| /* |
| * @file test_parser_yang.c |
| * @author: Radek Krejci <rkrejci@cesnet.cz> |
| * @brief unit tests for functions from parser_yang.c |
| * |
| * Copyright (c) 2018 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 |
| */ |
| |
| #include <stdarg.h> |
| #include <stddef.h> |
| #include <setjmp.h> |
| #include <cmocka.h> |
| |
| #include <stdio.h> |
| #include <string.h> |
| |
| #include "../../src/common.h" |
| #include "../../src/tree_schema_internal.h" |
| #include "../../src/xpath.h" |
| |
| void lysc_feature_free(struct ly_ctx *ctx, struct lysc_feature *feat); |
| |
| LY_ERR lys_path_token(const char **path, const char **prefix, size_t *prefix_len, const char **name, size_t *name_len, |
| int *parent_times, int *has_predicate); |
| |
| #define BUFSIZE 1024 |
| char logbuf[BUFSIZE] = {0}; |
| |
| /* set to 0 to printing error messages to stderr instead of checking them in code */ |
| #define ENABLE_LOGGER_CHECKING 1 |
| |
| #if ENABLE_LOGGER_CHECKING |
| static void |
| logger(LY_LOG_LEVEL level, const char *msg, const char *path) |
| { |
| (void) level; /* unused */ |
| |
| if (path && path[0]) { |
| snprintf(logbuf, BUFSIZE - 1, "%s %s", msg, path); |
| } else { |
| strncpy(logbuf, msg, BUFSIZE - 1); |
| } |
| } |
| #endif |
| |
| static int |
| logger_setup(void **state) |
| { |
| (void) state; /* unused */ |
| #if ENABLE_LOGGER_CHECKING |
| ly_set_log_clb(logger, 1); |
| #endif |
| return 0; |
| } |
| |
| static int |
| logger_teardown(void **state) |
| { |
| (void) state; /* unused */ |
| #if ENABLE_LOGGER_CHECKING |
| if (*state) { |
| fprintf(stderr, "%s\n", logbuf); |
| } |
| #endif |
| return 0; |
| } |
| |
| void |
| logbuf_clean(void) |
| { |
| logbuf[0] = '\0'; |
| } |
| |
| #if ENABLE_LOGGER_CHECKING |
| # define logbuf_assert(str) assert_string_equal(logbuf, str);logbuf_clean() |
| #else |
| # define logbuf_assert(str) |
| #endif |
| |
| 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 |
| reset_mod(struct ly_ctx *ctx, struct lys_module *module) |
| { |
| lysc_module_free(module->compiled, NULL); |
| lysp_module_free(module->parsed); |
| |
| FREE_STRING(module->ctx, module->name); |
| FREE_STRING(module->ctx, module->ns); |
| FREE_STRING(module->ctx, module->prefix); |
| FREE_STRING(module->ctx, module->filepath); |
| FREE_STRING(module->ctx, module->org); |
| FREE_STRING(module->ctx, module->contact); |
| FREE_STRING(module->ctx, module->dsc); |
| FREE_STRING(module->ctx, module->ref); |
| FREE_ARRAY(module->ctx, module->off_features, lysc_feature_free); |
| |
| memset(module, 0, sizeof *module); |
| module->ctx = ctx; |
| module->implemented = 1; |
| } |
| |
| static void |
| test_module(void **state) |
| { |
| *state = test_module; |
| |
| const char *str; |
| struct lys_parser_ctx ctx = {0}; |
| struct lys_module mod = {0}; |
| struct lysc_feature *f; |
| struct lysc_iffeature *iff; |
| |
| str = "module test {namespace urn:test; prefix t;" |
| "feature f1;feature f2 {if-feature f1;}}"; |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, 0, &ctx.ctx)); |
| reset_mod(ctx.ctx, &mod); |
| |
| assert_int_equal(LY_EINVAL, lys_compile(NULL, 0)); |
| logbuf_assert("Invalid argument mod (lys_compile())."); |
| assert_int_equal(LY_EINVAL, lys_compile(&mod, 0)); |
| logbuf_assert("Invalid argument mod->parsed (lys_compile())."); |
| assert_int_equal(LY_SUCCESS, yang_parse_module(&ctx, str, &mod)); |
| mod.implemented = 0; |
| assert_int_equal(LY_SUCCESS, lys_compile(&mod, 0)); |
| assert_null(mod.compiled); |
| mod.implemented = 1; |
| assert_int_equal(LY_SUCCESS, lys_compile(&mod, 0)); |
| assert_non_null(mod.compiled); |
| assert_string_equal("test", mod.name); |
| assert_string_equal("urn:test", mod.ns); |
| assert_string_equal("t", mod.prefix); |
| /* features */ |
| assert_non_null(mod.compiled->features); |
| assert_int_equal(2, LY_ARRAY_SIZE(mod.compiled->features)); |
| f = &mod.compiled->features[1]; |
| assert_non_null(f->iffeatures); |
| assert_int_equal(1, LY_ARRAY_SIZE(f->iffeatures)); |
| iff = &f->iffeatures[0]; |
| assert_non_null(iff->expr); |
| assert_non_null(iff->features); |
| assert_int_equal(1, LY_ARRAY_SIZE(iff->features)); |
| assert_ptr_equal(&mod.compiled->features[0], iff->features[0]); |
| |
| lysc_module_free(mod.compiled, NULL); |
| |
| assert_int_equal(LY_SUCCESS, lys_compile(&mod, LYSC_OPT_FREE_SP)); |
| assert_non_null(mod.compiled); |
| |
| lysc_module_free(mod.compiled, NULL); |
| mod.compiled = NULL; |
| |
| /* submodules cannot be compiled directly */ |
| str = "submodule test {belongs-to xxx {prefix x;}}"; |
| assert_int_equal(LY_EINVAL, yang_parse_module(&ctx, str, &mod)); |
| logbuf_assert("Input data contains submodule which cannot be parsed directly without its main module."); |
| assert_null(mod.parsed); |
| reset_mod(ctx.ctx, &mod); |
| |
| /* data definition name collision in top level */ |
| assert_int_equal(LY_SUCCESS, yang_parse_module(&ctx, "module aa {namespace urn:aa;prefix aa;" |
| "leaf a {type string;} container a{presence x;}}", &mod)); |
| assert_int_equal(LY_EVALID, lys_compile(&mod, 0)); |
| logbuf_assert("Duplicate identifier \"a\" of data definition/RPC/action/Notification statement."); |
| assert_null(mod.compiled); |
| reset_mod(ctx.ctx, &mod); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx.ctx, NULL); |
| } |
| |
| static void |
| test_feature(void **state) |
| { |
| *state = test_feature; |
| |
| struct lys_parser_ctx ctx = {0}; |
| struct lys_module mod = {0}, *modp; |
| const char *str; |
| struct lysc_feature *f, *f1; |
| |
| str = "module a {namespace urn:a;prefix a;yang-version 1.1;\n" |
| "feature f1 {description test1;reference test2;status current;} feature f2; feature f3;\n" |
| "feature orfeature {if-feature \"f1 or f2\";}\n" |
| "feature andfeature {if-feature \"f1 and f2\";}\n" |
| "feature f6 {if-feature \"not f1\";}\n" |
| "feature f7 {if-feature \"(f2 and f3) or (not f1)\";}\n" |
| "feature f8 {if-feature \"f1 or f2 or f3 or orfeature or andfeature\";}\n" |
| "feature f9 {if-feature \"not not f1\";}}"; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, 0, &ctx.ctx)); |
| reset_mod(ctx.ctx, &mod); |
| |
| assert_int_equal(LY_SUCCESS, yang_parse_module(&ctx, str, &mod)); |
| assert_int_equal(LY_SUCCESS, lys_compile(&mod, 0)); |
| assert_non_null(mod.compiled); |
| assert_non_null(mod.compiled->features); |
| assert_int_equal(9, LY_ARRAY_SIZE(mod.compiled->features)); |
| /* all features are disabled by default */ |
| LY_ARRAY_FOR(mod.compiled->features, struct lysc_feature, f) { |
| assert_int_equal(0, lysc_feature_value(f)); |
| } |
| /* enable f1 */ |
| assert_int_equal(LY_SUCCESS, lys_feature_enable(&mod, "f1")); |
| f1 = &mod.compiled->features[0]; |
| assert_int_equal(1, lysc_feature_value(f1)); |
| |
| /* enable orfeature */ |
| f = &mod.compiled->features[3]; |
| assert_int_equal(0, lysc_feature_value(f)); |
| assert_int_equal(LY_SUCCESS, lys_feature_enable(&mod, "orfeature")); |
| assert_int_equal(1, lysc_feature_value(f)); |
| |
| /* enable andfeature - no possible since f2 is disabled */ |
| f = &mod.compiled->features[4]; |
| assert_int_equal(0, lysc_feature_value(f)); |
| assert_int_equal(LY_EDENIED, lys_feature_enable(&mod, "andfeature")); |
| logbuf_assert("Feature \"andfeature\" cannot be enabled since it is disabled by its if-feature condition(s)."); |
| assert_int_equal(0, lysc_feature_value(f)); |
| |
| /* first enable f2, so f5 can be enabled then */ |
| assert_int_equal(LY_SUCCESS, lys_feature_enable(&mod, "f2")); |
| assert_int_equal(LY_SUCCESS, lys_feature_enable(&mod, "andfeature")); |
| assert_int_equal(1, lysc_feature_value(f)); |
| |
| /* f1 is enabled, so f6 cannot be enabled */ |
| f = &mod.compiled->features[5]; |
| assert_int_equal(0, lysc_feature_value(f)); |
| assert_int_equal(LY_EDENIED, lys_feature_enable(&mod, "f6")); |
| logbuf_assert("Feature \"f6\" cannot be enabled since it is disabled by its if-feature condition(s)."); |
| assert_int_equal(0, lysc_feature_value(f)); |
| |
| /* so disable f1 - andfeature will became also disabled */ |
| assert_int_equal(1, lysc_feature_value(f1)); |
| assert_int_equal(LY_SUCCESS, lys_feature_disable(&mod, "f1")); |
| assert_int_equal(0, lysc_feature_value(f1)); |
| assert_int_equal(0, lysc_feature_value(&mod.compiled->features[4])); |
| /* while orfeature is stille enabled */ |
| assert_int_equal(1, lysc_feature_value(&mod.compiled->features[3])); |
| /* and finally f6 can be enabled */ |
| assert_int_equal(LY_SUCCESS, lys_feature_enable(&mod, "f6")); |
| assert_int_equal(1, lysc_feature_value(&mod.compiled->features[5])); |
| |
| /* complex evaluation of f7: f1 and f3 are disabled, while f2 is enabled */ |
| assert_int_equal(1, lysc_iffeature_value(&mod.compiled->features[6].iffeatures[0])); |
| /* long evaluation of f8 to need to reallocate internal stack for operators */ |
| assert_int_equal(1, lysc_iffeature_value(&mod.compiled->features[7].iffeatures[0])); |
| |
| /* double negation of disabled f1 -> disabled */ |
| assert_int_equal(0, lysc_iffeature_value(&mod.compiled->features[8].iffeatures[0])); |
| |
| /* disable all features */ |
| assert_int_equal(LY_SUCCESS, lys_feature_disable(&mod, "*")); |
| LY_ARRAY_FOR(mod.compiled->features, struct lysc_feature, f) { |
| assert_int_equal(0, lys_feature_value(&mod, f->name)); |
| } |
| /* re-setting already set feature */ |
| assert_int_equal(LY_SUCCESS, lys_feature_disable(&mod, "f1")); |
| assert_int_equal(0, lys_feature_value(&mod, "f1")); |
| |
| /* enabling feature that cannot be enabled due to its if-features */ |
| assert_int_equal(LY_SUCCESS, lys_feature_enable(&mod, "f1")); |
| assert_int_equal(LY_EDENIED, lys_feature_enable(&mod, "andfeature")); |
| logbuf_assert("Feature \"andfeature\" cannot be enabled since it is disabled by its if-feature condition(s)."); |
| assert_int_equal(LY_EDENIED, lys_feature_enable(&mod, "*")); |
| logbuf_assert("Feature \"f6\" cannot be enabled since it is disabled by its if-feature condition(s)."); |
| /* test if not changed */ |
| assert_int_equal(1, lys_feature_value(&mod, "f1")); |
| assert_int_equal(0, lys_feature_value(&mod, "f2")); |
| |
| assert_non_null(modp = lys_parse_mem(ctx.ctx, "module b {namespace urn:b;prefix b;" |
| "feature f1 {if-feature f2;}feature f2;}", LYS_IN_YANG)); |
| assert_non_null(modp->compiled); |
| assert_non_null(modp->compiled->features); |
| assert_int_equal(2, LY_ARRAY_SIZE(modp->compiled->features)); |
| assert_non_null(modp->compiled->features[0].iffeatures); |
| assert_int_equal(1, LY_ARRAY_SIZE(modp->compiled->features[0].iffeatures)); |
| assert_non_null(modp->compiled->features[0].iffeatures[0].features); |
| assert_int_equal(1, LY_ARRAY_SIZE(modp->compiled->features[0].iffeatures[0].features)); |
| assert_ptr_equal(&modp->compiled->features[1], modp->compiled->features[0].iffeatures[0].features[0]); |
| assert_non_null(modp->compiled->features); |
| assert_int_equal(2, LY_ARRAY_SIZE(modp->compiled->features)); |
| assert_non_null(modp->compiled->features[1].depfeatures); |
| assert_int_equal(1, LY_ARRAY_SIZE(modp->compiled->features[1].depfeatures)); |
| assert_ptr_equal(&modp->compiled->features[0], modp->compiled->features[1].depfeatures[0]); |
| |
| /* invalid reference */ |
| assert_int_equal(LY_EINVAL, lys_feature_enable(&mod, "xxx")); |
| logbuf_assert("Feature \"xxx\" not found in module \"a\"."); |
| |
| reset_mod(ctx.ctx, &mod); |
| |
| /* some invalid expressions */ |
| assert_int_equal(LY_SUCCESS, yang_parse_module(&ctx, "module b{yang-version 1.1;namespace urn:b; prefix b; feature f{if-feature f1;}}", &mod)); |
| assert_int_equal(LY_EVALID, lys_compile(&mod, 0)); |
| logbuf_assert("Invalid value \"f1\" of if-feature - unable to find feature \"f1\"."); |
| reset_mod(ctx.ctx, &mod); |
| |
| assert_int_equal(LY_SUCCESS, yang_parse_module(&ctx, "module b{yang-version 1.1;namespace urn:b; prefix b; feature f1; feature f2{if-feature 'f and';}}", &mod)); |
| assert_int_equal(LY_EVALID, lys_compile(&mod, 0)); |
| logbuf_assert("Invalid value \"f and\" of if-feature - unexpected end of expression."); |
| reset_mod(ctx.ctx, &mod); |
| |
| assert_int_equal(LY_SUCCESS, yang_parse_module(&ctx, "module b{yang-version 1.1;namespace urn:b; prefix b; feature f{if-feature 'or';}}", &mod)); |
| assert_int_equal(LY_EVALID, lys_compile(&mod, 0)); |
| logbuf_assert("Invalid value \"or\" of if-feature - unexpected end of expression."); |
| reset_mod(ctx.ctx, &mod); |
| |
| assert_int_equal(LY_SUCCESS, yang_parse_module(&ctx, "module b{yang-version 1.1;namespace urn:b; prefix b; feature f1; feature f2{if-feature '(f1';}}", &mod)); |
| assert_int_equal(LY_EVALID, lys_compile(&mod, 0)); |
| logbuf_assert("Invalid value \"(f1\" of if-feature - non-matching opening and closing parentheses."); |
| reset_mod(ctx.ctx, &mod); |
| |
| assert_int_equal(LY_SUCCESS, yang_parse_module(&ctx, "module b{yang-version 1.1;namespace urn:b; prefix b; feature f1; feature f2{if-feature 'f1)';}}", &mod)); |
| assert_int_equal(LY_EVALID, lys_compile(&mod, 0)); |
| logbuf_assert("Invalid value \"f1)\" of if-feature - non-matching opening and closing parentheses."); |
| reset_mod(ctx.ctx, &mod); |
| |
| assert_int_equal(LY_SUCCESS, yang_parse_module(&ctx, "module b{yang-version 1.1;namespace urn:b; prefix b; feature f1; feature f2{if-feature ---;}}", &mod)); |
| assert_int_equal(LY_EVALID, lys_compile(&mod, 0)); |
| logbuf_assert("Invalid value \"---\" of if-feature - unable to find feature \"---\"."); |
| reset_mod(ctx.ctx, &mod); |
| |
| assert_int_equal(LY_SUCCESS, yang_parse_module(&ctx, "module b{namespace urn:b; prefix b; feature f1; feature f2{if-feature 'not f1';}}", &mod)); |
| assert_int_equal(LY_EVALID, lys_compile(&mod, 0)); |
| logbuf_assert("Invalid value \"not f1\" of if-feature - YANG 1.1 expression in YANG 1.0 module."); |
| reset_mod(ctx.ctx, &mod); |
| |
| assert_int_equal(LY_SUCCESS, yang_parse_module(&ctx, "module b{namespace urn:b; prefix b; feature f1; feature f1;}", &mod)); |
| assert_int_equal(LY_EVALID, lys_compile(&mod, 0)); |
| logbuf_assert("Duplicate identifier \"f1\" of feature statement."); |
| reset_mod(ctx.ctx, &mod); |
| |
| ly_ctx_set_module_imp_clb(ctx.ctx, test_imp_clb, "submodule sz {belongs-to z {prefix z;} feature f1;}"); |
| assert_null(lys_parse_mem(ctx.ctx, "module z{namespace urn:z; prefix z; include sz;feature f1;}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"f1\" of feature statement."); |
| |
| assert_null(lys_parse_mem(ctx.ctx, "module aa{namespace urn:aa; prefix aa; feature f1 {if-feature f2;} feature f2 {if-feature f1;}}", LYS_IN_YANG)); |
| logbuf_assert("Feature \"f1\" is indirectly referenced from itself."); |
| assert_null(lys_parse_mem(ctx.ctx, "module ab{namespace urn:ab; prefix ab; feature f1 {if-feature f1;}}", LYS_IN_YANG)); |
| logbuf_assert("Feature \"f1\" is referenced from itself."); |
| |
| /* import reference */ |
| assert_non_null(modp = lys_parse_mem(ctx.ctx, str, LYS_IN_YANG)); |
| assert_int_equal(LY_SUCCESS, lys_feature_enable(modp, "f1")); |
| assert_non_null(modp = lys_parse_mem(ctx.ctx, "module c{namespace urn:c; prefix c; import a {prefix a;} feature f1; feature f2{if-feature 'a:f1';}}", LYS_IN_YANG)); |
| assert_int_equal(LY_SUCCESS, lys_feature_enable(modp, "f2")); |
| assert_int_equal(0, lys_feature_value(modp, "f1")); |
| assert_int_equal(1, lys_feature_value(modp, "f2")); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx.ctx, NULL); |
| } |
| |
| static void |
| test_identity(void **state) |
| { |
| *state = test_identity; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod1, *mod2; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| assert_non_null(mod1 = lys_parse_mem(ctx, "module a {namespace urn:a;prefix a; identity a1;}", LYS_IN_YANG)); |
| assert_non_null(mod2 = lys_parse_mem(ctx, "module b {yang-version 1.1;namespace urn:b;prefix b; import a {prefix a;}" |
| "identity b1; identity b2; identity b3 {base b1; base b:b2; base a:a1;}" |
| "identity b4 {base b:b1; base b3;}}", LYS_IN_YANG)); |
| |
| assert_non_null(mod1->compiled); |
| assert_non_null(mod1->compiled->identities); |
| assert_non_null(mod2->compiled); |
| assert_non_null(mod2->compiled->identities); |
| |
| assert_non_null(mod1->compiled->identities[0].derived); |
| assert_int_equal(1, LY_ARRAY_SIZE(mod1->compiled->identities[0].derived)); |
| assert_ptr_equal(mod1->compiled->identities[0].derived[0], &mod2->compiled->identities[2]); |
| assert_non_null(mod2->compiled->identities[0].derived); |
| assert_int_equal(2, LY_ARRAY_SIZE(mod2->compiled->identities[0].derived)); |
| assert_ptr_equal(mod2->compiled->identities[0].derived[0], &mod2->compiled->identities[2]); |
| assert_ptr_equal(mod2->compiled->identities[0].derived[1], &mod2->compiled->identities[3]); |
| assert_non_null(mod2->compiled->identities[1].derived); |
| assert_int_equal(1, LY_ARRAY_SIZE(mod2->compiled->identities[1].derived)); |
| assert_ptr_equal(mod2->compiled->identities[1].derived[0], &mod2->compiled->identities[2]); |
| assert_non_null(mod2->compiled->identities[2].derived); |
| assert_int_equal(1, LY_ARRAY_SIZE(mod2->compiled->identities[2].derived)); |
| assert_ptr_equal(mod2->compiled->identities[2].derived[0], &mod2->compiled->identities[3]); |
| |
| assert_non_null(mod2 = lys_parse_mem(ctx, "module c {yang-version 1.1;namespace urn:c;prefix c;" |
| "identity c2 {base c1;} identity c1;}", LYS_IN_YANG)); |
| assert_int_equal(1, LY_ARRAY_SIZE(mod2->compiled->identities[1].derived)); |
| assert_ptr_equal(mod2->compiled->identities[1].derived[0], &mod2->compiled->identities[0]); |
| |
| assert_null(lys_parse_mem(ctx, "module aa{namespace urn:aa; prefix aa; identity i1;identity i1;}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"i1\" of identity statement."); |
| |
| ly_ctx_set_module_imp_clb(ctx, test_imp_clb, "submodule sbb {belongs-to bb {prefix bb;} identity i1;}"); |
| assert_null(lys_parse_mem(ctx, "module bb{namespace urn:bb; prefix bb; include sbb;identity i1;}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"i1\" of identity statement."); |
| |
| assert_null(lys_parse_mem(ctx, "module cc{namespace urn:cc; prefix cc; identity i1 {base i2;}}", LYS_IN_YANG)); |
| logbuf_assert("Unable to find base (i2) of identity \"i1\"."); |
| |
| assert_null(lys_parse_mem(ctx, "module dd{namespace urn:dd; prefix dd; identity i1 {base i1;}}", LYS_IN_YANG)); |
| logbuf_assert("Identity \"i1\" is derived from itself."); |
| assert_null(lys_parse_mem(ctx, "module de{namespace urn:de; prefix de; identity i1 {base i2;}identity i2 {base i3;}identity i3 {base i1;}}", LYS_IN_YANG)); |
| logbuf_assert("Identity \"i1\" is indirectly derived from itself."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_node_container(void **state) |
| { |
| (void) state; /* unused */ |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_node_container *cont; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {namespace urn:a;prefix a;container c;}", LYS_IN_YANG)); |
| assert_non_null(mod->compiled); |
| assert_non_null((cont = (struct lysc_node_container*)mod->compiled->data)); |
| assert_int_equal(LYS_CONTAINER, cont->nodetype); |
| assert_string_equal("c", cont->name); |
| assert_true(cont->flags & LYS_CONFIG_W); |
| assert_true(cont->flags & LYS_STATUS_CURR); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {namespace urn:b;prefix b;container c {config false; status deprecated; container child;}}", LYS_IN_YANG)); |
| logbuf_assert("Missing explicit \"deprecated\" status that was already specified in parent, inheriting."); |
| assert_non_null(mod->compiled); |
| assert_non_null((cont = (struct lysc_node_container*)mod->compiled->data)); |
| assert_true(cont->flags & LYS_CONFIG_R); |
| assert_true(cont->flags & LYS_STATUS_DEPRC); |
| assert_non_null((cont = (struct lysc_node_container*)cont->child)); |
| assert_int_equal(LYS_CONTAINER, cont->nodetype); |
| assert_true(cont->flags & LYS_CONFIG_R); |
| assert_true(cont->flags & LYS_STATUS_DEPRC); |
| assert_string_equal("child", cont->name); |
| |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_node_leaflist(void **state) |
| { |
| *state = test_node_leaflist; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_type *type; |
| struct lysc_node_leaflist *ll; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {namespace urn:a;prefix a;" |
| "typedef mytype {type union {type leafref {path ../target;} type string;}}" |
| "leaf-list ll1 {type union {type decimal64 {fraction-digits 2;} type mytype;}}" |
| "leaf-list ll2 {type leafref {path ../target;}}" |
| "leaf target {type int8;}}", |
| LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(1, type->refcount); |
| assert_int_equal(LY_TYPE_UNION, type->basetype); |
| assert_non_null(((struct lysc_type_union*)type)->types); |
| assert_int_equal(3, LY_ARRAY_SIZE(((struct lysc_type_union*)type)->types)); |
| assert_int_equal(LY_TYPE_DEC64, ((struct lysc_type_union*)type)->types[0]->basetype); |
| assert_int_equal(LY_TYPE_LEAFREF, ((struct lysc_type_union*)type)->types[1]->basetype); |
| assert_int_equal(LY_TYPE_STRING, ((struct lysc_type_union*)type)->types[2]->basetype); |
| assert_non_null(((struct lysc_type_leafref*)((struct lysc_type_union*)type)->types[1])->realtype); |
| assert_int_equal(LY_TYPE_INT8, ((struct lysc_type_leafref*)((struct lysc_type_union*)type)->types[1])->realtype->basetype); |
| type = ((struct lysc_node_leaf*)mod->compiled->data->next)->type; |
| assert_non_null(type); |
| assert_int_equal(1, type->refcount); |
| assert_int_equal(LY_TYPE_LEAFREF, type->basetype); |
| assert_non_null(((struct lysc_type_leafref*)type)->realtype); |
| assert_int_equal(LY_TYPE_INT8, ((struct lysc_type_leafref*)type)->realtype->basetype); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {namespace urn:b;prefix b;leaf-list ll {type string;}}", LYS_IN_YANG)); |
| assert_non_null(mod->compiled); |
| assert_non_null((ll = (struct lysc_node_leaflist*)mod->compiled->data)); |
| assert_int_equal(0, ll->min); |
| assert_int_equal((uint32_t)-1, ll->max); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module c {yang-version 1.1;namespace urn:c;prefix c;typedef mytype {type int8;default 10;}" |
| "leaf-list ll1 {type mytype;default 1; default 1; config false;}" |
| "leaf-list ll2 {type mytype; ordered-by user;}}", LYS_IN_YANG)); |
| assert_non_null(mod->compiled); |
| assert_non_null((ll = (struct lysc_node_leaflist*)mod->compiled->data)); |
| assert_non_null(ll->dflts); |
| assert_int_equal(3, ll->type->refcount); |
| assert_int_equal(2, LY_ARRAY_SIZE(ll->dflts)); |
| assert_string_equal("1", ll->dflts[0]); |
| assert_string_equal("1", ll->dflts[1]); |
| assert_int_equal(LYS_CONFIG_R | LYS_STATUS_CURR | LYS_ORDBY_SYSTEM | LYS_SET_DFLT | LYS_SET_CONFIG, ll->flags); |
| assert_non_null((ll = (struct lysc_node_leaflist*)mod->compiled->data->next)); |
| assert_non_null(ll->dflts); |
| assert_int_equal(3, ll->type->refcount); |
| assert_int_equal(1, LY_ARRAY_SIZE(ll->dflts)); |
| assert_string_equal("10", ll->dflts[0]); |
| assert_int_equal(LYS_CONFIG_W | LYS_STATUS_CURR | LYS_ORDBY_USER, ll->flags); |
| |
| /* ordered-by is ignored for state data, RPC/action output parameters and notification content */ |
| assert_non_null(mod = lys_parse_mem(ctx, "module d {yang-version 1.1;namespace urn:d;prefix d;" |
| "leaf-list ll {config false; type string; ordered-by user;}}", LYS_IN_YANG)); |
| /* but warning is present: */ |
| logbuf_assert("The ordered-by statement is ignored in lists representing state data ()."); |
| assert_non_null(mod->compiled); |
| assert_non_null((ll = (struct lysc_node_leaflist*)mod->compiled->data)); |
| assert_int_equal(LYS_CONFIG_R | LYS_STATUS_CURR | LYS_ORDBY_SYSTEM | LYS_SET_CONFIG, ll->flags); |
| logbuf_clean(); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module e {yang-version 1.1;namespace urn:e;prefix e;" |
| "rpc oper {output {leaf-list ll {type string; ordered-by user;}}}}", LYS_IN_YANG)); |
| logbuf_assert("The ordered-by statement is ignored in lists representing RPC/action output parameters ()."); |
| logbuf_clean(); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module f {yang-version 1.1;namespace urn:f;prefix f;" |
| "notification event {leaf-list ll {type string; ordered-by user;}}}", LYS_IN_YANG)); |
| logbuf_assert("The ordered-by statement is ignored in lists representing notification content ()."); |
| |
| /* invalid */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa;leaf-list ll {type empty;}}", LYS_IN_YANG)); |
| logbuf_assert("Leaf-list of type \"empty\" is allowed only in YANG 1.1 modules."); |
| |
| assert_null(lys_parse_mem(ctx, "module bb {yang-version 1.1;namespace urn:bb;prefix bb;leaf-list ll {type empty; default x;}}", LYS_IN_YANG)); |
| logbuf_assert("Leaf-list of type \"empty\" must not have a default value (x)."); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module cc {yang-version 1.1;namespace urn:cc;prefix cc;" |
| "leaf-list ll {config false;type string; default one;default two;default one;}}", LYS_IN_YANG)); |
| assert_non_null(mod->compiled); |
| assert_non_null((ll = (struct lysc_node_leaflist*)mod->compiled->data)); |
| assert_non_null(ll->dflts); |
| assert_int_equal(3, LY_ARRAY_SIZE(ll->dflts)); |
| assert_null(lys_parse_mem(ctx, "module dd {yang-version 1.1;namespace urn:dd;prefix dd;" |
| "leaf-list ll {type string; default one;default two;default one;}}", LYS_IN_YANG)); |
| logbuf_assert("Configuration leaf-list has multiple defaults of the same value \"one\"."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_node_list(void **state) |
| { |
| *state = test_node_list; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_node_list *list; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {namespace urn:a;prefix a;feature f;" |
| "list l1 {key \"x y\"; ordered-by user; leaf x {type string; when 1;}leaf y{type string;if-feature f;}}" |
| "list l2 {config false;leaf value {type string;}}}", LYS_IN_YANG)); |
| list = (struct lysc_node_list*)mod->compiled->data; |
| assert_non_null(list); |
| assert_non_null(list->keys); |
| assert_int_equal(2, LY_ARRAY_SIZE(list->keys)); |
| assert_string_equal("x", list->keys[0]->name); |
| assert_string_equal("y", list->keys[1]->name); |
| assert_non_null(list->child); |
| assert_int_equal(LYS_CONFIG_W | LYS_STATUS_CURR | LYS_ORDBY_USER, list->flags); |
| assert_true(list->child->flags & LYS_KEY); |
| assert_true(list->child->next->flags & LYS_KEY); |
| list = (struct lysc_node_list*)mod->compiled->data->next; |
| assert_non_null(list); |
| assert_null(list->keys); |
| assert_non_null(list->child); |
| assert_int_equal(LYS_CONFIG_R | LYS_STATUS_CURR | LYS_ORDBY_SYSTEM | LYS_SET_CONFIG, list->flags); |
| assert_false(list->child->flags & LYS_KEY); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {namespace urn:b;prefix b;" |
| "list l {key a; unique \"a c/b:b\"; unique \"c/e d\";" |
| "leaf a {type string; default x;} leaf d {type string;config false;}" |
| "container c {leaf b {type string;}leaf e{type string;config false;}}}}", LYS_IN_YANG)); |
| list = (struct lysc_node_list*)mod->compiled->data; |
| assert_non_null(list); |
| assert_string_equal("l", list->name); |
| assert_non_null(list->keys); |
| assert_int_equal(1, LY_ARRAY_SIZE(list->keys)); |
| assert_string_equal("a", list->keys[0]->name); |
| assert_true(list->keys[0]->flags & LYS_KEY); |
| assert_null(list->keys[0]->dflt); |
| assert_non_null(list->uniques); |
| assert_int_equal(2, LY_ARRAY_SIZE(list->uniques)); |
| assert_int_equal(2, LY_ARRAY_SIZE(list->uniques[0])); |
| assert_string_equal("a", list->uniques[0][0]->name); |
| assert_true(list->uniques[0][0]->flags & LYS_UNIQUE); |
| assert_string_equal("b", list->uniques[0][1]->name); |
| assert_true(list->uniques[0][1]->flags & LYS_UNIQUE); |
| assert_int_equal(2, LY_ARRAY_SIZE(list->uniques[1])); |
| assert_string_equal("e", list->uniques[1][0]->name); |
| assert_true(list->uniques[1][0]->flags & LYS_UNIQUE); |
| assert_string_equal("d", list->uniques[1][1]->name); |
| assert_true(list->uniques[1][1]->flags & LYS_UNIQUE); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module c {yang-version 1.1;namespace urn:c;prefix c;" |
| "list l {key a;leaf a {type empty;}}}", LYS_IN_YANG)); |
| list = (struct lysc_node_list*)mod->compiled->data; |
| assert_non_null(list); |
| assert_string_equal("l", list->name); |
| assert_non_null(list->keys); |
| assert_int_equal(1, LY_ARRAY_SIZE(list->keys)); |
| assert_string_equal("a", list->keys[0]->name); |
| assert_true(list->keys[0]->flags & LYS_KEY); |
| assert_int_equal(LY_TYPE_EMPTY, list->keys[0]->type->basetype); |
| |
| /* invalid */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa;list l;}", LYS_IN_YANG)); |
| logbuf_assert("Missing key in list representing configuration data."); |
| |
| assert_null(lys_parse_mem(ctx, "module bb {yang-version 1.1; namespace urn:bb;prefix bb;" |
| "list l {key x; leaf x {type string; when 1;}}}", LYS_IN_YANG)); |
| logbuf_assert("List's key \"x\" must not have any \"when\" statement."); |
| |
| assert_null(lys_parse_mem(ctx, "module cc {yang-version 1.1;namespace urn:cc;prefix cc;feature f;" |
| "list l {key x; leaf x {type string; if-feature f;}}}", LYS_IN_YANG)); |
| logbuf_assert("List's key \"x\" must not have any \"if-feature\" statement."); |
| |
| assert_null(lys_parse_mem(ctx, "module dd {namespace urn:dd;prefix dd;" |
| "list l {key x; leaf x {type string; config false;}}}", LYS_IN_YANG)); |
| logbuf_assert("Key of the configuration list must not be status leaf."); |
| |
| assert_null(lys_parse_mem(ctx, "module ee {namespace urn:ee;prefix ee;" |
| "list l {config false;key x; leaf x {type string; config true;}}}", LYS_IN_YANG)); |
| logbuf_assert("Configuration node cannot be child of any state data node."); |
| |
| assert_null(lys_parse_mem(ctx, "module ff {namespace urn:ff;prefix ff;" |
| "list l {key x; leaf-list x {type string;}}}", LYS_IN_YANG)); |
| logbuf_assert("The list's key \"x\" not found."); |
| |
| assert_null(lys_parse_mem(ctx, "module gg {namespace urn:gg;prefix gg;" |
| "list l {key x; unique y;leaf x {type string;} leaf-list y {type string;}}}", LYS_IN_YANG)); |
| logbuf_assert("Unique's descendant-schema-nodeid \"y\" refers to leaf-list node instead of a leaf."); |
| |
| assert_null(lys_parse_mem(ctx, "module hh {namespace urn:hh;prefix hh;" |
| "list l {key x; unique \"x y\";leaf x {type string;} leaf y {config false; type string;}}}", LYS_IN_YANG)); |
| logbuf_assert("Unique statement \"x y\" refers to leafs with different config type."); |
| |
| assert_null(lys_parse_mem(ctx, "module ii {namespace urn:ii;prefix ii;" |
| "list l {key x; unique a:x;leaf x {type string;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid descendant-schema-nodeid value \"a:x\" - prefix \"a\" not defined in module \"ii\"."); |
| |
| assert_null(lys_parse_mem(ctx, "module jj {namespace urn:jj;prefix jj;" |
| "list l {key x; unique c/x;leaf x {type string;}container c {leaf y {type string;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid descendant-schema-nodeid value \"c/x\" - target node not found."); |
| |
| assert_null( lys_parse_mem(ctx, "module kk {namespace urn:kk;prefix kk;" |
| "list l {key x; unique c^y;leaf x {type string;}container c {leaf y {type string;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid descendant-schema-nodeid value \"c^\" - missing \"/\" as node-identifier separator."); |
| |
| assert_null(lys_parse_mem(ctx, "module ll {namespace urn:ll;prefix ll;" |
| "list l {key \"x y x\";leaf x {type string;}leaf y {type string;}}}", LYS_IN_YANG)); |
| logbuf_assert("Duplicated key identifier \"x\"."); |
| |
| assert_null(lys_parse_mem(ctx, "module mm {namespace urn:mm;prefix mm;" |
| "list l {key x;leaf x {type empty;}}}", LYS_IN_YANG)); |
| logbuf_assert("Key of a list can be of type \"empty\" only in YANG 1.1 modules."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_node_choice(void **state) |
| { |
| *state = test_node_choice; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_node_choice *ch; |
| struct lysc_node_case *cs; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {namespace urn:a;prefix a;feature f;" |
| "choice ch {default a:b; case a {leaf a1 {type string;}leaf a2 {type string;}}" |
| "leaf b {type string;}}}", LYS_IN_YANG)); |
| ch = (struct lysc_node_choice*)mod->compiled->data; |
| assert_non_null(ch); |
| assert_int_equal(LYS_CONFIG_W | LYS_STATUS_CURR, ch->flags); |
| cs = ch->cases; |
| assert_non_null(cs); |
| assert_string_equal("a", cs->name); |
| assert_ptr_equal(ch, cs->parent); |
| assert_non_null(cs->child); |
| assert_string_equal("a1", cs->child->name); |
| assert_non_null(cs->child->next); |
| assert_string_equal("a2", cs->child->next->name); |
| assert_ptr_equal(cs, cs->child->parent); |
| cs = (struct lysc_node_case*)cs->next; |
| assert_non_null(cs); |
| assert_string_equal("b", cs->name); |
| assert_int_equal(LYS_STATUS_CURR | LYS_SET_DFLT, cs->flags); |
| assert_ptr_equal(ch, cs->parent); |
| assert_non_null(cs->child); |
| assert_string_equal("b", cs->child->name); |
| assert_ptr_equal(cs, cs->child->parent); |
| assert_ptr_equal(ch->cases->child->next, cs->child->prev); |
| assert_ptr_equal(ch->cases->child->next->next, cs->child); |
| assert_ptr_equal(ch->cases->child->prev, cs->child); |
| assert_ptr_equal(ch->dflt, cs); |
| |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa;" |
| "choice ch {case a {leaf x {type string;}}leaf x {type string;}}}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"x\" of data definition/RPC/action/Notification statement."); |
| assert_null(lys_parse_mem(ctx, "module aa2 {namespace urn:aa2;prefix aa;" |
| "choice ch {case a {leaf y {type string;}}case b {leaf y {type string;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"y\" of data definition/RPC/action/Notification statement."); |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb;" |
| "choice ch {case a {leaf x {type string;}}leaf a {type string;}}}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"a\" of case statement."); |
| assert_null(lys_parse_mem(ctx, "module bb2 {namespace urn:bb2;prefix bb;" |
| "choice ch {case b {leaf x {type string;}}case b {leaf y {type string;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"b\" of case statement."); |
| |
| assert_null(lys_parse_mem(ctx, "module ca {namespace urn:ca;prefix ca;" |
| "choice ch {default c;case a {leaf x {type string;}}case b {leaf y {type string;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Default case \"c\" not found."); |
| assert_null(lys_parse_mem(ctx, "module cb {namespace urn:cb;prefix cb; import a {prefix a;}" |
| "choice ch {default a:a;case a {leaf x {type string;}}case b {leaf y {type string;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid default case referencing a case from different YANG module (by prefix \"a\")."); |
| assert_null(lys_parse_mem(ctx, "module cc {namespace urn:cc;prefix cc;" |
| "choice ch {default a;case a {leaf x {mandatory true;type string;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Mandatory node \"x\" under the default case \"a\"."); |
| /* TODO check with mandatory nodes from augment placed into the case */ |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_node_anydata(void **state) |
| { |
| *state = test_node_anydata; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_node_anydata *any; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {yang-version 1.1;namespace urn:a;prefix a;" |
| "anydata any {config false;mandatory true;}}", LYS_IN_YANG)); |
| any = (struct lysc_node_anydata*)mod->compiled->data; |
| assert_non_null(any); |
| assert_int_equal(LYS_ANYDATA, any->nodetype); |
| assert_int_equal(LYS_CONFIG_R | LYS_STATUS_CURR | LYS_MAND_TRUE | LYS_SET_CONFIG, any->flags); |
| |
| logbuf_clean(); |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {namespace urn:b;prefix b;" |
| "anyxml any;}", LYS_IN_YANG)); |
| any = (struct lysc_node_anydata*)mod->compiled->data; |
| assert_non_null(any); |
| assert_int_equal(LYS_ANYXML, any->nodetype); |
| assert_int_equal(LYS_CONFIG_W | LYS_STATUS_CURR, any->flags); |
| logbuf_assert("Use of anyxml to define configuration data is not recommended."); /* warning */ |
| |
| /* invalid */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa;anydata any;}", LYS_IN_YANG)); |
| logbuf_assert("Invalid keyword \"anydata\" as a child of \"module\" - the statement is allowed only in YANG 1.1 modules. Line number 1."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_action(void **state) |
| { |
| *state = test_action; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| const struct lysc_action *rpc; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {namespace urn:a;prefix a;" |
| "rpc a {input {leaf x {type int8;} leaf y {type int8;}} output {leaf result {type int16;}}}}", LYS_IN_YANG)); |
| rpc = mod->compiled->rpcs; |
| assert_non_null(rpc); |
| assert_int_equal(1, LY_ARRAY_SIZE(rpc)); |
| assert_int_equal(LYS_ACTION, rpc->nodetype); |
| assert_int_equal(LYS_STATUS_CURR, rpc->flags); |
| assert_string_equal("a", rpc->name); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {yang-version 1.1; namespace urn:b;prefix b; container top {" |
| "action b {input {leaf x {type int8;} leaf y {type int8;}} output {leaf result {type int16;}}}}}", LYS_IN_YANG)); |
| rpc = lysc_node_actions(mod->compiled->data); |
| assert_non_null(rpc); |
| assert_int_equal(1, LY_ARRAY_SIZE(rpc)); |
| assert_int_equal(LYS_ACTION, rpc->nodetype); |
| assert_int_equal(LYS_STATUS_CURR, rpc->flags); |
| assert_string_equal("b", rpc->name); |
| |
| /* invalid */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa;container top {action x;}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid keyword \"action\" as a child of \"container\" - the statement is allowed only in YANG 1.1 modules. Line number 1."); |
| |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb;leaf x{type string;} rpc x;}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"x\" of data definition/RPC/action/Notification statement."); |
| assert_null(lys_parse_mem(ctx, "module cc {yang-version 1.1; namespace urn:cc;prefix cc;container c {leaf y {type string;} action y;}}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"y\" of data definition/RPC/action/Notification statement."); |
| assert_null(lys_parse_mem(ctx, "module dd {yang-version 1.1; namespace urn:dd;prefix dd;container c {action z; action z;}}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"z\" of data definition/RPC/action/Notification statement."); |
| ly_ctx_set_module_imp_clb(ctx, test_imp_clb, "submodule eesub {belongs-to ee {prefix ee;} notification w;}"); |
| assert_null(lys_parse_mem(ctx, "module ee {yang-version 1.1; namespace urn:ee;prefix ee;include eesub; rpc w;}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"w\" of data definition/RPC/action/Notification statement."); |
| |
| assert_null(lys_parse_mem(ctx, "module ff {yang-version 1.1; namespace urn:ff;prefix ff; rpc test {input {container a {leaf b {type string;}}}}" |
| "augment /test/input/a {action invalid {input {leaf x {type string;}}}}}", LYS_IN_YANG)); |
| logbuf_assert("Action \"invalid\" is placed inside another RPC/action."); |
| |
| assert_null(lys_parse_mem(ctx, "module gg {yang-version 1.1; namespace urn:gg;prefix gg; notification test {container a {leaf b {type string;}}}" |
| "augment /test/a {action invalid {input {leaf x {type string;}}}}}", LYS_IN_YANG)); |
| logbuf_assert("Action \"invalid\" is placed inside Notification."); |
| |
| assert_null(lys_parse_mem(ctx, "module hh {yang-version 1.1; namespace urn:hh;prefix hh; notification test {container a {uses grp;}}" |
| "grouping grp {action invalid {input {leaf x {type string;}}}}}", LYS_IN_YANG)); |
| logbuf_assert("Action \"invalid\" is placed inside Notification."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_notification(void **state) |
| { |
| *state = test_notification; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| const struct lysc_notif *notif; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {namespace urn:a;prefix a;" |
| "notification a1 {leaf x {type int8;}} notification a2;}", LYS_IN_YANG)); |
| notif = mod->compiled->notifs; |
| assert_non_null(notif); |
| assert_int_equal(2, LY_ARRAY_SIZE(notif)); |
| assert_int_equal(LYS_NOTIF, notif->nodetype); |
| assert_int_equal(LYS_STATUS_CURR, notif->flags); |
| assert_string_equal("a1", notif->name); |
| assert_non_null(notif->data); |
| assert_string_equal("x", notif->data->name); |
| assert_int_equal(LYS_NOTIF, notif[1].nodetype); |
| assert_int_equal(LYS_STATUS_CURR, notif[1].flags); |
| assert_string_equal("a2", notif[1].name); |
| assert_null(notif[1].data); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {yang-version 1.1; namespace urn:b;prefix b; container top {" |
| "notification b1 {leaf x {type int8;}} notification b2;}}", LYS_IN_YANG)); |
| notif = lysc_node_notifs(mod->compiled->data); |
| assert_non_null(notif); |
| assert_int_equal(2, LY_ARRAY_SIZE(notif)); |
| assert_int_equal(LYS_NOTIF, notif->nodetype); |
| assert_int_equal(LYS_STATUS_CURR, notif->flags); |
| assert_string_equal("b1", notif->name); |
| assert_non_null(notif->data); |
| assert_string_equal("x", notif->data->name); |
| assert_int_equal(LYS_NOTIF, notif[1].nodetype); |
| assert_int_equal(LYS_STATUS_CURR, notif[1].flags); |
| assert_string_equal("b2", notif[1].name); |
| assert_null(notif[1].data); |
| |
| /* invalid */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa;container top {notification x;}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid keyword \"notification\" as a child of \"container\" - the statement is allowed only in YANG 1.1 modules. Line number 1."); |
| |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb;leaf x{type string;} notification x;}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"x\" of data definition/RPC/action/Notification statement."); |
| assert_null(lys_parse_mem(ctx, "module cc {yang-version 1.1; namespace urn:cc;prefix cc;container c {leaf y {type string;} notification y;}}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"y\" of data definition/RPC/action/Notification statement."); |
| assert_null(lys_parse_mem(ctx, "module dd {yang-version 1.1; namespace urn:dd;prefix dd;container c {notification z; notification z;}}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"z\" of data definition/RPC/action/Notification statement."); |
| ly_ctx_set_module_imp_clb(ctx, test_imp_clb, "submodule eesub {belongs-to ee {prefix ee;} rpc w;}"); |
| assert_null(lys_parse_mem(ctx, "module ee {yang-version 1.1; namespace urn:ee;prefix ee;include eesub; notification w;}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"w\" of data definition/RPC/action/Notification statement."); |
| |
| assert_null(lys_parse_mem(ctx, "module ff {yang-version 1.1; namespace urn:ff;prefix ff; rpc test {input {container a {leaf b {type string;}}}}" |
| "augment /test/input/a {notification invalid {leaf x {type string;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Notification \"invalid\" is placed inside RPC/action."); |
| |
| assert_null(lys_parse_mem(ctx, "module gg {yang-version 1.1; namespace urn:gg;prefix gg; notification test {container a {leaf b {type string;}}}" |
| "augment /test/a {notification invalid {leaf x {type string;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Notification \"invalid\" is placed inside another Notification."); |
| |
| assert_null(lys_parse_mem(ctx, "module hh {yang-version 1.1; namespace urn:hh;prefix hh; rpc test {input {container a {uses grp;}}}" |
| "grouping grp {notification invalid {leaf x {type string;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Notification \"invalid\" is placed inside RPC/action."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| /** |
| * actually the same as length restriction (tested in test_type_length()), so just check the correct handling in appropriate types, |
| * do not test the expression itself |
| */ |
| static void |
| test_type_range(void **state) |
| { |
| *state = test_type_range; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_type *type; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {namespace urn:a;prefix a;leaf l {type int8 {range min..10|max;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_INT8, type->basetype); |
| assert_non_null(((struct lysc_type_num*)type)->range); |
| assert_non_null(((struct lysc_type_num*)type)->range->parts); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_num*)type)->range->parts)); |
| assert_int_equal(-128, ((struct lysc_type_num*)type)->range->parts[0].min_64); |
| assert_int_equal(10, ((struct lysc_type_num*)type)->range->parts[0].max_64); |
| assert_int_equal(127, ((struct lysc_type_num*)type)->range->parts[1].min_64); |
| assert_int_equal(127, ((struct lysc_type_num*)type)->range->parts[1].max_64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {namespace urn:b;prefix b;leaf l {type int16 {range min..10|max;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_INT16, type->basetype); |
| assert_non_null(((struct lysc_type_num*)type)->range); |
| assert_non_null(((struct lysc_type_num*)type)->range->parts); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_num*)type)->range->parts)); |
| assert_int_equal(-32768, ((struct lysc_type_num*)type)->range->parts[0].min_64); |
| assert_int_equal(10, ((struct lysc_type_num*)type)->range->parts[0].max_64); |
| assert_int_equal(32767, ((struct lysc_type_num*)type)->range->parts[1].min_64); |
| assert_int_equal(32767, ((struct lysc_type_num*)type)->range->parts[1].max_64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module c {namespace urn:c;prefix c;leaf l {type int32 {range min..10|max;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_INT32, type->basetype); |
| assert_non_null(((struct lysc_type_num*)type)->range); |
| assert_non_null(((struct lysc_type_num*)type)->range->parts); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_num*)type)->range->parts)); |
| assert_int_equal(INT64_C(-2147483648), ((struct lysc_type_num*)type)->range->parts[0].min_64); |
| assert_int_equal(10, ((struct lysc_type_num*)type)->range->parts[0].max_64); |
| assert_int_equal(INT64_C(2147483647), ((struct lysc_type_num*)type)->range->parts[1].min_64); |
| assert_int_equal(INT64_C(2147483647), ((struct lysc_type_num*)type)->range->parts[1].max_64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module d {namespace urn:d;prefix d;leaf l {type int64 {range min..10|max;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_INT64, type->basetype); |
| assert_non_null(((struct lysc_type_num*)type)->range); |
| assert_non_null(((struct lysc_type_num*)type)->range->parts); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_num*)type)->range->parts)); |
| assert_int_equal(INT64_C(-9223372036854775807) - INT64_C(1), ((struct lysc_type_num*)type)->range->parts[0].min_64); |
| assert_int_equal(10, ((struct lysc_type_num*)type)->range->parts[0].max_64); |
| assert_int_equal(INT64_C(9223372036854775807), ((struct lysc_type_num*)type)->range->parts[1].min_64); |
| assert_int_equal(INT64_C(9223372036854775807), ((struct lysc_type_num*)type)->range->parts[1].max_64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module e {namespace urn:e;prefix e;leaf l {type uint8 {range min..10|max;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_UINT8, type->basetype); |
| assert_non_null(((struct lysc_type_num*)type)->range); |
| assert_non_null(((struct lysc_type_num*)type)->range->parts); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_num*)type)->range->parts)); |
| assert_int_equal(0, ((struct lysc_type_num*)type)->range->parts[0].min_u64); |
| assert_int_equal(10, ((struct lysc_type_num*)type)->range->parts[0].max_u64); |
| assert_int_equal(255, ((struct lysc_type_num*)type)->range->parts[1].min_u64); |
| assert_int_equal(255, ((struct lysc_type_num*)type)->range->parts[1].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module f {namespace urn:f;prefix f;leaf l {type uint16 {range min..10|max;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_UINT16, type->basetype); |
| assert_non_null(((struct lysc_type_num*)type)->range); |
| assert_non_null(((struct lysc_type_num*)type)->range->parts); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_num*)type)->range->parts)); |
| assert_int_equal(0, ((struct lysc_type_num*)type)->range->parts[0].min_u64); |
| assert_int_equal(10, ((struct lysc_type_num*)type)->range->parts[0].max_u64); |
| assert_int_equal(65535, ((struct lysc_type_num*)type)->range->parts[1].min_u64); |
| assert_int_equal(65535, ((struct lysc_type_num*)type)->range->parts[1].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module g {namespace urn:g;prefix g;leaf l {type uint32 {range min..10|max;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_UINT32, type->basetype); |
| assert_non_null(((struct lysc_type_num*)type)->range); |
| assert_non_null(((struct lysc_type_num*)type)->range->parts); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_num*)type)->range->parts)); |
| assert_int_equal(0, ((struct lysc_type_num*)type)->range->parts[0].min_u64); |
| assert_int_equal(10, ((struct lysc_type_num*)type)->range->parts[0].max_u64); |
| assert_int_equal(UINT64_C(4294967295), ((struct lysc_type_num*)type)->range->parts[1].min_u64); |
| assert_int_equal(UINT64_C(4294967295), ((struct lysc_type_num*)type)->range->parts[1].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module h {namespace urn:h;prefix h;leaf l {type uint64 {range min..10|max;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_UINT64, type->basetype); |
| assert_non_null(((struct lysc_type_num*)type)->range); |
| assert_non_null(((struct lysc_type_num*)type)->range->parts); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_num*)type)->range->parts)); |
| assert_int_equal(0, ((struct lysc_type_num*)type)->range->parts[0].min_u64); |
| assert_int_equal(10, ((struct lysc_type_num*)type)->range->parts[0].max_u64); |
| assert_int_equal(UINT64_C(18446744073709551615), ((struct lysc_type_num*)type)->range->parts[1].min_u64); |
| assert_int_equal(UINT64_C(18446744073709551615), ((struct lysc_type_num*)type)->range->parts[1].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module i {namespace urn:i;prefix i;typedef mytype {type uint8 {range 10..100;}}" |
| "typedef mytype2 {type mytype;} leaf l {type mytype2;}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(3, type->refcount); |
| assert_int_equal(LY_TYPE_UINT8, type->basetype); |
| assert_non_null(((struct lysc_type_num*)type)->range); |
| assert_non_null(((struct lysc_type_num*)type)->range->parts); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_num*)type)->range->parts)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module j {namespace urn:j;prefix j;" |
| "typedef mytype {type uint8 {range 1..100{description \"one to hundred\";reference A;}}}" |
| "leaf l {type mytype {range 1..10 {description \"one to ten\";reference B;}}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(1, type->refcount); |
| assert_int_equal(LY_TYPE_UINT8, type->basetype); |
| assert_non_null(((struct lysc_type_num*)type)->range); |
| assert_string_equal("one to ten", ((struct lysc_type_num*)type)->range->dsc); |
| assert_string_equal("B", ((struct lysc_type_num*)type)->range->ref); |
| assert_non_null(((struct lysc_type_num*)type)->range->parts); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_num*)type)->range->parts)); |
| assert_int_equal(1, ((struct lysc_type_num*)type)->range->parts[0].min_u64); |
| assert_int_equal(10, ((struct lysc_type_num*)type)->range->parts[0].max_u64); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_type_length(void **state) |
| { |
| *state = test_type_length; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_type *type; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {namespace urn:a;prefix a;leaf l {type binary {length min {error-app-tag errortag;error-message error;}}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_non_null(((struct lysc_type_bin*)type)->length); |
| assert_non_null(((struct lysc_type_bin*)type)->length->parts); |
| assert_string_equal("errortag", ((struct lysc_type_bin*)type)->length->eapptag); |
| assert_string_equal("error", ((struct lysc_type_bin*)type)->length->emsg); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_bin*)type)->length->parts)); |
| assert_int_equal(0, ((struct lysc_type_bin*)type)->length->parts[0].min_u64); |
| assert_int_equal(0, ((struct lysc_type_bin*)type)->length->parts[0].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {namespace urn:b;prefix b;leaf l {type binary {length max;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_non_null(((struct lysc_type_bin*)type)->length); |
| assert_non_null(((struct lysc_type_bin*)type)->length->parts); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_bin*)type)->length->parts)); |
| assert_int_equal(UINT64_C(18446744073709551615), ((struct lysc_type_bin*)type)->length->parts[0].min_u64); |
| assert_int_equal(UINT64_C(18446744073709551615), ((struct lysc_type_bin*)type)->length->parts[0].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module c {namespace urn:c;prefix c;leaf l {type binary {length min..max;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_non_null(((struct lysc_type_bin*)type)->length); |
| assert_non_null(((struct lysc_type_bin*)type)->length->parts); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_bin*)type)->length->parts)); |
| assert_int_equal(0, ((struct lysc_type_bin*)type)->length->parts[0].min_u64); |
| assert_int_equal(UINT64_C(18446744073709551615), ((struct lysc_type_bin*)type)->length->parts[0].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module d {namespace urn:d;prefix d;leaf l {type binary {length 5;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_non_null(((struct lysc_type_bin*)type)->length); |
| assert_non_null(((struct lysc_type_bin*)type)->length->parts); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_bin*)type)->length->parts)); |
| assert_int_equal(5, ((struct lysc_type_bin*)type)->length->parts[0].min_u64); |
| assert_int_equal(5, ((struct lysc_type_bin*)type)->length->parts[0].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module e {namespace urn:e;prefix e;leaf l {type binary {length 1..10;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_non_null(((struct lysc_type_bin*)type)->length); |
| assert_non_null(((struct lysc_type_bin*)type)->length->parts); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_bin*)type)->length->parts)); |
| assert_int_equal(1, ((struct lysc_type_bin*)type)->length->parts[0].min_u64); |
| assert_int_equal(10, ((struct lysc_type_bin*)type)->length->parts[0].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module f {namespace urn:f;prefix f;leaf l {type binary {length 1..10|20..30;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_non_null(((struct lysc_type_bin*)type)->length); |
| assert_non_null(((struct lysc_type_bin*)type)->length->parts); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_bin*)type)->length->parts)); |
| assert_int_equal(1, ((struct lysc_type_bin*)type)->length->parts[0].min_u64); |
| assert_int_equal(10, ((struct lysc_type_bin*)type)->length->parts[0].max_u64); |
| assert_int_equal(20, ((struct lysc_type_bin*)type)->length->parts[1].min_u64); |
| assert_int_equal(30, ((struct lysc_type_bin*)type)->length->parts[1].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module g {namespace urn:g;prefix g;leaf l {type binary {length \"16 | 32\";}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_non_null(((struct lysc_type_bin*)type)->length); |
| assert_non_null(((struct lysc_type_bin*)type)->length->parts); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_bin*)type)->length->parts)); |
| assert_int_equal(16, ((struct lysc_type_bin*)type)->length->parts[0].min_u64); |
| assert_int_equal(16, ((struct lysc_type_bin*)type)->length->parts[0].max_u64); |
| assert_int_equal(32, ((struct lysc_type_bin*)type)->length->parts[1].min_u64); |
| assert_int_equal(32, ((struct lysc_type_bin*)type)->length->parts[1].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module h {namespace urn:h;prefix h;typedef mytype {type binary {length 10;}}" |
| "leaf l {type mytype {length \"10\";}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_non_null(((struct lysc_type_bin*)type)->length); |
| assert_non_null(((struct lysc_type_bin*)type)->length->parts); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_bin*)type)->length->parts)); |
| assert_int_equal(10, ((struct lysc_type_bin*)type)->length->parts[0].min_u64); |
| assert_int_equal(10, ((struct lysc_type_bin*)type)->length->parts[0].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module i {namespace urn:i;prefix i;typedef mytype {type binary {length 10..100;}}" |
| "leaf l {type mytype {length \"50\";}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_non_null(((struct lysc_type_bin*)type)->length); |
| assert_non_null(((struct lysc_type_bin*)type)->length->parts); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_bin*)type)->length->parts)); |
| assert_int_equal(50, ((struct lysc_type_bin*)type)->length->parts[0].min_u64); |
| assert_int_equal(50, ((struct lysc_type_bin*)type)->length->parts[0].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module j {namespace urn:j;prefix j;typedef mytype {type binary {length 10..100;}}" |
| "leaf l {type mytype {length \"10..30|60..100\";}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_non_null(((struct lysc_type_bin*)type)->length); |
| assert_non_null(((struct lysc_type_bin*)type)->length->parts); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_bin*)type)->length->parts)); |
| assert_int_equal(10, ((struct lysc_type_bin*)type)->length->parts[0].min_u64); |
| assert_int_equal(30, ((struct lysc_type_bin*)type)->length->parts[0].max_u64); |
| assert_int_equal(60, ((struct lysc_type_bin*)type)->length->parts[1].min_u64); |
| assert_int_equal(100, ((struct lysc_type_bin*)type)->length->parts[1].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module k {namespace urn:k;prefix k;typedef mytype {type binary {length 10..100;}}" |
| "leaf l {type mytype {length \"10..80\";}}leaf ll {type mytype;}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(1, type->refcount); |
| assert_non_null(((struct lysc_type_bin*)type)->length); |
| assert_non_null(((struct lysc_type_bin*)type)->length->parts); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_bin*)type)->length->parts)); |
| assert_int_equal(10, ((struct lysc_type_bin*)type)->length->parts[0].min_u64); |
| assert_int_equal(80, ((struct lysc_type_bin*)type)->length->parts[0].max_u64); |
| type = ((struct lysc_node_leaf*)mod->compiled->data->next)->type; |
| assert_non_null(type); |
| assert_int_equal(2, type->refcount); |
| assert_non_null(((struct lysc_type_bin*)type)->length); |
| assert_non_null(((struct lysc_type_bin*)type)->length->parts); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_bin*)type)->length->parts)); |
| assert_int_equal(10, ((struct lysc_type_bin*)type)->length->parts[0].min_u64); |
| assert_int_equal(100, ((struct lysc_type_bin*)type)->length->parts[0].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module l {namespace urn:l;prefix l;typedef mytype {type string {length 10..100;}}" |
| "typedef mytype2 {type mytype {pattern '[0-9]*';}} leaf l {type mytype2 {pattern '[0-4]*';}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_STRING, type->basetype); |
| assert_int_equal(1, type->refcount); |
| assert_non_null(((struct lysc_type_str*)type)->length); |
| assert_non_null(((struct lysc_type_str*)type)->length->parts); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_str*)type)->length->parts)); |
| assert_int_equal(10, ((struct lysc_type_str*)type)->length->parts[0].min_u64); |
| assert_int_equal(100, ((struct lysc_type_str*)type)->length->parts[0].max_u64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module m {namespace urn:m;prefix m;typedef mytype {type string {length 10;}}" |
| "leaf l {type mytype {length min..max;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_STRING, type->basetype); |
| assert_int_equal(1, type->refcount); |
| assert_non_null(((struct lysc_type_str*)type)->length); |
| assert_non_null(((struct lysc_type_str*)type)->length->parts); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_str*)type)->length->parts)); |
| assert_int_equal(10, ((struct lysc_type_str*)type)->length->parts[0].min_u64); |
| assert_int_equal(10, ((struct lysc_type_str*)type)->length->parts[0].max_u64); |
| |
| /* invalid values */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa;leaf l {type binary {length -10;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - value \"-10\" does not fit the type limitations."); |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb;leaf l {type binary {length 18446744073709551616;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - invalid value \"18446744073709551616\"."); |
| assert_null(lys_parse_mem(ctx, "module cc {namespace urn:cc;prefix cc;leaf l {type binary {length \"max .. 10\";}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - unexpected data after max keyword (.. 10)."); |
| assert_null(lys_parse_mem(ctx, "module dd {namespace urn:dd;prefix dd;leaf l {type binary {length 50..10;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - values are not in ascending order (10)."); |
| assert_null(lys_parse_mem(ctx, "module ee {namespace urn:ee;prefix ee;leaf l {type binary {length \"50 | 10\";}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - values are not in ascending order (10)."); |
| assert_null(lys_parse_mem(ctx, "module ff {namespace urn:ff;prefix ff;leaf l {type binary {length \"x\";}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - unexpected data (x)."); |
| assert_null(lys_parse_mem(ctx, "module gg {namespace urn:gg;prefix gg;leaf l {type binary {length \"50 | min\";}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - unexpected data before min keyword (50 | )."); |
| assert_null(lys_parse_mem(ctx, "module hh {namespace urn:hh;prefix hh;leaf l {type binary {length \"| 50\";}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - unexpected beginning of the expression (| 50)."); |
| assert_null(lys_parse_mem(ctx, "module ii {namespace urn:ii;prefix ii;leaf l {type binary {length \"10 ..\";}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - unexpected end of the expression after \"..\" (10 ..)."); |
| assert_null(lys_parse_mem(ctx, "module jj {namespace urn:jj;prefix jj;leaf l {type binary {length \".. 10\";}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - unexpected \"..\" without a lower bound."); |
| assert_null(lys_parse_mem(ctx, "module kk {namespace urn:kk;prefix kk;leaf l {type binary {length \"10 |\";}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - unexpected end of the expression (10 |)."); |
| assert_null(lys_parse_mem(ctx, "module kl {namespace urn:kl;prefix kl;leaf l {type binary {length \"10..20 | 15..30\";}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - values are not in ascending order (15)."); |
| |
| assert_null(lys_parse_mem(ctx, "module ll {namespace urn:ll;prefix ll;typedef mytype {type binary {length 10;}}" |
| "leaf l {type mytype {length 11;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - the derived restriction (11) is not equally or more limiting."); |
| assert_null(lys_parse_mem(ctx, "module mm {namespace urn:mm;prefix mm;typedef mytype {type binary {length 10..100;}}" |
| "leaf l {type mytype {length 1..11;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - the derived restriction (1..11) is not equally or more limiting."); |
| assert_null(lys_parse_mem(ctx, "module nn {namespace urn:nn;prefix nn;typedef mytype {type binary {length 10..100;}}" |
| "leaf l {type mytype {length 20..110;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - the derived restriction (20..110) is not equally or more limiting."); |
| assert_null(lys_parse_mem(ctx, "module oo {namespace urn:oo;prefix oo;typedef mytype {type binary {length 10..100;}}" |
| "leaf l {type mytype {length 20..30|110..120;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - the derived restriction (20..30|110..120) is not equally or more limiting."); |
| assert_null(lys_parse_mem(ctx, "module pp {namespace urn:pp;prefix pp;typedef mytype {type binary {length 10..11;}}" |
| "leaf l {type mytype {length 15;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - the derived restriction (15) is not equally or more limiting."); |
| assert_null(lys_parse_mem(ctx, "module qq {namespace urn:qq;prefix qq;typedef mytype {type binary {length 10..20|30..40;}}" |
| "leaf l {type mytype {length 15..35;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - the derived restriction (15..35) is not equally or more limiting."); |
| assert_null(lys_parse_mem(ctx, "module rr {namespace urn:rr;prefix rr;typedef mytype {type binary {length 10;}}" |
| "leaf l {type mytype {length 10..35;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid length restriction - the derived restriction (10..35) is not equally or more limiting."); |
| |
| assert_null(lys_parse_mem(ctx, "module ss {namespace urn:rr;prefix rr;leaf l {type binary {pattern '[0-9]*';}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid type restrictions for binary type."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_type_pattern(void **state) |
| { |
| *state = test_type_pattern; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_type *type; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {yang-version 1.1; namespace urn:a;prefix a;leaf l {type string {" |
| "pattern .* {error-app-tag errortag;error-message error;}" |
| "pattern [0-9].*[0-9] {modifier invert-match;}}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_non_null(((struct lysc_type_str*)type)->patterns); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_str*)type)->patterns)); |
| assert_string_equal("errortag", ((struct lysc_type_str*)type)->patterns[0]->eapptag); |
| assert_string_equal("error", ((struct lysc_type_str*)type)->patterns[0]->emsg); |
| assert_string_equal(".*", ((struct lysc_type_str*)type)->patterns[0]->expr); |
| assert_int_equal(0, ((struct lysc_type_str*)type)->patterns[0]->inverted); |
| assert_null(((struct lysc_type_str*)type)->patterns[1]->eapptag); |
| assert_null(((struct lysc_type_str*)type)->patterns[1]->emsg); |
| assert_string_equal("[0-9].*[0-9]", ((struct lysc_type_str*)type)->patterns[1]->expr); |
| assert_int_equal(1, ((struct lysc_type_str*)type)->patterns[1]->inverted); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {namespace urn:b;prefix b;typedef mytype {type string {pattern '[0-9]*';}}" |
| "typedef mytype2 {type mytype {length 10;}} leaf l {type mytype2 {pattern '[0-4]*';}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_STRING, type->basetype); |
| assert_int_equal(1, type->refcount); |
| assert_non_null(((struct lysc_type_str*)type)->patterns); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_str*)type)->patterns)); |
| assert_string_equal("[0-9]*", ((struct lysc_type_str*)type)->patterns[0]->expr); |
| assert_int_equal(3, ((struct lysc_type_str*)type)->patterns[0]->refcount); |
| assert_string_equal("[0-4]*", ((struct lysc_type_str*)type)->patterns[1]->expr); |
| assert_int_equal(1, ((struct lysc_type_str*)type)->patterns[1]->refcount); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module c {namespace urn:c;prefix c;typedef mytype {type string {pattern '[0-9]*';}}" |
| "leaf l {type mytype {length 10;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_STRING, type->basetype); |
| assert_int_equal(1, type->refcount); |
| assert_non_null(((struct lysc_type_str*)type)->patterns); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_str*)type)->patterns)); |
| assert_string_equal("[0-9]*", ((struct lysc_type_str*)type)->patterns[0]->expr); |
| assert_int_equal(2, ((struct lysc_type_str*)type)->patterns[0]->refcount); |
| |
| /* test substitutions */ |
| assert_non_null(mod = lys_parse_mem(ctx, "module d {namespace urn:d;prefix d;leaf l {type string {" |
| "pattern '^\\p{IsLatinExtended-A}$';}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_non_null(((struct lysc_type_str*)type)->patterns); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_str*)type)->patterns)); |
| assert_string_equal("^\\p{IsLatinExtended-A}$", ((struct lysc_type_str*)type)->patterns[0]->expr); |
| /* TODO check some data "^Å™$" */ |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_type_enum(void **state) |
| { |
| *state = test_type_enum; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_type *type; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {yang-version 1.1; namespace urn:a;prefix a;feature f; leaf l {type enumeration {" |
| "enum automin; enum min {value -2147483648;}enum one {if-feature f; value 1;}" |
| "enum two; enum seven {value 7;}enum eight;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_ENUM, type->basetype); |
| assert_non_null(((struct lysc_type_enum*)type)->enums); |
| assert_int_equal(6, LY_ARRAY_SIZE(((struct lysc_type_enum*)type)->enums)); |
| assert_non_null(((struct lysc_type_enum*)type)->enums[2].iffeatures); |
| assert_string_equal("automin", ((struct lysc_type_enum*)type)->enums[0].name); |
| assert_int_equal(0, ((struct lysc_type_enum*)type)->enums[0].value); |
| assert_string_equal("min", ((struct lysc_type_enum*)type)->enums[1].name); |
| assert_int_equal(-2147483648, ((struct lysc_type_enum*)type)->enums[1].value); |
| assert_string_equal("one", ((struct lysc_type_enum*)type)->enums[2].name); |
| assert_int_equal(1, ((struct lysc_type_enum*)type)->enums[2].value); |
| assert_string_equal("two", ((struct lysc_type_enum*)type)->enums[3].name); |
| assert_int_equal(2, ((struct lysc_type_enum*)type)->enums[3].value); |
| assert_string_equal("seven", ((struct lysc_type_enum*)type)->enums[4].name); |
| assert_int_equal(7, ((struct lysc_type_enum*)type)->enums[4].value); |
| assert_string_equal("eight", ((struct lysc_type_enum*)type)->enums[5].name); |
| assert_int_equal(8, ((struct lysc_type_enum*)type)->enums[5].value); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {yang-version 1.1; namespace urn:b;prefix b;feature f; typedef mytype {type enumeration {" |
| "enum 11; enum min {value -2147483648;}enum x$&;" |
| "enum two; enum seven {value 7;}enum eight;}} leaf l { type mytype {enum seven;enum eight;}}}", |
| LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_ENUM, type->basetype); |
| assert_non_null(((struct lysc_type_enum*)type)->enums); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_enum*)type)->enums)); |
| assert_string_equal("seven", ((struct lysc_type_enum*)type)->enums[0].name); |
| assert_int_equal(7, ((struct lysc_type_enum*)type)->enums[0].value); |
| assert_string_equal("eight", ((struct lysc_type_enum*)type)->enums[1].name); |
| assert_int_equal(8, ((struct lysc_type_enum*)type)->enums[1].value); |
| |
| |
| /* invalid cases */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; feature f; leaf l {type enumeration {" |
| "enum one {if-feature f;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid keyword \"if-feature\" as a child of \"enum\" - the statement is allowed only in YANG 1.1 modules. Line number 1."); |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type enumeration {" |
| "enum one {value -2147483649;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid value \"-2147483649\" of \"value\". Line number 1."); |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type enumeration {" |
| "enum one {value 2147483648;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid value \"2147483648\" of \"value\". Line number 1."); |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type enumeration {" |
| "enum one; enum one;}}}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"one\" of enum statement. Line number 1."); |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type enumeration {" |
| "enum '';}}}", LYS_IN_YANG)); |
| logbuf_assert("Enum name must not be zero-length. Line number 1."); |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type enumeration {" |
| "enum ' x';}}}", LYS_IN_YANG)); |
| logbuf_assert("Enum name must not have any leading or trailing whitespaces (\" x\"). Line number 1."); |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type enumeration {" |
| "enum 'x ';}}}", LYS_IN_YANG)); |
| logbuf_assert("Enum name must not have any leading or trailing whitespaces (\"x \"). Line number 1."); |
| assert_non_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type enumeration {" |
| "enum 'inva\nlid';}}}", LYS_IN_YANG)); |
| logbuf_assert("Control characters in enum name should be avoided (\"inva\nlid\", character number 5)."); |
| |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb; leaf l {type enumeration;}}", LYS_IN_YANG)); |
| logbuf_assert("Missing enum substatement for enumeration type."); |
| |
| assert_null(lys_parse_mem(ctx, "module cc {yang-version 1.1;namespace urn:cc;prefix cc;typedef mytype {type enumeration {enum one;}}" |
| "leaf l {type mytype {enum two;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid enumeration - derived type adds new item \"two\"."); |
| |
| assert_null(lys_parse_mem(ctx, "module dd {yang-version 1.1;namespace urn:dd;prefix dd;typedef mytype {type enumeration {enum one;}}" |
| "leaf l {type mytype {enum one {value 1;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid enumeration - value of the item \"one\" has changed from 0 to 1 in the derived type."); |
| assert_null(lys_parse_mem(ctx, "module ee {namespace urn:ee;prefix ee;leaf l {type enumeration {enum x {value 2147483647;}enum y;}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid enumeration - it is not possible to auto-assign enum value for \"y\" since the highest value is already 2147483647."); |
| |
| assert_null(lys_parse_mem(ctx, "module ff {namespace urn:ff;prefix ff;leaf l {type enumeration {enum x {value 1;}enum y {value 1;}}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid enumeration - value 1 collide in items \"y\" and \"x\"."); |
| |
| assert_null(lys_parse_mem(ctx, "module gg {namespace urn:gg;prefix gg;typedef mytype {type enumeration;}" |
| "leaf l {type mytype {enum one;}}}", LYS_IN_YANG)); |
| logbuf_assert("Missing enum substatement for enumeration type mytype."); |
| |
| assert_null(lys_parse_mem(ctx, "module hh {namespace urn:hh;prefix hh; typedef mytype {type enumeration {enum one;}}" |
| "leaf l {type mytype {enum one;}}}", LYS_IN_YANG)); |
| logbuf_assert("Enumeration type can be subtyped only in YANG 1.1 modules."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_type_bits(void **state) |
| { |
| *state = test_type_bits; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_type *type; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {yang-version 1.1; namespace urn:a;prefix a;feature f; leaf l {type bits {" |
| "bit automin; bit one {if-feature f; position 1;}" |
| "bit two; bit seven {position 7;}bit eight;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_BITS, type->basetype); |
| assert_non_null(((struct lysc_type_bits*)type)->bits); |
| assert_int_equal(5, LY_ARRAY_SIZE(((struct lysc_type_bits*)type)->bits)); |
| assert_non_null(((struct lysc_type_bits*)type)->bits[1].iffeatures); |
| assert_string_equal("automin", ((struct lysc_type_bits*)type)->bits[0].name); |
| assert_int_equal(0, ((struct lysc_type_bits*)type)->bits[0].position); |
| assert_string_equal("one", ((struct lysc_type_bits*)type)->bits[1].name); |
| assert_int_equal(1, ((struct lysc_type_bits*)type)->bits[1].position); |
| assert_string_equal("two", ((struct lysc_type_bits*)type)->bits[2].name); |
| assert_int_equal(2, ((struct lysc_type_bits*)type)->bits[2].position); |
| assert_string_equal("seven", ((struct lysc_type_bits*)type)->bits[3].name); |
| assert_int_equal(7, ((struct lysc_type_bits*)type)->bits[3].position); |
| assert_string_equal("eight", ((struct lysc_type_bits*)type)->bits[4].name); |
| assert_int_equal(8, ((struct lysc_type_bits*)type)->bits[4].position); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {yang-version 1.1;namespace urn:b;prefix b;feature f; typedef mytype {type bits {" |
| "bit automin; bit one;bit two; bit seven {value 7;}bit eight;}} leaf l { type mytype {bit eight;bit seven;bit automin;}}}", |
| LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_BITS, type->basetype); |
| assert_non_null(((struct lysc_type_bits*)type)->bits); |
| assert_int_equal(3, LY_ARRAY_SIZE(((struct lysc_type_bits*)type)->bits)); |
| assert_string_equal("automin", ((struct lysc_type_bits*)type)->bits[0].name); |
| assert_int_equal(0, ((struct lysc_type_bits*)type)->bits[0].position); |
| assert_string_equal("seven", ((struct lysc_type_bits*)type)->bits[1].name); |
| assert_int_equal(7, ((struct lysc_type_bits*)type)->bits[1].position); |
| assert_string_equal("eight", ((struct lysc_type_bits*)type)->bits[2].name); |
| assert_int_equal(8, ((struct lysc_type_bits*)type)->bits[2].position); |
| |
| |
| /* invalid cases */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; feature f; leaf l {type bits {" |
| "bit one {if-feature f;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid keyword \"if-feature\" as a child of \"bit\" - the statement is allowed only in YANG 1.1 modules. Line number 1."); |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type bits {" |
| "bit one {position -1;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid value \"-1\" of \"position\". Line number 1."); |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type bits {" |
| "bit one {value 4294967296;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid value \"4294967296\" of \"value\". Line number 1."); |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type bits {" |
| "bit one; bit one;}}}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"one\" of bit statement. Line number 1."); |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type bits {" |
| "bit '11';}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid identifier first character '1'. Line number 1."); |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type bits {" |
| "bit 'x1$1';}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid identifier character '$'. Line number 1."); |
| |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb; leaf l {type bits;}}", LYS_IN_YANG)); |
| logbuf_assert("Missing bit substatement for bits type."); |
| |
| assert_null(lys_parse_mem(ctx, "module cc {yang-version 1.1;namespace urn:cc;prefix cc;typedef mytype {type bits {bit one;}}" |
| "leaf l {type mytype {bit two;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid bits - derived type adds new item \"two\"."); |
| |
| assert_null(lys_parse_mem(ctx, "module dd {yang-version 1.1;namespace urn:dd;prefix dd;typedef mytype {type bits {bit one;}}" |
| "leaf l {type mytype {bit one {position 1;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid bits - position of the item \"one\" has changed from 0 to 1 in the derived type."); |
| assert_null(lys_parse_mem(ctx, "module ee {namespace urn:ee;prefix ee;leaf l {type bits {bit x {position 4294967295;}bit y;}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid bits - it is not possible to auto-assign bit position for \"y\" since the highest value is already 4294967295."); |
| |
| assert_null(lys_parse_mem(ctx, "module ff {namespace urn:ff;prefix ff;leaf l {type bits {bit x {value 1;}bit y {value 1;}}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid bits - position 1 collide in items \"y\" and \"x\"."); |
| |
| assert_null(lys_parse_mem(ctx, "module gg {namespace urn:gg;prefix gg;typedef mytype {type bits;}" |
| "leaf l {type mytype {bit one;}}}", LYS_IN_YANG)); |
| logbuf_assert("Missing bit substatement for bits type mytype."); |
| |
| assert_null(lys_parse_mem(ctx, "module hh {namespace urn:hh;prefix hh; typedef mytype {type bits {bit one;}}" |
| "leaf l {type mytype {bit one;}}}", LYS_IN_YANG)); |
| logbuf_assert("Bits type can be subtyped only in YANG 1.1 modules."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_type_dec64(void **state) |
| { |
| *state = test_type_dec64; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_type *type; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {namespace urn:a;prefix a;leaf l {type decimal64 {" |
| "fraction-digits 2;range min..max;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_DEC64, type->basetype); |
| assert_int_equal(2, ((struct lysc_type_dec*)type)->fraction_digits); |
| assert_non_null(((struct lysc_type_dec*)type)->range); |
| assert_non_null(((struct lysc_type_dec*)type)->range->parts); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_dec*)type)->range->parts)); |
| assert_int_equal(INT64_C(-9223372036854775807) - INT64_C(1), ((struct lysc_type_dec*)type)->range->parts[0].min_64); |
| assert_int_equal(INT64_C(9223372036854775807), ((struct lysc_type_dec*)type)->range->parts[0].max_64); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {namespace urn:b;prefix b;typedef mytype {type decimal64 {" |
| "fraction-digits 2;range '3.14 | 5.1 | 10';}}leaf l {type mytype;}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_DEC64, type->basetype); |
| assert_int_equal(2, ((struct lysc_type_dec*)type)->fraction_digits); |
| assert_non_null(((struct lysc_type_dec*)type)->range); |
| assert_non_null(((struct lysc_type_dec*)type)->range->parts); |
| assert_int_equal(3, LY_ARRAY_SIZE(((struct lysc_type_dec*)type)->range->parts)); |
| assert_int_equal(314, ((struct lysc_type_dec*)type)->range->parts[0].min_64); |
| assert_int_equal(314, ((struct lysc_type_dec*)type)->range->parts[0].max_64); |
| assert_int_equal(510, ((struct lysc_type_dec*)type)->range->parts[1].min_64); |
| assert_int_equal(510, ((struct lysc_type_dec*)type)->range->parts[1].max_64); |
| assert_int_equal(1000, ((struct lysc_type_dec*)type)->range->parts[2].min_64); |
| assert_int_equal(1000, ((struct lysc_type_dec*)type)->range->parts[2].max_64); |
| |
| /* invalid cases */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type decimal64 {fraction-digits 0;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid value \"0\" of \"fraction-digits\". Line number 1."); |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type decimal64 {fraction-digits -1;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid value \"-1\" of \"fraction-digits\". Line number 1."); |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type decimal64 {fraction-digits 19;}}}", LYS_IN_YANG)); |
| logbuf_assert("Value \"19\" is out of \"fraction-digits\" bounds. Line number 1."); |
| |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type decimal64;}}", LYS_IN_YANG)); |
| logbuf_assert("Missing fraction-digits substatement for decimal64 type."); |
| |
| assert_null(lys_parse_mem(ctx, "module ab {namespace urn:ab;prefix ab; typedef mytype {type decimal64;}leaf l {type mytype;}}", LYS_IN_YANG)); |
| logbuf_assert("Missing fraction-digits substatement for decimal64 type mytype."); |
| |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb; leaf l {type decimal64 {fraction-digits 2;" |
| "range '3.142';}}}", LYS_IN_YANG)); |
| logbuf_assert("Range boundary \"3.142\" of decimal64 type exceeds defined number (2) of fraction digits."); |
| |
| assert_null(lys_parse_mem(ctx, "module cc {namespace urn:cc;prefix cc; leaf l {type decimal64 {fraction-digits 2;" |
| "range '4 | 3.14';}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid range restriction - values are not in ascending order (3.14)."); |
| |
| assert_null(lys_parse_mem(ctx, "module dd {namespace urn:dd;prefix dd; typedef mytype {type decimal64 {fraction-digits 2;}}" |
| "leaf l {type mytype {fraction-digits 3;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid fraction-digits substatement for type not directly derived from decimal64 built-in type."); |
| |
| assert_null(lys_parse_mem(ctx, "module de {namespace urn:de;prefix de; typedef mytype {type decimal64 {fraction-digits 2;}}" |
| "typedef mytype2 {type mytype {fraction-digits 3;}}leaf l {type mytype2;}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid fraction-digits substatement for type \"mytype2\" not directly derived from decimal64 built-in type."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_type_instanceid(void **state) |
| { |
| *state = test_type_instanceid; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_type *type; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {namespace urn:a;prefix a;typedef mytype {type instance-identifier {require-instance false;}}" |
| "leaf l1 {type instance-identifier {require-instance true;}}" |
| "leaf l2 {type mytype;} leaf l3 {type instance-identifier;}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_INST, type->basetype); |
| assert_int_equal(1, ((struct lysc_type_instanceid*)type)->require_instance); |
| |
| type = ((struct lysc_node_leaf*)mod->compiled->data->next)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_INST, type->basetype); |
| assert_int_equal(0, ((struct lysc_type_instanceid*)type)->require_instance); |
| |
| type = ((struct lysc_node_leaf*)mod->compiled->data->next->next)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_INST, type->basetype); |
| assert_int_equal(1, ((struct lysc_type_instanceid*)type)->require_instance); |
| |
| /* invalid cases */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type instance-identifier {require-instance yes;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid value \"yes\" of \"require-instance\". Line number 1."); |
| |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type instance-identifier {fraction-digits 1;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid type restrictions for instance-identifier type."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_type_identityref(void **state) |
| { |
| *state = test_type_identityref; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_type *type; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {yang-version 1.1;namespace urn:a;prefix a;identity i; identity j; identity k {base i;}" |
| "typedef mytype {type identityref {base i;}}" |
| "leaf l1 {type mytype;} leaf l2 {type identityref {base a:k; base j;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_IDENT, type->basetype); |
| assert_non_null(((struct lysc_type_identityref*)type)->bases); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_type_identityref*)type)->bases)); |
| assert_string_equal("i", ((struct lysc_type_identityref*)type)->bases[0]->name); |
| |
| type = ((struct lysc_node_leaf*)mod->compiled->data->next)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_IDENT, type->basetype); |
| assert_non_null(((struct lysc_type_identityref*)type)->bases); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_identityref*)type)->bases)); |
| assert_string_equal("k", ((struct lysc_type_identityref*)type)->bases[0]->name); |
| assert_string_equal("j", ((struct lysc_type_identityref*)type)->bases[1]->name); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {yang-version 1.1;namespace urn:b;prefix b;import a {prefix a;}" |
| "leaf l {type identityref {base a:k; base a:j;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_IDENT, type->basetype); |
| assert_non_null(((struct lysc_type_identityref*)type)->bases); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_identityref*)type)->bases)); |
| assert_string_equal("k", ((struct lysc_type_identityref*)type)->bases[0]->name); |
| assert_string_equal("j", ((struct lysc_type_identityref*)type)->bases[1]->name); |
| |
| /* invalid cases */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; leaf l {type identityref;}}", LYS_IN_YANG)); |
| logbuf_assert("Missing base substatement for identityref type."); |
| |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb; typedef mytype {type identityref;}" |
| "leaf l {type mytype;}}", LYS_IN_YANG)); |
| logbuf_assert("Missing base substatement for identityref type mytype."); |
| |
| assert_null(lys_parse_mem(ctx, "module cc {namespace urn:cc;prefix cc; identity i; typedef mytype {type identityref {base i;}}" |
| "leaf l {type mytype {base i;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid base substatement for the type not directly derived from identityref built-in type."); |
| |
| assert_null(lys_parse_mem(ctx, "module dd {namespace urn:dd;prefix dd; identity i; typedef mytype {type identityref {base i;}}" |
| "typedef mytype2 {type mytype {base i;}}leaf l {type mytype2;}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid base substatement for the type \"mytype2\" not directly derived from identityref built-in type."); |
| |
| assert_null(lys_parse_mem(ctx, "module ee {namespace urn:ee;prefix ee; identity i; identity j;" |
| "leaf l {type identityref {base i;base j;}}}", LYS_IN_YANG)); |
| logbuf_assert("Multiple bases in identityref type are allowed only in YANG 1.1 modules."); |
| |
| assert_null(lys_parse_mem(ctx, "module ff {namespace urn:ff;prefix ff; identity i;leaf l {type identityref {base j;}}}", LYS_IN_YANG)); |
| logbuf_assert("Unable to find base (j) of identityref."); |
| |
| assert_null(lys_parse_mem(ctx, "module gg {namespace urn:gg;prefix gg;leaf l {type identityref {base x:j;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid prefix used for base (x:j) of identityref."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_type_leafref(void **state) |
| { |
| *state = test_type_leafref; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_type *type; |
| const char *path, *name, *prefix; |
| size_t prefix_len, name_len; |
| int parent_times, has_predicate; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| /* lys_path_token() */ |
| path = "invalid_path"; |
| parent_times = 0; |
| assert_int_equal(LY_EINVAL, lys_path_token(&path, &prefix, &prefix_len, &name, &name_len, &parent_times, &has_predicate)); |
| path = ".."; |
| parent_times = 0; |
| assert_int_equal(LY_EINVAL, lys_path_token(&path, &prefix, &prefix_len, &name, &name_len, &parent_times, &has_predicate)); |
| path = "..["; |
| parent_times = 0; |
| assert_int_equal(LY_EINVAL, lys_path_token(&path, &prefix, &prefix_len, &name, &name_len, &parent_times, &has_predicate)); |
| path = "../"; |
| parent_times = 0; |
| assert_int_equal(LY_EINVAL, lys_path_token(&path, &prefix, &prefix_len, &name, &name_len, &parent_times, &has_predicate)); |
| path = "/"; |
| parent_times = 0; |
| assert_int_equal(LY_EINVAL, lys_path_token(&path, &prefix, &prefix_len, &name, &name_len, &parent_times, &has_predicate)); |
| |
| path = "../../pref:id/xxx[predicate]/invalid!!!"; |
| parent_times = 0; |
| assert_int_equal(LY_SUCCESS, lys_path_token(&path, &prefix, &prefix_len, &name, &name_len, &parent_times, &has_predicate)); |
| assert_string_equal("/xxx[predicate]/invalid!!!", path); |
| assert_int_equal(4, prefix_len); |
| assert_int_equal(0, strncmp("pref", prefix, prefix_len)); |
| assert_int_equal(2, name_len); |
| assert_int_equal(0, strncmp("id", name, name_len)); |
| assert_int_equal(2, parent_times); |
| assert_int_equal(0, has_predicate); |
| assert_int_equal(LY_SUCCESS, lys_path_token(&path, &prefix, &prefix_len, &name, &name_len, &parent_times, &has_predicate)); |
| assert_string_equal("[predicate]/invalid!!!", path); |
| assert_int_equal(0, prefix_len); |
| assert_null(prefix); |
| assert_int_equal(3, name_len); |
| assert_int_equal(0, strncmp("xxx", name, name_len)); |
| assert_int_equal(1, has_predicate); |
| path += 11; |
| assert_int_equal(LY_EINVAL, lys_path_token(&path, &prefix, &prefix_len, &name, &name_len, &parent_times, &has_predicate)); |
| assert_string_equal("!!!", path); |
| assert_int_equal(0, prefix_len); |
| assert_null(prefix); |
| assert_int_equal(7, name_len); |
| assert_int_equal(0, strncmp("invalid", name, name_len)); |
| |
| path = "/absolute/prefix:path"; |
| parent_times = 0; |
| assert_int_equal(LY_SUCCESS, lys_path_token(&path, &prefix, &prefix_len, &name, &name_len, &parent_times, &has_predicate)); |
| assert_string_equal("/prefix:path", path); |
| assert_int_equal(0, prefix_len); |
| assert_null(prefix); |
| assert_int_equal(8, name_len); |
| assert_int_equal(0, strncmp("absolute", name, name_len)); |
| assert_int_equal(-1, parent_times); |
| assert_int_equal(0, has_predicate); |
| assert_int_equal(LY_SUCCESS, lys_path_token(&path, &prefix, &prefix_len, &name, &name_len, &parent_times, &has_predicate)); |
| assert_int_equal(0, *path); |
| assert_int_equal(6, prefix_len); |
| assert_int_equal(0, strncmp("prefix", prefix, prefix_len)); |
| assert_int_equal(4, name_len); |
| assert_int_equal(0, strncmp("path", name, name_len)); |
| assert_int_equal(0, has_predicate); |
| |
| /* complete leafref paths */ |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {yang-version 1.1;namespace urn:a;prefix a;" |
| "leaf ref1 {type leafref {path /a:target1;}} leaf ref2 {type leafref {path /a/target2; require-instance false;}}" |
| "leaf target1 {type string;}container a {leaf target2 {type uint8;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_LEAFREF, type->basetype); |
| assert_string_equal("/a:target1", ((struct lysc_type_leafref*)type)->path); |
| assert_ptr_equal(mod, ((struct lysc_type_leafref*)type)->path_context); |
| assert_non_null(((struct lysc_type_leafref*)type)->realtype); |
| assert_int_equal(LY_TYPE_STRING, ((struct lysc_type_leafref*)type)->realtype->basetype); |
| assert_int_equal(1, ((struct lysc_type_leafref*)type)->require_instance); |
| type = ((struct lysc_node_leaf*)mod->compiled->data->next)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_LEAFREF, type->basetype); |
| assert_string_equal("/a/target2", ((struct lysc_type_leafref*)type)->path); |
| assert_ptr_equal(mod, ((struct lysc_type_leafref*)type)->path_context); |
| assert_non_null(((struct lysc_type_leafref*)type)->realtype); |
| assert_int_equal(LY_TYPE_UINT8, ((struct lysc_type_leafref*)type)->realtype->basetype); |
| assert_int_equal(0, ((struct lysc_type_leafref*)type)->require_instance); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {namespace urn:b;prefix b; typedef mytype {type leafref {path /b:target;}}" |
| "typedef mytype2 {type mytype;} typedef mytype3 {type leafref {path /target;}} leaf ref {type mytype2;}" |
| "leaf target {type leafref {path ../realtarget;}} leaf realtarget {type string;}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(1, type->refcount); |
| assert_int_equal(LY_TYPE_LEAFREF, type->basetype); |
| assert_string_equal("/b:target", ((struct lysc_type_leafref* )type)->path); |
| assert_ptr_equal(mod, ((struct lysc_type_leafref*)type)->path_context); |
| assert_non_null(((struct lysc_type_leafref*)type)->realtype); |
| assert_int_equal(LY_TYPE_STRING, ((struct lysc_type_leafref*)type)->realtype->basetype); |
| assert_int_equal(1, ((struct lysc_type_leafref* )type)->require_instance); |
| |
| /* prefixes are reversed to check using correct context of the path! */ |
| assert_non_null(mod = lys_parse_mem(ctx, "module c {yang-version 1.1;namespace urn:c;prefix b; import b {prefix c;}" |
| "typedef mytype3 {type c:mytype {require-instance false;}}" |
| "leaf ref1 {type b:mytype3;}leaf ref2 {type c:mytype2;}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(1, type->refcount); |
| assert_int_equal(LY_TYPE_LEAFREF, type->basetype); |
| assert_string_equal("/b:target", ((struct lysc_type_leafref* )type)->path); |
| assert_ptr_not_equal(mod, ((struct lysc_type_leafref*)type)->path_context); |
| assert_non_null(((struct lysc_type_leafref*)type)->realtype); |
| assert_int_equal(LY_TYPE_STRING, ((struct lysc_type_leafref*)type)->realtype->basetype); |
| assert_int_equal(0, ((struct lysc_type_leafref* )type)->require_instance); |
| type = ((struct lysc_node_leaf*)mod->compiled->data->next)->type; |
| assert_non_null(type); |
| assert_int_equal(1, type->refcount); |
| assert_int_equal(LY_TYPE_LEAFREF, type->basetype); |
| assert_string_equal("/b:target", ((struct lysc_type_leafref* )type)->path); |
| assert_ptr_not_equal(mod, ((struct lysc_type_leafref*)type)->path_context); |
| assert_int_equal(1, ((struct lysc_type_leafref* )type)->require_instance); |
| |
| /* non-prefixed nodes in path are supposed to be from the module where the leafref type is instantiated */ |
| assert_non_null(mod = lys_parse_mem(ctx, "module d {namespace urn:d;prefix d; import b {prefix b;}" |
| "leaf ref {type b:mytype3;}leaf target {type int8;}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(1, type->refcount); |
| assert_int_equal(LY_TYPE_LEAFREF, type->basetype); |
| assert_string_equal("/target", ((struct lysc_type_leafref* )type)->path); |
| assert_ptr_not_equal(mod, ((struct lysc_type_leafref*)type)->path_context); |
| assert_non_null(((struct lysc_type_leafref*)type)->realtype); |
| assert_int_equal(LY_TYPE_INT8, ((struct lysc_type_leafref*)type)->realtype->basetype); |
| assert_int_equal(1, ((struct lysc_type_leafref* )type)->require_instance); |
| |
| /* conditional leafrefs */ |
| assert_non_null(mod = lys_parse_mem(ctx, "module e {yang-version 1.1;namespace urn:e;prefix e;feature f1; feature f2;" |
| "leaf ref1 {if-feature 'f1 and f2';type leafref {path /target;}}" |
| "leaf target {if-feature f1; type boolean;}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(1, type->refcount); |
| assert_int_equal(LY_TYPE_LEAFREF, type->basetype); |
| assert_string_equal("/target", ((struct lysc_type_leafref* )type)->path); |
| assert_ptr_equal(mod, ((struct lysc_type_leafref*)type)->path_context); |
| assert_non_null(((struct lysc_type_leafref*)type)->realtype); |
| assert_int_equal(LY_TYPE_BOOL, ((struct lysc_type_leafref*)type)->realtype->basetype); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module f {namespace urn:f;prefix f;" |
| "list interface{key name;leaf name{type string;}list address {key ip;leaf ip {type string;}}}" |
| "container default-address{leaf ifname{type leafref{ path \"../../interface/name\";}}" |
| "leaf address {type leafref{ path \"../../interface[ name = current()/../ifname ]/address/ip\";}}}}", |
| LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)(*lysc_node_children_p(mod->compiled->data->prev, 0))->prev)->type; |
| assert_non_null(type); |
| assert_int_equal(1, type->refcount); |
| assert_int_equal(LY_TYPE_LEAFREF, type->basetype); |
| assert_string_equal("../../interface[ name = current()/../ifname ]/address/ip", ((struct lysc_type_leafref* )type)->path); |
| assert_ptr_equal(mod, ((struct lysc_type_leafref*)type)->path_context); |
| assert_non_null(((struct lysc_type_leafref*)type)->realtype); |
| assert_int_equal(LY_TYPE_STRING, ((struct lysc_type_leafref*)type)->realtype->basetype); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module g {namespace urn:g;prefix g;" |
| "leaf source {type leafref {path \"/endpoint-parent[id=current()/../field]/endpoint/name\";}}" |
| "leaf field {type int32;}list endpoint-parent {key id;leaf id {type int32;}" |
| "list endpoint {key name;leaf name {type string;}}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(1, type->refcount); |
| assert_int_equal(LY_TYPE_LEAFREF, type->basetype); |
| assert_string_equal("/endpoint-parent[id=current()/../field]/endpoint/name", ((struct lysc_type_leafref* )type)->path); |
| assert_ptr_equal(mod, ((struct lysc_type_leafref*)type)->path_context); |
| assert_non_null(((struct lysc_type_leafref*)type)->realtype); |
| assert_int_equal(LY_TYPE_STRING, ((struct lysc_type_leafref*)type)->realtype->basetype); |
| |
| /* leafref to imported (not yet implemented) module */ |
| ly_ctx_set_module_imp_clb(ctx, test_imp_clb, "module h {namespace urn:h;prefix h; leaf h {type uint16;}}"); |
| assert_non_null(mod = lys_parse_mem(ctx, "module i {namespace urn:i;prefix i;import h {prefix h;}" |
| "leaf i {type leafref {path /h:h;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_LEAFREF, type->basetype); |
| assert_non_null(((struct lysc_type_leafref*)type)->realtype); |
| assert_int_equal(LY_TYPE_UINT16, ((struct lysc_type_leafref*)type)->realtype->basetype); |
| assert_non_null(mod = ly_ctx_get_module_implemented(ctx, "h")); |
| assert_int_equal(1, mod->implemented); |
| assert_non_null(mod->compiled->data); |
| assert_string_equal("h", mod->compiled->data->name); |
| |
| ly_ctx_set_module_imp_clb(ctx, test_imp_clb, "module j {namespace urn:j;prefix j; leaf j {type string;}}"); |
| assert_non_null(mod = lys_parse_mem(ctx, "module k {namespace urn:k;prefix k;import j {prefix j;}" |
| "leaf i {type leafref {path \"/ilist[name = current()/../j:j]/value\";}}" |
| "list ilist {key name; leaf name {type string;} leaf value {type uint16;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_LEAFREF, type->basetype); |
| assert_non_null(((struct lysc_type_leafref*)type)->realtype); |
| assert_int_equal(LY_TYPE_UINT16, ((struct lysc_type_leafref*)type)->realtype->basetype); |
| assert_non_null(mod = ly_ctx_get_module_implemented(ctx, "j")); |
| assert_int_equal(1, mod->implemented); |
| assert_non_null(mod->compiled->data); |
| assert_string_equal("j", mod->compiled->data->name); |
| |
| /* invalid paths */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa;container a {leaf target2 {type uint8;}}" |
| "leaf ref1 {type leafref {path ../a/invalid;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path - unable to find \"../a/invalid\"."); |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb;container a {leaf target2 {type uint8;}}" |
| "leaf ref1 {type leafref {path ../../toohigh;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path \"../../toohigh\" - too many \"..\" in the path."); |
| assert_null(lys_parse_mem(ctx, "module cc {namespace urn:cc;prefix cc;container a {leaf target2 {type uint8;}}" |
| "leaf ref1 {type leafref {path /a:invalid;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path - unable to find module connected with the prefix of the node \"/a:invalid\"."); |
| assert_null(lys_parse_mem(ctx, "module dd {namespace urn:dd;prefix dd;leaf target1 {type string;}container a {leaf target2 {type uint8;}}" |
| "leaf ref1 {type leafref {path '/a[target2 = current()/../target1]/target2';}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path - node \"/a\" is expected to be a list, but it is container."); |
| assert_null(lys_parse_mem(ctx, "module ee {namespace urn:ee;prefix ee;container a {leaf target2 {type uint8;}}" |
| "leaf ref1 {type leafref {path /a!invalid;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path at character 3 (/a!invalid)."); |
| assert_null(lys_parse_mem(ctx, "module ff {namespace urn:ff;prefix ff;container a {leaf target2 {type uint8;}}" |
| "leaf ref1 {type leafref {path /a;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path \"/a\" - target node is container instead of leaf or leaf-list."); |
| assert_null(lys_parse_mem(ctx, "module gg {namespace urn:gg;prefix gg;container a {leaf target2 {type uint8; status deprecated;}}" |
| "leaf ref1 {type leafref {path /a/target2;}}}", LYS_IN_YANG)); |
| logbuf_assert("A current definition \"ref1\" is not allowed to reference deprecated definition \"target2\"."); |
| assert_null(lys_parse_mem(ctx, "module hh {namespace urn:hh;prefix hh;" |
| "leaf ref1 {type leafref;}}", LYS_IN_YANG)); |
| logbuf_assert("Missing path substatement for leafref type."); |
| assert_null(lys_parse_mem(ctx, "module ii {namespace urn:ii;prefix ii;typedef mytype {type leafref;}" |
| "leaf ref1 {type mytype;}}", LYS_IN_YANG)); |
| logbuf_assert("Missing path substatement for leafref type mytype."); |
| assert_null(lys_parse_mem(ctx, "module jj {namespace urn:jj;prefix jj;feature f;" |
| "leaf ref {type leafref {path /target;}}leaf target {if-feature f;type string;}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path \"/target\" - set of features applicable to the leafref target is not a subset of features " |
| "applicable to the leafref itself."); |
| assert_null(lys_parse_mem(ctx, "module kk {namespace urn:kk;prefix kk;" |
| "leaf ref {type leafref {path /target;}}leaf target {type string;config false;}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path \"/target\" - target is supposed to represent configuration data (as the leafref does), but it does not."); |
| |
| assert_null(lys_parse_mem(ctx, "module ll {namespace urn:ll;prefix ll;" |
| "leaf ref {type leafref {path /target; require-instance true;}}leaf target {type string;}}", LYS_IN_YANG)); |
| logbuf_assert("Leafref type can be restricted by require-instance statement only in YANG 1.1 modules."); |
| assert_null(lys_parse_mem(ctx, "module mm {namespace urn:mm;prefix mm;typedef mytype {type leafref {path /target;require-instance false;}}" |
| "leaf ref {type mytype;}leaf target {type string;}}", LYS_IN_YANG)); |
| logbuf_assert("Leafref type \"mytype\" can be restricted by require-instance statement only in YANG 1.1 modules."); |
| |
| assert_null(lys_parse_mem(ctx, "module nn {namespace urn:nn;prefix nn;" |
| "list interface{key name;leaf name{type string;}leaf ip {type string;}}" |
| "leaf ifname{type leafref{ path \"../interface/name\";}}" |
| "leaf address {type leafref{ path \"/interface[name is current()/../ifname]/ip\";}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path predicate \"[name i\" - missing \"=\" after node-identifier."); |
| |
| assert_null(lys_parse_mem(ctx, "module oo {namespace urn:oo;prefix oo;" |
| "list interface{key name;leaf name{type string;}leaf ip {type string;}}" |
| "leaf ifname{type leafref{ path \"../interface/name\";}}" |
| "leaf address {type leafref{ path \"/interface[name=current()/../ifname/ip\";}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path predicate \"[name=current()/../ifname/ip\" - missing predicate termination."); |
| |
| assert_null(lys_parse_mem(ctx, "module pp {namespace urn:pp;prefix pp;" |
| "list interface{key name;leaf name{type string;}leaf ip {type string;}}" |
| "leaf ifname{type leafref{ path \"../interface/name\";}}" |
| "leaf address {type leafref{ path \"/interface[x:name=current()/../ifname]/ip\";}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path predicate \"[x:name=current()/../ifname]\" - prefix \"x\" not defined in module \"pp\"."); |
| |
| assert_null(lys_parse_mem(ctx, "module qq {namespace urn:qq;prefix qq;" |
| "list interface{key name;leaf name{type string;}leaf ip {type string;}}" |
| "leaf ifname{type leafref{ path \"../interface/name\";}}" |
| "leaf address {type leafref{ path \"/interface[id=current()/../ifname]/ip\";}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path predicate \"[id=current()/../ifname]\" - predicate's key node \"id\" not found."); |
| |
| assert_null(lys_parse_mem(ctx, "module rr {namespace urn:rr;prefix rr;" |
| "list interface{key name;leaf name{type string;}leaf ip {type string;}}" |
| "leaf ifname{type leafref{ path \"../interface/name\";}}leaf test{type string;}" |
| "leaf address {type leafref{ path \"/interface[name=current() / .. / ifname][name=current()/../test]/ip\";}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path predicate \"[name=current()/../test]\" - multiple equality tests for the key \"name\"."); |
| |
| assert_null(lys_parse_mem(ctx, "module ss {namespace urn:ss;prefix ss;" |
| "list interface{key name;leaf name{type string;}leaf ip {type string;}}" |
| "leaf ifname{type leafref{ path \"../interface/name\";}}leaf test{type string;}" |
| "leaf address {type leafref{ path \"/interface[name = ../ifname]/ip\";}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path predicate \"[name = ../ifname]\" - missing current-function-invocation."); |
| |
| assert_null(lys_parse_mem(ctx, "module tt {namespace urn:tt;prefix tt;" |
| "list interface{key name;leaf name{type string;}leaf ip {type string;}}" |
| "leaf ifname{type leafref{ path \"../interface/name\";}}leaf test{type string;}" |
| "leaf address {type leafref{ path \"/interface[name = current()../ifname]/ip\";}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path predicate \"[name = current()../ifname]\" - missing \"/\" after current-function-invocation."); |
| |
| assert_null(lys_parse_mem(ctx, "module uu {namespace urn:uu;prefix uu;" |
| "list interface{key name;leaf name{type string;}leaf ip {type string;}}" |
| "leaf ifname{type leafref{ path \"../interface/name\";}}leaf test{type string;}" |
| "leaf address {type leafref{ path \"/interface[name = current()/..ifname]/ip\";}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path predicate \"[name = current()/..ifname]\" - missing \"/\" in \"../\" rel-path-keyexpr pattern."); |
| |
| assert_null(lys_parse_mem(ctx, "module vv {namespace urn:vv;prefix vv;" |
| "list interface{key name;leaf name{type string;}leaf ip {type string;}}" |
| "leaf ifname{type leafref{ path \"../interface/name\";}}leaf test{type string;}" |
| "leaf address {type leafref{ path \"/interface[name = current()/ifname]/ip\";}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path predicate \"[name = current()/ifname]\" - at least one \"..\" is expected in rel-path-keyexpr."); |
| |
| assert_null(lys_parse_mem(ctx, "module ww {namespace urn:ww;prefix ww;" |
| "list interface{key name;leaf name{type string;}leaf ip {type string;}}" |
| "leaf ifname{type leafref{ path \"../interface/name\";}}leaf test{type string;}" |
| "leaf address {type leafref{ path \"/interface[name = current()/../]/ip\";}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path predicate \"[name = current()/../]\" - at least one node-identifier is expected in rel-path-keyexpr."); |
| |
| assert_null(lys_parse_mem(ctx, "module xx {namespace urn:xx;prefix xx;" |
| "list interface{key name;leaf name{type string;}leaf ip {type string;}}" |
| "leaf ifname{type leafref{ path \"../interface/name\";}}leaf test{type string;}" |
| "leaf address {type leafref{ path \"/interface[name = current()/../$node]/ip\";}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid node identifier in leafref path predicate - character 22 (of [name = current()/../$node])."); |
| |
| assert_null(lys_parse_mem(ctx, "module yy {namespace urn:yy;prefix yy;" |
| "list interface{key name;leaf name{type string;}leaf ip {type string;}}" |
| "leaf ifname{type leafref{ path \"../interface/name\";}}" |
| "leaf address {type leafref{ path \"/interface[name=current()/../x:ifname]/ip\";}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path predicate \"[name=current()/../x:ifname]\" - unable to find module of the node \"ifname\" in rel-path-keyexpr."); |
| |
| assert_null(lys_parse_mem(ctx, "module zz {namespace urn:zz;prefix zz;" |
| "list interface{key name;leaf name{type string;}leaf ip {type string;}}" |
| "leaf ifname{type leafref{ path \"../interface/name\";}}" |
| "leaf address {type leafref{ path \"/interface[name=current()/../xxx]/ip\";}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path predicate \"[name=current()/../xxx]\" - unable to find node \"current()/../xxx\" in the rel-path-keyexpr."); |
| |
| assert_null(lys_parse_mem(ctx, "module zza {namespace urn:zza;prefix zza;" |
| "list interface{key name;leaf name{type string;}leaf ip {type string;}}" |
| "leaf ifname{type leafref{ path \"../interface/name\";}}container c;" |
| "leaf address {type leafref{ path \"/interface[name=current()/../c]/ip\";}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path predicate \"[name=current()/../c]\" - rel-path-keyexpr \"current()/../c\" refers container instead of leaf."); |
| |
| assert_null(lys_parse_mem(ctx, "module zzb {namespace urn:zzb;prefix zzb;" |
| "list interface{key name;leaf name{type string;}leaf ip {type string;}container c;}" |
| "leaf ifname{type leafref{ path \"../interface/name\";}}" |
| "leaf address {type leafref{ path \"/interface[c=current()/../ifname]/ip\";}}}", |
| LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path predicate \"[c=current()/../ifname]\" - predicate's key node \"c\" not found."); |
| |
| /* circular chain */ |
| assert_null(lys_parse_mem(ctx, "module aaa {namespace urn:aaa;prefix aaa;" |
| "leaf ref1 {type leafref {path /ref2;}}" |
| "leaf ref2 {type leafref {path /ref3;}}" |
| "leaf ref3 {type leafref {path /ref4;}}" |
| "leaf ref4 {type leafref {path /ref1;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid leafref path \"/ref1\" - circular chain of leafrefs detected."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_type_empty(void **state) |
| { |
| *state = test_type_empty; |
| |
| struct ly_ctx *ctx; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| /* invalid */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa;" |
| "leaf l {type empty; default x;}}", LYS_IN_YANG)); |
| logbuf_assert("Leaf of type \"empty\" must not have a default value (x)."); |
| |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb;typedef mytype {type empty; default x;}" |
| "leaf l {type mytype;}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid type \"mytype\" - \"empty\" type must not have a default value (x)."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| |
| static void |
| test_type_union(void **state) |
| { |
| *state = test_type_union; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_type *type; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {yang-version 1.1;namespace urn:a;prefix a; typedef mybasetype {type string;}" |
| "typedef mytype {type union {type int8; type mybasetype;}}" |
| "leaf l {type mytype;}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(2, type->refcount); |
| assert_int_equal(LY_TYPE_UNION, type->basetype); |
| assert_non_null(((struct lysc_type_union*)type)->types); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_union*)type)->types)); |
| assert_int_equal(LY_TYPE_INT8, ((struct lysc_type_union*)type)->types[0]->basetype); |
| assert_int_equal(LY_TYPE_STRING, ((struct lysc_type_union*)type)->types[1]->basetype); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {yang-version 1.1;namespace urn:b;prefix b; typedef mybasetype {type string;}" |
| "typedef mytype {type union {type int8; type mybasetype;}}" |
| "leaf l {type union {type decimal64 {fraction-digits 2;} type mytype;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(1, type->refcount); |
| assert_int_equal(LY_TYPE_UNION, type->basetype); |
| assert_non_null(((struct lysc_type_union*)type)->types); |
| assert_int_equal(3, LY_ARRAY_SIZE(((struct lysc_type_union*)type)->types)); |
| assert_int_equal(LY_TYPE_DEC64, ((struct lysc_type_union*)type)->types[0]->basetype); |
| assert_int_equal(LY_TYPE_INT8, ((struct lysc_type_union*)type)->types[1]->basetype); |
| assert_int_equal(LY_TYPE_STRING, ((struct lysc_type_union*)type)->types[2]->basetype); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module c {yang-version 1.1;namespace urn:c;prefix c; typedef mybasetype {type string;}" |
| "typedef mytype {type union {type leafref {path ../target;} type mybasetype;}}" |
| "leaf l {type union {type decimal64 {fraction-digits 2;} type mytype;}}" |
| "leaf target {type leafref {path ../realtarget;}} leaf realtarget {type int8;}}", |
| LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(1, type->refcount); |
| assert_int_equal(LY_TYPE_UNION, type->basetype); |
| assert_non_null(((struct lysc_type_union*)type)->types); |
| assert_int_equal(3, LY_ARRAY_SIZE(((struct lysc_type_union*)type)->types)); |
| assert_int_equal(LY_TYPE_DEC64, ((struct lysc_type_union*)type)->types[0]->basetype); |
| assert_int_equal(LY_TYPE_LEAFREF, ((struct lysc_type_union*)type)->types[1]->basetype); |
| assert_int_equal(LY_TYPE_STRING, ((struct lysc_type_union*)type)->types[2]->basetype); |
| assert_non_null(((struct lysc_type_leafref*)((struct lysc_type_union*)type)->types[1])->realtype); |
| assert_int_equal(LY_TYPE_INT8, ((struct lysc_type_leafref*)((struct lysc_type_union*)type)->types[1])->realtype->basetype); |
| |
| /* invalid unions */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa;typedef mytype {type union;}" |
| "leaf l {type mytype;}}", LYS_IN_YANG)); |
| logbuf_assert("Missing type substatement for union type mytype."); |
| |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb;leaf l {type union;}}", LYS_IN_YANG)); |
| logbuf_assert("Missing type substatement for union type."); |
| |
| assert_null(lys_parse_mem(ctx, "module cc {namespace urn:cc;prefix cc;typedef mytype {type union{type int8; type string;}}" |
| "leaf l {type mytype {type string;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid type substatement for the type not directly derived from union built-in type."); |
| |
| assert_null(lys_parse_mem(ctx, "module dd {namespace urn:dd;prefix dd;typedef mytype {type union{type int8; type string;}}" |
| "typedef mytype2 {type mytype {type string;}}leaf l {type mytype2;}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid type substatement for the type \"mytype2\" not directly derived from union built-in type."); |
| |
| assert_null(lys_parse_mem(ctx, "module ee {namespace urn:ee;prefix ee;typedef mytype {type union{type mytype; type string;}}" |
| "leaf l {type mytype;}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid \"mytype\" type reference - circular chain of types detected."); |
| assert_null(lys_parse_mem(ctx, "module ef {namespace urn:ef;prefix ef;typedef mytype {type mytype2;}" |
| "typedef mytype2 {type mytype;} leaf l {type mytype;}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid \"mytype\" type reference - circular chain of types detected."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_type_dflt(void **state) |
| { |
| *state = test_type_union; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_type *type; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| /* default is not inherited from union's types */ |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {namespace urn:a;prefix a; typedef mybasetype {type string;default hello;units xxx;}" |
| "leaf l {type union {type decimal64 {fraction-digits 2;} type mybasetype;}}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(1, type->refcount); |
| assert_int_equal(LY_TYPE_UNION, type->basetype); |
| assert_non_null(((struct lysc_type_union*)type)->types); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_type_union*)type)->types)); |
| assert_int_equal(LY_TYPE_DEC64, ((struct lysc_type_union*)type)->types[0]->basetype); |
| assert_int_equal(LY_TYPE_STRING, ((struct lysc_type_union*)type)->types[1]->basetype); |
| assert_null(((struct lysc_node_leaf*)mod->compiled->data)->dflt); |
| assert_null(((struct lysc_node_leaf*)mod->compiled->data)->units); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {namespace urn:b;prefix b; typedef mybasetype {type string;default hello;units xxx;}" |
| "leaf l {type mybasetype;}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(2, type->refcount); |
| assert_int_equal(LY_TYPE_STRING, type->basetype); |
| assert_string_equal("hello", ((struct lysc_node_leaf*)mod->compiled->data)->dflt); |
| assert_string_equal("xxx", ((struct lysc_node_leaf*)mod->compiled->data)->units); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module c {namespace urn:c;prefix c; typedef mybasetype {type string;default hello;units xxx;}" |
| "leaf l {type mybasetype; default goodbye;units yyy;}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(2, type->refcount); |
| assert_int_equal(LY_TYPE_STRING, type->basetype); |
| assert_string_equal("goodbye", ((struct lysc_node_leaf*)mod->compiled->data)->dflt); |
| assert_string_equal("yyy", ((struct lysc_node_leaf*)mod->compiled->data)->units); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module d {namespace urn:d;prefix d; typedef mybasetype {type string;default hello;units xxx;}" |
| "typedef mytype {type mybasetype;}leaf l1 {type mytype; default goodbye;units yyy;}" |
| "leaf l2 {type mytype;}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(4, type->refcount); |
| assert_int_equal(LY_TYPE_STRING, type->basetype); |
| assert_string_equal("goodbye", ((struct lysc_node_leaf*)mod->compiled->data)->dflt); |
| assert_string_equal("yyy", ((struct lysc_node_leaf*)mod->compiled->data)->units); |
| type = ((struct lysc_node_leaf*)mod->compiled->data->next)->type; |
| assert_non_null(type); |
| assert_int_equal(4, type->refcount); |
| assert_int_equal(LY_TYPE_STRING, type->basetype); |
| assert_string_equal("hello", ((struct lysc_node_leaf*)mod->compiled->data->next)->dflt); |
| assert_string_equal("xxx", ((struct lysc_node_leaf*)mod->compiled->data->next)->units); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module e {namespace urn:e;prefix e; typedef mybasetype {type string;}" |
| "typedef mytype {type mybasetype; default hello;units xxx;}leaf l {type mytype;}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(3, type->refcount); |
| assert_int_equal(LY_TYPE_STRING, type->basetype); |
| assert_string_equal("hello", ((struct lysc_node_leaf*)mod->compiled->data)->dflt); |
| assert_string_equal("xxx", ((struct lysc_node_leaf*)mod->compiled->data)->units); |
| |
| /* mandatory leaf does not takes default value from type */ |
| assert_non_null(mod = lys_parse_mem(ctx, "module f {namespace urn:f;prefix f;typedef mytype {type string; default hello;units xxx;}" |
| "leaf l {type mytype; mandatory true;}}", LYS_IN_YANG)); |
| type = ((struct lysc_node_leaf*)mod->compiled->data)->type; |
| assert_non_null(type); |
| assert_int_equal(LY_TYPE_STRING, type->basetype); |
| assert_null(((struct lysc_node_leaf*)mod->compiled->data)->dflt); |
| assert_string_equal("xxx", ((struct lysc_node_leaf*)mod->compiled->data)->units); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_status(void **state) |
| { |
| *state = test_status; |
| |
| struct ly_ctx *ctx; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa;" |
| "container c {status deprecated; leaf l {status current; type string;}}}", LYS_IN_YANG)); |
| logbuf_assert("A \"current\" status is in conflict with the parent's \"deprecated\" status."); |
| |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb;" |
| "container c {status obsolete; leaf l {status current; type string;}}}", LYS_IN_YANG)); |
| logbuf_assert("A \"current\" status is in conflict with the parent's \"obsolete\" status."); |
| |
| assert_null(lys_parse_mem(ctx, "module cc {namespace urn:cc;prefix cc;" |
| "container c {status obsolete; leaf l {status deprecated; type string;}}}", LYS_IN_YANG)); |
| logbuf_assert("A \"deprecated\" status is in conflict with the parent's \"obsolete\" status."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_grouping(void **state) |
| { |
| *state = test_grouping; |
| |
| struct ly_ctx *ctx; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| /* result ok, but a warning about not used locally scoped grouping printed */ |
| assert_non_null(lys_parse_mem(ctx, "module a {namespace urn:a;prefix a; grouping grp1 {leaf a1 {type string;}}" |
| "container a {leaf x {type string;} grouping grp2 {leaf a2 {type string;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Locally scoped grouping \"grp2\" not used."); |
| logbuf_clean(); |
| |
| /* result ok - when statement or leafref target must be checked only at the place where the grouping is really instantiated */ |
| assert_non_null(lys_parse_mem(ctx, "module b {namespace urn:b;prefix b; grouping grp {" |
| "leaf ref {type leafref {path \"../name\";}}" |
| "leaf cond {type string; when \"../name = 'specialone'\";}}}", LYS_IN_YANG)); |
| logbuf_assert(""); |
| |
| |
| /* invalid - error in a non-instantiated grouping */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa;" |
| "grouping grp {leaf x {type leafref;}}}", LYS_IN_YANG)); |
| logbuf_assert("Missing path substatement for leafref type."); |
| logbuf_clean(); |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa;" |
| "container a {grouping grp {leaf x {type leafref;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Missing path substatement for leafref type."); |
| |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_uses(void **state) |
| { |
| *state = test_uses; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| const struct lysc_node *parent, *child; |
| const struct lysc_node_container *cont; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| ly_ctx_set_module_imp_clb(ctx, test_imp_clb, "module grp {namespace urn:grp;prefix g; typedef mytype {type string;} feature f;" |
| "grouping grp {leaf x {type mytype;} leaf y {type string; if-feature f;}}}"); |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {namespace urn:a;prefix a;import grp {prefix g;}" |
| "grouping grp_a_top {leaf a1 {type int8;}}" |
| "container a {uses grp_a; uses grp_a_top; uses g:grp; grouping grp_a {leaf a2 {type uint8;}}}}", LYS_IN_YANG)); |
| assert_non_null((parent = mod->compiled->data)); |
| assert_int_equal(LYS_CONTAINER, parent->nodetype); |
| assert_non_null((child = ((struct lysc_node_container*)parent)->child)); |
| assert_string_equal("a2", child->name); |
| assert_ptr_equal(mod, child->module); |
| assert_non_null((child = child->next)); |
| assert_string_equal("a1", child->name); |
| assert_ptr_equal(mod, child->module); |
| assert_non_null((child = child->next)); |
| assert_string_equal("x", child->name); |
| assert_ptr_equal(mod, child->module); |
| assert_non_null((child = child->next)); |
| assert_string_equal("y", child->name); |
| assert_non_null(child->iffeatures); |
| assert_int_equal(1, LY_ARRAY_SIZE(child->iffeatures)); |
| assert_int_equal(1, LY_ARRAY_SIZE(child->iffeatures[0].features)); |
| assert_string_equal("f", child->iffeatures[0].features[0]->name); |
| assert_int_equal(LY_EINVAL, lys_feature_enable(mod->compiled->imports[0].module, "f")); |
| logbuf_assert("Module \"grp\" is not implemented so all its features are permanently disabled without a chance to change it."); |
| assert_int_equal(0, lysc_iffeature_value(&child->iffeatures[0])); |
| |
| /* make the imported module implemented and enable the feature */ |
| assert_non_null(mod = ly_ctx_get_module(ctx, "grp", NULL)); |
| assert_int_equal(LY_SUCCESS, ly_ctx_module_implement(ctx, mod)); |
| assert_int_equal(LY_SUCCESS, lys_feature_enable(mod, "f")); |
| assert_string_equal("f", child->iffeatures[0].features[0]->name); |
| assert_int_equal(1, lysc_iffeature_value(&child->iffeatures[0])); |
| |
| ly_ctx_set_module_imp_clb(ctx, test_imp_clb, "submodule bsub {belongs-to b {prefix b;} grouping grp {leaf b {when 1; type string;}}}"); |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {namespace urn:b;prefix b;include bsub;uses grp {when 2;}}", LYS_IN_YANG)); |
| assert_non_null(mod->compiled->data); |
| assert_int_equal(LYS_LEAF, mod->compiled->data->nodetype); |
| assert_string_equal("b", mod->compiled->data->name); |
| assert_int_equal(2, LY_ARRAY_SIZE(mod->compiled->data->when)); |
| |
| logbuf_clean(); |
| assert_non_null(mod = lys_parse_mem(ctx, "module c {namespace urn:ii;prefix ii;" |
| "grouping grp {leaf l {type string;}leaf k {type string; status obsolete;}}" |
| "uses grp {status deprecated;}}", LYS_IN_YANG)); |
| assert_int_equal(LYS_LEAF, mod->compiled->data->nodetype); |
| assert_string_equal("l", mod->compiled->data->name); |
| assert_true(LYS_STATUS_DEPRC & mod->compiled->data->flags); |
| assert_int_equal(LYS_LEAF, mod->compiled->data->next->nodetype); |
| assert_string_equal("k", mod->compiled->data->next->name); |
| assert_true(LYS_STATUS_OBSLT & mod->compiled->data->next->flags); |
| logbuf_assert(""); /* no warning about inheriting deprecated flag from uses */ |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module d {namespace urn:d;prefix d; grouping grp {container g;}" |
| "container top {uses grp {augment g {leaf x {type int8;}}}}}", LYS_IN_YANG)); |
| assert_non_null(mod->compiled->data); |
| assert_non_null(child = lysc_node_children(mod->compiled->data, 0)); |
| assert_string_equal("g", child->name); |
| assert_non_null(child = lysc_node_children(child, 0)); |
| assert_string_equal("x", child->name); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module e {yang-version 1.1;namespace urn:e;prefix e; grouping grp {action g { description \"super g\";}}" |
| "container top {action e; uses grp {refine g {description \"ultra g\";}}}}", LYS_IN_YANG)); |
| assert_non_null(mod->compiled->data); |
| cont = (const struct lysc_node_container*)mod->compiled->data; |
| assert_non_null(cont->actions); |
| assert_int_equal(2, LY_ARRAY_SIZE(cont->actions)); |
| assert_string_equal("e", cont->actions[1].name); |
| assert_string_equal("g", cont->actions[0].name); |
| assert_string_equal("ultra g", cont->actions[0].dsc); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module f {yang-version 1.1;namespace urn:f;prefix f; grouping grp {notification g { description \"super g\";}}" |
| "container top {notification f; uses grp {refine g {description \"ultra g\";}}}}", LYS_IN_YANG)); |
| assert_non_null(mod->compiled->data); |
| cont = (const struct lysc_node_container*)mod->compiled->data; |
| assert_non_null(cont->notifs); |
| assert_int_equal(2, LY_ARRAY_SIZE(cont->notifs)); |
| assert_string_equal("f", cont->notifs[1].name); |
| assert_string_equal("g", cont->notifs[0].name); |
| assert_string_equal("ultra g", cont->notifs[0].dsc); |
| |
| /* empty grouping */ |
| assert_non_null(mod = lys_parse_mem(ctx, "module g {namespace urn:g;prefix g; grouping grp; uses grp;}", LYS_IN_YANG)); |
| assert_null(mod->compiled->data); |
| |
| /* invalid */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa;uses missinggrp;}", LYS_IN_YANG)); |
| logbuf_assert("Grouping \"missinggrp\" referenced by a uses statement not found."); |
| |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb;uses grp;" |
| "grouping grp {leaf a{type string;}uses grp1;}" |
| "grouping grp1 {leaf b {type string;}uses grp2;}" |
| "grouping grp2 {leaf c {type string;}uses grp;}}", LYS_IN_YANG)); |
| logbuf_assert("Grouping \"grp\" references itself through a uses statement."); |
| |
| assert_null(lys_parse_mem(ctx, "module cc {namespace urn:cc;prefix cc;uses a:missingprefix;}", LYS_IN_YANG)); |
| logbuf_assert("Invalid prefix used for grouping reference (a:missingprefix)."); |
| |
| assert_null(lys_parse_mem(ctx, "module dd {namespace urn:dd;prefix dd;grouping grp{leaf a{type string;}}" |
| "leaf a {type string;}uses grp;}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"a\" of data definition/RPC/action/Notification statement."); |
| |
| assert_null(lys_parse_mem(ctx, "module ee {namespace urn:ee;prefix ee;grouping grp {leaf l {type string; status deprecated;}}" |
| "uses grp {status obsolete;}}", LYS_IN_YANG)); |
| logbuf_assert("A \"deprecated\" status is in conflict with the parent's \"obsolete\" status."); |
| |
| assert_null(lys_parse_mem(ctx, "module ff {namespace urn:ff;prefix ff;grouping grp {leaf l {type string;}}" |
| "leaf l {type int8;}uses grp;}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"l\" of data definition/RPC/action/Notification statement."); |
| assert_null(lys_parse_mem(ctx, "module fg {namespace urn:fg;prefix fg;grouping grp {leaf m {type string;}}" |
| "uses grp;leaf m {type int8;}}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"m\" of data definition/RPC/action/Notification statement."); |
| |
| |
| assert_null(lys_parse_mem(ctx, "module gg {namespace urn:gg;prefix gg; grouping grp {container g;}" |
| "leaf g {type string;}" |
| "container top {uses grp {augment /g {leaf x {type int8;}}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid descendant-schema-nodeid value \"/g\" - absolute-schema-nodeid used."); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module hh {yang-version 1.1;namespace urn:hh;prefix hh;" |
| "grouping grp {notification g { description \"super g\";}}" |
| "container top {notification h; uses grp {refine h {description \"ultra h\";}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid descendant-schema-nodeid value \"h\" - target node not found."); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module ii {yang-version 1.1;namespace urn:ii;prefix ii;" |
| "grouping grp {action g { description \"super g\";}}" |
| "container top {action i; uses grp {refine i {description \"ultra i\";}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid descendant-schema-nodeid value \"i\" - target node not found."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_refine(void **state) |
| { |
| *state = test_refine; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| struct lysc_node *parent, *child; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| assert_non_null(lys_parse_mem(ctx, "module grp {yang-version 1.1;namespace urn:grp;prefix g; feature f;typedef mytype {type string; default cheers!;}" |
| "grouping grp {container c {leaf l {type mytype; default goodbye;}" |
| "leaf-list ll {type mytype; default goodbye; max-elements 6;}" |
| "choice ch {default a; leaf a {type int8;}leaf b{type uint8;}}" |
| "leaf x {type mytype; mandatory true; must 1;}" |
| "anydata a {mandatory false; if-feature f; description original; reference original;}" |
| "container c {config false; leaf l {type string;}}}}}", LYS_IN_YANG)); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module a {yang-version 1.1;namespace urn:a;prefix a;import grp {prefix g;}feature fa;" |
| "uses g:grp {refine c/l {default hello; config false;}" |
| "refine c/ll {default hello;default world; min-elements 2; max-elements 5;}" |
| "refine c/ch {default b;config true; if-feature fa;}" |
| "refine c/x {mandatory false; must ../ll;description refined; reference refined;}" |
| "refine c/a {mandatory true; must 1; if-feature fa;description refined; reference refined;}" |
| "refine c/c {config true;presence indispensable;}}}", LYS_IN_YANG)); |
| assert_non_null((parent = mod->compiled->data)); |
| assert_int_equal(LYS_CONTAINER, parent->nodetype); |
| assert_string_equal("c", parent->name); |
| assert_non_null((child = ((struct lysc_node_container*)parent)->child)); |
| assert_int_equal(LYS_LEAF, child->nodetype); |
| assert_string_equal("l", child->name); |
| assert_string_equal("hello", ((struct lysc_node_leaf*)child)->dflt); |
| assert_int_equal(LYS_CONFIG_R, child->flags & LYS_CONFIG_MASK); |
| assert_non_null(child = child->next); |
| assert_int_equal(LYS_LEAFLIST, child->nodetype); |
| assert_string_equal("ll", child->name); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_node_leaflist*)child)->dflts)); |
| assert_string_equal("hello", ((struct lysc_node_leaflist*)child)->dflts[0]); |
| assert_string_equal("world", ((struct lysc_node_leaflist*)child)->dflts[1]); |
| assert_int_equal(2, ((struct lysc_node_leaflist*)child)->min); |
| assert_int_equal(5, ((struct lysc_node_leaflist*)child)->max); |
| assert_non_null(child = child->next); |
| assert_int_equal(LYS_CHOICE, child->nodetype); |
| assert_string_equal("ch", child->name); |
| assert_string_equal("b", ((struct lysc_node_choice*)child)->dflt->name); |
| assert_true(LYS_SET_DFLT & ((struct lysc_node_choice*)child)->dflt->flags); |
| assert_false(LYS_SET_DFLT & ((struct lysc_node_choice*)child)->cases[0].flags); |
| assert_non_null(child->iffeatures); |
| assert_int_equal(1, LY_ARRAY_SIZE(child->iffeatures)); |
| assert_non_null(child = child->next); |
| assert_int_equal(LYS_LEAF, child->nodetype); |
| assert_string_equal("x", child->name); |
| assert_false(LYS_MAND_TRUE & child->flags); |
| assert_string_equal("cheers!", ((struct lysc_node_leaf*)child)->dflt); |
| assert_non_null(((struct lysc_node_leaf*)child)->musts); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_node_leaf*)child)->musts)); |
| assert_string_equal("refined", child->dsc); |
| assert_string_equal("refined", child->ref); |
| assert_non_null(child = child->next); |
| assert_int_equal(LYS_ANYDATA, child->nodetype); |
| assert_string_equal("a", child->name); |
| assert_true(LYS_MAND_TRUE & child->flags); |
| assert_non_null(((struct lysc_node_anydata*)child)->musts); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_node_anydata*)child)->musts)); |
| assert_non_null(child->iffeatures); |
| assert_int_equal(2, LY_ARRAY_SIZE(child->iffeatures)); |
| assert_string_equal("refined", child->dsc); |
| assert_string_equal("refined", child->ref); |
| assert_non_null(child = child->next); |
| assert_int_equal(LYS_CONTAINER, child->nodetype); |
| assert_string_equal("c", child->name); |
| assert_true(LYS_PRESENCE & child->flags); |
| assert_true(LYS_CONFIG_W & child->flags); |
| assert_true(LYS_CONFIG_W & ((struct lysc_node_container*)child)->child->flags); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module b {yang-version 1.1;namespace urn:b;prefix b;import grp {prefix g;}" |
| "uses g:grp {status deprecated; refine c/x {default hello; mandatory false;}}}", LYS_IN_YANG)); |
| assert_non_null((child = ((struct lysc_node_container*)mod->compiled->data)->child->prev->prev->prev)); |
| assert_int_equal(LYS_LEAF, child->nodetype); |
| assert_string_equal("x", child->name); |
| assert_false(LYS_MAND_TRUE & child->flags); |
| assert_string_equal("hello", ((struct lysc_node_leaf*)child)->dflt); |
| |
| /* invalid */ |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa;import grp {prefix g;}" |
| "uses g:grp {refine c {default hello;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid refine of default in \"c\" - container cannot hold default value(s)."); |
| |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb;import grp {prefix g;}" |
| "uses g:grp {refine c/l {default hello; default world;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid refine of default in \"c/l\" - leaf cannot hold 2 default values."); |
| |
| assert_null(lys_parse_mem(ctx, "module cc {namespace urn:cc;prefix cc;import grp {prefix g;}" |
| "uses g:grp {refine c/ll {default hello; default world;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid refine of default in leaf-list - the default statement is allowed only in YANG 1.1 modules."); |
| |
| assert_null(lys_parse_mem(ctx, "module dd {namespace urn:dd;prefix dd;import grp {prefix g;}" |
| "uses g:grp {refine c/ll {mandatory true;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid refine of mandatory in \"c/ll\" - leaf-list cannot hold mandatory statement."); |
| |
| assert_null(lys_parse_mem(ctx, "module ee {namespace urn:ee;prefix ee;import grp {prefix g;}" |
| "uses g:grp {refine c/l {mandatory true;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid refine of mandatory in \"c/l\" - leaf already has \"default\" statement."); |
| assert_null(lys_parse_mem(ctx, "module ef {namespace urn:ef;prefix ef;import grp {prefix g;}" |
| "uses g:grp {refine c/ch {mandatory true;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid refine of mandatory in \"c/ch\" - choice already has \"default\" statement."); |
| |
| assert_null(lys_parse_mem(ctx, "module ff {namespace urn:ff;prefix ff;import grp {prefix g;}" |
| "uses g:grp {refine c/ch/a/a {mandatory true;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid refine of mandatory in \"c/ch/a/a\" under the default case."); |
| |
| assert_null(lys_parse_mem(ctx, "module gg {namespace urn:gg;prefix gg;import grp {prefix g;}" |
| "uses g:grp {refine c/x {default hello;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid refine of default in \"c/x\" - the node is mandatory."); |
| |
| assert_null(lys_parse_mem(ctx, "module hh {namespace urn:hh;prefix hh;import grp {prefix g;}" |
| "uses g:grp {refine c/c/l {config true;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid refine of config in \"c/c/l\" - configuration node cannot be child of any state data node."); |
| |
| assert_null(lys_parse_mem(ctx, "module ii {namespace urn:ii;prefix ii;grouping grp {leaf l {type string; status deprecated;}}" |
| "uses grp {status obsolete;}}", LYS_IN_YANG)); |
| logbuf_assert("A \"deprecated\" status is in conflict with the parent's \"obsolete\" status."); |
| |
| assert_null(lys_parse_mem(ctx, "module jj {namespace urn:jj;prefix jj;import grp {prefix g;}" |
| "uses g:grp {refine c/x {presence nonsence;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid refine of presence statement in \"c/x\" - leaf cannot hold the presence statement."); |
| |
| assert_null(lys_parse_mem(ctx, "module kk {namespace urn:kk;prefix kk;import grp {prefix g;}" |
| "uses g:grp {refine c/ch {must 1;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid refine of must statement in \"c/ch\" - choice cannot hold any must statement."); |
| |
| assert_null(lys_parse_mem(ctx, "module ll {namespace urn:ll;prefix ll;import grp {prefix g;}" |
| "uses g:grp {refine c/x {min-elements 1;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid refine of min-elements statement in \"c/x\" - leaf cannot hold this statement."); |
| |
| assert_null(lys_parse_mem(ctx, "module mm {namespace urn:mm;prefix mm;import grp {prefix g;}" |
| "uses g:grp {refine c/ll {min-elements 10;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid refine of min-elements statement in \"c/ll\" - \"min-elements\" is bigger than \"max-elements\"."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_augment(void **state) |
| { |
| *state = test_augment; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| const struct lysc_node *node; |
| const struct lysc_node_choice *ch; |
| const struct lysc_node_case *c; |
| const struct lysc_action *rpc; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| ly_ctx_set_module_imp_clb(ctx, test_imp_clb, "module a {namespace urn:a;prefix a; typedef atype {type string;}" |
| "container top {leaf a {type string;}}}"); |
| assert_non_null(lys_parse_mem(ctx, "module b {namespace urn:b;prefix b;import a {prefix a;}" |
| "leaf b {type a:atype;}}", LYS_IN_YANG)); |
| ly_ctx_set_module_imp_clb(ctx, test_imp_clb, "module c {namespace urn:c;prefix c; import a {prefix a;}" |
| "augment /a:top/ { container c {leaf c {type a:atype;}}}}"); |
| assert_non_null(lys_parse_mem(ctx, "module d {namespace urn:d;prefix d;import a {prefix a;} import c {prefix c;}" |
| "augment /a:top/c:c/ { leaf d {type a:atype;} leaf c {type string;}}}", LYS_IN_YANG)); |
| assert_non_null((mod = ly_ctx_get_module_implemented(ctx, "a"))); |
| assert_non_null(ly_ctx_get_module_implemented(ctx, "b")); |
| assert_non_null(ly_ctx_get_module_implemented(ctx, "c")); |
| assert_non_null(ly_ctx_get_module_implemented(ctx, "d")); |
| assert_non_null(node = mod->compiled->data); |
| assert_string_equal(node->name, "top"); |
| assert_non_null(node = lysc_node_children(node, 0)); |
| assert_string_equal(node->name, "a"); |
| assert_non_null(node = node->next); |
| assert_string_equal(node->name, "c"); |
| assert_non_null(node = lysc_node_children(node, 0)); |
| assert_string_equal(node->name, "c"); |
| assert_non_null(node = node->next); |
| assert_string_equal(node->name, "d"); |
| assert_non_null(node = node->next); |
| assert_string_equal(node->name, "c"); |
| |
| assert_non_null((mod = lys_parse_mem(ctx, "module e {namespace urn:e;prefix e;choice ch {leaf a {type string;}}" |
| "augment /ch/c {when 1; leaf lc2 {type uint16;}}" |
| "augment /ch { when 1; leaf b {type int8;} case c {leaf lc1 {type uint8;}}}}", LYS_IN_YANG))); |
| assert_non_null((ch = (const struct lysc_node_choice*)mod->compiled->data)); |
| assert_null(mod->compiled->data->next); |
| assert_string_equal("ch", ch->name); |
| assert_non_null(c = ch->cases); |
| assert_string_equal("a", c->name); |
| assert_null(c->when); |
| assert_string_equal("a", c->child->name); |
| assert_non_null(c = (const struct lysc_node_case*)c->next); |
| assert_string_equal("b", c->name); |
| assert_non_null(c->when); |
| assert_string_equal("b", c->child->name); |
| assert_non_null(c = (const struct lysc_node_case*)c->next); |
| assert_string_equal("c", c->name); |
| assert_non_null(c->when); |
| assert_string_equal("lc1", ((const struct lysc_node_case*)c)->child->name); |
| assert_null(((const struct lysc_node_case*)c)->child->when); |
| assert_string_equal("lc2", ((const struct lysc_node_case*)c)->child->next->name); |
| assert_non_null(((const struct lysc_node_case*)c)->child->next->when); |
| assert_ptr_equal(ch->cases->child->prev, ((const struct lysc_node_case*)c)->child->next); |
| assert_null(c->next); |
| |
| assert_non_null((mod = lys_parse_mem(ctx, "module f {namespace urn:f;prefix f;grouping g {leaf a {type string;}}" |
| "container c;" |
| "augment /c {uses g;}}", LYS_IN_YANG))); |
| assert_non_null(node = lysc_node_children(mod->compiled->data, 0)); |
| assert_string_equal(node->name, "a"); |
| |
| ly_ctx_set_module_imp_clb(ctx, test_imp_clb, "submodule gsub {belongs-to g {prefix g;}" |
| "augment /c {container sub;}}"); |
| assert_non_null(mod = lys_parse_mem(ctx, "module g {namespace urn:g;prefix g;include gsub; container c;" |
| "augment /c/sub {leaf main {type string;}}}", LYS_IN_YANG)); |
| assert_non_null(mod->compiled->data); |
| assert_string_equal("c", mod->compiled->data->name); |
| assert_non_null(node = ((struct lysc_node_container*)mod->compiled->data)->child); |
| assert_string_equal("sub", node->name); |
| assert_non_null(node = ((struct lysc_node_container*)node)->child); |
| assert_string_equal("main", node->name); |
| |
| ly_ctx_set_module_imp_clb(ctx, test_imp_clb, "module himp {namespace urn:hi;prefix hi;container top; rpc func;}"); |
| assert_non_null(mod = lys_parse_mem(ctx, "module h {namespace urn:h;prefix h;import himp {prefix hi;}container top;" |
| "augment /hi:top {container p {presence XXX; leaf x {mandatory true;type string;}}}" |
| "augment /hi:top {list ll {key x;leaf x {type string;}leaf y {mandatory true; type string;}}}" |
| "augment /hi:top {leaf l {type string; mandatory true; config false;}}" |
| "augment /top {leaf l {type string; mandatory true;}}}", LYS_IN_YANG)); |
| assert_non_null(node = mod->compiled->data); |
| assert_non_null(node = ((struct lysc_node_container*)node)->child); |
| assert_string_equal("l", node->name); |
| assert_true(node->flags & LYS_MAND_TRUE); |
| assert_non_null(mod = ly_ctx_get_module_implemented(ctx, "himp")); |
| assert_non_null(node = mod->compiled->data); |
| assert_non_null(node = ((struct lysc_node_container*)node)->child); |
| assert_string_equal("p", node->name); |
| assert_non_null(node = node->next); |
| assert_string_equal("ll", node->name); |
| assert_non_null(node = node->next); |
| assert_string_equal("l", node->name); |
| assert_true(node->flags & LYS_CONFIG_R); |
| |
| assert_non_null(lys_parse_mem(ctx, "module i {namespace urn:i;prefix i;import himp {prefix hi;}" |
| "augment /hi:func/input {leaf x {type string;}}" |
| "augment /hi:func/output {leaf y {type string;}}}", LYS_IN_YANG)); |
| assert_non_null(mod = ly_ctx_get_module_implemented(ctx, "himp")); |
| assert_non_null(rpc = mod->compiled->rpcs); |
| assert_int_equal(1, LY_ARRAY_SIZE(rpc)); |
| assert_non_null(rpc->input.data); |
| assert_string_equal("x", rpc->input.data->name); |
| assert_null(rpc->input.data->next); |
| assert_non_null(rpc->output.data); |
| assert_string_equal("y", rpc->output.data->name); |
| assert_null(rpc->output.data->next); |
| |
| assert_null(lys_parse_mem(ctx, "module aa {namespace urn:aa;prefix aa; container c {leaf a {type string;}}" |
| "augment /x {leaf a {type int8;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid absolute-schema-nodeid value \"/x\" - target node not found."); |
| |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb; container c {leaf a {type string;}}" |
| "augment /c {leaf a {type int8;}}}", LYS_IN_YANG)); |
| logbuf_assert("Duplicate identifier \"a\" of data definition/RPC/action/Notification statement."); |
| |
| |
| assert_null(lys_parse_mem(ctx, "module cc {namespace urn:cc;prefix cc; container c {leaf a {type string;}}" |
| "augment /c/a {leaf a {type int8;}}}", LYS_IN_YANG)); |
| logbuf_assert("Augment's absolute-schema-nodeid \"/c/a\" refers to a leaf node which is not an allowed augment's target."); |
| |
| assert_null(lys_parse_mem(ctx, "module dd {namespace urn:dd;prefix dd; container c {leaf a {type string;}}" |
| "augment /c {case b {leaf d {type int8;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid augment (/c) of container node which is not allowed to contain case node \"b\"."); |
| |
| assert_null(lys_parse_mem(ctx, "module ee {namespace urn:ee;prefix ee; import himp {prefix hi;}" |
| "augment /hi:top {container c {leaf d {mandatory true; type int8;}}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid augment (/hi:top) adding mandatory node \"c\" without making it conditional via when statement."); |
| |
| assert_null(lys_parse_mem(ctx, "module ff {namespace urn:ff;prefix ff; container top;" |
| "augment ../top {leaf x {type int8;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid absolute-schema-nodeid value \"../top\" - missing starting \"/\"."); |
| |
| assert_null(lys_parse_mem(ctx, "module gg {namespace urn:gg;prefix gg; rpc func;" |
| "augment /func {leaf x {type int8;}}}", LYS_IN_YANG)); |
| logbuf_assert("Augment's absolute-schema-nodeid \"/func\" refers to a RPC/action node which is not an allowed augment's target."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| static void |
| test_deviation(void **state) |
| { |
| *state = test_deviation; |
| |
| struct ly_ctx *ctx; |
| struct lys_module *mod; |
| const struct lysc_node *node; |
| const struct lysc_node_list *list; |
| |
| assert_int_equal(LY_SUCCESS, ly_ctx_new(NULL, LY_CTX_DISABLE_SEARCHDIRS, &ctx)); |
| |
| ly_ctx_set_module_imp_clb(ctx, test_imp_clb, "module a {namespace urn:a;prefix a;" |
| "container top {leaf a {type string;} leaf b {type string;} leaf c {type string;}}" |
| "choice ch {default c; case b {leaf b{type string;}} case a {leaf a{type string;} leaf x {type string;}}" |
| " case c {leaf c{type string;}}}" |
| "rpc func1 { input { leaf x {type int8;}} output {leaf y {type int8;}}}" |
| "rpc func2;}"); |
| assert_non_null(lys_parse_mem(ctx, "module b {namespace urn:b;prefix b;import a {prefix a;}" |
| "deviation /a:top/a:b {deviate not-supported;}" |
| "deviation /a:ch/a:a/a:x {deviate not-supported;}" |
| "deviation /a:ch/a:c/a:c {deviate not-supported;}" |
| "deviation /a:ch/a:b {deviate not-supported;}" |
| "deviation /a:ch/a:a/a:a {deviate not-supported;}" |
| "deviation /a:func1/a:input {deviate not-supported;}" |
| "deviation /a:func1/a:output {deviate not-supported;}" |
| "deviation /a:func2 {deviate not-supported;}}", LYS_IN_YANG)); |
| assert_non_null((mod = ly_ctx_get_module_implemented(ctx, "a"))); |
| assert_non_null(node = mod->compiled->data); |
| assert_string_equal(node->name, "top"); |
| assert_non_null(node = lysc_node_children(node, 0)); |
| assert_string_equal(node->name, "a"); |
| assert_non_null(node = node->next); |
| assert_string_equal(node->name, "c"); |
| assert_null(node = node->next); |
| assert_non_null(node = mod->compiled->data->next); |
| assert_string_equal("ch", node->name); |
| assert_null(((struct lysc_node_choice*)node)->dflt); |
| assert_null(((struct lysc_node_choice*)node)->cases); |
| assert_int_equal(1, LY_ARRAY_SIZE(mod->compiled->rpcs)); |
| assert_null(mod->compiled->rpcs[0].input.data); |
| assert_null(mod->compiled->rpcs[0].output.data); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module c {namespace urn:c;prefix c; typedef mytype {type string; units kilometers;}" |
| "leaf c1 {type mytype;} leaf c2 {type mytype; units meters;} leaf c3 {type mytype; units meters;}" |
| "deviation /c1 {deviate add {units meters;}}" |
| "deviation /c2 {deviate delete {units meters;}}" |
| "deviation /c3 {deviate replace {units centimeters;}}}", LYS_IN_YANG)); |
| assert_non_null(node = mod->compiled->data); |
| assert_string_equal("c1", node->name); |
| assert_string_equal("meters", ((struct lysc_node_leaf*)node)->units); |
| assert_non_null(node = node->next); |
| assert_string_equal("c2", node->name); |
| assert_null(((struct lysc_node_leaf*)node)->units); |
| assert_non_null(node = node->next); |
| assert_string_equal("c3", node->name); |
| assert_string_equal("centimeters", ((struct lysc_node_leaf*)node)->units); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module d {namespace urn:d;prefix d; leaf c1 {type string; must 1;}" |
| "container c2 {presence yes; must 1; must 2;} leaf c3 {type string; must 1; must 3;}" |
| "deviation /c1 {deviate add {must 3;}}" |
| "deviation /c2 {deviate delete {must 2;}}" |
| "deviation /c3 {deviate delete {must 3; must 1;}}}", LYS_IN_YANG)); |
| assert_non_null(node = mod->compiled->data); |
| assert_string_equal("c1", node->name); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_node_leaf*)node)->musts)); |
| assert_string_equal("3", ((struct lysc_node_leaf*)node)->musts[1].cond->expr); |
| assert_non_null(node = node->next); |
| assert_string_equal("c2", node->name); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_node_container*)node)->musts)); |
| assert_string_equal("1", ((struct lysc_node_container*)node)->musts[0].cond->expr); |
| assert_non_null(node = node->next); |
| assert_string_equal("c3", node->name); |
| assert_null(((struct lysc_node_leaf*)node)->musts); |
| |
| ly_ctx_set_module_imp_clb(ctx, test_imp_clb, "module e {yang-version 1.1; namespace urn:e;prefix e; typedef mytype {type string; default nothing;}" |
| "choice a {default a;leaf a {type string;} leaf b {type string;} leaf c {type string; mandatory true;}}" |
| "choice b {default a;leaf a {type string;} leaf b {type string;}}" |
| "leaf c {default hello; type string;}" |
| "leaf-list d {default hello; default world; type string;}" |
| "leaf c2 {type mytype;} leaf-list d2 {type mytype;}}"); |
| assert_non_null(lys_parse_mem(ctx, "module f {yang-version 1.1; namespace urn:f;prefix f;import e {prefix x;}" |
| "deviation /x:a {deviate delete {default a;}}" |
| "deviation /x:b {deviate delete {default x:a;}}" |
| "deviation /x:c {deviate delete {default hello;}}" |
| "deviation /x:d {deviate delete {default world;}}}", LYS_IN_YANG)); |
| assert_non_null((mod = ly_ctx_get_module_implemented(ctx, "e"))); |
| assert_non_null(node = mod->compiled->data); |
| assert_null(((struct lysc_node_choice*)node)->dflt); |
| assert_non_null(node = node->next); |
| assert_null(((struct lysc_node_choice*)node)->dflt); |
| assert_non_null(node = node->next); |
| assert_null(((struct lysc_node_leaf*)node)->dflt); |
| assert_non_null(node = node->next); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_node_leaflist*)node)->dflts)); |
| assert_string_equal("hello", ((struct lysc_node_leaflist*)node)->dflts[0]); |
| assert_non_null(node = node->next); |
| assert_string_equal("nothing", ((struct lysc_node_leaf*)node)->dflt); |
| assert_non_null(node = node->next); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_node_leaflist*)node)->dflts)); |
| assert_string_equal("nothing", ((struct lysc_node_leaflist*)node)->dflts[0]); |
| |
| assert_non_null(lys_parse_mem(ctx, "module g {yang-version 1.1; namespace urn:g;prefix g;import e {prefix x;}" |
| "deviation /x:b {deviate add {default x:b;}}" |
| "deviation /x:c {deviate add {default bye;}}" |
| "deviation /x:d {deviate add {default all; default people;}}" |
| "deviation /x:c2 {deviate add {default hi;}}" |
| "deviation /x:d2 {deviate add {default hi; default all;}}}", LYS_IN_YANG)); |
| assert_non_null((mod = ly_ctx_get_module_implemented(ctx, "e"))); |
| assert_non_null(node = mod->compiled->data); |
| assert_null(((struct lysc_node_choice*)node)->dflt); |
| assert_non_null(node = node->next); |
| assert_non_null(((struct lysc_node_choice*)node)->dflt); |
| assert_string_equal("b", ((struct lysc_node_choice*)node)->dflt->name); |
| assert_non_null(node = node->next); |
| assert_non_null(((struct lysc_node_leaf*)node)->dflt); |
| assert_string_equal("bye", ((struct lysc_node_leaf*)node)->dflt); |
| assert_non_null(node = node->next); |
| assert_int_equal(3, LY_ARRAY_SIZE(((struct lysc_node_leaflist*)node)->dflts)); |
| assert_string_equal("hello", ((struct lysc_node_leaflist*)node)->dflts[0]); |
| assert_string_equal("all", ((struct lysc_node_leaflist*)node)->dflts[1]); |
| assert_string_equal("people", ((struct lysc_node_leaflist*)node)->dflts[2]); |
| assert_non_null(node = node->next); |
| assert_non_null(((struct lysc_node_leaf*)node)->dflt); |
| assert_string_equal("hi", ((struct lysc_node_leaf*)node)->dflt); |
| assert_non_null(node = node->next); |
| assert_int_equal(2, LY_ARRAY_SIZE(((struct lysc_node_leaflist*)node)->dflts)); |
| assert_string_equal("hi", ((struct lysc_node_leaflist*)node)->dflts[0]); |
| assert_string_equal("all", ((struct lysc_node_leaflist*)node)->dflts[1]); |
| |
| assert_non_null(lys_parse_mem(ctx, "module h {yang-version 1.1; namespace urn:h;prefix h;import e {prefix x;}" |
| "deviation /x:b {deviate replace {default x:a;}}" |
| "deviation /x:c {deviate replace {default hello;}}}", LYS_IN_YANG)); |
| assert_non_null((mod = ly_ctx_get_module_implemented(ctx, "e"))); |
| assert_non_null(node = mod->compiled->data); |
| assert_null(((struct lysc_node_choice*)node)->dflt); |
| assert_non_null(node = node->next); |
| assert_non_null(((struct lysc_node_choice*)node)->dflt); |
| assert_string_equal("a", ((struct lysc_node_choice*)node)->dflt->name); |
| assert_non_null(node = node->next); |
| assert_non_null(((struct lysc_node_leaf*)node)->dflt); |
| assert_string_equal("hello", ((struct lysc_node_leaf*)node)->dflt); |
| |
| ly_ctx_set_module_imp_clb(ctx, test_imp_clb, "module i {namespace urn:i;prefix i;" |
| "list l1 {key a; leaf a {type string;} leaf b {type string;} leaf c {type string;}}" |
| "list l2 {key a; unique \"b c\"; unique \"d\"; leaf a {type string;} leaf b {type string;}" |
| " leaf c {type string;} leaf d {type string;}}}"); |
| assert_non_null(lys_parse_mem(ctx, "module j {namespace urn:j;prefix j;import i {prefix i;}" |
| "augment /i:l1 {leaf j_c {type string;}}" |
| "deviation /i:l1 {deviate add {unique \"i:b j_c\"; }}" |
| "deviation /i:l1 {deviate add {unique \"i:c\";}}" |
| "deviation /i:l2 {deviate delete {unique \"d\"; unique \"b c\";}}}", LYS_IN_YANG)); |
| assert_non_null((mod = ly_ctx_get_module_implemented(ctx, "i"))); |
| assert_non_null(list = (struct lysc_node_list*)mod->compiled->data); |
| assert_string_equal("l1", list->name); |
| assert_int_equal(2, LY_ARRAY_SIZE(list->uniques)); |
| assert_int_equal(2, LY_ARRAY_SIZE(list->uniques[0])); |
| assert_string_equal("b", list->uniques[0][0]->name); |
| assert_string_equal("j_c", list->uniques[0][1]->name); |
| assert_int_equal(1, LY_ARRAY_SIZE(list->uniques[1])); |
| assert_string_equal("c", list->uniques[1][0]->name); |
| assert_non_null(list = (struct lysc_node_list*)list->next); |
| assert_string_equal("l2", list->name); |
| assert_null(list->uniques); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module k {namespace urn:k;prefix k; leaf a {type string;}" |
| "container top {leaf x {type string;} leaf y {type string; config false;}}" |
| "deviation /a {deviate add {config false; }}" |
| "deviation /top {deviate add {config false;}}}", LYS_IN_YANG)); |
| assert_non_null(node = mod->compiled->data); |
| assert_string_equal("a", node->name); |
| assert_true(node->flags & LYS_CONFIG_R); |
| assert_non_null(node = node->next); |
| assert_string_equal("top", node->name); |
| assert_true(node->flags & LYS_CONFIG_R); |
| assert_non_null(node = lysc_node_children(node, 0)); |
| assert_string_equal("x", node->name); |
| assert_true(node->flags & LYS_CONFIG_R); |
| assert_non_null(node = node->next); |
| assert_string_equal("y", node->name); |
| assert_true(node->flags & LYS_CONFIG_R); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module l {namespace urn:l;prefix l; leaf a {config false; type string;}" |
| "container top {config false; leaf x {type string;}}" |
| "deviation /a {deviate replace {config true;}}" |
| "deviation /top {deviate replace {config true;}}}", LYS_IN_YANG)); |
| assert_non_null(node = mod->compiled->data); |
| assert_string_equal("a", node->name); |
| assert_true(node->flags & LYS_CONFIG_W); |
| assert_non_null(node = node->next); |
| assert_string_equal("top", node->name); |
| assert_true(node->flags & LYS_CONFIG_W); |
| assert_non_null(node = lysc_node_children(node, 0)); |
| assert_string_equal("x", node->name); |
| assert_true(node->flags & LYS_CONFIG_W); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module m {namespace urn:m;prefix m;" |
| "container a {leaf a {type string;}}" |
| "container b {leaf b {mandatory true; type string;}}" |
| "deviation /a/a {deviate add {mandatory true;}}" |
| "deviation /b/b {deviate replace {mandatory false;}}}", LYS_IN_YANG)); |
| assert_non_null(node = mod->compiled->data); |
| assert_string_equal("a", node->name); |
| assert_true((node->flags & LYS_MAND_MASK) == LYS_MAND_TRUE); |
| assert_true((lysc_node_children(node, 0)->flags & LYS_MAND_MASK) == LYS_MAND_TRUE); |
| assert_non_null(node = node->next); |
| assert_string_equal("b", node->name); |
| assert_false(node->flags & LYS_MAND_MASK); /* just unset on container */ |
| assert_true((lysc_node_children(node, 0)->flags & LYS_MAND_MASK) == LYS_MAND_FALSE); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module n {yang-version 1.1; namespace urn:n;prefix n;" |
| "leaf a {default test; type string;}" |
| "leaf b {mandatory true; type string;}" |
| "deviation /a {deviate add {mandatory true;} deviate delete {default test;}}" |
| "deviation /b {deviate add {default test;} deviate replace {mandatory false;}}}", LYS_IN_YANG)); |
| assert_non_null(node = mod->compiled->data); |
| assert_string_equal("a", node->name); |
| assert_null(((struct lysc_node_leaf*)node)->dflt); |
| assert_true((node->flags & LYS_MAND_MASK) == LYS_MAND_TRUE); |
| assert_non_null(node = node->next); |
| assert_string_equal("b", node->name); |
| assert_non_null(((struct lysc_node_leaf*)node)->dflt); |
| assert_true((node->flags & LYS_MAND_MASK) == LYS_MAND_FALSE); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module o {namespace urn:o;prefix o;" |
| "leaf-list a {type string;}" |
| "list b {config false;}" |
| "leaf-list c {min-elements 1; max-elements 10; type string;}" |
| "list d {min-elements 10; max-elements 100; config false;}" |
| "deviation /a {deviate add {min-elements 1; max-elements 10;}}" |
| "deviation /b {deviate add {min-elements 10; max-elements 100;}}" |
| "deviation /c {deviate replace {min-elements 10; max-elements 100;}}" |
| "deviation /d {deviate replace {min-elements 1; max-elements 10;}}}", LYS_IN_YANG)); |
| assert_non_null(node = mod->compiled->data); |
| assert_string_equal("a", node->name); |
| assert_int_equal(1, ((struct lysc_node_leaflist*)node)->min); |
| assert_int_equal(10, ((struct lysc_node_leaflist*)node)->max); |
| assert_non_null(node = node->next); |
| assert_string_equal("b", node->name); |
| assert_int_equal(10, ((struct lysc_node_list*)node)->min); |
| assert_int_equal(100, ((struct lysc_node_list*)node)->max); |
| assert_non_null(node = node->next); |
| assert_string_equal("c", node->name); |
| assert_int_equal(10, ((struct lysc_node_leaflist*)node)->min); |
| assert_int_equal(100, ((struct lysc_node_leaflist*)node)->max); |
| assert_non_null(node = node->next); |
| assert_string_equal("d", node->name); |
| assert_int_equal(1, ((struct lysc_node_list*)node)->min); |
| assert_int_equal(10, ((struct lysc_node_list*)node)->max); |
| |
| assert_non_null(mod = lys_parse_mem(ctx, "module p {yang-version 1.1; namespace urn:p;prefix p; typedef mytype {type int8; default 1;}" |
| "leaf a {type string; default 10;} leaf-list b {type string;}" |
| "deviation /a {deviate replace {type mytype;}}" |
| "deviation /b {deviate replace {type mytype;}}}", LYS_IN_YANG)); |
| assert_non_null(node = mod->compiled->data); |
| assert_string_equal("a", node->name); |
| assert_int_equal(LY_TYPE_INT8, ((struct lysc_node_leaf*)node)->type->basetype); |
| assert_string_equal("10", ((struct lysc_node_leaf*)node)->dflt); |
| assert_non_null(node = node->next); |
| assert_string_equal("b", node->name); |
| assert_int_equal(LY_TYPE_INT8, ((struct lysc_node_leaflist*)node)->type->basetype); |
| assert_int_equal(1, LY_ARRAY_SIZE(((struct lysc_node_leaflist*)node)->dflts)); |
| assert_string_equal("1", ((struct lysc_node_leaflist*)node)->dflts[0]); |
| |
| assert_null(lys_parse_mem(ctx, "module aa1 {namespace urn:aa1;prefix aa1;import a {prefix a;}" |
| "deviation /a:top/a:z {deviate not-supported;}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid absolute-schema-nodeid value \"/a:top/a:z\" - target node not found."); |
| assert_non_null(lys_parse_mem(ctx, "module aa2 {namespace urn:aa2;prefix aa2;import a {prefix a;}" |
| "deviation /a:top/a:a {deviate not-supported;}" |
| "deviation /a:top/a:a {deviate add {default error;}}}", LYS_IN_YANG)); |
| /* warning */ |
| logbuf_assert("Useless multiple (2) deviates on node \"/a:top/a:a\" since the node is not-supported."); |
| |
| assert_null(lys_parse_mem(ctx, "module bb {namespace urn:bb;prefix bb;import a {prefix a;}" |
| "deviation a:top/a:a {deviate not-supported;}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid absolute-schema-nodeid value \"a:top/a:a\" - missing starting \"/\"."); |
| |
| assert_null(lys_parse_mem(ctx, "module cc {namespace urn:cc;prefix cc; container c;" |
| "deviation /c {deviate add {units meters;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/c) of container node - it is not possible to add \"units\" property."); |
| assert_null(lys_parse_mem(ctx, "module cd {namespace urn:cd;prefix cd; leaf c {type string; units centimeters;}" |
| "deviation /c {deviate add {units meters;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/c) adding \"units\" property which already exists (with value \"centimeters\")."); |
| |
| assert_null(lys_parse_mem(ctx, "module dd1 {namespace urn:dd1;prefix dd1; container c;" |
| "deviation /c {deviate delete {units meters;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/c) of container node - it is not possible to delete \"units\" property."); |
| assert_null(lys_parse_mem(ctx, "module dd2 {namespace urn:dd2;prefix dd2; leaf c {type string;}" |
| "deviation /c {deviate delete {units meters;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/c) deleting \"units\" property \"meters\" which is not present."); |
| assert_null(lys_parse_mem(ctx, "module dd3 {namespace urn:dd3;prefix dd3; leaf c {type string; units centimeters;}" |
| "deviation /c {deviate delete {units meters;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/c) deleting \"units\" property \"meters\" which does not match the target's property value \"centimeters\"."); |
| |
| assert_null(lys_parse_mem(ctx, "module ee1 {namespace urn:ee1;prefix ee1; container c;" |
| "deviation /c {deviate replace {units meters;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/c) of container node - it is not possible to replace \"units\" property."); |
| assert_null(lys_parse_mem(ctx, "module ee2 {namespace urn:ee2;prefix ee2; leaf c {type string;}" |
| "deviation /c {deviate replace {units meters;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/c) replacing \"units\" property \"meters\" which is not present."); |
| |
| /* the default is already deleted in /e:a byt module f */ |
| assert_null(lys_parse_mem(ctx, "module ff1 {namespace urn:ff1;prefix ff1; import e {prefix e;}" |
| "deviation /e:a {deviate delete {default x:a;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/e:a) deleting \"default\" property \"x:a\" which is not present."); |
| assert_null(lys_parse_mem(ctx, "module ff2 {namespace urn:ff2;prefix ff2; import e {prefix e;}" |
| "deviation /e:b {deviate delete {default x:a;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/e:b) deleting \"default\" property \"x:a\" of choice. " |
| "The prefix does not match any imported module of the deviation module."); |
| assert_null(lys_parse_mem(ctx, "module ff3 {namespace urn:ff3;prefix ff3; import e {prefix e;}" |
| "deviation /e:b {deviate delete {default e:b;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/e:b) deleting \"default\" property \"e:b\" of choice does not match the default case name \"a\"."); |
| assert_null(lys_parse_mem(ctx, "module ff4 {namespace urn:ff4;prefix ff4; import e {prefix e;}" |
| "deviation /e:b {deviate delete {default ff4:a;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/e:b) deleting \"default\" property \"ff4:a\" of choice. The prefix does not match the default case's module."); |
| assert_null(lys_parse_mem(ctx, "module ff5 {namespace urn:ff5;prefix ff5; anyxml a;" |
| "deviation /a {deviate delete {default x;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/a) of anyxml node - it is not possible to delete \"default\" property."); |
| |
| assert_null(lys_parse_mem(ctx, "module gg1 {namespace urn:gg1;prefix gg1; import e {prefix e;}" |
| "deviation /e:b {deviate add {default e:a;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/e:b) adding \"default\" property which already exists (with value \"a\")."); |
| assert_null(lys_parse_mem(ctx, "module gg2 {namespace urn:gg2;prefix gg2; import e {prefix e;}" |
| "deviation /e:a {deviate add {default x:a;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/e:a) adding \"default\" property \"x:a\" of choice. " |
| "The prefix does not match any imported module of the deviation module."); |
| assert_null(lys_parse_mem(ctx, "module gg3 {namespace urn:gg3;prefix gg3; import e {prefix e;}" |
| "deviation /e:a {deviate add {default a;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/e:a) adding \"default\" property \"a\" of choice - the specified case does not exists."); |
| assert_null(lys_parse_mem(ctx, "module gg4 {namespace urn:gg4;prefix gg4; import e {prefix e;}" |
| "deviation /e:c {deviate add {default hi;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/e:c) adding \"default\" property which already exists (with value \"hello\")."); |
| assert_null(lys_parse_mem(ctx, "module gg4 {namespace urn:gg4;prefix gg4; import e {prefix e;}" |
| "deviation /e:a {deviate add {default e:c;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/e:a) adding \"default\" property \"e:c\" of choice - mandatory node \"c\" under the default case."); |
| assert_null(lys_parse_mem(ctx, "module gg5 {namespace urn:gg5;prefix gg5; leaf x {type string; mandatory true;}" |
| "deviation /x {deviate add {default error;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) combining default value and mandatory leaf."); |
| |
| assert_null(lys_parse_mem(ctx, "module hh1 {yang-version 1.1; namespace urn:hh1;prefix hh1; import e {prefix e;}" |
| "deviation /e:d {deviate replace {default hi;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/e:d) of leaf-list node - it is not possible to replace \"default\" property."); |
| |
| assert_null(lys_parse_mem(ctx, "module ii1 {namespace urn:ii1;prefix ii1; import i {prefix i;}" |
| "deviation /i:l1 {deviate delete {unique x;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/i:l1) deleting \"unique\" property \"x\" which does not match any of the target's property values."); |
| assert_null(lys_parse_mem(ctx, "module ii2 {namespace urn:ii2;prefix ii2; import i {prefix i;} leaf x { type string;}" |
| "deviation /i:l2 {deviate delete {unique d;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/i:l2) deleting \"unique\" property \"d\" which does not match any of the target's property values."); |
| assert_null(lys_parse_mem(ctx, "module ii3 {namespace urn:ii3;prefix ii3; leaf x { type string;}" |
| "deviation /x {deviate delete {unique d;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) of leaf node - it is not possible to delete \"unique\" property."); |
| assert_null(lys_parse_mem(ctx, "module ii4 {namespace urn:ii4;prefix ii4; leaf x { type string;}" |
| "deviation /x {deviate add {unique d;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) of leaf node - it is not possible to add \"unique\" property."); |
| |
| assert_null(lys_parse_mem(ctx, "module jj1 {namespace urn:jj1;prefix jj1; choice ch {case a {leaf a{type string;}}}" |
| "deviation /ch/a {deviate add {config false;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/ch/a) of case node - it is not possible to add \"config\" property."); |
| assert_null(lys_parse_mem(ctx, "module jj2 {namespace urn:jj2;prefix jj2; container top {config false; leaf x {type string;}}" |
| "deviation /top/x {deviate add {config true;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation of config in \"/top/x\" - configuration node cannot be child of any state data node."); |
| assert_null(lys_parse_mem(ctx, "module jj3 {namespace urn:jj3;prefix jj3; container top {leaf x {type string;}}" |
| "deviation /top/x {deviate replace {config false;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/top/x) replacing \"config\" property \"config false\" which is not present."); |
| assert_null(lys_parse_mem(ctx, "module jj4 {namespace urn:jj4;prefix jj4; choice ch {case a {leaf a{type string;}}}" |
| "deviation /ch/a {deviate replace {config false;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/ch/a) of case node - it is not possible to replace \"config\" property."); |
| assert_null(lys_parse_mem(ctx, "module jj5 {namespace urn:jj5;prefix jj5; container top {leaf x {type string; config true;}}" |
| "deviation /top {deviate add {config false;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation of config in \"/top\" - configuration node cannot be child of any state data node."); |
| assert_null(lys_parse_mem(ctx, "module jj6 {namespace urn:jj6;prefix jj6; leaf x {config false; type string;}" |
| "deviation /x {deviate add {config true;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) adding \"config\" property which already exists (with value \"config false\")."); |
| |
| assert_null(lys_parse_mem(ctx, "module kk1 {namespace urn:kk1;prefix kk1; container top {leaf a{type string;}}" |
| "deviation /top {deviate add {mandatory true;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation of mandatory in \"/top\" - container cannot hold mandatory statement."); |
| assert_null(lys_parse_mem(ctx, "module kk2 {namespace urn:kk2;prefix kk2; container top {leaf a{type string;}}" |
| "deviation /top {deviate replace {mandatory true;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/top) replacing \"mandatory\" property \"mandatory true\" which is not present."); |
| assert_null(lys_parse_mem(ctx, "module kk3 {namespace urn:kk3;prefix kk3; container top {leaf x {type string;}}" |
| "deviation /top/x {deviate replace {mandatory true;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/top/x) replacing \"mandatory\" property \"mandatory true\" which is not present."); |
| assert_null(lys_parse_mem(ctx, "module kk4 {namespace urn:kk4;prefix kk4; leaf x {mandatory true; type string;}" |
| "deviation /x {deviate add {mandatory false;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) adding \"mandatory\" property which already exists (with value \"mandatory true\")."); |
| |
| assert_null(lys_parse_mem(ctx, "module ll1 {namespace urn:ll1;prefix ll1; leaf x {default test; type string;}" |
| "deviation /x {deviate add {mandatory true;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) combining default value and mandatory leaf."); |
| assert_null(lys_parse_mem(ctx, "module ll2 {yang-version 1.1; namespace urn:ll2;prefix ll2; leaf-list x {default test; type string;}" |
| "deviation /x {deviate add {min-elements 1;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) combining default value and mandatory leaf-list."); |
| assert_null(lys_parse_mem(ctx, "module ll2 {namespace urn:ll2;prefix ll2; choice ch {default a; leaf a {type string;} leaf b {type string;}}" |
| "deviation /ch {deviate add {mandatory true;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/ch) combining default case and mandatory choice."); |
| |
| assert_null(lys_parse_mem(ctx, "module mm1 {namespace urn:mm1;prefix mm1; leaf-list x {min-elements 10; type string;}" |
| "deviation /x {deviate add {max-elements 5;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid combination of min-elements and max-elements after deviation (/x): min value 10 is bigger than max value 5."); |
| assert_null(lys_parse_mem(ctx, "module mm2 {namespace urn:mm2;prefix mm2; leaf-list x {max-elements 10; type string;}" |
| "deviation /x {deviate add {min-elements 20;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid combination of min-elements and max-elements after deviation (/x): min value 20 is bigger than max value 10."); |
| assert_null(lys_parse_mem(ctx, "module mm3 {namespace urn:mm3;prefix mm3; list x {min-elements 5; max-elements 10; config false;}" |
| "deviation /x {deviate replace {max-elements 1;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid combination of min-elements and max-elements after deviation (/x): min value 5 is bigger than max value 1."); |
| assert_null(lys_parse_mem(ctx, "module mm4 {namespace urn:mm4;prefix mm4; list x {min-elements 5; max-elements 10; config false;}" |
| "deviation /x {deviate replace {min-elements 20;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid combination of min-elements and max-elements after deviation (/x): min value 20 is bigger than max value 10."); |
| assert_null(lys_parse_mem(ctx, "module mm5 {namespace urn:mm5;prefix mm5; leaf-list x {type string; min-elements 5;}" |
| "deviation /x {deviate add {min-elements 1;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) adding \"min-elements\" property which already exists (with value \"5\")."); |
| assert_null(lys_parse_mem(ctx, "module mm6 {namespace urn:mm6;prefix mm6; list x {config false; min-elements 5;}" |
| "deviation /x {deviate add {min-elements 1;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) adding \"min-elements\" property which already exists (with value \"5\")."); |
| assert_null(lys_parse_mem(ctx, "module mm7 {namespace urn:mm7;prefix mm7; leaf-list x {type string; max-elements 5;}" |
| "deviation /x {deviate add {max-elements 1;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) adding \"max-elements\" property which already exists (with value \"5\")."); |
| assert_null(lys_parse_mem(ctx, "module mm8 {namespace urn:mm8;prefix mm8; list x {config false; max-elements 5;}" |
| "deviation /x {deviate add {max-elements 1;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) adding \"max-elements\" property which already exists (with value \"5\")."); |
| assert_null(lys_parse_mem(ctx, "module mm9 {namespace urn:mm9;prefix mm9; leaf-list x {type string;}" |
| "deviation /x {deviate replace {min-elements 1;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) replacing with \"min-elements\" property \"1\" which is not present."); |
| assert_null(lys_parse_mem(ctx, "module mm10 {namespace urn:mm10;prefix mm10; list x {config false;}" |
| "deviation /x {deviate replace {min-elements 1;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) replacing with \"min-elements\" property \"1\" which is not present."); |
| assert_null(lys_parse_mem(ctx, "module mm11 {namespace urn:mm11;prefix mm11; leaf-list x {type string;}" |
| "deviation /x {deviate replace {max-elements 1;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) replacing with \"max-elements\" property \"1\" which is not present."); |
| assert_null(lys_parse_mem(ctx, "module mm12 {namespace urn:mm12;prefix mm12; list x {config false; }" |
| "deviation /x {deviate replace {max-elements 1;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) replacing with \"max-elements\" property \"1\" which is not present."); |
| |
| assert_null(lys_parse_mem(ctx, "module nn1 {namespace urn:nn1;prefix nn1; anyxml x;" |
| "deviation /x {deviate replace {type string;}}}", LYS_IN_YANG)); |
| logbuf_assert("Invalid deviation (/x) of anyxml node - it is not possible to replace \"type\" property."); |
| assert_null(lys_parse_mem(ctx, "module nn2 {namespace urn:nn2;prefix nn2; leaf-list x {type string;}" |
| "deviation /x {deviate replace {type empty;}}}", LYS_IN_YANG)); |
| logbuf_assert("Leaf-list of type \"empty\" is allowed only in YANG 1.1 modules."); |
| |
| *state = NULL; |
| ly_ctx_destroy(ctx, NULL); |
| } |
| |
| int main(void) |
| { |
| const struct CMUnitTest tests[] = { |
| cmocka_unit_test_setup_teardown(test_module, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_feature, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_identity, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_type_length, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_type_range, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_type_pattern, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_type_enum, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_type_bits, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_type_dec64, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_type_instanceid, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_type_identityref, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_type_leafref, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_type_empty, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_type_union, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_type_dflt, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_status, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_node_container, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_node_leaflist, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_node_list, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_node_choice, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_node_anydata, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_action, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_notification, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_grouping, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_uses, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_refine, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_augment, logger_setup, logger_teardown), |
| cmocka_unit_test_setup_teardown(test_deviation, logger_setup, logger_teardown), |
| }; |
| |
| return cmocka_run_group_tests(tests, NULL, NULL); |
| } |