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mirror of https://git.kernel.org/pub/scm/network/wireless/iwd.git synced 2024-11-15 16:39:24 +01:00
iwd/unit/test-json.c
James Prestwood b007909c0d unit: add checks for improper use of json_iter_parse/next
This adds checks to make sure these API's don't operate on
objects/primitives they aren't supposed to.
2022-01-06 16:43:18 -06:00

534 lines
14 KiB
C

/*
*
* Wireless daemon for Linux
*
* Copyright (C) 2021 Intel Corporation. All rights reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdio.h>
#include <assert.h>
#include <ell/ell.h>
#include "src/json.h"
#include "ell/useful.h"
struct json_contents;
/*
* Object:
* { "test": "<smile emoji>" }
*/
static void test_json_unicode(const void *data)
{
struct json_iter iter;
_auto_(l_free)char *v;
uint8_t expected[] = { 0xF0, 0x9F, 0x98, 0x80, 0 };
uint8_t s[] = { '{', '"', 't', 'e', 's', 't', '"', ':',
'"', 0xf0, 0x9f, 0x98, 0x80, '"', '}', 0 };
struct json_contents *c = json_contents_new((const char *)s, sizeof(s));
json_iter_init(&iter, c);
assert(json_iter_parse(&iter, JSON_MANDATORY("test", JSON_STRING, &v),
JSON_UNDEFINED));
assert(!strcmp(v, (char *)expected));
json_contents_free(c);
}
static void test_json_escaped_unicode(const void *data)
{
struct json_iter iter;
_auto_(l_free)char *v;
char *s = "{\"test\":\"\\uD8F0\"}";
char expected[] = "\\uD8F0";
struct json_contents *c = json_contents_new(s, strlen(s));
json_iter_init(&iter, c);
assert(json_iter_parse(&iter, JSON_MANDATORY("test", JSON_STRING, &v),
JSON_UNDEFINED));
assert(!strcmp(v, expected));
json_contents_free(c);
}
/*
* Basic test string values and nested objects
*/
static void test_json(const void *data)
{
char json[] = "{\"wi-fi_tech\":\"infra\","
"\"discovery\":"
"{\"ssid\":\"somessid\"},"
"\"cred\":"
"{\"akm\":\"psk\","
"\"pass\":\"somepassphrase\"}}";
_auto_(l_free)char *tech;
_auto_(l_free)char *ssid;
_auto_(l_free)char *akm;
_auto_(l_free)char *pass;
_auto_(l_free)char *opt_not_found;
struct json_iter objnotfound;
struct json_iter discovery;
struct json_iter cred;
struct json_iter iter;
struct json_contents *c = json_contents_new(json, strlen(json));
json_iter_init(&iter, c);
assert(json_iter_parse(&iter,
JSON_MANDATORY("wi-fi_tech", JSON_STRING, &tech),
JSON_MANDATORY("discovery", JSON_OBJECT, &discovery),
JSON_MANDATORY("cred", JSON_OBJECT, &cred),
JSON_OPTIONAL("notfound", JSON_STRING, &opt_not_found),
JSON_OPTIONAL("objnotfound", JSON_OBJECT, &objnotfound),
JSON_UNDEFINED));
assert(opt_not_found == NULL);
assert(!json_iter_is_valid(&objnotfound));
assert(!strcmp(tech, "infra"));
assert(json_iter_parse(&discovery,
JSON_MANDATORY("ssid", JSON_STRING, &ssid),
JSON_UNDEFINED));
assert(!strcmp(ssid, "somessid"));
assert(json_iter_parse(&cred,
JSON_MANDATORY("akm", JSON_STRING, &akm),
JSON_MANDATORY("pass", JSON_STRING, &pass),
JSON_UNDEFINED));
assert(!strcmp(akm, "psk"));
assert(!strcmp(pass, "somepassphrase"));
json_contents_free(c);
}
/*
* Tests empty objects parse successfully
*/
static void test_json_empty_objects(const void *data)
{
char empty[] = "{}";
char nested_empty[] = "{\"empty\":{}}";
struct json_iter nested_iter;
struct json_iter iter;
struct json_contents *c = json_contents_new(empty, strlen(empty));
json_iter_init(&iter, c);
assert(json_iter_parse(&iter, JSON_UNDEFINED));
assert(json_iter_parse(&iter,
JSON_OPTIONAL("optional", JSON_OBJECT, NULL),
JSON_UNDEFINED));
assert(!json_iter_parse(&iter,
JSON_MANDATORY("optional", JSON_OBJECT, NULL),
JSON_UNDEFINED));
json_contents_free(c);
c = json_contents_new(nested_empty, strlen(nested_empty));
json_iter_init(&iter, c);
assert(json_iter_parse(&iter,
JSON_MANDATORY("empty", JSON_OBJECT, &nested_iter),
JSON_UNDEFINED));
assert(json_iter_parse(&nested_iter, JSON_UNDEFINED));
assert(!json_iter_parse(&nested_iter,
JSON_MANDATORY("mandatory", JSON_OBJECT, NULL),
JSON_UNDEFINED));
json_contents_free(c);
}
/*
* Tests that expected key/values can be provided in an order different than
* they appear in the JSON string.
*/
static void test_json_out_of_order(const void *data)
{
char object[] = "{\"key1\":{},\"key2\":\"val2\",\"key3\":\"val3\"}";
struct json_iter iter;
struct json_contents *c = json_contents_new(object, strlen(object));
json_iter_init(&iter, c);
assert(json_iter_parse(&iter,
JSON_OPTIONAL("nonexist1", JSON_STRING, NULL),
JSON_MANDATORY("key3", JSON_STRING, NULL),
JSON_MANDATORY("key2", JSON_STRING, NULL),
JSON_OPTIONAL("nonexist2", JSON_OBJECT, NULL),
JSON_MANDATORY("key1", JSON_OBJECT, NULL),
JSON_UNDEFINED));
json_contents_free(c);
}
/*
* Tests that the token bounds checking works.
*/
static void test_json_larger_object(const void *data)
{
char json[] = "{\"test1\":\"tester1\","
"\"test2\":\"tester2\","
"\"test3\":\"tester3\","
"\"test4\":\"tester4\","
"\"test5\":\"tester5\","
"\"test6\":\"tester6\","
"\"test7\":\"tester7\","
"\"test8\":\"tester8\","
"\"test9\":\"tester9\","
"\"test10\":\"tester10\","
"\"test11\":\"tester11\","
"\"test12\":\"tester12\","
"\"test13\":\"tester13\"}";
struct json_iter iter;
struct json_contents *c = json_contents_new(json, strlen(json));
json_iter_init(&iter, c);
assert(json_iter_parse(&iter,
JSON_MANDATORY("test13", JSON_STRING, NULL),
JSON_UNDEFINED));
json_contents_free(c);
}
static void check_primitives(struct json_iter *i, struct json_iter *ui,
struct json_iter *t, struct json_iter *f,
struct json_iter *null, struct json_iter *obj)
{
int i_val;
unsigned int ui_val;
bool b_val;
assert(json_iter_is_valid(i));
assert(!json_iter_get_uint(i, NULL));
assert(!json_iter_get_boolean(i, NULL));
assert(!json_iter_get_null(i));
assert(!json_iter_next(i));
assert(json_iter_get_int(i, &i_val));
assert(i_val == -10);
assert(json_iter_is_valid(ui));
assert(!json_iter_get_boolean(ui, NULL));
assert(!json_iter_get_null(ui));
assert(!json_iter_next(ui));
assert(json_iter_get_int(ui, &i_val));
assert(json_iter_get_uint(ui, &ui_val));
assert(i_val == 10 && ui_val == 10);
assert(json_iter_is_valid(t));
assert(!json_iter_get_null(t));
assert(!json_iter_get_int(t, NULL));
assert(!json_iter_get_uint(t, NULL));
assert(!json_iter_next(t));
assert(json_iter_get_boolean(t, &b_val));
assert(b_val == true);
assert(json_iter_is_valid(f));
assert(!json_iter_get_null(f));
assert(!json_iter_get_int(f, NULL));
assert(!json_iter_get_uint(f, NULL));
assert(!json_iter_next(f));
assert(json_iter_get_boolean(f, &b_val));
assert(b_val == false);
assert(json_iter_is_valid(null));
assert(!json_iter_get_int(null, NULL));
assert(!json_iter_get_uint(null, NULL));
assert(!json_iter_get_boolean(null, NULL));
assert(!json_iter_next(null));
assert(json_iter_get_null(null));
if (obj) {
assert(json_iter_is_valid(obj));
assert(!json_iter_next(obj));
assert(json_iter_parse(obj,
JSON_MANDATORY("null_val", JSON_PRIMITIVE, null),
JSON_MANDATORY("false_val", JSON_PRIMITIVE, f),
JSON_MANDATORY("true_val", JSON_PRIMITIVE, t),
JSON_MANDATORY("int_val", JSON_PRIMITIVE, i),
JSON_MANDATORY("uint_val", JSON_PRIMITIVE, ui),
JSON_UNDEFINED));
check_primitives(i, ui, t, f, null, NULL);
}
}
static void test_json_primitives(const void *data)
{
char json[] = "{\"int_val\": -10,"
"\"uint_val\": 10,"
"\"true_val\": true,"
"\"false_val\": false,"
"\"null_val\": null,"
"\"obj_val\":{"
"\"int_val\": -10,"
"\"uint_val\": 10,"
"\"true_val\": true,"
"\"false_val\": false,"
"\"null_val\": null}}";
struct json_contents *c = json_contents_new(json, strlen(json));
struct json_iter outer, inner, null, f, t, i, ui;
struct json_iter not_found;
json_iter_init(&outer, c);
assert(json_iter_parse(&outer,
JSON_MANDATORY("obj_val", JSON_OBJECT, &inner),
JSON_MANDATORY("null_val", JSON_PRIMITIVE, &null),
JSON_MANDATORY("false_val", JSON_PRIMITIVE, &f),
JSON_MANDATORY("true_val", JSON_PRIMITIVE, &t),
JSON_MANDATORY("int_val", JSON_PRIMITIVE, &i),
JSON_MANDATORY("uint_val", JSON_PRIMITIVE, &ui),
JSON_OPTIONAL("not_found", JSON_PRIMITIVE, &not_found),
JSON_UNDEFINED));
assert(!json_iter_is_valid(&not_found));
check_primitives(&i, &ui, &t, &f, &null, &inner);
json_contents_free(c);
}
static void test_json_arrays(const void *data)
{
unsigned int ui;
int i;
bool b;
int count;
char json[] = "{\"uint_array\":[1, 2, 3, 4, 5, 6],"
"\"int_array\":[-1, -2, -3, -4, -5, -6],"
"\"bool_array\":[true, false, true, false],"
"\"null_array\":[null, null, null, null],"
"\"obj_array\":[{}, {\"key\":\"value\", \"key2\":\"value2\"}],"
"\"mixed_array\":[1, -1, true, false, null, \"string\"]}";
struct json_iter iter;
struct json_iter i_array, ui_array, b_array, n_array,
m_array, obj_array;
struct json_contents *c = json_contents_new(json, strlen(json));
json_iter_init(&iter, c);
assert(json_iter_parse(&iter,
JSON_MANDATORY("mixed_array", JSON_ARRAY, &m_array),
JSON_MANDATORY("null_array", JSON_ARRAY, &n_array),
JSON_MANDATORY("bool_array", JSON_ARRAY, &b_array),
JSON_MANDATORY("int_array", JSON_ARRAY, &i_array),
JSON_MANDATORY("uint_array", JSON_ARRAY, &ui_array),
JSON_MANDATORY("obj_array", JSON_ARRAY, &obj_array),
JSON_UNDEFINED));
count = 1;
while (json_iter_next(&ui_array)) {
assert(json_iter_get_type(&ui_array) == JSON_PRIMITIVE);
assert(!json_iter_parse(&ui_array, JSON_UNDEFINED));
assert(json_iter_get_uint(&ui_array, &ui));
assert(ui == (unsigned int) count);
count++;
}
count = -1;
while (json_iter_next(&i_array)) {
assert(json_iter_get_type(&i_array) == JSON_PRIMITIVE);
assert(!json_iter_parse(&i_array, JSON_UNDEFINED));
assert(json_iter_get_int(&i_array, &i));
assert(i == count);
count--;
}
count = 0;
while (json_iter_next(&b_array)) {
assert(json_iter_get_type(&b_array) == JSON_PRIMITIVE);
assert(!json_iter_parse(&b_array, JSON_UNDEFINED));
assert(json_iter_get_boolean(&b_array, &b));
assert(b == count % 2 ? false : true);
count++;
}
count = 0;
while (json_iter_next(&n_array)) {
assert(json_iter_get_type(&n_array) == JSON_PRIMITIVE);
assert(!json_iter_parse(&n_array, JSON_UNDEFINED));
assert(json_iter_get_null(&n_array));
count++;
}
assert(count == 4);
count = 0;
while (json_iter_next(&m_array)) {
_auto_(l_free) char *str = NULL;
switch (count) {
case 0:
assert(json_iter_get_type(&m_array) == JSON_PRIMITIVE);
assert(json_iter_get_uint(&m_array, &ui));
assert(ui == 1);
break;
case 1:
assert(json_iter_get_type(&m_array) == JSON_PRIMITIVE);
assert(json_iter_get_int(&m_array, &i));
assert(i == -1);
break;
case 2:
case 3:
assert(json_iter_get_type(&m_array) == JSON_PRIMITIVE);
assert(json_iter_get_boolean(&m_array, &b));
assert(b == count % 2 ? false : true);
break;
case 4:
assert(json_iter_get_type(&m_array) == JSON_PRIMITIVE);
assert(json_iter_get_null(&m_array));
break;
case 5:
assert(json_iter_get_type(&m_array) == JSON_STRING);
assert(json_iter_get_string(&m_array, &str));
assert(!strcmp(str, "string"));
break;
}
count++;
}
count = 0;
assert(!json_iter_parse(&obj_array, JSON_UNDEFINED));
while (json_iter_next(&obj_array)) {
struct json_iter object;
assert(json_iter_get_type(&obj_array) == JSON_OBJECT);
assert(json_iter_get_container(&obj_array, &object));
switch (count) {
case 0:
assert(json_iter_parse(&object, JSON_UNDEFINED));
break;
case 1:
assert(json_iter_parse(&object,
JSON_MANDATORY("key", JSON_STRING, NULL),
JSON_UNDEFINED));
break;
}
count++;
}
assert(count == 2);
json_contents_free(c);
}
static void test_json_nested_arrays(const void *data)
{
char json[] = "{\"array\":[[], {}, [1, 2], {\"key\":\"value\"}, [\"one\",\"two\"]]}";
int count = 0;
struct json_iter iter;
struct json_iter array;
struct json_iter inner;
struct json_contents *c = json_contents_new(json, strlen(json));
json_iter_init(&iter, c);
assert(json_iter_parse(&iter,
JSON_MANDATORY("array", JSON_ARRAY, &array),
JSON_UNDEFINED));
while (json_iter_next(&array)) {
int count2 = 0;
assert(json_iter_get_container(&array, &inner));
while (json_iter_next(&inner)) {
_auto_(l_free) char *str = NULL;
switch (count) {
case 0:
case 1:
assert(false);
break;
case 4:
assert(json_iter_get_type(&inner) ==
JSON_STRING);
assert(json_iter_get_string(&inner, &str));
if (count2 == 0)
assert(!strcmp("one", str));
else
assert(!strcmp("two", str));
break;
}
count2++;
}
switch (count) {
case 0:
assert(count2 == 0);
break;
case 1:
assert(count2 == 0);
break;
case 2:
assert(count2 == 2);
break;
case 3:
assert(count2 == 0);
break;
case 4:
assert(count2 == 2);
break;
default:
break;
}
count++;
}
assert(count == 5);
json_contents_free(c);
}
int main(int argc, char *argv[])
{
l_test_init(&argc, &argv);
l_test_add("json unicode", test_json_unicode, NULL);
l_test_add("json escaped unicode", test_json_escaped_unicode, NULL);
l_test_add("json nested objects", test_json, NULL);
l_test_add("json empty objects", test_json_empty_objects, NULL);
l_test_add("json parse out of order", test_json_out_of_order, NULL);
l_test_add("json larger object", test_json_larger_object, NULL);
l_test_add("json test primitives", test_json_primitives, NULL);
l_test_add("json test arrays", test_json_arrays, NULL);
l_test_add("json test nested arrays", test_json_nested_arrays, NULL);
return l_test_run();
}