/*
* Copyright (c) 2010-2016 Kungliga Tekniska Högskolan
* (Royal Institute of Technology, Stockholm, Sweden).
* All rights reserved.
*
* Portions Copyright (c) 2010 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* 3. Neither the name of the Institute nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
/*
* This is a test of libheimbase functionality. If you make any changes
* to libheimbase or to this test you should run it under valgrind with
* the following options:
*
* -v --track-fds=yes --num-callers=30 --leak-check=full
*
* and make sure that there are no leaks that don't have
* __heim_string_constant() or heim_db_register() in their stack trace.
*/
#include <err.h>
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#ifndef WIN32
#include <sys/file.h>
#include <locale.h>
#endif
#ifdef HAVE_IO_H
#include <io.h>
#endif
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
#include <fcntl.h>
#include "baselocl.h"
#include "heimbase-atomics.h"
static void HEIM_CALLCONV
memory_free(heim_object_t obj)
{
}
static int
test_memory(void)
{
void *ptr;
ptr = heim_alloc(10, "memory", memory_free);
heim_retain(ptr);
heim_release(ptr);
heim_retain(ptr);
heim_release(ptr);
heim_release(ptr);
ptr = heim_alloc(10, "memory", NULL);
heim_release(ptr);
return 0;
}
static int
test_mutex(void)
{
HEIMDAL_MUTEX m = HEIMDAL_MUTEX_INITIALIZER;
HEIMDAL_MUTEX_lock(&m);
HEIMDAL_MUTEX_unlock(&m);
HEIMDAL_MUTEX_destroy(&m);
HEIMDAL_MUTEX_init(&m);
HEIMDAL_MUTEX_lock(&m);
HEIMDAL_MUTEX_unlock(&m);
HEIMDAL_MUTEX_destroy(&m);
return 0;
}
static int
test_rwlock(void)
{
HEIMDAL_RWLOCK l = HEIMDAL_RWLOCK_INITIALIZER;
HEIMDAL_RWLOCK_rdlock(&l);
HEIMDAL_RWLOCK_unlock(&l);
HEIMDAL_RWLOCK_wrlock(&l);
HEIMDAL_RWLOCK_unlock(&l);
if (HEIMDAL_RWLOCK_trywrlock(&l) != 0)
err(1, "HEIMDAL_RWLOCK_trywrlock() failed with lock not held");
HEIMDAL_RWLOCK_unlock(&l);
if (HEIMDAL_RWLOCK_tryrdlock(&l))
err(1, "HEIMDAL_RWLOCK_tryrdlock() failed with lock not held");
HEIMDAL_RWLOCK_unlock(&l);
HEIMDAL_RWLOCK_destroy(&l);
HEIMDAL_RWLOCK_init(&l);
HEIMDAL_RWLOCK_rdlock(&l);
HEIMDAL_RWLOCK_unlock(&l);
HEIMDAL_RWLOCK_wrlock(&l);
HEIMDAL_RWLOCK_unlock(&l);
if (HEIMDAL_RWLOCK_trywrlock(&l))
err(1, "HEIMDAL_RWLOCK_trywrlock() failed with lock not held");
HEIMDAL_RWLOCK_unlock(&l);
if (HEIMDAL_RWLOCK_tryrdlock(&l))
err(1, "HEIMDAL_RWLOCK_tryrdlock() failed with lock not held");
HEIMDAL_RWLOCK_unlock(&l);
HEIMDAL_RWLOCK_destroy(&l);
return 0;
}
static int
test_dict(void)
{
heim_dict_t dict;
heim_number_t a1 = heim_number_create(1);
heim_string_t a2 = heim_string_create("hejsan");
heim_number_t a3 = heim_number_create(3);
heim_string_t a4 = heim_string_create("foosan");
dict = heim_dict_create(10);
heim_dict_set_value(dict, a1, a2);
heim_dict_set_value(dict, a3, a4);
heim_dict_delete_key(dict, a3);
heim_dict_delete_key(dict, a1);
heim_release(a1);
heim_release(a2);
heim_release(a3);
heim_release(a4);
heim_release(dict);
return 0;
}
static int
test_auto_release(void)
{
heim_auto_release_t ar1, ar2;
heim_number_t n1;
heim_string_t s1;
ar1 = heim_auto_release_create();
s1 = heim_string_create("hejsan");
heim_auto_release(s1);
n1 = heim_number_create(1);
heim_auto_release(n1);
ar2 = heim_auto_release_create();
n1 = heim_number_create(1);
heim_auto_release(n1);
heim_release(ar2);
heim_release(ar1);
return 0;
}
static int
test_string(void)
{
heim_string_t s1, s2;
const char *string = "hejsan";
s1 = heim_string_create(string);
s2 = heim_string_create(string);
if (heim_cmp(s1, s2) != 0) {
printf("the same string is not the same\n");
exit(1);
}
heim_release(s1);
heim_release(s2);
return 0;
}
static int
test_error(void)
{
heim_error_t e;
heim_string_t s;
e = heim_error_create(10, "foo: %s", "bar");
heim_assert(heim_error_get_code(e) == 10, "error_code != 10");
s = heim_error_copy_string(e);
heim_assert(strcmp(heim_string_get_utf8(s), "foo: bar") == 0, "msg wrong");
heim_release(s);
heim_release(e);
return 0;
}
static int
test_json(void)
{
static char *j[] = {
"{ \"k1\" : \"s1\", \"k2\" : \"s2\" }",
"{ \"k1\" : [\"s1\", \"s2\", \"s3\"], \"k2\" : \"s3\" }",
"{ \"k1\" : {\"k2\":\"s1\",\"k3\":\"s2\",\"k4\":\"s3\"}, \"k5\" : \"s4\" }",
("[ \"v1\", \"v2\", [\"v3\",\"v4\",[\"v 5\",\" v 7 \"]], -123456789, "
"null, true, false, 123456789, \"\"]"),
" -1"
};
char *s;
size_t i, k;
heim_object_t o, o2, o3;
heim_string_t k1 = heim_string_create("k1");
o = heim_json_create("\"string\"", 10, 0, NULL);
heim_assert(o != NULL, "string");
heim_assert(heim_get_tid(o) == heim_string_get_type_id(), "string-tid");
heim_assert(strcmp("string", heim_string_get_utf8(o)) == 0, "wrong string");
o2 = heim_json_copy_serialize(o, 0, NULL);
o3 = heim_json_create(heim_string_get_utf8(o2), 10, 0, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
/*
* Test string escaping:
*
* - C-like must-escapes
* - ASCII control character must-escapes
* - surrogate pairs
*
* We test round-tripping. First we parse, then we serialize, then parse,
* then compare the second parse to the first for equality.
*
* We do compare serialized forms in spite of their not being canonical.
* That means that some changes to serialization can cause failures here.
*/
o = heim_json_create("\""
"\\b\\f\\n\\r\\t" /* ASCII C-like escapes */
"\x1e" /* ASCII control character w/o C-like escape */
"\\u00e1" /* á */
"\\u07ff"
"\\u0801"
"\\u8001"
"\\uD834\\udd1e" /* U+1D11E, as shown in RFC 7159 */
"\"", 10, 0, NULL);
heim_assert(o != NULL, "string");
heim_assert(heim_get_tid(o) == heim_string_get_type_id(), "string-tid");
heim_assert(strcmp(
"\b\f\n\r\t"
"\x1e"
"\xc3\xa1"
"\xdf\xbf"
"\xe0\xA0\x81"
"\xe8\x80\x81"
"\xf0\x9d\x84\x9e", heim_string_get_utf8(o)) == 0, "wrong string");
o2 = heim_json_copy_serialize(o,
HEIM_JSON_F_STRICT |
HEIM_JSON_F_NO_ESCAPE_NON_ASCII, NULL);
heim_assert(strcmp("\"\\b\\f\\n\\r\\t\\u001Eá߿ࠁ老\\uD834\\uDD1E\"",
heim_string_get_utf8(o2)) == 0,
"JSON encoding changed; please check that it is till valid");
o3 = heim_json_create(heim_string_get_utf8(o2), 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
o = heim_json_create("\""
"\\b\\f\\n\\r\\t" /* ASCII C-like escapes */
"\x1e" /* ASCII control character w/o C-like escape */
"\xc3\xa1"
"\xdf\xbf"
"\xe0\xa0\x81"
"\xE8\x80\x81"
"\\uD834\\udd1e" /* U+1D11E, as shown in RFC 7159 */
"\"", 10, 0, NULL);
heim_assert(o != NULL, "string");
heim_assert(heim_get_tid(o) == heim_string_get_type_id(), "string-tid");
heim_assert(strcmp(
"\b\f\n\r\t"
"\x1e"
"\xc3\xa1"
"\xdf\xbf"
"\xe0\xA0\x81"
"\xe8\x80\x81"
"\xf0\x9d\x84\x9e", heim_string_get_utf8(o)) == 0, "wrong string");
o2 = heim_json_copy_serialize(o,
HEIM_JSON_F_STRICT |
HEIM_JSON_F_NO_ESCAPE_NON_ASCII, NULL);
heim_assert(strcmp("\"\\b\\f\\n\\r\\t\\u001Eá߿ࠁ老\\uD834\\uDD1E\"",
heim_string_get_utf8(o2)) == 0,
"JSON encoding changed; please check that it is till valid");
o3 = heim_json_create(heim_string_get_utf8(o2), 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
/*
* Test HEIM_JSON_F_ESCAPE_NON_ASCII.
*
* Also test that we get escaped non-ASCII because we're in a not-UTF-8
* locale, since we setlocale(LC_ALL, "C"), so we should escape non-ASCII
* by default.
*/
o = heim_json_create("\""
"\\b\\f\\n\\r\\t" /* ASCII C-like escapes */
"\x1e" /* ASCII control character w/o C-like escape */
"\xc3\xa1"
"\xdf\xbf"
"\xe0\xa0\x81"
"\xE8\x80\x81"
"\\uD834\\udd1e" /* U+1D11E, as shown in RFC 7159 */
"\"", 10, 0, NULL);
heim_assert(o != NULL, "string");
heim_assert(heim_get_tid(o) == heim_string_get_type_id(), "string-tid");
heim_assert(strcmp(
"\b\f\n\r\t"
"\x1e"
"\xc3\xa1"
"\xdf\xbf"
"\xe0\xA0\x81"
"\xe8\x80\x81"
"\xf0\x9d\x84\x9e", heim_string_get_utf8(o)) == 0, "wrong string");
o2 = heim_json_copy_serialize(o,
HEIM_JSON_F_STRICT |
HEIM_JSON_F_ESCAPE_NON_ASCII, NULL);
heim_assert(strcmp("\"\\b\\f\\n\\r\\t\\u001E\\u00E1\\u07FF\\u0801\\u8001"
"\\uD834\\uDD1E\"",
heim_string_get_utf8(o2)) == 0,
"JSON encoding changed; please check that it is till valid");
heim_release(o2);
o2 = heim_json_copy_serialize(o, HEIM_JSON_F_STRICT, NULL);
heim_assert(strcmp("\"\\b\\f\\n\\r\\t\\u001E\\u00E1\\u07FF\\u0801\\u8001"
"\\uD834\\uDD1E\"",
heim_string_get_utf8(o2)) == 0,
"JSON encoding changed; please check that it is till valid");
o3 = heim_json_create(heim_string_get_utf8(o2), 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
/* Test rejection of unescaped ASCII control characters */
o = heim_json_create("\"\b\\f\"", 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(o == NULL, "strict parse accepted bad input");
o = heim_json_create("\"\b\x1e\"", 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(o == NULL, "strict parse accepted bad input");
o = heim_json_create("\"\b\\f\"", 10, 0, NULL);
heim_assert(o != NULL, "string");
heim_assert(heim_get_tid(o) == heim_string_get_type_id(), "string-tid");
heim_assert(strcmp("\b\f", heim_string_get_utf8(o)) == 0, "wrong string");
o2 = heim_json_copy_serialize(o,
HEIM_JSON_F_STRICT |
HEIM_JSON_F_NO_ESCAPE_NON_ASCII, NULL);
heim_assert(strcmp("\"\\b\\f\"", heim_string_get_utf8(o2)) == 0,
"JSON encoding changed; please check that it is till valid");
o3 = heim_json_create(heim_string_get_utf8(o2), 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
/* Test bogus backslash escape */
o = heim_json_create("\""
"\\ "
"\"", 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(o == NULL, "malformed string accepted");
o = heim_json_create("\""
"\\ "
"\"", 10, 0, NULL);
heim_assert(o != NULL, "malformed string rejected (not strict)");
heim_assert(heim_get_tid(o) == heim_string_get_type_id(), "string-tid");
heim_assert(strcmp(" ", heim_string_get_utf8(o)) == 0, "wrong string");
o2 = heim_json_copy_serialize(o,
HEIM_JSON_F_STRICT |
HEIM_JSON_F_NO_ESCAPE_NON_ASCII, NULL);
heim_assert(strcmp("\" \"", heim_string_get_utf8(o2)) == 0,
"JSON encoding changed; please check that it is till valid");
o3 = heim_json_create(heim_string_get_utf8(o2), 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
/* Test truncated surrogate encoding (bottom code unit) */
o = heim_json_create("\""
"\xE8\x80\x81"
"\\uD834\\udd"
"\"", 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(o == NULL, "malformed string accepted");
o = heim_json_create("\""
"\xE8\x80\x81"
"\\uD834\\udd"
"\"", 10, 0, NULL);
heim_assert(o != NULL, "malformed string rejected (not strict)");
heim_assert(heim_get_tid(o) == heim_string_get_type_id(), "string-tid");
heim_assert(strcmp(
"\xe8\x80\x81"
"\\uD834\\udd", heim_string_get_utf8(o)) == 0, "wrong string");
o2 = heim_json_copy_serialize(o,
HEIM_JSON_F_STRICT |
HEIM_JSON_F_NO_ESCAPE_NON_ASCII, NULL);
heim_assert(strcmp("\"老\\\\uD834\\\\udd\"",
heim_string_get_utf8(o2)) == 0,
"JSON encoding changed; please check that it is till valid");
o3 = heim_json_create(heim_string_get_utf8(o2), 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
/* Test truncated surrogate encodings (top code unit) */
o = heim_json_create("\""
"\xE8\x80\x81"
"\\uD83"
"\"", 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(o == NULL, "malformed string accepted");
o = heim_json_create("\""
"\xE8\x80\x81"
"\\uD83"
"\"", 10, 0, NULL);
heim_assert(o != NULL, "malformed string rejected (not strict)");
heim_assert(heim_get_tid(o) == heim_string_get_type_id(), "string-tid");
heim_assert(strcmp(
"\xe8\x80\x81"
"\\uD83", heim_string_get_utf8(o)) == 0, "wrong string");
o2 = heim_json_copy_serialize(o,
HEIM_JSON_F_STRICT |
HEIM_JSON_F_NO_ESCAPE_NON_ASCII, NULL);
heim_assert(strcmp("\"老\\\\uD83\"",
heim_string_get_utf8(o2)) == 0,
"JSON encoding changed; please check that it is till valid");
o3 = heim_json_create(heim_string_get_utf8(o2), 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
/*
* Test handling of truncated UTF-8 multi-byte sequences.
*/
o = heim_json_create("\""
"\xE8\x80"
"\"", 10, 0, NULL);
heim_assert(o != NULL, "malformed string rejected (not strict)");
heim_assert(heim_get_tid(o) == heim_string_get_type_id(), "string-tid");
heim_assert(strcmp("\xe8\x80",
heim_string_get_utf8(o)) == 0, "wrong string");
o2 = heim_json_copy_serialize(o,
HEIM_JSON_F_STRICT |
HEIM_JSON_F_NO_ESCAPE_NON_ASCII, NULL);
heim_assert(o2 == NULL, "malformed string serialized");
o2 = heim_json_copy_serialize(o, HEIM_JSON_F_NO_ESCAPE_NON_ASCII, NULL);
o3 = heim_json_create(heim_string_get_utf8(o2), 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(o3 == NULL, "malformed string accepted (not strict)");
o3 = heim_json_create(heim_string_get_utf8(o2), 10, 0, NULL);
heim_assert(strcmp("\xe8\x80",
heim_string_get_utf8(o3)) == 0, "wrong string");
heim_release(o3);
heim_release(o2);
heim_release(o);
/* Test handling of unescaped / embedded newline */
o = heim_json_create("\"\n\"", 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(o == NULL, "malformed string accepted (strict)");
o = heim_json_create("\"\n\"", 10, 0, NULL);
heim_assert(o != NULL, "malformed string rejected (not strict)");
heim_assert(heim_get_tid(o) == heim_string_get_type_id(), "string-tid");
heim_assert(strcmp("\n", heim_string_get_utf8(o)) == 0, "wrong string");
o2 = heim_json_copy_serialize(o, HEIM_JSON_F_STRICT, NULL);
heim_assert(o2 != NULL, "string not serialized");
o3 = heim_json_create(heim_string_get_utf8(o2), 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(o3 != NULL, "string not accepted");
heim_assert(strcmp("\n", heim_string_get_utf8(o3)) == 0, "wrong string");
heim_release(o3);
heim_release(o2);
heim_release(o);
/* Test handling of embedded NULs (must decode as data, not string) */
o = heim_json_create("\"\\u0000\"", 10, HEIM_JSON_F_STRICT, NULL);
heim_assert(o != NULL, "string with NULs rejected");
heim_assert(heim_get_tid(o) == heim_data_get_type_id(), "data-tid");
heim_assert(heim_data_get_length(o) == 1, "wrong data length");
heim_assert(((const char *)heim_data_get_ptr(o))[0] == '\0',
"wrong data NUL");
o2 = heim_json_copy_serialize(o, 0, NULL);
heim_assert(o2 != NULL, "data not serialized");
heim_release(o2);
heim_release(o);
/*
* Note that the trailing ']' is not part of the JSON text (which is just a
* string).
*/
o = heim_json_create(" \"foo\\\"bar\" ]", 10, 0, NULL);
heim_assert(o != NULL, "string");
heim_assert(heim_get_tid(o) == heim_string_get_type_id(), "string-tid");
heim_assert(strcmp("foo\"bar", heim_string_get_utf8(o)) == 0, "wrong string");
o2 = heim_json_copy_serialize(o, 0, NULL);
o3 = heim_json_create(heim_string_get_utf8(o2), 10, 0, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
o = heim_json_create(" { \"key\" : \"value\" }", 10, 0, NULL);
heim_assert(o != NULL, "dict");
heim_assert(heim_get_tid(o) == heim_dict_get_type_id(), "dict-tid");
o2 = heim_json_copy_serialize(o, 0, NULL);
o3 = heim_json_create(heim_string_get_utf8(o2), 10, 0, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
/*
* heim_json_eq() can't handle dicts with dicts as keys, so we don't check
* for round-tripping here
*/
o = heim_json_create("{ { \"k1\" : \"s1\", \"k2\" : \"s2\" } : \"s3\", "
"{ \"k3\" : \"s4\" } : -1 }", 10, 0, NULL);
heim_assert(o != NULL, "dict");
heim_assert(heim_get_tid(o) == heim_dict_get_type_id(), "dict-tid");
heim_release(o);
o = heim_json_create("{ { \"k1\" : \"s1\", \"k2\" : \"s2\" } : \"s3\", "
"{ \"k3\" : \"s4\" } : -1 }", 10,
HEIM_JSON_F_STRICT_DICT, NULL);
heim_assert(o == NULL, "dict");
o = heim_json_create(" { \"k1\" : \"s1\", \"k2\" : \"s2\" }", 10, 0, NULL);
heim_assert(o != NULL, "dict");
heim_assert(heim_get_tid(o) == heim_dict_get_type_id(), "dict-tid");
o2 = heim_dict_copy_value(o, k1);
heim_assert(heim_get_tid(o2) == heim_string_get_type_id(), "string-tid");
heim_release(o2);
o2 = heim_json_copy_serialize(o, 0, NULL);
o3 = heim_json_create(heim_string_get_utf8(o2), 10, 0, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
o = heim_json_create(" { \"k1\" : { \"k2\" : \"s2\" } }", 10, 0, NULL);
heim_assert(o != NULL, "dict");
heim_assert(heim_get_tid(o) == heim_dict_get_type_id(), "dict-tid");
o2 = heim_dict_copy_value(o, k1);
heim_assert(heim_get_tid(o2) == heim_dict_get_type_id(), "dict-tid");
heim_release(o2);
o2 = heim_json_copy_serialize(o, 0, NULL);
o3 = heim_json_create(heim_string_get_utf8(o2), 10, 0, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
o = heim_json_create("{ \"k1\" : 1 }", 10, 0, NULL);
heim_assert(o != NULL, "array");
heim_assert(heim_get_tid(o) == heim_dict_get_type_id(), "dict-tid");
o2 = heim_dict_copy_value(o, k1);
heim_assert(heim_get_tid(o2) == heim_number_get_type_id(), "number-tid");
heim_release(o2);
o2 = heim_json_copy_serialize(o, 0, NULL);
o3 = heim_json_create(heim_string_get_utf8(o2), 10, 0, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
o = heim_json_create("-10", 10, 0, NULL);
heim_assert(o != NULL, "number");
heim_assert(heim_get_tid(o) == heim_number_get_type_id(), "number-tid");
o2 = heim_json_copy_serialize(o, 0, NULL);
o3 = heim_json_create(heim_string_get_utf8(o2), 10, 0, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
o = heim_json_create("99", 10, 0, NULL);
heim_assert(o != NULL, "number");
heim_assert(heim_get_tid(o) == heim_number_get_type_id(), "number-tid");
o2 = heim_json_copy_serialize(o, 0, NULL);
o3 = heim_json_create(heim_string_get_utf8(o2), 10, 0, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
o = heim_json_create(" [ 1 ]", 10, 0, NULL);
heim_assert(o != NULL, "array");
heim_assert(heim_get_tid(o) == heim_array_get_type_id(), "array-tid");
o2 = heim_json_copy_serialize(o, 0, NULL);
o3 = heim_json_create(heim_string_get_utf8(o2), 10, 0, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
o = heim_json_create(" [ -1 ]", 10, 0, NULL);
heim_assert(o != NULL, "array");
heim_assert(heim_get_tid(o) == heim_array_get_type_id(), "array-tid");
o2 = heim_json_copy_serialize(o, 0, NULL);
o3 = heim_json_create(heim_string_get_utf8(o2), 10, 0, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
for (i = 0; i < (sizeof (j) / sizeof (j[0])); i++) {
o = heim_json_create(j[i], 10, 0, NULL);
if (o == NULL) {
fprintf(stderr, "Failed to parse this JSON: %s\n", j[i]);
return 1;
}
o2 = heim_json_copy_serialize(o, 0, NULL);
o3 = heim_json_create(heim_string_get_utf8(o2), 10, 0, NULL);
heim_assert(heim_json_eq(o, o3), "JSON text did not round-trip");
heim_release(o3);
heim_release(o2);
heim_release(o);
/* Simple fuzz test */
for (k = strlen(j[i]) - 1; k > 0; k--) {
o = heim_json_create_with_bytes(j[i], k, 10, 0, NULL);
if (o != NULL) {
fprintf(stderr, "Invalid JSON parsed: %.*s\n", (int)k, j[i]);
return EINVAL;
}
}
/* Again, but this time make it so valgrind can find invalid accesses */
for (k = strlen(j[i]) - 1; k > 0; k--) {
s = strndup(j[i], k);
if (s == NULL)
return ENOMEM;
o = heim_json_create(s, 10, 0, NULL);
free(s);
if (o != NULL) {
fprintf(stderr, "Invalid JSON parsed: %s\n", j[i]);
return EINVAL;
}
}
/* Again, but with no NUL termination */
for (k = strlen(j[i]) - 1; k > 0; k--) {
s = malloc(k);
if (s == NULL)
return ENOMEM;
memcpy(s, j[i], k);
o = heim_json_create_with_bytes(s, k, 10, 0, NULL);
free(s);
if (o != NULL) {
fprintf(stderr, "Invalid JSON parsed: %s\n", j[i]);
return EINVAL;
}
}
}
heim_release(k1);
return 0;
}
static int
test_path(void)
{
heim_dict_t dict = heim_dict_create(11);
heim_string_t p1 = heim_string_create("abc");
heim_string_t p2a = heim_string_create("def");
heim_string_t p2b = heim_string_create("DEF");
heim_number_t p3 = heim_number_create(0);
heim_string_t p4a = heim_string_create("ghi");
heim_string_t p4b = heim_string_create("GHI");
heim_array_t a = heim_array_create();
heim_number_t l1 = heim_number_create(42);
heim_number_t l2 = heim_number_create(813);
heim_number_t l3 = heim_number_create(1234);
heim_string_t k1 = heim_string_create("k1");
heim_string_t k2 = heim_string_create("k2");
heim_string_t k3 = heim_string_create("k3");
heim_string_t k2_1 = heim_string_create("k2-1");
heim_string_t k2_2 = heim_string_create("k2-2");
heim_string_t k2_3 = heim_string_create("k2-3");
heim_string_t k2_4 = heim_string_create("k2-4");
heim_string_t k2_5 = heim_string_create("k2-5");
heim_string_t k2_5_1 = heim_string_create("k2-5-1");
heim_object_t o;
heim_object_t neg_num;
int ret;
if (!dict || !p1 || !p2a || !p2b || !p4a || !p4b)
return ENOMEM;
ret = heim_path_create(dict, 11, a, NULL, p1, p2a, NULL);
heim_release(a);
if (ret)
return ret;
ret = heim_path_create(dict, 11, l3, NULL, p1, p2b, NULL);
if (ret)
return ret;
o = heim_path_get(dict, NULL, p1, p2b, NULL);
if (o != l3)
return 1;
ret = heim_path_create(dict, 11, NULL, NULL, p1, p2a, p3, NULL);
if (ret)
return ret;
ret = heim_path_create(dict, 11, l1, NULL, p1, p2a, p3, p4a, NULL);
if (ret)
return ret;
ret = heim_path_create(dict, 11, l2, NULL, p1, p2a, p3, p4b, NULL);
if (ret)
return ret;
o = heim_path_get(dict, NULL, p1, p2a, p3, p4a, NULL);
if (o != l1)
return 1;
o = heim_path_get(dict, NULL, p1, p2a, p3, p4b, NULL);
if (o != l2)
return 1;
heim_release(dict);
/* Test that JSON parsing works right by using heim_path_get() */
dict = heim_json_create("{\"k1\":1,"
"\"k2\":{\"k2-1\":21,"
"\"k2-2\":null,"
"\"k2-3\":true,"
"\"k2-4\":false,"
"\"k2-5\":[1,2,3,{\"k2-5-1\":-1},-2]},"
"\"k3\":[true,false,0,42]}", 10, 0, NULL);
heim_assert(dict != NULL, "dict");
o = heim_path_get(dict, NULL, k1, NULL);
if (heim_cmp(o, heim_number_create(1))) return 1;
o = heim_path_get(dict, NULL, k2, NULL);
if (heim_get_tid(o) != heim_dict_get_type_id()) return 1;
o = heim_path_get(dict, NULL, k2, k2_1, NULL);
if (heim_cmp(o, heim_number_create(21))) return 1;
o = heim_path_get(dict, NULL, k2, k2_2, NULL);
if (heim_cmp(o, heim_null_create())) return 1;
o = heim_path_get(dict, NULL, k2, k2_3, NULL);
if (heim_cmp(o, heim_bool_create(1))) return 1;
o = heim_path_get(dict, NULL, k2, k2_4, NULL);
if (heim_cmp(o, heim_bool_create(0))) return 1;
o = heim_path_get(dict, NULL, k2, k2_5, NULL);
if (heim_get_tid(o) != heim_array_get_type_id()) return 1;
o = heim_path_get(dict, NULL, k2, k2_5, heim_number_create(0), NULL);
if (heim_cmp(o, heim_number_create(1))) return 1;
o = heim_path_get(dict, NULL, k2, k2_5, heim_number_create(1), NULL);
if (heim_cmp(o, heim_number_create(2))) return 1;
o = heim_path_get(dict, NULL, k2, k2_5, heim_number_create(3), k2_5_1, NULL);
if (heim_cmp(o, neg_num = heim_number_create(-1))) return 1;
heim_release(neg_num);
o = heim_path_get(dict, NULL, k2, k2_5, heim_number_create(4), NULL);
if (heim_cmp(o, neg_num = heim_number_create(-2))) return 1;
heim_release(neg_num);
o = heim_path_get(dict, NULL, k3, heim_number_create(3), NULL);
if (heim_cmp(o, heim_number_create(42))) return 1;
heim_release(dict);
heim_release(p1);
heim_release(p2a);
heim_release(p2b);
heim_release(p4a);
heim_release(p4b);
heim_release(k1);
heim_release(k2);
heim_release(k3);
heim_release(k2_1);
heim_release(k2_2);
heim_release(k2_3);
heim_release(k2_4);
heim_release(k2_5);
heim_release(k2_5_1);
return 0;
}
typedef struct dict_db {
heim_dict_t dict;
int locked;
} *dict_db_t;
static int
dict_db_open(void *plug, const char *dbtype, const char *dbname,
heim_dict_t options, void **db, heim_error_t *error)
{
dict_db_t dictdb;
heim_dict_t contents = NULL;
if (error)
*error = NULL;
if (dbtype && *dbtype && strcmp(dbtype, "dictdb") != 0)
return EINVAL;
if (dbname && *dbname && strcmp(dbname, "MEMORY") != 0)
return EINVAL;
dictdb = heim_alloc(sizeof (*dictdb), "dict_db", NULL);
if (dictdb == NULL)
return ENOMEM;
if (contents != NULL)
dictdb->dict = contents;
else {
dictdb->dict = heim_dict_create(29);
if (dictdb->dict == NULL) {
heim_release(dictdb);
return ENOMEM;
}
}
*db = dictdb;
return 0;
}
static int
dict_db_close(void *db, heim_error_t *error)
{
dict_db_t dictdb = db;
if (error)
*error = NULL;
heim_release(dictdb->dict);
heim_release(dictdb);
return 0;
}
static int
dict_db_lock(void *db, int read_only, heim_error_t *error)
{
dict_db_t dictdb = db;
if (error)
*error = NULL;
if (dictdb->locked)
return EWOULDBLOCK;
dictdb->locked = 1;
return 0;
}
static int
dict_db_unlock(void *db, heim_error_t *error)
{
dict_db_t dictdb = db;
if (error)
*error = NULL;
dictdb->locked = 0;
return 0;
}
static heim_data_t
dict_db_copy_value(void *db, heim_string_t table, heim_data_t key,
heim_error_t *error)
{
dict_db_t dictdb = db;
if (error)
*error = NULL;
return heim_retain(heim_path_get(dictdb->dict, error, table, key, NULL));
}
static int
dict_db_set_value(void *db, heim_string_t table,
heim_data_t key, heim_data_t value, heim_error_t *error)
{
dict_db_t dictdb = db;
if (error)
*error = NULL;
if (table == NULL)
table = HSTR("");
return heim_path_create(dictdb->dict, 29, value, error, table, key, NULL);
}
static int
dict_db_del_key(void *db, heim_string_t table, heim_data_t key,
heim_error_t *error)
{
dict_db_t dictdb = db;
if (error)
*error = NULL;
if (table == NULL)
table = HSTR("");
heim_path_delete(dictdb->dict, error, table, key, NULL);
return 0;
}
struct dict_db_iter_ctx {
heim_db_iterator_f_t iter_f;
void *iter_ctx;
};
static void dict_db_iter_f(heim_object_t key, heim_object_t value, void *arg)
{
struct dict_db_iter_ctx *ctx = arg;
ctx->iter_f((heim_object_t)key, (heim_object_t)value, ctx->iter_ctx);
}
static void
dict_db_iter(void *db, heim_string_t table, void *iter_data,
heim_db_iterator_f_t iter_f, heim_error_t *error)
{
dict_db_t dictdb = db;
struct dict_db_iter_ctx ctx;
heim_dict_t table_dict;
if (error)
*error = NULL;
if (table == NULL)
table = HSTR("");
table_dict = heim_dict_copy_value(dictdb->dict, table);
if (table_dict == NULL)
return;
ctx.iter_ctx = iter_data;
ctx.iter_f = iter_f;
heim_dict_iterate_f(table_dict, &ctx, dict_db_iter_f);
heim_release(table_dict);
}
static void
test_db_iter(heim_data_t k, heim_data_t v, void *arg)
{
int *ret = arg;
const void *kptr, *vptr;
size_t klen, vlen;
heim_assert(heim_get_tid(k) == heim_data_get_type_id(), "...");
kptr = heim_data_get_ptr(k);
klen = heim_data_get_length(k);
vptr = heim_data_get_ptr(v);
vlen = heim_data_get_length(v);
if (klen == strlen("msg") && strncmp(kptr, "msg", strlen("msg")) == 0 &&
vlen == strlen("abc") && strncmp(vptr, "abc", strlen("abc")) == 0)
*ret &= ~(1);
else if (klen == strlen("msg2") &&
strncmp(kptr, "msg2", strlen("msg2")) == 0 &&
vlen == strlen("FooBar") &&
strncmp(vptr, "FooBar", strlen("FooBar")) == 0)
*ret &= ~(2);
else
*ret |= 4;
}
static struct heim_db_type dbt = {
1, dict_db_open, NULL, dict_db_close,
dict_db_lock, dict_db_unlock, NULL, NULL, NULL, NULL,
dict_db_copy_value, dict_db_set_value,
dict_db_del_key, dict_db_iter
};
static int
test_db(const char *dbtype, const char *dbname)
{
heim_data_t k1, k2, v, v1, v2, v3;
heim_db_t db;
int ret;
if (dbtype == NULL) {
ret = heim_db_register("dictdb", NULL, &dbt);
heim_assert(!ret, "...");
db = heim_db_create("dictdb", "foo", NULL, NULL);
heim_assert(!db, "...");
db = heim_db_create("foobar", "MEMORY", NULL, NULL);
heim_assert(!db, "...");
db = heim_db_create("dictdb", "MEMORY", NULL, NULL);
heim_assert(db, "...");
} else {
heim_dict_t options;
options = heim_dict_create(11);
if (options == NULL) return ENOMEM;
if (heim_dict_set_value(options, HSTR("journal-filename"),
HSTR("json-journal")))
return ENOMEM;
if (heim_dict_set_value(options, HSTR("create"), heim_null_create()))
return ENOMEM;
if (heim_dict_set_value(options, HSTR("truncate"), heim_null_create()))
return ENOMEM;
db = heim_db_create(dbtype, dbname, options, NULL);
heim_assert(db, "...");
heim_release(options);
}
k1 = heim_data_create("msg", strlen("msg"));
k2 = heim_data_create("msg2", strlen("msg2"));
v1 = heim_data_create("Hello world!", strlen("Hello world!"));
v2 = heim_data_create("FooBar", strlen("FooBar"));
v3 = heim_data_create("abc", strlen("abc"));
ret = heim_db_set_value(db, NULL, k1, v1, NULL);
heim_assert(!ret, "...");
v = heim_db_copy_value(db, NULL, k1, NULL);
heim_assert(v && !heim_cmp(v, v1), "...");
heim_release(v);
ret = heim_db_set_value(db, NULL, k2, v2, NULL);
heim_assert(!ret, "...");
v = heim_db_copy_value(db, NULL, k2, NULL);
heim_assert(v && !heim_cmp(v, v2), "...");
heim_release(v);
ret = heim_db_set_value(db, NULL, k1, v3, NULL);
heim_assert(!ret, "...");
v = heim_db_copy_value(db, NULL, k1, NULL);
heim_assert(v && !heim_cmp(v, v3), "...");
heim_release(v);
ret = 3;
heim_db_iterate_f(db, NULL, &ret, test_db_iter, NULL);
heim_assert(!ret, "...");
ret = heim_db_begin(db, 0, NULL);
heim_assert(!ret, "...");
ret = heim_db_commit(db, NULL);
heim_assert(!ret, "...");
ret = heim_db_begin(db, 0, NULL);
heim_assert(!ret, "...");
ret = heim_db_rollback(db, NULL);
heim_assert(!ret, "...");
ret = heim_db_begin(db, 0, NULL);
heim_assert(!ret, "...");
ret = heim_db_set_value(db, NULL, k1, v1, NULL);
heim_assert(!ret, "...");
v = heim_db_copy_value(db, NULL, k1, NULL);
heim_assert(v && !heim_cmp(v, v1), "...");
heim_release(v);
ret = heim_db_rollback(db, NULL);
heim_assert(!ret, "...");
v = heim_db_copy_value(db, NULL, k1, NULL);
heim_assert(v && !heim_cmp(v, v3), "...");
heim_release(v);
ret = heim_db_begin(db, 0, NULL);
heim_assert(!ret, "...");
ret = heim_db_set_value(db, NULL, k1, v1, NULL);
heim_assert(!ret, "...");
v = heim_db_copy_value(db, NULL, k1, NULL);
heim_assert(v && !heim_cmp(v, v1), "...");
heim_release(v);
ret = heim_db_commit(db, NULL);
heim_assert(!ret, "...");
v = heim_db_copy_value(db, NULL, k1, NULL);
heim_assert(v && !heim_cmp(v, v1), "...");
heim_release(v);
ret = heim_db_begin(db, 0, NULL);
heim_assert(!ret, "...");
ret = heim_db_delete_key(db, NULL, k1, NULL);
heim_assert(!ret, "...");
v = heim_db_copy_value(db, NULL, k1, NULL);
heim_assert(v == NULL, "...");
heim_release(v);
ret = heim_db_rollback(db, NULL);
heim_assert(!ret, "...");
v = heim_db_copy_value(db, NULL, k1, NULL);
heim_assert(v && !heim_cmp(v, v1), "...");
heim_release(v);
if (dbtype != NULL) {
heim_data_t k3 = heim_data_create("value-is-a-dict", strlen("value-is-a-dict"));
heim_dict_t vdict = heim_dict_create(11);
heim_db_t db2;
heim_assert(k3 && vdict, "...");
ret = heim_dict_set_value(vdict, HSTR("vdict-k1"), heim_number_create(11));
heim_assert(!ret, "...");
ret = heim_dict_set_value(vdict, HSTR("vdict-k2"), heim_null_create());
heim_assert(!ret, "...");
ret = heim_dict_set_value(vdict, HSTR("vdict-k3"), HSTR("a value"));
heim_assert(!ret, "...");
ret = heim_db_set_value(db, NULL, k3, (heim_data_t)vdict, NULL);
heim_assert(!ret, "...");
heim_release(vdict);
db2 = heim_db_create(dbtype, dbname, NULL, NULL);
heim_assert(db2, "...");
vdict = (heim_dict_t)heim_db_copy_value(db2, NULL, k3, NULL);
heim_release(db2);
heim_release(k3);
heim_assert(vdict, "...");
heim_assert(heim_get_tid(vdict) == heim_dict_get_type_id(), "...");
v = heim_dict_copy_value(vdict, HSTR("vdict-k1"));
heim_assert(v && !heim_cmp(v, heim_number_create(11)), "...");
heim_release(v);
v = heim_dict_copy_value(vdict, HSTR("vdict-k2"));
heim_assert(v && !heim_cmp(v, heim_null_create()), "...");
heim_release(v);
v = heim_dict_copy_value(vdict, HSTR("vdict-k3"));
heim_assert(v && !heim_cmp(v, HSTR("a value")), "...");
heim_release(v);
heim_release(vdict);
}
heim_release(db);
heim_release(k1);
heim_release(k2);
heim_release(v1);
heim_release(v2);
heim_release(v3);
return 0;
}
struct test_array_iter_ctx {
char buf[256];
};
static void test_array_iter(heim_object_t elt, void *arg, int *stop)
{
struct test_array_iter_ctx *iter_ctx = arg;
strcat(iter_ctx->buf, heim_string_get_utf8((heim_string_t)elt));
}
static int
test_array()
{
struct test_array_iter_ctx iter_ctx;
heim_string_t s1 = heim_string_create("abc");
heim_string_t s2 = heim_string_create("def");
heim_string_t s3 = heim_string_create("ghi");
heim_string_t s4 = heim_string_create("jkl");
heim_string_t s5 = heim_string_create("mno");
heim_string_t s6 = heim_string_create("pqr");
heim_array_t a = heim_array_create();
if (!s1 || !s2 || !s3 || !s4 || !s5 || !s6 || !a)
return ENOMEM;
heim_array_append_value(a, s4);
heim_array_append_value(a, s5);
heim_array_insert_value(a, 0, s3);
heim_array_insert_value(a, 0, s2);
heim_array_append_value(a, s6);
heim_array_insert_value(a, 0, s1);
iter_ctx.buf[0] = '\0';
heim_array_iterate_f(a, &iter_ctx, test_array_iter);
if (strcmp(iter_ctx.buf, "abcdefghijklmnopqr") != 0)
return 1;
iter_ctx.buf[0] = '\0';
heim_array_delete_value(a, 2);
heim_array_iterate_f(a, &iter_ctx, test_array_iter);
if (strcmp(iter_ctx.buf, "abcdefjklmnopqr") != 0)
return 1;
iter_ctx.buf[0] = '\0';
heim_array_delete_value(a, 2);
heim_array_iterate_f(a, &iter_ctx, test_array_iter);
if (strcmp(iter_ctx.buf, "abcdefmnopqr") != 0)
return 1;
iter_ctx.buf[0] = '\0';
heim_array_delete_value(a, 0);
heim_array_iterate_f(a, &iter_ctx, test_array_iter);
if (strcmp(iter_ctx.buf, "defmnopqr") != 0)
return 1;
iter_ctx.buf[0] = '\0';
heim_array_delete_value(a, 2);
heim_array_iterate_f(a, &iter_ctx, test_array_iter);
if (strcmp(iter_ctx.buf, "defmno") != 0)
return 1;
heim_array_insert_value(a, 0, s1);
iter_ctx.buf[0] = '\0';
heim_array_iterate_f(a, &iter_ctx, test_array_iter);
if (strcmp(iter_ctx.buf, "abcdefmno") != 0)
return 1;
heim_array_insert_value(a, 0, s2);
iter_ctx.buf[0] = '\0';
heim_array_iterate_f(a, &iter_ctx, test_array_iter);
if (strcmp(iter_ctx.buf, "defabcdefmno") != 0)
return 1;
heim_array_append_value(a, s3);
iter_ctx.buf[0] = '\0';
heim_array_iterate_f(a, &iter_ctx, test_array_iter);
if (strcmp(iter_ctx.buf, "defabcdefmnoghi") != 0)
return 1;
heim_array_append_value(a, s6);
iter_ctx.buf[0] = '\0';
heim_array_iterate_f(a, &iter_ctx, test_array_iter);
if (strcmp(iter_ctx.buf, "defabcdefmnoghipqr") != 0)
return 1;
heim_release(s1);
heim_release(s2);
heim_release(s3);
heim_release(s4);
heim_release(s5);
heim_release(s6);
heim_release(a);
return 0;
}
/* This function tests only that heimbase-atomics.h compiles */
static int
test_atomics(void)
{
heim_base_atomic(void *) tptr;
heim_base_atomic(uint32_t) tu32;
heim_base_atomic(uint64_t) tu64;
heim_base_atomic_init(&tptr, NULL);
heim_base_atomic_init(&tu32, 0);
heim_base_atomic_init(&tu64, 0);
if (heim_base_atomic_load(&tptr))
return 1;
if (heim_base_atomic_load(&tu32))
return 1;
if (heim_base_atomic_load(&tu64))
return 1;
heim_base_atomic_store(&tptr, &tptr);
heim_base_atomic_store(&tu32, 1);
heim_base_atomic_store(&tu64, 1);
if (heim_base_atomic_load(&tptr) != &tptr)
return 1;
if (heim_base_atomic_load(&tu32) != 1)
return 1;
if (heim_base_atomic_load(&tu64) != 1)
return 1;
if (heim_base_atomic_inc_32(&tu32) != 2 ||
heim_base_atomic_load(&tu32) != 2)
return 1;
if (heim_base_atomic_inc_64(&tu64) != 2 ||
heim_base_atomic_load(&tu64) != 2)
return 1;
if (heim_base_atomic_dec_32(&tu32) != 1 ||
heim_base_atomic_load(&tu32) != 1)
return 1;
if (heim_base_atomic_dec_64(&tu64) != 1 ||
heim_base_atomic_load(&tu64) != 1)
return 1;
heim_base_exchange_pointer(&tptr, (void *)&tu32);
if (heim_base_atomic_load(&tptr) != &tu32)
return 1;
heim_base_exchange_32(&tu32, 32);
if (heim_base_atomic_load(&tu32) != 32)
return 1;
heim_base_exchange_64(&tu64, 64);
if (heim_base_atomic_load(&tu64) != 64)
return 1;
if (heim_base_cas_pointer(&tptr, (void *)&tu32, (void *)&tu64) != &tu32)
return 1;
if (heim_base_cas_pointer(&tptr, (void *)&tu32, (void *)&tptr) != &tu64)
return 1;
if (heim_base_atomic_load(&tptr) != (void *)&tu64)
return 1;
if (heim_base_cas_32(&tu32, 32, 4) != 32)
return 1;
if (heim_base_cas_32(&tu32, 32, 4) != 4)
return 1;
if (heim_base_atomic_load(&tu32) != 4)
return 1;
if (heim_base_cas_64(&tu64, 64, 4) != 64)
return 1;
if (heim_base_cas_64(&tu64, 64, 4) != 4)
return 1;
if (heim_base_atomic_load(&tu64) != 4)
return 1;
return 0;
}
int
main(int argc, char **argv)
{
int res = 0;
#ifndef WIN32
setlocale(LC_ALL, "C");
heim_assert(!heim_locale_is_utf8(), "setlocale(LC_ALL, \"C\") failed?");
#endif
res |= test_memory();
res |= test_mutex();
res |= test_rwlock();
res |= test_dict();
res |= test_auto_release();
res |= test_string();
res |= test_error();
res |= test_json();
res |= test_path();
res |= test_db(NULL, NULL);
res |= test_db("json", argc > 1 ? argv[1] : "test_db.json");
res |= test_array();
res |= test_atomics();
return res ? 1 : 0;
}