/* invalid cardinality */
#define TEST_DUP(MEMBER, VALUE1, VALUE2) \
in.current = "cs {" MEMBER" "VALUE1";"MEMBER" "VALUE2";} ..."; \
assert_int_equal(LY_EVALID, parse_case(YCTX, NULL, (struct lysp_node**)&cs)); \
CHECK_LOG_CTX("Duplicate keyword \""MEMBER"\".", "Line number 1."); \
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node*)cs); cs = NULL;
TEST_DUP("description", "text1", "text2");
TEST_DUP("reference", "1", "2");
TEST_DUP("status", "current", "obsolete");
TEST_DUP("when", "true", "false");
#undef TEST_DUP
/* full content */
in.current = "cs {anydata any;anyxml anyxml; choice ch;container c;description test;if-feature f;leaf l {type string;}"
"leaf-list ll {type string;} list li;reference test;status current;uses grp;when true;m:ext;} ...";
assert_int_equal(LY_SUCCESS, parse_case(YCTX, NULL, (struct lysp_node **)&cs));
CHECK_LYSP_NODE(cs, "test", 1, LYS_STATUS_CURR, 1, "cs", 0, LYS_CASE, 0, "test", 1);
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)cs); cs = NULL;
/* invalid content */
in.current = "cs {config true} ...";
assert_int_equal(LY_EVALID, parse_case(YCTX, NULL, (struct lysp_node **)&cs));
CHECK_LOG_CTX("Invalid keyword \"config\" as a child of \"case\".", "Line number 1.");
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)cs); cs = NULL;
}
static void
test_any(void **state, enum ly_stmt kw)
{
struct lysp_node_anydata *any = NULL;
if (kw == LY_STMT_ANYDATA) {
YCTX->parsed_mod->version = 2; /* simulate YANG 1.1 */
} else {
YCTX->parsed_mod->version = 1; /* simulate YANG 1.0 */
}
/* invalid cardinality */
#define TEST_DUP(MEMBER, VALUE1, VALUE2) \
in.current = "l {" MEMBER" "VALUE1";"MEMBER" "VALUE2";} ..."; \
assert_int_equal(LY_EVALID, parse_any(YCTX, kw, NULL, (struct lysp_node**)&any)); \
CHECK_LOG_CTX("Duplicate keyword \""MEMBER"\".", "Line number 1."); \
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node*)any); any = NULL;
TEST_DUP("config", "true", "false");
TEST_DUP("description", "text1", "text2");
TEST_DUP("mandatory", "true", "false");
TEST_DUP("reference", "1", "2");
TEST_DUP("status", "current", "obsolete");
TEST_DUP("when", "true", "false");
#undef TEST_DUP
/* full content */
in.current = "any {config true;description test;if-feature f;mandatory true;must 'expr';reference test;status current;when true;m:ext;} ...";
assert_int_equal(LY_SUCCESS, parse_any(YCTX, kw, NULL, (struct lysp_node **)&any));
// CHECK_LYSP_NODE(NODE, DSC, EXTS, FLAGS, IFFEATURES, NAME, NEXT, TYPE, PARENT, REF, WHEN)
uint16_t node_type = kw == LY_STMT_ANYDATA ? LYS_ANYDATA : LYS_ANYXML;
CHECK_LYSP_NODE(any, "test", 1, LYS_CONFIG_W | LYS_STATUS_CURR | LYS_MAND_TRUE, 1, "any", 0, node_type, 0, "test", 1);
assert_non_null(any->musts);
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)any); any = NULL;
}
static void
test_anydata(void **state)
{
return test_any(state, LY_STMT_ANYDATA);
}
static void
test_anyxml(void **state)
{
return test_any(state, LY_STMT_ANYXML);
}
static void
test_grouping(void **state)
{
struct lysp_node_grp *grp = NULL;
YCTX->parsed_mod->version = 2; /* simulate YANG 1.1 */
YCTX->main_ctx = (struct lys_parser_ctx *)YCTX;
/* invalid cardinality */
#define TEST_DUP(MEMBER, VALUE1, VALUE2) \
in.current = "l {" MEMBER" "VALUE1";"MEMBER" "VALUE2";} ..."; \
assert_int_equal(LY_EVALID, parse_grouping(YCTX, NULL, &grp)); \
CHECK_LOG_CTX("Duplicate keyword \""MEMBER"\".", "Line number 1."); \
lysp_node_free(YCTX->parsed_mod->mod->ctx, &grp->node); grp = NULL;
TEST_DUP("description", "text1", "text2");
TEST_DUP("reference", "1", "2");
TEST_DUP("status", "current", "obsolete");
#undef TEST_DUP
/* full content */
in.current = "grp {action x;anydata any;anyxml anyxml; choice ch;container c;description test;grouping g;leaf l {type string;}"
"leaf-list ll {type string;} list li;notification not;reference test;status current;typedef t {type int8;}uses g;m:ext;} ...";
assert_int_equal(LY_SUCCESS, parse_grouping(YCTX, NULL, &grp));
assert_non_null(grp);
assert_int_equal(LYS_GROUPING, grp->nodetype);
assert_string_equal("grp", grp->name);
assert_string_equal("test", grp->dsc);
assert_non_null(grp->exts);
assert_string_equal("test", grp->ref);
assert_null(grp->parent);
assert_int_equal(LYS_STATUS_CURR, grp->flags);
ly_set_erase(&YCTX->tpdfs_nodes, NULL);
lysp_node_free(YCTX->parsed_mod->mod->ctx, &grp->node);
grp = NULL;
/* invalid content */
in.current = "grp {config true} ...";
assert_int_equal(LY_EVALID, parse_grouping(YCTX, NULL, &grp));
CHECK_LOG_CTX("Invalid keyword \"config\" as a child of \"grouping\".", "Line number 1.");
lysp_node_free(YCTX->parsed_mod->mod->ctx, &grp->node);
grp = NULL;
in.current = "grp {must 'expr'} ...";
assert_int_equal(LY_EVALID, parse_grouping(YCTX, NULL, &grp));
CHECK_LOG_CTX("Invalid keyword \"must\" as a child of \"grouping\".", "Line number 1.");
lysp_node_free(YCTX->parsed_mod->mod->ctx, &grp->node);
grp = NULL;
}
static void
test_action(void **state)
{
struct lysp_node_action *rpcs = NULL;
struct lysp_node_container *c = NULL;
YCTX->parsed_mod->version = 2; /* simulate YANG 1.1 */
YCTX->main_ctx = (struct lys_parser_ctx *)YCTX;
/* invalid cardinality */
#define TEST_DUP(MEMBER, VALUE1, VALUE2) \
in.current = "func {" MEMBER" "VALUE1";"MEMBER" "VALUE2";} ..."; \
assert_int_equal(LY_EVALID, parse_action(YCTX, NULL, &rpcs)); \
CHECK_LOG_CTX("Duplicate keyword \""MEMBER"\".", "Line number 1."); \
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node*)rpcs); rpcs = NULL;
TEST_DUP("description", "text1", "text2");
TEST_DUP("input", "{leaf l1 {type empty;}} description a", "{leaf l2 {type empty;}} description a");
TEST_DUP("output", "{leaf l1 {type empty;}} description a", "{leaf l2 {type empty;}} description a");
TEST_DUP("reference", "1", "2");
TEST_DUP("status", "current", "obsolete");
#undef TEST_DUP
/* full content */
in.current = "top;";
assert_int_equal(LY_SUCCESS, parse_container(YCTX, NULL, (struct lysp_node **)&c));
in.current = "func {description test;grouping grp;if-feature f;reference test;status current;typedef mytype {type int8;} m:ext;"
"input {anydata a1; anyxml a2; choice ch; container c; grouping grp; leaf l {type int8;} leaf-list ll {type int8;}"
" list li; must 1; typedef mytypei {type int8;} uses grp; m:ext;}"
"output {anydata a1; anyxml a2; choice ch; container c; grouping grp; leaf l {type int8;} leaf-list ll {type int8;}"
" list li; must 1; typedef mytypeo {type int8;} uses grp; m:ext;}} ...";
assert_int_equal(LY_SUCCESS, parse_action(YCTX, (struct lysp_node *)c, &rpcs));
assert_non_null(rpcs);
assert_int_equal(LYS_ACTION, rpcs->nodetype);
assert_string_equal("func", rpcs->name);
assert_string_equal("test", rpcs->dsc);
assert_non_null(rpcs->exts);
assert_non_null(rpcs->iffeatures);
assert_string_equal("test", rpcs->ref);
assert_non_null(rpcs->groupings);
assert_non_null(rpcs->typedefs);
assert_int_equal(LYS_STATUS_CURR, rpcs->flags);
/* input */
assert_int_equal(rpcs->input.nodetype, LYS_INPUT);
assert_non_null(rpcs->input.groupings);
assert_non_null(rpcs->input.exts);
assert_non_null(rpcs->input.musts);
assert_non_null(rpcs->input.typedefs);
assert_non_null(rpcs->input.child);
/* output */
assert_int_equal(rpcs->output.nodetype, LYS_OUTPUT);
assert_non_null(rpcs->output.groupings);
assert_non_null(rpcs->output.exts);
assert_non_null(rpcs->output.musts);
assert_non_null(rpcs->output.typedefs);
assert_non_null(rpcs->output.child);
ly_set_erase(&YCTX->tpdfs_nodes, NULL);
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)rpcs); rpcs = NULL;
/* invalid content */
in.current = "func {config true} ...";
assert_int_equal(LY_EVALID, parse_action(YCTX, NULL, &rpcs));
CHECK_LOG_CTX("Invalid keyword \"config\" as a child of \"rpc\".", "Line number 1.");
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)rpcs); rpcs = NULL;
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)c);
}
static void
test_notification(void **state)
{
struct lysp_node_notif *notifs = NULL;
struct lysp_node_container *c = NULL;
YCTX->parsed_mod->version = 2; /* simulate YANG 1.1 */
YCTX->main_ctx = (struct lys_parser_ctx *)YCTX;
/* invalid cardinality */
#define TEST_DUP(MEMBER, VALUE1, VALUE2) \
in.current = "func {" MEMBER" "VALUE1";"MEMBER" "VALUE2";} ..."; \
assert_int_equal(LY_EVALID, parse_notif(YCTX, NULL, &notifs)); \
CHECK_LOG_CTX("Duplicate keyword \""MEMBER"\".", "Line number 1."); \
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node*)notifs); notifs = NULL;
TEST_DUP("description", "text1", "text2");
TEST_DUP("reference", "1", "2");
TEST_DUP("status", "current", "obsolete");
#undef TEST_DUP
/* full content */
in.current = "top;";
assert_int_equal(LY_SUCCESS, parse_container(YCTX, NULL, (struct lysp_node **)&c));
in.current = "ntf {anydata a1; anyxml a2; choice ch; container c; description test; grouping grp; if-feature f; leaf l {type int8;}"
"leaf-list ll {type int8;} list li; must 1; reference test; status current; typedef mytype {type int8;} uses grp; m:ext;}";
assert_int_equal(LY_SUCCESS, parse_notif(YCTX, (struct lysp_node *)c, &notifs));
assert_non_null(notifs);
assert_int_equal(LYS_NOTIF, notifs->nodetype);
assert_string_equal("ntf", notifs->name);
assert_string_equal("test", notifs->dsc);
assert_non_null(notifs->exts);
assert_non_null(notifs->iffeatures);
assert_string_equal("test", notifs->ref);
assert_non_null(notifs->groupings);
assert_non_null(notifs->typedefs);
assert_non_null(notifs->musts);
assert_non_null(notifs->child);
assert_int_equal(LYS_STATUS_CURR, notifs->flags);
ly_set_erase(&YCTX->tpdfs_nodes, NULL);
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)notifs); notifs = NULL;
/* invalid content */
in.current = "ntf {config true} ...";
assert_int_equal(LY_EVALID, parse_notif(YCTX, NULL, &notifs));
CHECK_LOG_CTX("Invalid keyword \"config\" as a child of \"notification\".", "Line number 1.");
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)notifs); notifs = NULL;
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)c);
}
static void
test_uses(void **state)
{
struct lysp_node_uses *u = NULL;
YCTX->parsed_mod->version = 2; /* simulate YANG 1.1 */
/* invalid cardinality */
#define TEST_DUP(MEMBER, VALUE1, VALUE2) \
in.current = "l {" MEMBER" "VALUE1";"MEMBER" "VALUE2";} ..."; \
assert_int_equal(LY_EVALID, parse_uses(YCTX, NULL, (struct lysp_node**)&u)); \
CHECK_LOG_CTX("Duplicate keyword \""MEMBER"\".", "Line number 1."); \
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node*)u); u = NULL;
TEST_DUP("description", "text1", "text2");
TEST_DUP("reference", "1", "2");
TEST_DUP("status", "current", "obsolete");
TEST_DUP("when", "true", "false");
#undef TEST_DUP
/* full content */
in.current = "grpref {augment some/node;description test;if-feature f;reference test;refine some/other/node;status current;when true;m:ext;} ...";
assert_int_equal(LY_SUCCESS, parse_uses(YCTX, NULL, (struct lysp_node **)&u));
CHECK_LYSP_NODE(u, "test", 1, LYS_STATUS_CURR, 1, "grpref", 0, LYS_USES, 0, "test", 1);
assert_non_null(u->augments);
assert_non_null(u->refines);
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)u); u = NULL;
}
static void
test_augment(void **state)
{
struct lysp_node_augment *a = NULL;
YCTX->parsed_mod->version = 2; /* simulate YANG 1.1 */
/* invalid cardinality */
#define TEST_DUP(MEMBER, VALUE1, VALUE2) \
in.current = "l {" MEMBER" "VALUE1";"MEMBER" "VALUE2";} ..."; \
assert_int_equal(LY_EVALID, parse_augment(YCTX, NULL, &a)); \
CHECK_LOG_CTX("Duplicate keyword \""MEMBER"\".", "Line number 1."); \
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)a); a = NULL;
TEST_DUP("description", "text1", "text2");
TEST_DUP("reference", "1", "2");
TEST_DUP("status", "current", "obsolete");
TEST_DUP("when", "true", "false");
#undef TEST_DUP
/* full content */
in.current = "/target/nodeid {action x; anydata any;anyxml anyxml; case cs; choice ch;container c;description test;if-feature f;leaf l {type string;}"
"leaf-list ll {type string;} list li;notification not;reference test;status current;uses g;when true;m:ext;} ...";
assert_int_equal(LY_SUCCESS, parse_augment(YCTX, NULL, &a));
assert_non_null(a);
assert_int_equal(LYS_AUGMENT, a->nodetype);
assert_string_equal("/target/nodeid", a->nodeid);
assert_string_equal("test", a->dsc);
assert_non_null(a->exts);
assert_non_null(a->iffeatures);
assert_string_equal("test", a->ref);
assert_non_null(a->when);
assert_null(a->parent);
assert_int_equal(LYS_STATUS_CURR, a->flags);
lysp_node_free(YCTX->parsed_mod->mod->ctx, (struct lysp_node *)a); a = NULL;
}
static void
test_when(void **state)
{
struct lysp_when *w = NULL;
YCTX->parsed_mod->version = 2; /* simulate YANG 1.1 */
/* invalid cardinality */
#define TEST_DUP(MEMBER, VALUE1, VALUE2) \
in.current = "l {" MEMBER" "VALUE1";"MEMBER" "VALUE2";} ..."; \
assert_int_equal(LY_EVALID, parse_when(YCTX, &w)); \
CHECK_LOG_CTX("Duplicate keyword \""MEMBER"\".", "Line number 1."); \
FREE_MEMBER(YCTX->parsed_mod->mod->ctx, w, lysp_when_free); w = NULL;
TEST_DUP("description", "text1", "text2");
TEST_DUP("reference", "1", "2");
#undef TEST_DUP
/* full content */
in.current = "expression {description test;reference test;m:ext;} ...";
assert_int_equal(LY_SUCCESS, parse_when(YCTX, &w));
assert_non_null(w);
assert_string_equal("expression", w->cond);
assert_string_equal("test", w->dsc);
assert_string_equal("test", w->ref);
assert_non_null(w->exts);
FREE_MEMBER(YCTX->parsed_mod->mod->ctx, w, lysp_when_free); w = NULL;
/* empty condition */
in.current = "\"\";";
assert_int_equal(LY_SUCCESS, parse_when(YCTX, &w));
CHECK_LOG_CTX("Empty argument of when statement does not make sense.", NULL);
assert_non_null(w);
assert_string_equal("", w->cond);
FREE_MEMBER(YCTX->parsed_mod->mod->ctx, w, lysp_when_free); w = NULL;
}
static void
test_value(void **state)
{
int64_t val = 0;
uint16_t flags = 0;
in.current = "-0;";
assert_int_equal(parse_type_enum_value_pos(YCTX, LY_STMT_VALUE, &val, &flags, NULL), LY_SUCCESS);
assert_int_equal(val, 0);
in.current = "-0;";
flags = 0;
assert_int_equal(parse_type_enum_value_pos(YCTX, LY_STMT_POSITION, &val, &flags, NULL), LY_EVALID);
CHECK_LOG_CTX("Invalid value \"-0\" of \"position\".", "Line number 1.");
}
int
main(void)
{
const struct CMUnitTest tests[] = {
UTEST(test_helpers, setup, teardown),
UTEST(test_comments, setup, teardown),
UTEST(test_arg, setup, teardown),
UTEST(test_stmts, setup, teardown),
UTEST(test_minmax, setup, teardown),
UTEST(test_module, setup, teardown),
UTEST(test_deviation, setup, teardown),
UTEST(test_deviate, setup, teardown),
UTEST(test_container, setup, teardown),
UTEST(test_leaf, setup, teardown),
UTEST(test_leaflist, setup, teardown),
UTEST(test_list, setup, teardown),
UTEST(test_choice, setup, teardown),
UTEST(test_case, setup, teardown),
UTEST(test_anydata, setup, teardown),
UTEST(test_anyxml, setup, teardown),
UTEST(test_action, setup, teardown),
UTEST(test_notification, setup, teardown),
UTEST(test_grouping, setup, teardown),
UTEST(test_uses, setup, teardown),
UTEST(test_augment, setup, teardown),
UTEST(test_when, setup, teardown),
UTEST(test_value, setup, teardown),
};
return cmocka_run_group_tests(tests, NULL, NULL);
}