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heimdal/lib/base/test_base.c
Nicolas Williams 490337f4f9 Make OpenSSL an hcrypto backend proper 
This adds a new backend for libhcrypto: the OpenSSL backend.

Now libhcrypto has these backends:

 - hcrypto itself (i.e., the algorithms coded in lib/hcrypto)
 - Common Crypto (OS X)
 - PKCS#11 (specifically for Solaris, but not Solaris-specific)
 - Windows CNG (Windows)
 - OpenSSL (generic)

The ./configure --with-openssl=... option no longer disables the use of
hcrypto.  Instead it enables the use of OpenSSL as a (and the default)
backend in libhcrypto.  The libhcrypto framework is now always used.

OpenSSL should no longer be used directly within Heimdal, except in the
OpenSSL hcrypto backend itself, and files where elliptic curve (EC)
crypto is needed.

Because libhcrypto's EC support is incomplete, we can only use OpenSSL
for EC.  Currently that means separating all EC-using code so that it
does not use hcrypto, thus the libhx509/hxtool and PKINIT EC code has
been moved out of the files it used to be in.
2016-04-15 00:16:17 -05:00

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/*
* 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>
#endif
#ifdef HAVE_IO_H
#include <io.h>
#endif
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
#include <fcntl.h>
#include "baselocl.h"
static void
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;
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");
heim_release(o);
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");
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");
heim_release(o);
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);
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);
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);
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");
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");
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");
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");
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;
}
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"))
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")) &&
vlen == strlen("abc") && !strncmp(vptr, "abc", strlen("abc")))
*ret &= ~(1);
else if (klen == strlen("msg2") &&
!strncmp(kptr, "msg2", strlen("msg2")) &&
vlen == strlen("FooBar") && !strncmp(vptr, "FooBar", strlen("FooBar")))
*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;
}
int
main(int argc, char **argv)
{
int res = 0;
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();
return res ? 1 : 0;
}
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