npf_nat_test.c revision 1.7
1 1.7 rmind /* $NetBSD: npf_nat_test.c,v 1.7 2014/02/07 23:45:22 rmind Exp $ */ 2 1.1 rmind 3 1.1 rmind /* 4 1.1 rmind * NPF NAT test. 5 1.1 rmind * 6 1.1 rmind * Public Domain. 7 1.1 rmind */ 8 1.1 rmind 9 1.1 rmind #include <sys/types.h> 10 1.1 rmind 11 1.1 rmind #include "npf_impl.h" 12 1.1 rmind #include "npf_test.h" 13 1.1 rmind 14 1.1 rmind #define RESULT_PASS 0 15 1.1 rmind #define RESULT_BLOCK ENETUNREACH 16 1.1 rmind 17 1.1 rmind #define NPF_BINAT (NPF_NATIN | NPF_NATOUT) 18 1.1 rmind 19 1.6 rmind #define RANDOM_PORT 53472 20 1.5 rmind 21 1.1 rmind static const struct test_case { 22 1.1 rmind const char * src; 23 1.1 rmind in_port_t sport; 24 1.1 rmind const char * dst; 25 1.1 rmind in_port_t dport; 26 1.1 rmind int ttype; 27 1.1 rmind const char * ifname; 28 1.1 rmind int di; 29 1.1 rmind int ret; 30 1.1 rmind const char * taddr; 31 1.1 rmind in_port_t tport; 32 1.1 rmind } test_cases[] = { 33 1.1 rmind 34 1.1 rmind /* 35 1.1 rmind * Traditional NAPT (outbound NAT): 36 1.1 rmind * map $ext_if dynamic $local_net -> $pub_ip1 37 1.1 rmind */ 38 1.1 rmind { 39 1.1 rmind LOCAL_IP1, 15000, REMOTE_IP1, 7000, 40 1.1 rmind NPF_NATOUT, IFNAME_EXT, PFIL_OUT, 41 1.5 rmind RESULT_PASS, PUB_IP1, RANDOM_PORT 42 1.1 rmind }, 43 1.1 rmind { 44 1.1 rmind LOCAL_IP1, 15000, REMOTE_IP1, 7000, 45 1.1 rmind NPF_NATOUT, IFNAME_EXT, PFIL_OUT, 46 1.5 rmind RESULT_PASS, PUB_IP1, RANDOM_PORT 47 1.1 rmind }, 48 1.1 rmind { 49 1.1 rmind LOCAL_IP1, 15000, REMOTE_IP1, 7000, 50 1.1 rmind NPF_NATOUT, IFNAME_EXT, PFIL_IN, 51 1.1 rmind RESULT_BLOCK, NULL, 0 52 1.1 rmind }, 53 1.1 rmind { 54 1.1 rmind REMOTE_IP1, 7000, LOCAL_IP1, 15000, 55 1.1 rmind NPF_NATOUT, IFNAME_EXT, PFIL_IN, 56 1.1 rmind RESULT_BLOCK, NULL, 0 57 1.1 rmind }, 58 1.1 rmind { 59 1.5 rmind REMOTE_IP1, 7000, PUB_IP1, RANDOM_PORT, 60 1.1 rmind NPF_NATOUT, IFNAME_INT, PFIL_IN, 61 1.1 rmind RESULT_BLOCK, NULL, 0 62 1.1 rmind }, 63 1.1 rmind { 64 1.5 rmind REMOTE_IP1, 7000, PUB_IP1, RANDOM_PORT, 65 1.1 rmind NPF_NATOUT, IFNAME_EXT, PFIL_IN, 66 1.1 rmind RESULT_PASS, LOCAL_IP1, 15000 67 1.1 rmind }, 68 1.1 rmind 69 1.1 rmind /* 70 1.1 rmind * NAT redirect (inbound NAT): 71 1.7 rmind * map $ext_if dynamic $local_ip1 port 6000 <- $pub_ip1 port 8000 72 1.1 rmind */ 73 1.1 rmind { 74 1.1 rmind REMOTE_IP2, 16000, PUB_IP1, 8000, 75 1.1 rmind NPF_NATIN, IFNAME_EXT, PFIL_IN, 76 1.1 rmind RESULT_PASS, LOCAL_IP1, 6000 77 1.1 rmind }, 78 1.1 rmind { 79 1.1 rmind LOCAL_IP1, 6000, REMOTE_IP2, 16000, 80 1.1 rmind NPF_NATIN, IFNAME_EXT, PFIL_OUT, 81 1.1 rmind RESULT_PASS, PUB_IP1, 8000 82 1.1 rmind }, 83 1.1 rmind 84 1.1 rmind /* 85 1.1 rmind * Bi-directional NAT (inbound + outbound NAT): 86 1.1 rmind * map $ext_if dynamic $local_ip2 <-> $pub_ip2 87 1.1 rmind */ 88 1.1 rmind { 89 1.1 rmind REMOTE_IP2, 17000, PUB_IP2, 9000, 90 1.1 rmind NPF_BINAT, IFNAME_EXT, PFIL_IN, 91 1.1 rmind RESULT_PASS, LOCAL_IP2, 9000 92 1.1 rmind }, 93 1.1 rmind { 94 1.1 rmind LOCAL_IP2, 9000, REMOTE_IP2, 17000, 95 1.1 rmind NPF_BINAT, IFNAME_EXT, PFIL_OUT, 96 1.1 rmind RESULT_PASS, PUB_IP2, 9000 97 1.1 rmind }, 98 1.1 rmind { 99 1.1 rmind LOCAL_IP2, 18000, REMOTE_IP2, 9000, 100 1.1 rmind NPF_BINAT, IFNAME_EXT, PFIL_OUT, 101 1.1 rmind RESULT_PASS, PUB_IP2, 18000 102 1.1 rmind }, 103 1.1 rmind { 104 1.1 rmind REMOTE_IP2, 9000, PUB_IP2, 18000, 105 1.1 rmind NPF_BINAT, IFNAME_EXT, PFIL_IN, 106 1.1 rmind RESULT_PASS, LOCAL_IP2, 18000 107 1.1 rmind }, 108 1.1 rmind 109 1.7 rmind /* 110 1.7 rmind * Static NAT: plain translation both ways. 111 1.7 rmind * map $ext_if static $local_ip3 <-> $pub_ip3 112 1.7 rmind */ 113 1.7 rmind { 114 1.7 rmind LOCAL_IP3, 19000, REMOTE_IP3, 10000, 115 1.7 rmind NPF_BINAT, IFNAME_EXT, PFIL_OUT, 116 1.7 rmind RESULT_PASS, PUB_IP3, 19000 117 1.7 rmind }, 118 1.7 rmind { 119 1.7 rmind REMOTE_IP3, 10000, PUB_IP3, 19000, 120 1.7 rmind NPF_BINAT, IFNAME_EXT, PFIL_IN, 121 1.7 rmind RESULT_PASS, LOCAL_IP3, 19000 122 1.7 rmind }, 123 1.7 rmind 124 1.1 rmind }; 125 1.1 rmind 126 1.1 rmind static bool 127 1.1 rmind nmatch_addr(const char *saddr, const struct in_addr *addr2) 128 1.1 rmind { 129 1.1 rmind const in_addr_t addr1 = inet_addr(saddr); 130 1.1 rmind return memcmp(&addr1, &addr2->s_addr, sizeof(in_addr_t)) != 0; 131 1.1 rmind } 132 1.1 rmind 133 1.1 rmind static bool 134 1.2 rmind checkresult(bool verbose, unsigned i, struct mbuf *m, ifnet_t *ifp, int error) 135 1.1 rmind { 136 1.1 rmind const struct test_case *t = &test_cases[i]; 137 1.1 rmind npf_cache_t npc = { .npc_info = 0 }; 138 1.2 rmind nbuf_t nbuf; 139 1.1 rmind 140 1.1 rmind if (verbose) { 141 1.1 rmind printf("packet %d (expected %d ret %d)\n", i+1, t->ret, error); 142 1.1 rmind } 143 1.1 rmind if (error) { 144 1.1 rmind return error == t->ret; 145 1.1 rmind } 146 1.2 rmind 147 1.2 rmind nbuf_init(&nbuf, m, ifp); 148 1.2 rmind if (!npf_cache_all(&npc, &nbuf)) { 149 1.1 rmind printf("error: could not fetch the packet data"); 150 1.1 rmind return false; 151 1.1 rmind } 152 1.1 rmind 153 1.2 rmind const struct ip *ip = npc.npc_ip.v4; 154 1.2 rmind const struct udphdr *uh = npc.npc_l4.udp; 155 1.1 rmind 156 1.1 rmind if (verbose) { 157 1.1 rmind printf("\tpost-translation: src %s (%d)", 158 1.1 rmind inet_ntoa(ip->ip_src), ntohs(uh->uh_sport)); 159 1.1 rmind printf(" dst %s (%d)\n", 160 1.1 rmind inet_ntoa(ip->ip_dst), ntohs(uh->uh_dport)); 161 1.1 rmind } 162 1.3 rmind if (error != t->ret) { 163 1.3 rmind return false; 164 1.3 rmind } 165 1.1 rmind 166 1.1 rmind const bool forw = t->di == PFIL_OUT; 167 1.1 rmind const char *saddr = forw ? t->taddr : t->src; 168 1.1 rmind const char *daddr = forw ? t->dst : t->taddr; 169 1.1 rmind in_addr_t sport = forw ? t->tport : t->sport; 170 1.1 rmind in_addr_t dport = forw ? t->dport : t->tport; 171 1.1 rmind 172 1.1 rmind bool defect = false; 173 1.1 rmind defect |= nmatch_addr(saddr, &ip->ip_src); 174 1.1 rmind defect |= sport != ntohs(uh->uh_sport); 175 1.1 rmind defect |= nmatch_addr(daddr, &ip->ip_dst); 176 1.1 rmind defect |= dport != ntohs(uh->uh_dport); 177 1.3 rmind return !defect; 178 1.1 rmind } 179 1.1 rmind 180 1.1 rmind static struct mbuf * 181 1.1 rmind fill_packet(const struct test_case *t) 182 1.1 rmind { 183 1.1 rmind struct mbuf *m; 184 1.1 rmind struct ip *ip; 185 1.1 rmind struct udphdr *uh; 186 1.1 rmind 187 1.1 rmind m = mbuf_construct(IPPROTO_UDP); 188 1.1 rmind uh = mbuf_return_hdrs(m, false, &ip); 189 1.1 rmind ip->ip_src.s_addr = inet_addr(t->src); 190 1.1 rmind ip->ip_dst.s_addr = inet_addr(t->dst); 191 1.1 rmind uh->uh_sport = htons(t->sport); 192 1.1 rmind uh->uh_dport = htons(t->dport); 193 1.1 rmind return m; 194 1.1 rmind } 195 1.1 rmind 196 1.1 rmind bool 197 1.1 rmind npf_nat_test(bool verbose) 198 1.1 rmind { 199 1.1 rmind for (unsigned i = 0; i < __arraycount(test_cases); i++) { 200 1.1 rmind const struct test_case *t = &test_cases[i]; 201 1.1 rmind ifnet_t *ifp = ifunit(t->ifname); 202 1.1 rmind struct mbuf *m = fill_packet(t); 203 1.1 rmind int error; 204 1.1 rmind bool ret; 205 1.1 rmind 206 1.1 rmind if (ifp == NULL) { 207 1.1 rmind printf("Interface %s is not configured.\n", t->ifname); 208 1.1 rmind return false; 209 1.1 rmind } 210 1.1 rmind error = npf_packet_handler(NULL, &m, ifp, t->di); 211 1.2 rmind ret = checkresult(verbose, i, m, ifp, error); 212 1.1 rmind if (m) { 213 1.1 rmind m_freem(m); 214 1.1 rmind } 215 1.1 rmind if (!ret) { 216 1.1 rmind return false; 217 1.1 rmind } 218 1.1 rmind } 219 1.1 rmind return true; 220 1.1 rmind } 221
Indexes created Thu Sep 25 16:09:42 GMT 2025