618 lines
20 KiB
C
618 lines
20 KiB
C
/*
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* testcode/unitmain.c - unit test main program for unbound.
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*
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* Copyright (c) 2007, NLnet Labs. All rights reserved.
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*
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* This software is open source.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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*
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* Redistributions of source code must retain the above copyright notice,
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* this list of conditions and the following disclaimer.
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*
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* Redistributions in binary form must reproduce the above copyright notice,
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* this list of conditions and the following disclaimer in the documentation
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* and/or other materials provided with the distribution.
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*
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* Neither the name of the NLNET LABS nor the names of its contributors may
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* be used to endorse or promote products derived from this software without
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* specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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* HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
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* TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*
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*/
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/**
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* \file
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* Unit test main program. Calls all the other unit tests.
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* Exits with code 1 on a failure. 0 if all unit tests are successful.
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*/
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#include "config.h"
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#ifdef HAVE_OPENSSL_ERR_H
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#include <openssl/err.h>
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#endif
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#ifdef HAVE_OPENSSL_RAND_H
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#include <openssl/rand.h>
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#endif
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#ifdef HAVE_OPENSSL_CONF_H
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#include <openssl/conf.h>
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#endif
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#ifdef HAVE_OPENSSL_ENGINE_H
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#include <openssl/engine.h>
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#endif
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#ifdef HAVE_NSS
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/* nss3 */
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#include "nss.h"
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#endif
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#include "sldns/rrdef.h"
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#include "sldns/keyraw.h"
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#include "util/log.h"
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#include "testcode/unitmain.h"
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/** number of tests done */
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int testcount = 0;
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#include "util/alloc.h"
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/** test alloc code */
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static void
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alloc_test(void) {
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alloc_special_t *t1, *t2;
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struct alloc_cache major, minor1, minor2;
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int i;
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unit_show_feature("alloc_special_obtain");
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alloc_init(&major, NULL, 0);
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alloc_init(&minor1, &major, 0);
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alloc_init(&minor2, &major, 1);
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t1 = alloc_special_obtain(&minor1);
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alloc_clear(&minor1);
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alloc_special_release(&minor2, t1);
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t2 = alloc_special_obtain(&minor2);
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unit_assert( t1 == t2 ); /* reused */
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alloc_special_release(&minor2, t1);
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for(i=0; i<100; i++) {
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t1 = alloc_special_obtain(&minor1);
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alloc_special_release(&minor2, t1);
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}
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if(0) {
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alloc_stats(&minor1);
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alloc_stats(&minor2);
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alloc_stats(&major);
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}
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/* reuse happened */
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unit_assert(minor1.num_quar + minor2.num_quar + major.num_quar == 11);
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alloc_clear(&minor1);
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alloc_clear(&minor2);
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unit_assert(major.num_quar == 11);
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alloc_clear(&major);
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}
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#include "util/net_help.h"
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/** test net code */
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static void
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net_test(void)
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{
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const char* t4[] = {"\000\000\000\000",
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"\200\000\000\000",
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"\300\000\000\000",
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"\340\000\000\000",
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"\360\000\000\000",
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"\370\000\000\000",
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"\374\000\000\000",
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"\376\000\000\000",
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"\377\000\000\000",
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"\377\200\000\000",
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"\377\300\000\000",
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"\377\340\000\000",
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"\377\360\000\000",
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"\377\370\000\000",
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"\377\374\000\000",
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"\377\376\000\000",
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"\377\377\000\000",
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"\377\377\200\000",
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"\377\377\300\000",
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"\377\377\340\000",
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"\377\377\360\000",
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"\377\377\370\000",
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"\377\377\374\000",
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"\377\377\376\000",
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"\377\377\377\000",
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"\377\377\377\200",
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"\377\377\377\300",
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"\377\377\377\340",
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"\377\377\377\360",
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"\377\377\377\370",
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"\377\377\377\374",
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"\377\377\377\376",
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"\377\377\377\377",
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"\377\377\377\377",
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"\377\377\377\377",
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};
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unit_show_func("util/net_help.c", "str_is_ip6");
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unit_assert( str_is_ip6("::") );
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unit_assert( str_is_ip6("::1") );
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unit_assert( str_is_ip6("2001:7b8:206:1:240:f4ff:fe37:8810") );
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unit_assert( str_is_ip6("fe80::240:f4ff:fe37:8810") );
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unit_assert( !str_is_ip6("0.0.0.0") );
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unit_assert( !str_is_ip6("213.154.224.12") );
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unit_assert( !str_is_ip6("213.154.224.255") );
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unit_assert( !str_is_ip6("255.255.255.0") );
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unit_show_func("util/net_help.c", "is_pow2");
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unit_assert( is_pow2(0) );
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unit_assert( is_pow2(1) );
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unit_assert( is_pow2(2) );
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unit_assert( is_pow2(4) );
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unit_assert( is_pow2(8) );
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unit_assert( is_pow2(16) );
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unit_assert( is_pow2(1024) );
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unit_assert( is_pow2(1024*1024) );
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unit_assert( is_pow2(1024*1024*1024) );
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unit_assert( !is_pow2(3) );
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unit_assert( !is_pow2(5) );
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unit_assert( !is_pow2(6) );
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unit_assert( !is_pow2(7) );
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unit_assert( !is_pow2(9) );
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unit_assert( !is_pow2(10) );
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unit_assert( !is_pow2(11) );
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unit_assert( !is_pow2(17) );
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unit_assert( !is_pow2(23) );
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unit_assert( !is_pow2(257) );
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unit_assert( !is_pow2(259) );
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/* test addr_mask */
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unit_show_func("util/net_help.c", "addr_mask");
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if(1) {
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struct sockaddr_in a4;
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struct sockaddr_in6 a6;
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socklen_t l4 = (socklen_t)sizeof(a4);
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socklen_t l6 = (socklen_t)sizeof(a6);
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int i;
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a4.sin_family = AF_INET;
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a6.sin6_family = AF_INET6;
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for(i=0; i<35; i++) {
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/* address 255.255.255.255 */
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memcpy(&a4.sin_addr, "\377\377\377\377", 4);
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addr_mask((struct sockaddr_storage*)&a4, l4, i);
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unit_assert(memcmp(&a4.sin_addr, t4[i], 4) == 0);
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}
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memcpy(&a6.sin6_addr, "\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377", 16);
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addr_mask((struct sockaddr_storage*)&a6, l6, 128);
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unit_assert(memcmp(&a6.sin6_addr, "\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377", 16) == 0);
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addr_mask((struct sockaddr_storage*)&a6, l6, 122);
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unit_assert(memcmp(&a6.sin6_addr, "\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\300", 16) == 0);
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addr_mask((struct sockaddr_storage*)&a6, l6, 120);
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unit_assert(memcmp(&a6.sin6_addr, "\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\000", 16) == 0);
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addr_mask((struct sockaddr_storage*)&a6, l6, 64);
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unit_assert(memcmp(&a6.sin6_addr, "\377\377\377\377\377\377\377\377\000\000\000\000\000\000\000\000", 16) == 0);
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addr_mask((struct sockaddr_storage*)&a6, l6, 0);
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unit_assert(memcmp(&a6.sin6_addr, "\000\000\000\000\000\000\000\000\000\000\000\000\000\000\000\000", 16) == 0);
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}
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/* test addr_in_common */
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unit_show_func("util/net_help.c", "addr_in_common");
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if(1) {
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struct sockaddr_in a4, b4;
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struct sockaddr_in6 a6, b6;
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socklen_t l4 = (socklen_t)sizeof(a4);
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socklen_t l6 = (socklen_t)sizeof(a6);
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int i;
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a4.sin_family = AF_INET;
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b4.sin_family = AF_INET;
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a6.sin6_family = AF_INET6;
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b6.sin6_family = AF_INET6;
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memcpy(&a4.sin_addr, "abcd", 4);
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memcpy(&b4.sin_addr, "abcd", 4);
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unit_assert(addr_in_common((struct sockaddr_storage*)&a4, 32,
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(struct sockaddr_storage*)&b4, 32, l4) == 32);
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unit_assert(addr_in_common((struct sockaddr_storage*)&a4, 34,
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(struct sockaddr_storage*)&b4, 32, l4) == 32);
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for(i=0; i<=32; i++) {
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unit_assert(addr_in_common(
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(struct sockaddr_storage*)&a4, 32,
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(struct sockaddr_storage*)&b4, i, l4) == i);
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unit_assert(addr_in_common(
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(struct sockaddr_storage*)&a4, i,
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(struct sockaddr_storage*)&b4, 32, l4) == i);
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unit_assert(addr_in_common(
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(struct sockaddr_storage*)&a4, i,
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(struct sockaddr_storage*)&b4, i, l4) == i);
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}
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for(i=0; i<=32; i++) {
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memcpy(&a4.sin_addr, "\377\377\377\377", 4);
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memcpy(&b4.sin_addr, t4[i], 4);
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unit_assert(addr_in_common(
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(struct sockaddr_storage*)&a4, 32,
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(struct sockaddr_storage*)&b4, 32, l4) == i);
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unit_assert(addr_in_common(
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(struct sockaddr_storage*)&b4, 32,
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(struct sockaddr_storage*)&a4, 32, l4) == i);
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}
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memcpy(&a6.sin6_addr, "abcdefghabcdefgh", 16);
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memcpy(&b6.sin6_addr, "abcdefghabcdefgh", 16);
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unit_assert(addr_in_common((struct sockaddr_storage*)&a6, 128,
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(struct sockaddr_storage*)&b6, 128, l6) == 128);
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unit_assert(addr_in_common((struct sockaddr_storage*)&a6, 129,
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(struct sockaddr_storage*)&b6, 128, l6) == 128);
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for(i=0; i<=128; i++) {
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unit_assert(addr_in_common(
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(struct sockaddr_storage*)&a6, 128,
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(struct sockaddr_storage*)&b6, i, l6) == i);
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unit_assert(addr_in_common(
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(struct sockaddr_storage*)&a6, i,
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(struct sockaddr_storage*)&b6, 128, l6) == i);
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unit_assert(addr_in_common(
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(struct sockaddr_storage*)&a6, i,
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(struct sockaddr_storage*)&b6, i, l6) == i);
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}
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}
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/* test sockaddr_cmp_addr */
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unit_show_func("util/net_help.c", "sockaddr_cmp_addr");
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if(1) {
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struct sockaddr_storage a, b;
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socklen_t alen = (socklen_t)sizeof(a);
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socklen_t blen = (socklen_t)sizeof(b);
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unit_assert(ipstrtoaddr("127.0.0.0", 53, &a, &alen));
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unit_assert(ipstrtoaddr("127.255.255.255", 53, &b, &blen));
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unit_assert(sockaddr_cmp_addr(&a, alen, &b, blen) < 0);
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unit_assert(sockaddr_cmp_addr(&b, blen, &a, alen) > 0);
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unit_assert(sockaddr_cmp_addr(&a, alen, &a, alen) == 0);
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unit_assert(sockaddr_cmp_addr(&b, blen, &b, blen) == 0);
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unit_assert(ipstrtoaddr("192.168.121.5", 53, &a, &alen));
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unit_assert(sockaddr_cmp_addr(&a, alen, &b, blen) > 0);
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unit_assert(sockaddr_cmp_addr(&b, blen, &a, alen) < 0);
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unit_assert(sockaddr_cmp_addr(&a, alen, &a, alen) == 0);
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unit_assert(ipstrtoaddr("2001:3578:ffeb::99", 53, &b, &blen));
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unit_assert(sockaddr_cmp_addr(&b, blen, &b, blen) == 0);
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unit_assert(sockaddr_cmp_addr(&a, alen, &b, blen) < 0);
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unit_assert(sockaddr_cmp_addr(&b, blen, &a, alen) > 0);
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}
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/* test addr_is_ip4mapped */
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unit_show_func("util/net_help.c", "addr_is_ip4mapped");
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if(1) {
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struct sockaddr_storage a;
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socklen_t l = (socklen_t)sizeof(a);
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unit_assert(ipstrtoaddr("12.13.14.15", 53, &a, &l));
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unit_assert(!addr_is_ip4mapped(&a, l));
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unit_assert(ipstrtoaddr("fe80::217:31ff:fe91:df", 53, &a, &l));
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unit_assert(!addr_is_ip4mapped(&a, l));
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unit_assert(ipstrtoaddr("ffff::217:31ff:fe91:df", 53, &a, &l));
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unit_assert(!addr_is_ip4mapped(&a, l));
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unit_assert(ipstrtoaddr("::ffff:31ff:fe91:df", 53, &a, &l));
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unit_assert(!addr_is_ip4mapped(&a, l));
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unit_assert(ipstrtoaddr("::fffe:fe91:df", 53, &a, &l));
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unit_assert(!addr_is_ip4mapped(&a, l));
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unit_assert(ipstrtoaddr("::ffff:127.0.0.1", 53, &a, &l));
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unit_assert(addr_is_ip4mapped(&a, l));
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unit_assert(ipstrtoaddr("::ffff:127.0.0.2", 53, &a, &l));
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unit_assert(addr_is_ip4mapped(&a, l));
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unit_assert(ipstrtoaddr("::ffff:192.168.0.2", 53, &a, &l));
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unit_assert(addr_is_ip4mapped(&a, l));
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unit_assert(ipstrtoaddr("2::ffff:192.168.0.2", 53, &a, &l));
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unit_assert(!addr_is_ip4mapped(&a, l));
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}
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/* test addr_is_any */
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unit_show_func("util/net_help.c", "addr_is_any");
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if(1) {
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struct sockaddr_storage a;
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socklen_t l = (socklen_t)sizeof(a);
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unit_assert(ipstrtoaddr("0.0.0.0", 53, &a, &l));
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unit_assert(addr_is_any(&a, l));
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unit_assert(ipstrtoaddr("0.0.0.0", 10053, &a, &l));
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unit_assert(addr_is_any(&a, l));
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unit_assert(ipstrtoaddr("0.0.0.0", 0, &a, &l));
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unit_assert(addr_is_any(&a, l));
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unit_assert(ipstrtoaddr("::0", 0, &a, &l));
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unit_assert(addr_is_any(&a, l));
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unit_assert(ipstrtoaddr("::0", 53, &a, &l));
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unit_assert(addr_is_any(&a, l));
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unit_assert(ipstrtoaddr("::1", 53, &a, &l));
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unit_assert(!addr_is_any(&a, l));
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unit_assert(ipstrtoaddr("2001:1667::1", 0, &a, &l));
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unit_assert(!addr_is_any(&a, l));
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unit_assert(ipstrtoaddr("2001::0", 0, &a, &l));
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unit_assert(!addr_is_any(&a, l));
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unit_assert(ipstrtoaddr("10.0.0.0", 0, &a, &l));
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unit_assert(!addr_is_any(&a, l));
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unit_assert(ipstrtoaddr("0.0.0.10", 0, &a, &l));
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unit_assert(!addr_is_any(&a, l));
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unit_assert(ipstrtoaddr("192.0.2.1", 0, &a, &l));
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unit_assert(!addr_is_any(&a, l));
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}
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}
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#include "util/config_file.h"
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/** test config_file: cfg_parse_memsize */
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static void
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config_memsize_test(void)
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{
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size_t v = 0;
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unit_show_func("util/config_file.c", "cfg_parse_memsize");
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if(0) {
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/* these emit errors */
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unit_assert( cfg_parse_memsize("", &v) == 0);
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unit_assert( cfg_parse_memsize("bla", &v) == 0);
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unit_assert( cfg_parse_memsize("nop", &v) == 0);
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unit_assert( cfg_parse_memsize("n0b", &v) == 0);
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unit_assert( cfg_parse_memsize("gb", &v) == 0);
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unit_assert( cfg_parse_memsize("b", &v) == 0);
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unit_assert( cfg_parse_memsize("kb", &v) == 0);
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unit_assert( cfg_parse_memsize("kk kb", &v) == 0);
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}
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unit_assert( cfg_parse_memsize("0", &v) && v==0);
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unit_assert( cfg_parse_memsize("1", &v) && v==1);
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unit_assert( cfg_parse_memsize("10", &v) && v==10);
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unit_assert( cfg_parse_memsize("10b", &v) && v==10);
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unit_assert( cfg_parse_memsize("5b", &v) && v==5);
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unit_assert( cfg_parse_memsize("1024", &v) && v==1024);
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unit_assert( cfg_parse_memsize("1k", &v) && v==1024);
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unit_assert( cfg_parse_memsize("1K", &v) && v==1024);
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unit_assert( cfg_parse_memsize("1Kb", &v) && v==1024);
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unit_assert( cfg_parse_memsize("1kb", &v) && v==1024);
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unit_assert( cfg_parse_memsize("1 kb", &v) && v==1024);
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unit_assert( cfg_parse_memsize("10 kb", &v) && v==10240);
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unit_assert( cfg_parse_memsize("2k", &v) && v==2048);
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unit_assert( cfg_parse_memsize("2m", &v) && v==2048*1024);
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unit_assert( cfg_parse_memsize("3M", &v) && v==3072*1024);
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unit_assert( cfg_parse_memsize("40m", &v) && v==40960*1024);
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unit_assert( cfg_parse_memsize("1G", &v) && v==1024*1024*1024);
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unit_assert( cfg_parse_memsize("1 Gb", &v) && v==1024*1024*1024);
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unit_assert( cfg_parse_memsize("0 Gb", &v) && v==0*1024*1024);
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}
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#include "util/rtt.h"
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/** test RTT code */
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static void
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rtt_test(void)
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{
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int init = 376;
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int i;
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struct rtt_info r;
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unit_show_func("util/rtt.c", "rtt_timeout");
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rtt_init(&r);
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/* initial value sensible */
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unit_assert( rtt_timeout(&r) == init );
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rtt_lost(&r, init);
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unit_assert( rtt_timeout(&r) == init*2 );
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rtt_lost(&r, init*2);
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unit_assert( rtt_timeout(&r) == init*4 );
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rtt_update(&r, 4000);
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unit_assert( rtt_timeout(&r) >= 2000 );
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rtt_lost(&r, rtt_timeout(&r) );
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for(i=0; i<100; i++) {
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rtt_lost(&r, rtt_timeout(&r) );
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unit_assert( rtt_timeout(&r) > RTT_MIN_TIMEOUT-1);
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unit_assert( rtt_timeout(&r) < RTT_MAX_TIMEOUT+1);
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}
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}
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#include "services/cache/infra.h"
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#include "util/config_file.h"
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/* lookup and get key and data structs easily */
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static struct infra_data* infra_lookup_host(struct infra_cache* infra,
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struct sockaddr_storage* addr, socklen_t addrlen, uint8_t* zone,
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size_t zonelen, int wr, time_t now, struct infra_key** k)
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{
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struct infra_data* d;
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struct lruhash_entry* e = infra_lookup_nottl(infra, addr, addrlen,
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zone, zonelen, wr);
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if(!e) return NULL;
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d = (struct infra_data*)e->data;
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if(d->ttl < now) {
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lock_rw_unlock(&e->lock);
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return NULL;
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}
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*k = (struct infra_key*)e->key;
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return d;
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}
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/** test host cache */
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static void
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infra_test(void)
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{
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struct sockaddr_storage one;
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socklen_t onelen;
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uint8_t* zone = (uint8_t*)"\007example\003com\000";
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size_t zonelen = 13;
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struct infra_cache* slab;
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struct config_file* cfg = config_create();
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time_t now = 0;
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uint8_t edns_lame;
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int vs, to;
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struct infra_key* k;
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struct infra_data* d;
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int init = 376;
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unit_show_feature("infra cache");
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unit_assert(ipstrtoaddr("127.0.0.1", 53, &one, &onelen));
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slab = infra_create(cfg);
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unit_assert( infra_host(slab, &one, onelen, zone, zonelen, now,
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&vs, &edns_lame, &to) );
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unit_assert( vs == 0 && to == init && edns_lame == 0 );
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unit_assert( infra_rtt_update(slab, &one, onelen, zone, zonelen, LDNS_RR_TYPE_A, -1, init, now) );
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unit_assert( infra_host(slab, &one, onelen, zone, zonelen,
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now, &vs, &edns_lame, &to) );
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unit_assert( vs == 0 && to == init*2 && edns_lame == 0 );
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unit_assert( infra_edns_update(slab, &one, onelen, zone, zonelen, -1, now) );
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unit_assert( infra_host(slab, &one, onelen, zone, zonelen,
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now, &vs, &edns_lame, &to) );
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unit_assert( vs == -1 && to == init*2 && edns_lame == 1);
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now += cfg->host_ttl + 10;
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unit_assert( infra_host(slab, &one, onelen, zone, zonelen,
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now, &vs, &edns_lame, &to) );
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unit_assert( vs == 0 && to == init && edns_lame == 0 );
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unit_assert( infra_set_lame(slab, &one, onelen,
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zone, zonelen, now, 0, 0, LDNS_RR_TYPE_A) );
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unit_assert( (d=infra_lookup_host(slab, &one, onelen, zone, zonelen, 0, now, &k)) );
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unit_assert( d->ttl == now+cfg->host_ttl );
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unit_assert( d->edns_version == 0 );
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unit_assert(!d->isdnsseclame && !d->rec_lame && d->lame_type_A &&
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!d->lame_other);
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lock_rw_unlock(&k->entry.lock);
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/* test merge of data */
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unit_assert( infra_set_lame(slab, &one, onelen,
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zone, zonelen, now, 0, 0, LDNS_RR_TYPE_AAAA) );
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unit_assert( (d=infra_lookup_host(slab, &one, onelen, zone, zonelen, 0, now, &k)) );
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unit_assert(!d->isdnsseclame && !d->rec_lame && d->lame_type_A &&
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d->lame_other);
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lock_rw_unlock(&k->entry.lock);
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/* test that noEDNS cannot overwrite known-yesEDNS */
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now += cfg->host_ttl + 10;
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unit_assert( infra_host(slab, &one, onelen, zone, zonelen,
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now, &vs, &edns_lame, &to) );
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unit_assert( vs == 0 && to == init && edns_lame == 0 );
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unit_assert( infra_edns_update(slab, &one, onelen, zone, zonelen, 0, now) );
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unit_assert( infra_host(slab, &one, onelen, zone, zonelen,
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now, &vs, &edns_lame, &to) );
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unit_assert( vs == 0 && to == init && edns_lame == 1 );
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unit_assert( infra_edns_update(slab, &one, onelen, zone, zonelen, -1, now) );
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unit_assert( infra_host(slab, &one, onelen, zone, zonelen,
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now, &vs, &edns_lame, &to) );
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unit_assert( vs == 0 && to == init && edns_lame == 1 );
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infra_delete(slab);
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config_delete(cfg);
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}
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#include "util/random.h"
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/** test randomness */
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static void
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rnd_test(void)
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{
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struct ub_randstate* r;
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int num = 1000, i;
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long int a[1000];
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unsigned int seed = (unsigned)time(NULL);
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unit_show_feature("ub_random");
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printf("ub_random seed is %u\n", seed);
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unit_assert( (r = ub_initstate(seed, NULL)) );
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for(i=0; i<num; i++) {
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a[i] = ub_random(r);
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unit_assert(a[i] >= 0);
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unit_assert((size_t)a[i] <= (size_t)0x7fffffff);
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if(i > 5)
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unit_assert(a[i] != a[i-1] || a[i] != a[i-2] ||
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a[i] != a[i-3] || a[i] != a[i-4] ||
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a[i] != a[i-5] || a[i] != a[i-6]);
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}
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a[0] = ub_random_max(r, 1);
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unit_assert(a[0] >= 0 && a[0] < 1);
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a[0] = ub_random_max(r, 10000);
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unit_assert(a[0] >= 0 && a[0] < 10000);
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for(i=0; i<num; i++) {
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a[i] = ub_random_max(r, 10);
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unit_assert(a[i] >= 0 && a[i] < 10);
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}
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ub_randfree(r);
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}
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void unit_show_func(const char* file, const char* func)
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{
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printf("test %s:%s\n", file, func);
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}
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void unit_show_feature(const char* feature)
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{
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printf("test %s functions\n", feature);
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}
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/**
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* Main unit test program. Setup, teardown and report errors.
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* @param argc: arg count.
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* @param argv: array of commandline arguments.
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* @return program failure if test fails.
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*/
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int
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main(int argc, char* argv[])
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{
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log_init(NULL, 0, NULL);
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if(argc != 1) {
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printf("usage: %s\n", argv[0]);
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printf("\tperforms unit tests.\n");
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return 1;
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}
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printf("Start of %s unit test.\n", PACKAGE_STRING);
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#ifdef HAVE_SSL
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ERR_load_crypto_strings();
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# ifdef HAVE_OPENSSL_CONFIG
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OPENSSL_config("unbound");
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# endif
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# ifdef USE_GOST
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(void)sldns_key_EVP_load_gost_id();
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# endif
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#elif defined(HAVE_NSS)
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if(NSS_NoDB_Init(".") != SECSuccess)
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fatal_exit("could not init NSS");
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#endif /* HAVE_SSL or HAVE_NSS*/
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checklock_start();
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neg_test();
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rnd_test();
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verify_test();
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net_test();
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config_memsize_test();
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dname_test();
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rtt_test();
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anchors_test();
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alloc_test();
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regional_test();
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lruhash_test();
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slabhash_test();
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infra_test();
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ldns_test();
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msgparse_test();
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checklock_stop();
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printf("%d checks ok.\n", testcount);
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#ifdef HAVE_SSL
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# if defined(USE_GOST) && defined(HAVE_LDNS_KEY_EVP_UNLOAD_GOST)
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sldns_key_EVP_unload_gost();
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# endif
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# ifdef HAVE_OPENSSL_CONFIG
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EVP_cleanup();
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ENGINE_cleanup();
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CONF_modules_free();
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# endif
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CRYPTO_cleanup_all_ex_data();
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ERR_remove_state(0);
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ERR_free_strings();
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RAND_cleanup();
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#elif defined(HAVE_NSS)
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if(NSS_Shutdown() != SECSuccess)
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fatal_exit("could not shutdown NSS");
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#endif /* HAVE_SSL or HAVE_NSS */
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#ifdef HAVE_PTHREAD
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/* dlopen frees its thread specific state */
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pthread_exit(NULL);
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#endif
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return 0;
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}
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