test/testipsub.c - platform/external/apache-apr - Git at Google

 /* Licensed to the Apache Software Foundation (ASF) under one or more
  * contributor license agreements.  See the NOTICE file distributed with
  * this work for additional information regarding copyright ownership.
  * The ASF licenses this file to You under the Apache License, Version 2.0
  * (the "License"); you may not use this file except in compliance with
  * the License.  You may obtain a copy of the License at
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "testutil.h"
 #include "apr_general.h"
 #include "apr_network_io.h"
 #include "apr_errno.h"

 static void test_bad_input(abts_case *tc, void *data)
 {
     struct {
         const char *ipstr;
         const char *mask;
         apr_status_t expected_rv;
     } testcases[] =
     {
         /* so we have a few good inputs in here; sue me */
         {"my.host.name",       NULL,               APR_EINVAL}
         ,{"127.0.0.256",       NULL,               APR_EBADIP}
         ,{"127.0.0.1",         NULL,               APR_SUCCESS}
         ,{"127.0.0.1",         "32",               APR_SUCCESS}
         ,{"127.0.0.1",         "1",                APR_SUCCESS}
         ,{"127.0.0.1",         "15",               APR_SUCCESS}
         ,{"127.0.0.1",         "-1",               APR_EBADMASK}
         ,{"127.0.0.1",         "0",                APR_EBADMASK}
         ,{"127.0.0.1",         "33",               APR_EBADMASK}
         ,{"127.0.0.1",         "255.0.0.0",        APR_SUCCESS}
         ,{"127.0.0.1",         "255.0",            APR_EBADMASK}
         ,{"127.0.0.1",         "255.255.256.0",    APR_EBADMASK}
         ,{"127.0.0.1",         "abc",              APR_EBADMASK}
         ,{"127",               NULL,               APR_SUCCESS}
         ,{"127.0.0.1.2",       NULL,               APR_EBADIP}
         ,{"127.0.0.1.2",       "8",                APR_EBADIP}
         ,{"127",               "255.0.0.0",        APR_EBADIP} /* either EBADIP or EBADMASK seems fine */
 #if APR_HAVE_IPV6
         ,{"::1",               NULL,               APR_SUCCESS}
         ,{"::1",               "20",               APR_SUCCESS}
         ,{"::ffff:9.67.113.15", NULL,              APR_EBADIP} /* yes, this is goodness */
         ,{"fe80::",            "16",               APR_SUCCESS}
         ,{"fe80::",            "255.0.0.0",        APR_EBADMASK}
         ,{"fe80::1",           "0",                APR_EBADMASK}
         ,{"fe80::1",           "-1",               APR_EBADMASK}
         ,{"fe80::1",           "1",                APR_SUCCESS}
         ,{"fe80::1",           "33",               APR_SUCCESS}
         ,{"fe80::1",           "128",              APR_SUCCESS}
         ,{"fe80::1",           "129",              APR_EBADMASK}
 #else
         /* do some IPv6 stuff and verify that it fails with APR_EBADIP */
         ,{"::ffff:9.67.113.15", NULL,              APR_EBADIP}
 #endif
     };
     int i;
     apr_ipsubnet_t *ipsub;
     apr_status_t rv;

     for (i = 0; i < (sizeof testcases / sizeof testcases[0]); i++) {
         rv = apr_ipsubnet_create(&ipsub, testcases[i].ipstr, testcases[i].mask, p);
         ABTS_INT_EQUAL(tc, rv, testcases[i].expected_rv);
     }
 }

 static void test_singleton_subnets(abts_case *tc, void *data)
 {
     const char *v4addrs[] = {
         "127.0.0.1", "129.42.18.99", "63.161.155.20", "207.46.230.229", "64.208.42.36",
         "198.144.203.195", "192.18.97.241", "198.137.240.91", "62.156.179.119",
         "204.177.92.181"
     };
     apr_ipsubnet_t *ipsub;
     apr_sockaddr_t *sa;
     apr_status_t rv;
     int i, j, rc;

     for (i = 0; i < sizeof v4addrs / sizeof v4addrs[0]; i++) {
         rv = apr_ipsubnet_create(&ipsub, v4addrs[i], NULL, p);
         ABTS_TRUE(tc, rv == APR_SUCCESS);
         for (j = 0; j < sizeof v4addrs / sizeof v4addrs[0]; j++) {
             rv = apr_sockaddr_info_get(&sa, v4addrs[j], APR_INET, 0, 0, p);
             ABTS_TRUE(tc, rv == APR_SUCCESS);
             rc = apr_ipsubnet_test(ipsub, sa);
             if (!strcmp(v4addrs[i], v4addrs[j])) {
                 ABTS_TRUE(tc, rc != 0);
             }
             else {
                 ABTS_TRUE(tc, rc == 0);
             }
         }
     }

     /* same for v6? */
 }

 static void test_interesting_subnets(abts_case *tc, void *data)
 {
     struct {
         const char *ipstr, *mask;
         int family;
         char *in_subnet, *not_in_subnet;
     } testcases[] =
     {
          {"9.67",             NULL,            APR_INET,  "9.67.113.15",         "10.1.2.3"}
         ,{"9.67.0.0",         "16",            APR_INET,  "9.67.113.15",         "10.1.2.3"}
         ,{"9.67.0.0",         "255.255.0.0",   APR_INET,  "9.67.113.15",         "10.1.2.3"}
         ,{"9.67.113.99",      "16",            APR_INET,  "9.67.113.15",         "10.1.2.3"}
         ,{"9.67.113.99",      "255.255.255.0", APR_INET,  "9.67.113.15",         "10.1.2.3"}
         ,{"127",              NULL,            APR_INET,  "127.0.0.1",           "10.1.2.3"}
         ,{"127.0.0.1",        "8",             APR_INET,  "127.0.0.1",           "10.1.2.3"}
 #if APR_HAVE_IPV6
         ,{"fe80::",           "8",             APR_INET6, "fe80::1",             "ff01::1"}
         ,{"ff01::",           "8",             APR_INET6, "ff01::1",             "fe80::1"}
         ,{"3FFE:8160::",      "28",            APR_INET6, "3ffE:816e:abcd:1234::1", "3ffe:8170::1"}
         ,{"127.0.0.1",        NULL,            APR_INET6, "::ffff:127.0.0.1",    "fe80::1"}
         ,{"127.0.0.1",        "8",             APR_INET6, "::ffff:127.0.0.1",    "fe80::1"}
 #endif
     };
     apr_ipsubnet_t *ipsub;
     apr_sockaddr_t *sa;
     apr_status_t rv;
     int i, rc;

     for (i = 0; i < sizeof testcases / sizeof testcases[0]; i++) {
         rv = apr_ipsubnet_create(&ipsub, testcases[i].ipstr, testcases[i].mask, p);
         ABTS_TRUE(tc, rv == APR_SUCCESS);
         rv = apr_sockaddr_info_get(&sa, testcases[i].in_subnet, testcases[i].family, 0, 0, p);
         ABTS_TRUE(tc, rv == APR_SUCCESS);
         ABTS_TRUE(tc, sa != NULL);
         if (!sa) continue;
         rc = apr_ipsubnet_test(ipsub, sa);
         ABTS_TRUE(tc, rc != 0);
         rv = apr_sockaddr_info_get(&sa, testcases[i].not_in_subnet, testcases[i].family, 0, 0, p);
         ABTS_TRUE(tc, rv == APR_SUCCESS);
         rc = apr_ipsubnet_test(ipsub, sa);
         ABTS_TRUE(tc, rc == 0);
     }
 }

 static void test_badmask_str(abts_case *tc, void *data)
 {
     char buf[128];

     ABTS_STR_EQUAL(tc, apr_strerror(APR_EBADMASK, buf, sizeof buf),
                       "The specified network mask is invalid.");
 }

 static void test_badip_str(abts_case *tc, void *data)
 {
     char buf[128];

     ABTS_STR_EQUAL(tc, apr_strerror(APR_EBADIP, buf, sizeof buf),
                       "The specified IP address is invalid.");
 }

 abts_suite *testipsub(abts_suite *suite)
 {
     suite = ADD_SUITE(suite)

     abts_run_test(suite, test_bad_input, NULL);
     abts_run_test(suite, test_singleton_subnets, NULL);
     abts_run_test(suite, test_interesting_subnets, NULL);
     abts_run_test(suite, test_badmask_str, NULL);
     abts_run_test(suite, test_badip_str, NULL);
     return suite;
 }
	/* Licensed to the Apache Software Foundation (ASF) under one or more
	* contributor license agreements. See the NOTICE file distributed with
	* this work for additional information regarding copyright ownership.
	* The ASF licenses this file to You under the Apache License, Version 2.0
	* (the "License"); you may not use this file except in compliance with
	* the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "testutil.h"
	#include "apr_general.h"
	#include "apr_network_io.h"
	#include "apr_errno.h"

	static void test_bad_input(abts_case tc, void data)
	{
	struct {
	const char *ipstr;
	const char *mask;
	apr_status_t expected_rv;
	} testcases[] =
	{
	/* so we have a few good inputs in here; sue me */
	{"my.host.name", NULL, APR_EINVAL}
	,{"127.0.0.256", NULL, APR_EBADIP}
	,{"127.0.0.1", NULL, APR_SUCCESS}
	,{"127.0.0.1", "32", APR_SUCCESS}
	,{"127.0.0.1", "1", APR_SUCCESS}
	,{"127.0.0.1", "15", APR_SUCCESS}
	,{"127.0.0.1", "-1", APR_EBADMASK}
	,{"127.0.0.1", "0", APR_EBADMASK}
	,{"127.0.0.1", "33", APR_EBADMASK}
	,{"127.0.0.1", "255.0.0.0", APR_SUCCESS}
	,{"127.0.0.1", "255.0", APR_EBADMASK}
	,{"127.0.0.1", "255.255.256.0", APR_EBADMASK}
	,{"127.0.0.1", "abc", APR_EBADMASK}
	,{"127", NULL, APR_SUCCESS}
	,{"127.0.0.1.2", NULL, APR_EBADIP}
	,{"127.0.0.1.2", "8", APR_EBADIP}
	,{"127", "255.0.0.0", APR_EBADIP} /* either EBADIP or EBADMASK seems fine */
	#if APR_HAVE_IPV6
	,{"::1", NULL, APR_SUCCESS}
	,{"::1", "20", APR_SUCCESS}
	,{"::ffff:9.67.113.15", NULL, APR_EBADIP} /* yes, this is goodness */
	,{"fe80::", "16", APR_SUCCESS}
	,{"fe80::", "255.0.0.0", APR_EBADMASK}
	,{"fe80::1", "0", APR_EBADMASK}
	,{"fe80::1", "-1", APR_EBADMASK}
	,{"fe80::1", "1", APR_SUCCESS}
	,{"fe80::1", "33", APR_SUCCESS}
	,{"fe80::1", "128", APR_SUCCESS}
	,{"fe80::1", "129", APR_EBADMASK}
	#else
	/* do some IPv6 stuff and verify that it fails with APR_EBADIP */
	,{"::ffff:9.67.113.15", NULL, APR_EBADIP}
	#endif
	};
	int i;
	apr_ipsubnet_t *ipsub;
	apr_status_t rv;

	for (i = 0; i < (sizeof testcases / sizeof testcases[0]); i++) {
	rv = apr_ipsubnet_create(&ipsub, testcases[i].ipstr, testcases[i].mask, p);
	ABTS_INT_EQUAL(tc, rv, testcases[i].expected_rv);
	}
	}

	static void test_singleton_subnets(abts_case tc, void data)
	{
	const char *v4addrs[] = {
	"127.0.0.1", "129.42.18.99", "63.161.155.20", "207.46.230.229", "64.208.42.36",
	"198.144.203.195", "192.18.97.241", "198.137.240.91", "62.156.179.119",
	"204.177.92.181"
	};
	apr_ipsubnet_t *ipsub;
	apr_sockaddr_t *sa;
	apr_status_t rv;
	int i, j, rc;

	for (i = 0; i < sizeof v4addrs / sizeof v4addrs[0]; i++) {
	rv = apr_ipsubnet_create(&ipsub, v4addrs[i], NULL, p);
	ABTS_TRUE(tc, rv == APR_SUCCESS);
	for (j = 0; j < sizeof v4addrs / sizeof v4addrs[0]; j++) {
	rv = apr_sockaddr_info_get(&sa, v4addrs[j], APR_INET, 0, 0, p);
	ABTS_TRUE(tc, rv == APR_SUCCESS);
	rc = apr_ipsubnet_test(ipsub, sa);
	if (!strcmp(v4addrs[i], v4addrs[j])) {
	ABTS_TRUE(tc, rc != 0);
	}
	else {
	ABTS_TRUE(tc, rc == 0);
	}
	}
	}

	/* same for v6? */
	}

	static void test_interesting_subnets(abts_case tc, void data)
	{
	struct {
	const char ipstr, mask;
	int family;
	char in_subnet, not_in_subnet;
	} testcases[] =
	{
	{"9.67", NULL, APR_INET, "9.67.113.15", "10.1.2.3"}
	,{"9.67.0.0", "16", APR_INET, "9.67.113.15", "10.1.2.3"}
	,{"9.67.0.0", "255.255.0.0", APR_INET, "9.67.113.15", "10.1.2.3"}
	,{"9.67.113.99", "16", APR_INET, "9.67.113.15", "10.1.2.3"}
	,{"9.67.113.99", "255.255.255.0", APR_INET, "9.67.113.15", "10.1.2.3"}
	,{"127", NULL, APR_INET, "127.0.0.1", "10.1.2.3"}
	,{"127.0.0.1", "8", APR_INET, "127.0.0.1", "10.1.2.3"}
	#if APR_HAVE_IPV6
	,{"fe80::", "8", APR_INET6, "fe80::1", "ff01::1"}
	,{"ff01::", "8", APR_INET6, "ff01::1", "fe80::1"}
	,{"3FFE:8160::", "28", APR_INET6, "3ffE:816e:abcd:1234::1", "3ffe:8170::1"}
	,{"127.0.0.1", NULL, APR_INET6, "::ffff:127.0.0.1", "fe80::1"}
	,{"127.0.0.1", "8", APR_INET6, "::ffff:127.0.0.1", "fe80::1"}
	#endif
	};
	apr_ipsubnet_t *ipsub;
	apr_sockaddr_t *sa;
	apr_status_t rv;
	int i, rc;

	for (i = 0; i < sizeof testcases / sizeof testcases[0]; i++) {
	rv = apr_ipsubnet_create(&ipsub, testcases[i].ipstr, testcases[i].mask, p);
	ABTS_TRUE(tc, rv == APR_SUCCESS);
	rv = apr_sockaddr_info_get(&sa, testcases[i].in_subnet, testcases[i].family, 0, 0, p);
	ABTS_TRUE(tc, rv == APR_SUCCESS);
	ABTS_TRUE(tc, sa != NULL);
	if (!sa) continue;
	rc = apr_ipsubnet_test(ipsub, sa);
	ABTS_TRUE(tc, rc != 0);
	rv = apr_sockaddr_info_get(&sa, testcases[i].not_in_subnet, testcases[i].family, 0, 0, p);
	ABTS_TRUE(tc, rv == APR_SUCCESS);
	rc = apr_ipsubnet_test(ipsub, sa);
	ABTS_TRUE(tc, rc == 0);
	}
	}

	static void test_badmask_str(abts_case tc, void data)
	{
	char buf[128];

	ABTS_STR_EQUAL(tc, apr_strerror(APR_EBADMASK, buf, sizeof buf),
	"The specified network mask is invalid.");
	}

	static void test_badip_str(abts_case tc, void data)
	{
	char buf[128];

	ABTS_STR_EQUAL(tc, apr_strerror(APR_EBADIP, buf, sizeof buf),
	"The specified IP address is invalid.");
	}

	abts_suite testipsub(abts_suite suite)
	{
	suite = ADD_SUITE(suite)

	abts_run_test(suite, test_bad_input, NULL);
	abts_run_test(suite, test_singleton_subnets, NULL);
	abts_run_test(suite, test_interesting_subnets, NULL);
	abts_run_test(suite, test_badmask_str, NULL);
	abts_run_test(suite, test_badip_str, NULL);
	return suite;
	}