#include #include #include #include #include #include #include #include #include #include #include #include #include "../../lib/in46_addr.h" #include "../../lib/syserr.h" static const struct in46_addr g_ia4 = { .len = 4, .v4.s_addr = 0x0d0c0b0a, }; static void test_in46a_to_af(void) { printf("Testing in46a_to_af() with IPv4 addresses\n"); OSMO_ASSERT(in46a_to_af(&g_ia4) == AF_INET); } static void test_in46a_to_sas(void) { struct sockaddr_storage ss; struct sockaddr_in *sin = (struct sockaddr_in *) &ss; printf("Testing in46a_to_sas() with IPv4 addresses\n"); memset(&ss, 0, sizeof(ss)); OSMO_ASSERT(in46a_to_sas(&ss, &g_ia4) == 0); OSMO_ASSERT(sin->sin_family == AF_INET); OSMO_ASSERT(sin->sin_addr.s_addr == g_ia4.v4.s_addr); } static void test_in46a_ntop(void) { struct in46_addr ia; char buf[256]; const char *res; printf("Testing in46a_ntop() with IPv4 addresses\n"); res = in46a_ntop(NULL, buf, sizeof(buf)); OSMO_ASSERT(res && !strcmp(res, "UNDEFINED")); printf("res = %s\n", res); ia.len = 0; res = in46a_ntop(&ia, buf, sizeof(buf)); printf("res = %s\n", res); OSMO_ASSERT(res && !strcmp(res, "UNDEFINED")); ia.len = 4; ia.v4.s_addr = htonl(0x01020304); res = in46a_ntop(&ia, buf, sizeof(buf)); OSMO_ASSERT(res && !strcmp(res, "1.2.3.4")); printf("res = %s\n", res); } static void test_in46p_ntoa(void) { const struct in46_prefix ip46 = { .prefixlen = 24, .addr = { .len = 4, .v4.s_addr = htonl(0x10203000), }, }; printf("in46p_ntoa() returns %s\n", in46p_ntoa(&ip46)); } static void test_in46a_equal(void) { struct in46_addr b; printf("Testing in46a_equal() with IPv4 addresses\n"); memset(&b, 0xff, sizeof(b)); b.len = g_ia4.len; b.v4.s_addr = g_ia4.v4.s_addr; OSMO_ASSERT(in46a_equal(&g_ia4, &b)); } static int log_in46a_within_mask(const struct in46_addr *addr, const struct in46_addr *net, size_t prefixlen) { int rc; printf("in46a_within_mask(%s, ", in46a_ntoa(addr)); printf("%s, %lu) = ", in46a_ntoa(net), prefixlen); rc = in46a_within_mask(addr, net, prefixlen); printf("%d\n", rc); return rc; } static void test_in46a_within_mask(void) { struct in46_addr addr, mask; printf("Testing in46a_within_mask() with IPv4 addresses\n"); addr = g_ia4; mask = g_ia4; OSMO_ASSERT(log_in46a_within_mask(&addr, &mask, 32)); mask.v4.s_addr = htonl( ntohl(mask.v4.s_addr) & 0xfffffffC ); OSMO_ASSERT(log_in46a_within_mask(&addr, &mask, 30)); mask.v4.s_addr = htonl( ntohl(mask.v4.s_addr) & 0xfff80000 ); OSMO_ASSERT(log_in46a_within_mask(&addr, &mask, 13)); addr.v4.s_addr = htonl(ntohl(addr.v4.s_addr) + 1); mask = g_ia4; OSMO_ASSERT(!log_in46a_within_mask(&addr, &mask, 32)); mask.v4.s_addr = htonl( ntohl(mask.v4.s_addr) & 0xfffffffC ); OSMO_ASSERT(log_in46a_within_mask(&addr, &mask, 30)); } static void test_in46a_to_eua(void) { struct ul66_t eua; printf("testing in46a_to_eua() with IPv4 addresses\n"); #if 0 /* triggers assert in current implementation */ const struct in46_addr ia_invalid = { .len = 3, }; OSMO_ASSERT(in46a_to_eua(&ia_invalid, &eua) < 0); #endif /* IPv4 address */ OSMO_ASSERT(in46a_to_eua(&g_ia4, 1, &eua) == 0); OSMO_ASSERT(eua.v[0] == PDP_EUA_ORG_IETF); OSMO_ASSERT(eua.v[1] == PDP_EUA_TYPE_v4); OSMO_ASSERT(osmo_load32le(&eua.v[2]) == g_ia4.v4.s_addr); } static void test_in46a_from_eua(void) { struct in46_addr ia[2]; struct ul66_t eua; const uint8_t v4_unspec[] = { PDP_EUA_ORG_IETF, PDP_EUA_TYPE_v4 }; const uint8_t v4_spec[] = { PDP_EUA_ORG_IETF, PDP_EUA_TYPE_v4, 1,2,3,4 }; memset(&eua, 0, sizeof(eua)); printf("Testing in46a_from_eua() with IPv4 addresses\n"); /* default: v4 unspec */ OSMO_ASSERT(in46a_from_eua(&eua, ia) == 1); OSMO_ASSERT(ia[0].len == 4); OSMO_ASSERT(ia[0].v4.s_addr == 0); /* invalid */ eua.v[0] = 0x23; eua.v[1] = PDP_EUA_TYPE_v4; eua.l = 6; OSMO_ASSERT(in46a_from_eua(&eua, ia) < 0); /* invalid */ eua.v[0] = PDP_EUA_ORG_IETF; eua.v[1] = 0x23; eua.l = 6; OSMO_ASSERT(in46a_from_eua(&eua, ia) < 0); /* unspecified V4 */ memcpy(eua.v, v4_unspec, sizeof(v4_unspec)); eua.l = sizeof(v4_unspec); OSMO_ASSERT(in46a_from_eua(&eua, ia) == 1); OSMO_ASSERT(ia[0].len == 4); OSMO_ASSERT(ia[0].v4.s_addr == 0); /* specified V4 */ memcpy(eua.v, v4_spec, sizeof(v4_spec)); eua.l = sizeof(v4_spec); OSMO_ASSERT(in46a_from_eua(&eua, ia) == 1); OSMO_ASSERT(ia[0].len == 4); OSMO_ASSERT(ia[0].v4.s_addr == htonl(0x01020304)); } static void test_in46a_netmasklen(void) { struct in46_addr netmask; unsigned int len; printf("Testing in46a_netmasklen() with IPv4 addresses\n"); netmask.len = 4; netmask.v4.s_addr = 0xffffffff; len = in46a_netmasklen(&netmask); OSMO_ASSERT(len == 32); netmask.v4.s_addr = 0x00ffffff; len = in46a_netmasklen(&netmask); OSMO_ASSERT(len == 24); netmask.v4.s_addr = 0x00f0ffff; len = in46a_netmasklen(&netmask); OSMO_ASSERT(len == 20); netmask.v4.s_addr = 0x000000fe; len = in46a_netmasklen(&netmask); OSMO_ASSERT(len == 7); netmask.v4.s_addr = 0x00000000; len = in46a_netmasklen(&netmask); OSMO_ASSERT(len == 0); } /* IPv6 specific tests */ static const struct in46_addr g_ia6 = { .len = 16, .v6.s6_addr = { 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16 }, }; static void test_in46a_to_af_v6(void) { struct in46_addr ia; printf("Testing in46a_to_af() with IPv6 addresses\n"); OSMO_ASSERT(in46a_to_af(&g_ia6) == AF_INET6); ia.len = 8; OSMO_ASSERT(in46a_to_af(&ia) == AF_INET6); } static void test_in46a_to_sas_v6(void) { struct sockaddr_storage ss; struct sockaddr_in6 *sin6 = (struct sockaddr_in6 *) &ss; printf("Testing in46a_to_sas() with IPv6 addresses\n"); memset(&ss, 0, sizeof(ss)); OSMO_ASSERT(in46a_to_sas(&ss, &g_ia6) == 0); OSMO_ASSERT(sin6->sin6_family == AF_INET6); OSMO_ASSERT(!memcmp(&sin6->sin6_addr, &g_ia6.v6, sizeof(sin6->sin6_addr))); } static void test_in46a_ntop_v6(void) { char buf[256]; const char *res; printf("Testing in46a_ntop() with IPv6 addresses\n"); res = in46a_ntop(&g_ia6, buf, sizeof(buf)); OSMO_ASSERT(res && !strcmp(res, "102:304:506:708:90a:b0c:d0e:f10")); printf("res = %s\n", res); } static void test_in46a_equal_v6(void) { struct in46_addr b; printf("Testing in46a_equal() with IPv6 addresses\n"); memset(&b, 0xff, sizeof(b)); b.len = g_ia6.len; b.v6 = g_ia6.v6; OSMO_ASSERT(in46a_equal(&g_ia6, &b)); } static void test_in46a_to_eua_v6(void) { const struct in46_addr ia_v6_8 = { .len = 8, .v6.s6_addr = { 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16 }, }; struct ul66_t eua; printf("Testing in46a_to_eua() with IPv6 addresses\n"); /* IPv6 address */ OSMO_ASSERT(in46a_to_eua(&g_ia6, 1, &eua) == 0); OSMO_ASSERT(eua.v[0] == PDP_EUA_ORG_IETF); OSMO_ASSERT(eua.v[1] == PDP_EUA_TYPE_v6); OSMO_ASSERT(!memcmp(&eua.v[2], &g_ia6.v6, 16)); /* IPv6 address with prefix / length 8 */ OSMO_ASSERT(in46a_to_eua(&ia_v6_8, 1, &eua) == 0); OSMO_ASSERT(eua.v[0] == PDP_EUA_ORG_IETF); OSMO_ASSERT(eua.v[1] == PDP_EUA_TYPE_v6); OSMO_ASSERT(!memcmp(&eua.v[2], &ia_v6_8.v6, 16)); } static void test_in46a_to_eua_v4v6() { const struct in46_addr ia_v4v6[2] = { { .len = 16, .v6.s6_addr = { 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16 }, }, { .len = 4, .v4.s_addr = 0x0d0c0b0a, } }; struct ul66_t eua; printf("Testing in46a_to_eua() with IPv4v6 addresses\n"); /* IPv4 address */ OSMO_ASSERT(in46a_to_eua(ia_v4v6, 2, &eua) == 0); OSMO_ASSERT(eua.v[0] == PDP_EUA_ORG_IETF); OSMO_ASSERT(eua.v[1] == PDP_EUA_TYPE_v4v6); OSMO_ASSERT(osmo_load32le(&eua.v[2]) == g_ia4.v4.s_addr); OSMO_ASSERT(!memcmp(&eua.v[6], &g_ia6.v6, 16)); } static void test_in46a_from_eua_v6(void) { struct in46_addr ia[2]; struct ul66_t eua; const uint8_t v6_unspec[] = { PDP_EUA_ORG_IETF, PDP_EUA_TYPE_v6 }; const uint8_t v6_spec[] = { PDP_EUA_ORG_IETF, PDP_EUA_TYPE_v6, 1,2,3,4,5,6,7,8,9,0xa,0xb,0xc,0xd,0xe,0xf,0x10 }; memset(&eua, 0, sizeof(eua)); printf("Testing in46a_from_eua() with IPv6 addresses\n"); /* unspecified V6 */ memcpy(eua.v, v6_unspec, sizeof(v6_unspec)); eua.l = sizeof(v6_unspec); OSMO_ASSERT(in46a_from_eua(&eua, ia) == 1); OSMO_ASSERT(ia[0].len == 16); OSMO_ASSERT(IN6_IS_ADDR_UNSPECIFIED(&ia[0].v6)); /* specified V6 */ memcpy(eua.v, v6_spec, sizeof(v6_spec)); eua.l = sizeof(v6_spec); OSMO_ASSERT(in46a_from_eua(&eua, ia) == 1); OSMO_ASSERT(ia[0].len == 16); OSMO_ASSERT(!memcmp(&ia[0].v6, v6_spec+2, ia[0].len)); } static void test_in46a_from_eua_v4v6(void) { struct in46_addr ia[2]; struct ul66_t eua; const uint8_t v4_unspec_v6_unspec[] = { PDP_EUA_ORG_IETF, PDP_EUA_TYPE_v4v6 }; const uint8_t v4_spec_v6_unspec[] = { PDP_EUA_ORG_IETF, PDP_EUA_TYPE_v4v6, 1,2,3,4 }; const uint8_t v4_unspec_v6_spec[] = { PDP_EUA_ORG_IETF, PDP_EUA_TYPE_v4v6, 1,2,3,4,5,6,7,8,9,0xa,0xb,0xc,0xd,0xe,0xf,0x10 }; const uint8_t v4_spec_v6_spec[] = { PDP_EUA_ORG_IETF, PDP_EUA_TYPE_v4v6, 1,2,3,4, 1,2,3,4,5,6,7,8,9,0xa,0xb,0xc,0xd,0xe,0xf,0x10 }; memset(&eua, 0, sizeof(eua)); printf("Testing in46a_from_eua() with IPv4v6 addresses\n"); /* unspecified V4 & V6 */ memcpy(eua.v, v4_unspec_v6_unspec, sizeof(v4_unspec_v6_unspec)); eua.l = sizeof(v4_unspec_v6_unspec); OSMO_ASSERT(in46a_from_eua(&eua, ia) == 2); OSMO_ASSERT(ia[0].len == 4); OSMO_ASSERT(ia[1].len == 16); OSMO_ASSERT(ia[0].v4.s_addr == 0); OSMO_ASSERT(IN6_IS_ADDR_UNSPECIFIED(&ia[1].v6)); /* specified V4, unspecified V6 */ memcpy(eua.v, v4_spec_v6_unspec, sizeof(v4_spec_v6_unspec)); eua.l = sizeof(v4_spec_v6_unspec); OSMO_ASSERT(in46a_from_eua(&eua, ia) == 2); OSMO_ASSERT(ia[0].len == 4); OSMO_ASSERT(ia[1].len == 16); OSMO_ASSERT(ia[0].v4.s_addr == htonl(0x01020304)); OSMO_ASSERT(IN6_IS_ADDR_UNSPECIFIED(&ia[1].v6)); /* unspecified V4, specified V6 */ memcpy(eua.v, v4_unspec_v6_spec, sizeof(v4_unspec_v6_spec)); eua.l = sizeof(v4_unspec_v6_spec); OSMO_ASSERT(in46a_from_eua(&eua, ia) == 2); OSMO_ASSERT(ia[0].len == 4); OSMO_ASSERT(ia[1].len == 16); OSMO_ASSERT(ia[0].v4.s_addr == 0); OSMO_ASSERT(!memcmp(&ia[1].v6, v4_unspec_v6_spec+2, ia[1].len)); /* specified V4, specified V6 */ memcpy(eua.v, v4_spec_v6_spec, sizeof(v4_spec_v6_spec)); eua.l = sizeof(v4_spec_v6_spec); OSMO_ASSERT(in46a_from_eua(&eua, ia) == 2); OSMO_ASSERT(ia[0].len == 4); OSMO_ASSERT(ia[1].len == 16); OSMO_ASSERT(ia[0].v4.s_addr == htonl(0x01020304)); OSMO_ASSERT(!memcmp(&ia[1].v6, v4_spec_v6_spec+6, ia[1].len)); } static void test_in46a_netmasklen_v6(void) { unsigned int len; printf("Testing in46a_netmasklen() with IPv6 addresses\n"); const struct in46_addr netmaskA = { .len = 16, .v6.s6_addr = {0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff}, }; len = in46a_netmasklen(&netmaskA); OSMO_ASSERT(len == 128); const struct in46_addr netmaskB = { .len = 16, .v6.s6_addr = {0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x00,0x00,0x00}, }; len = in46a_netmasklen(&netmaskB); OSMO_ASSERT(len == 104); const struct in46_addr netmaskC = { .len = 16, .v6.s6_addr = {0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xfe,0x00,0x00,0x00}, }; len = in46a_netmasklen(&netmaskC); OSMO_ASSERT(len == 103); const struct in46_addr netmaskD = { .len = 16, .v6.s6_addr = {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00}, }; len = in46a_netmasklen(&netmaskD); OSMO_ASSERT(len == 0); } int main(int argc, char **argv) { void *tall_ctx = talloc_named_const(NULL, 1, "Root context"); msgb_talloc_ctx_init(tall_ctx, 0); osmo_init_logging2(tall_ctx, &log_info); log_set_use_color(osmo_stderr_target, 0); log_set_print_filename2(osmo_stderr_target, LOG_FILENAME_NONE); srand(time(NULL)); if (argc < 2 || strcmp(argv[1], "-v6")) { test_in46a_to_af(); test_in46a_to_sas(); test_in46a_ntop(); test_in46p_ntoa(); test_in46a_equal(); test_in46a_within_mask(); test_in46a_to_eua(); test_in46a_from_eua(); test_in46a_netmasklen(); } else { test_in46a_to_af_v6(); test_in46a_to_sas_v6(); test_in46a_ntop_v6(); test_in46a_equal_v6(); test_in46a_to_eua_v6(); test_in46a_from_eua_v6(); test_in46a_to_eua_v4v6(); test_in46a_from_eua_v4v6(); test_in46a_netmasklen_v6(); } return 0; }