freeswitch/libs/sofia-sip/libsofia-sip-ua/bnf/torture_bnf.c

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/*
* This file is part of the Sofia-SIP package
*
* Copyright (C) 2005 Nokia Corporation.
*
* Contact: Pekka Pessi <pekka.pessi@nokia.com>
*
* 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
*
*/
/**@CFILE torture_bnf.c
*
* Torture tests for BNF functions.
*
* @author Pekka Pessi <Pekka.Pessi@nokia.com>
*
* @date Created: Tue Aug 21 15:18:26 2001 ppessi
*/
#include "config.h"
#include <stddef.h>
#include <stdlib.h>
#include <string.h>
#include <limits.h>
#include <stdio.h>
#include <assert.h>
#include "sofia-sip/bnf.h"
static int test_flags = 0;
#define TSTFLAGS test_flags
#include <sofia-sip/tstdef.h>
char const name[] = "torture_bnf";
static int count_bnf(int bnf_flags)
{
int i, n;
for (i = 0, n = 0; i < 128; i++)
if (_bnf_table[i] & bnf_flags)
n++;
return n;
}
static int bnf_test(void)
{
BEGIN();
TEST_1(IS_TOKEN('a'));
TEST_1(IS_TOKEN('b'));
/* Fixed for 1.12.2: lws = [*wsp crlf] 1*wsp */
TEST_SIZE(span_lws(" \r\n \r\nLoppuu"), 5);
TEST_SIZE(span_lws(" \r\r \nLoppuu"), 2);
TEST_SIZE(span_lws(" \n\r \nLoppuu"), 2);
TEST_SIZE(span_lws(" \r \nLoppuu"), 4);
TEST_SIZE(span_lws(" \n\t \nLoppuu"), 5);
TEST_SIZE(span_lws(" \r\n\t \nLoppuu"), 6);
TEST_SIZE(span_token(SIP_TOKEN), strlen(SIP_TOKEN));
TEST_SIZE(count_bnf(bnf_token), strlen(SIP_TOKEN "$"));
#define SIP_PARAM SIP_TOKEN "[:]/"
TEST_SIZE(span_param(SIP_PARAM), strlen(SIP_PARAM));
TEST_SIZE(count_bnf(bnf_param), strlen(SIP_PARAM "$"));
TEST_SIZE(span_unreserved(URL_UNRESERVED URL_ESCAPED),
strlen(URL_UNRESERVED URL_ESCAPED));
TEST_SIZE(count_bnf(bnf_unreserved),
strlen(URL_UNRESERVED URL_ESCAPED));
{
char word[] = ALPHA DIGIT "-.!%*_+`'~()<>:\\\"/[]?{}";
TEST_SIZE(span_word(word), strlen(word));
}
END();
}
static int ip_test(void)
{
BEGIN();
char *s;
TEST(span_ip4_address("127.255.249.000,"), 15);
TEST(span_ip4_address("0.00.000.000:,"), 12);
/* Test error detection */
TEST(span_ip4_address("256.00.000.000:,"), 0);
TEST(span_ip4_address("255.00.000.0000,"), 0);
TEST(span_ip4_address("255.00.000.199."), 0);
{
char ip0[] = "010.250.020.000,";
char ip1[] = "0.00.000.000:,";
char ip2[] = "256.00.000.000:,";
char ip3[] = "255.00.000.0000,";
char ip4[] = "255.00.000.199.";
s = ip0;
TEST(scan_ip4_address(&s), 15); TEST_S(s, ","); TEST_S(ip0, "10.250.20.0");
s = ip1;
TEST(scan_ip4_address(&s), 12); TEST_S(s, ":,"); TEST_S(ip1, "0.0.0.0");
/* Test error detection */
s = ip2; TEST(scan_ip4_address(&s), -1);
s = ip3; TEST(scan_ip4_address(&s), -1);
s = ip4; TEST(scan_ip4_address(&s), -1);
}
TEST(span_ip6_address("dead:beef:feed:ded:0:1:2:3"), 26);
TEST(span_ip6_address("::beef:feed:ded:0:1:2:3"), 23);
TEST(span_ip6_address("::255.0.0.0,"), 11);
TEST(span_ip6_address("::,"), 2);
TEST(span_ip_address("[dead:beef:feed:ded:0:1:2:3]"), 28);
TEST(span_ip_address("::255.0.0.0,"), 11);
TEST(span_ip_address("[::255.0.0.0]:"), 13);
TEST(span_ip6_address("dead:beef:feed::0ded:0:1:2:3"), 28);
TEST(span_ip6_address("dead:beef:feed::0ded:0000:0001:0002:0003"), 40);
TEST(span_ip6_address("dead:beef:feed::0ded::0000:0001:0002:0003"), 0);
TEST(span_ip6_address("::dead:beef:feed::0ded:0000:0001:0002:0003"), 0);
TEST(span_ip6_address("dead:beef:feed:ded:0:1:2:3:4"), 0);
TEST(span_ip6_address("dead:beef:feed:00ded:0:1:2:3"), 0);
TEST(span_ip6_address("dead:beef:feed:ded:0:1:2:127.0.0.1"), 0);
TEST(span_ip6_address(":255.0.0.0,"), 0);
TEST(span_ip6_address("255.0.0.0,"), 0);
/* Accept colon after IP4-quad */
TEST(span_ip_address("::255.0.0.0:5060"), 11);
/* This is a reference */
TEST(span_ip6_address("[dead:beef:feed:ded:0:1:2:3]"), 0);
TEST(span_ip6_reference("[dead:beef:feed:ded:0:1:2:3]:1"), 28);
TEST(span_ip_address("[dead:beef:feed:ded:0:1:2:3]:1"), 28);
TEST(span_ip_address("[127.0.0.1]:1"), 0);
{
char ip0[] = "dead:beef:feed:ded:0:1:2:3,";
char ip1[] = "::beef:feed:ded:0:1:2:3;";
char ip1b[] = "::beef:feed:ded:0:0:2:3;";
char ip2[] = "::255.00.0.0,";
char ip3[] = "::,";
char ip4[] = "0:0:0:0:0:0:0:0,";
char ip4b[] = "0:0:0:0:0:0:0.0.0.0,";
char ip4c[] = "0:0:0:0:0:0:0.0.0.1,";
char ip5[] = "dead:beef:feed::0ded:0:1:2:3";
char ip6[] = "dead:beef:feed::0ded:0000:0001:0002:0003+";
char ip7[] = "1:0:0:2:0:0:0:3,";
char ip8[] = "1:0:0:2:0:0:3:4,";
char ip9[] = "1::2:0:0:0:3,";
s = ip0; TEST(scan_ip6_address(&s), 26); TEST_S(s, ",");
TEST_S(ip0, "dead:beef:feed:ded::1:2:3");
s = ip1; TEST(scan_ip6_address(&s), 23); TEST_S(s, ";");
TEST_S(ip1, "::beef:feed:ded:0:1:2:3;");
s = ip1b; TEST(scan_ip6_address(&s), 23); TEST_S(s, ";");
TEST_S(ip1b, "0:beef:feed:ded::2:3");
s = ip2; TEST(scan_ip6_address(&s), 12); TEST_S(s, ",");
TEST_S(ip2, "::255.0.0.0");
s = ip3; TEST(scan_ip6_address(&s), 2); TEST_S(s, ",");
TEST_S(ip3, "::,");
s = ip4; TEST(scan_ip6_address(&s), 15); TEST_S(s, ",");
TEST_S(ip4, "::");
s = ip4b; TEST(scan_ip6_address(&s), 19); TEST_S(s, ",");
TEST_S(ip4b, "::");
s = ip4c; TEST(scan_ip6_address(&s), 19); TEST_S(s, ",");
TEST_S(ip4c, "::1");
TEST_S(ip5, "dead:beef:feed::0ded:0:1:2:3");
s = ip5; TEST(scan_ip6_address(&s), 28); TEST_S(s, "");
TEST_S(ip5, "dead:beef:feed:ded::1:2:3");
s = ip6; TEST(scan_ip6_address(&s), 40); TEST_S(s, "+");
TEST_S(ip6, "dead:beef:feed:ded::1:2:3");
s = ip7; TEST(scan_ip6_address(&s), 15); TEST_S(s, ",");
TEST_S(ip7, "1:0:0:2::3");
s = ip8; TEST(scan_ip6_address(&s), 15); TEST_S(s, ",");
TEST_S(ip8, "1::2:0:0:3:4");
s = ip9; TEST(scan_ip6_address(&s), 12); TEST_S(s, ",");
TEST_S(ip9, "1:0:0:2::3");
}
{
char err0[] = "dead:beef:feed::0ded::0000:0001:0002:0003";
char err1[] = "::dead:beef:feed::0ded:0000:0001:0002:0003";
char err2[] = "dead:beef:feed:ded:0:1:2:3:4";
char err3[] = "dead:beef:feed:00ded:0:1:2:3";
char err4[] = "dead:beef:feed:ded:0:1:2:127.0.0.1";
char err5[] = ":255.0.0.0,";
char err6[] = "255.0.0.0,";
char err7[] = "dead:beef:feed:ded:0:1:2:3:4:5,";
TEST(scan_ip6_address((s = err0, &s)), -1);
TEST(scan_ip6_address((s = err1, &s)), -1);
TEST(scan_ip6_address((s = err2, &s)), -1);
TEST(scan_ip6_address((s = err3, &s)), -1);
TEST(scan_ip6_address((s = err4, &s)), -1);
TEST(scan_ip6_address((s = err5, &s)), -1);
TEST(scan_ip6_address((s = err6, &s)), -1);
TEST(scan_ip6_address((s = err7, &s)), -1);
}
{
char err0[] = "[dead:beef:feed::0ded::0000:0001:0002:0003]:";
char err1[] = "[::dead:beef:feed::0ded:0000:0001:0002:0003]+";
char err2[] = "[dead:beef:feed:ded:0:1:2:3:4]+";
char err3[] = "[dead:beef:feed:00ded:0:1:2:3]+";
char err4[] = "[dead:beef:feed:ded:0:1:2:127.0.0.1]";
char err5[] = "[:255.0.0.0],";
char err6[] = "[255.0.0.0],";
char err7[] = "[dead:beef:feed:ded:0:1:2:]";
TEST(scan_ip6_reference((s = err0, &s)), -1);
TEST(scan_ip6_reference((s = err1, &s)), -1);
TEST(scan_ip6_reference((s = err2, &s)), -1);
TEST(scan_ip6_reference((s = err3, &s)), -1);
TEST(scan_ip6_reference((s = err4, &s)), -1);
TEST(scan_ip6_reference((s = err5, &s)), -1);
TEST(scan_ip6_reference((s = err6, &s)), -1);
TEST(scan_ip6_reference((s = err7, &s)), -1);
}
END();
}
#define TEST_SCAN(scanner, input, canonic, output) \
do { char s0[] = input; char *s = s0; \
size_t n = sizeof(input) - sizeof(output); \
TEST_SIZE(scanner(&s), n); \
TEST_S(s, output); \
TEST_S(s0, canonic); } while(0)
#include <sofia-sip/hostdomain.h>
static int host_test(void)
{
BEGIN();
TEST(host_is_ip4_address(NULL), 0);
TEST(host_is_ip6_address(NULL), 0);
TEST(host_ip6_reference(NULL), 0);
TEST(host_is_ip_address(NULL), 0);
TEST(host_is_domain(NULL), 0);
TEST(host_is_valid(NULL), 0);
TEST(host_has_domain_invalid(NULL), 0);
TEST_SIZE(span_host("rama"), 4);
TEST_SIZE(span_host("ra-ma.1-2.3-4.a4-9."), 19);
TEST_SIZE(span_host("a.1.b"), 5);
TEST_SIZE(span_host("127.255.249.000.a,"), 17);
TEST_SIZE(span_host("127.255.249.000,"), 15);
TEST_SIZE(span_host("0.00.000.000:,"), 12);
TEST_SIZE(span_host("127.255.249.000,"), 15);
TEST_SIZE(span_host("[dead:beef:feed:ded:0:1:2:3]:1"), 28);
TEST_SIZE(span_host("[dead:beef:feed:ded::1:2:3]:1"), 27);
TEST_SIZE(span_host("[::127.0.0.1]:1"), 13);
TEST_SCAN(scan_host, "rama", "rama", "");
TEST_SCAN(scan_host, "rama.", "rama.", "");
TEST_SCAN(scan_ip4_address, "127.255.249.000,", "127.255.249.0", ",");
TEST_SCAN(scan_host, "127.255.249.000,", "127.255.249.0", ",");
TEST_SCAN(scan_host, "a.1.b.", "a.1.b", "");
TEST_SCAN(scan_host, "ra-ma.1-2.3-4.a4-9.", "ra-ma.1-2.3-4.a4-9", "");
TEST_SCAN(scan_host, "127.255.249.000.a,", "127.255.249.000.a,", ",");
TEST_SCAN(scan_host, "0.00.000.000:,", "0.0.0.0", ":,");
TEST_SCAN(scan_host, "127.255.249.000,", "127.255.249.0", ",");
TEST_SCAN(scan_host, "[dead:beef:feed:ded:0:1:2:3]:1",
"[dead:beef:feed:ded::1:2:3]", ":1");
TEST_SCAN(scan_host, "[::127.0.0.1]:1", "[::127.0.0.1]:1", ":1");
/* Test error detection */
TEST_SIZE(span_host("256.00.000.000:,"), 0);
TEST_SIZE(span_host("255.00.000.0000,"), 0);
TEST_SIZE(span_host("255.00.000.199."), 0);
TEST_SIZE(span_host("[127.0.0.1]:1"), 0);
TEST_SIZE(span_domain("rama.1"), 0);
TEST_SIZE(span_domain("-ma.1-2.3-4.a4-9."), 0);
TEST_SIZE(span_domain("a..b"), 0);
TEST_SIZE(span_domain("a.b.-"), 0);
TEST_SIZE(span_domain("a.b-"), 0);
TEST(host_is_local("126.0.0.0"), 0);
TEST(host_is_local("127.0.0.0"), 1);
TEST(host_is_local("127.0.0.2"), 1);
TEST(host_is_local("0.0.0.0"), 0);
TEST(host_is_local("::1"), 1);
TEST(host_is_local("::1"), 1);
TEST(host_is_local("::1:3fff"), 0);
TEST(host_is_local("[::1]"), 1);
TEST(host_is_local("localdomain.domain.org"), 0);
TEST(host_is_local("localhost.domain.org"), 0);
TEST(host_is_local("localhost"), 1);
TEST(host_is_local("localhost.localdomain"), 1);
TEST(host_is_local("localhost."), 1);
TEST(host_is_local("localhost.localdomain."), 1);
TEST(host_is_local("localhost.localdomain.org"), 0);
TEST(host_has_domain_invalid("invalid"), 1);
TEST(host_has_domain_invalid("invalid."), 1);
TEST(host_has_domain_invalid("1.invalid"), 1);
TEST(host_has_domain_invalid("1.invalid."), 1);
TEST(host_has_domain_invalid("1invalid"), 0);
TEST(host_has_domain_invalid("valid."), 0);
TEST(host_has_domain_invalid("1-.invalid."), 0);
TEST(host_is_domain("127.0.0.1"), 0);
TEST(host_is_domain("3.com"), 1);
TEST(host_is_domain("127.0.0.com"), 1);
TEST(host_is_domain("actra.0.1"), 0);
/* Invalid IP4 address (extra leading zeros) */
TEST_1(!host_cmp("127.0.0.1", "127.0.0.01"));
/* Invalid reference (extra leading zeros) */
TEST_1(host_cmp("[0ffff:0ffff:0ffff:0ffff:0ffff:0ffff:255.255.255.255]",
"ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff"));
#if SU_HAVE_IN6
TEST_1(!host_cmp("[ffff:ffff:ffff:ffff:ffff:ffff:255.255.255.255]",
"ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff"));
TEST_1(!host_cmp("::1", "::001"));
TEST_1(!host_cmp("[::1]", "::1"));
TEST_1(!host_cmp("[::1]", "::0.0.0.1"));
TEST_1(!host_cmp("::ffff:127.0.0.1", "127.0.0.1"));
TEST_1(!host_cmp("::ffff:127.0.0.1", "::ffff:7f00:1"));
TEST_1(!host_cmp("::ffff:127.0.0.1", "::ffff:7f00:1"));
TEST_1(!host_cmp("[::ffff:127.0.0.1]", "[::7f00:1]"));
#endif
TEST_1(host_cmp("::", "0.0.0.0"));
TEST_1(host_cmp("::1", "0.0.0.1"));
END();
}
static void usage(int exitcode)
{
fprintf(stderr, "usage: %s [-v] [-a]\n", name);
exit(exitcode);
}
int main(int argc, char *argv[])
{
int retval = 0;
int i;
for (i = 1; argv[i]; i++) {
if (strcmp(argv[i], "-v") == 0)
test_flags |= tst_verbatim;
else if (strcmp(argv[i], "-a") == 0)
test_flags |= tst_abort;
else
usage(1);
}
retval |= bnf_test(); fflush(stdout);
retval |= ip_test(); fflush(stdout);
retval |= host_test(); fflush(stdout);
return retval;
}