/* * * Wireless daemon for Linux * * Copyright (C) 2021 Intel Corporation. All rights reserved. * * 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 * */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include "src/dpp-util.h" #include "src/util.h" #include "ell/useful.h" struct dpp_test_info { const char *uri; bool expect_fail; uint32_t expected_freqs[10]; struct dpp_uri_info result; }; struct dpp_test_info all_values = { .uri = "DPP:C:81/1,115/36;I:SN=4774LH2b4044;M:5254005828e5;V:2;K:MDkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDIgADURzxmttZoIRIPWGoQMV00XHWCAQIhXruVWOz0NjlkIA=;;", .result = { .mac = { 0x52, 0x54, 0x00, 0x58, 0x28, 0xe5 }, .version = 2, }, .expected_freqs = { 2412, 5180, 0 } }; struct dpp_test_info no_type = { .uri = "C:81/1;K:shouldnotmatter;;", .expect_fail = true }; struct dpp_test_info empty = { .uri = "DPP:", .expect_fail = true }; struct dpp_test_info no_key = { .uri = "DPP:C:81/1,115/36;I:SN=4774LH2b4044;M:5254005828e5;V:2;;", .expect_fail = true }; struct dpp_test_info data_after_terminator = { .uri = "DPP:K:MDkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDIgADURzxmttZoIRIPWGoQMV00XHWCAQIhXruVWOz0NjlkIA=;;C:81/1;;", .expect_fail = true }; struct dpp_test_info single_terminator = { .uri = "DPP:K:MDkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDIgADURzxmttZoIRIPWGoQMV00XHWCAQIhXruVWOz0NjlkIA=;", .expect_fail = true }; struct dpp_test_info no_terminator = { .uri = "DPP:K:MDkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDIgADURzxmttZoIRIPWGoQMV00XHWCAQIhXruVWOz0NjlkIA=", .expect_fail = true }; struct dpp_test_info bad_key = { .uri = "DPP:K:MDkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDIgADURzxmttZoIRIPWGoQMV00XHWCAQIhXruVWOz0;;", .expect_fail = true }; struct dpp_test_info unexpected_id = { .uri = "DPP:Z:somedata;K:MDkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDIgADURzxmttZoIRIPWGoQMV00XHWCAQIhXruVWOz0NjlkIA=;;", .expect_fail = true }; struct dpp_test_info bad_channels[] = { { .uri = "DPP:C:;K:MDkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDIgADURzxmttZoIRIPWGoQMV00XHWCAQIhXruVWOz0NjlkIA=;;", .expect_fail = true }, { .uri = "DPP:C:81;K:MDkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDIgADURzxmttZoIRIPWGoQMV00XHWCAQIhXruVWOz0NjlkIA=;;", .expect_fail = true }, { .uri = "DPP:C:81/;K:MDkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDIgADURzxmttZoIRIPWGoQMV00XHWCAQIhXruVWOz0NjlkIA=;;", .expect_fail = true }, { .uri = "DPP:C:81/1,;K:MDkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDIgADURzxmttZoIRIPWGoQMV00XHWCAQIhXruVWOz0NjlkIA=;;", .expect_fail = true }, { .uri = "DPP:C:81/1,81/;K:MDkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDIgADURzxmttZoIRIPWGoQMV00XHWCAQIhXruVWOz0NjlkIA=;;", .expect_fail = true }, { .uri = "DPP:C:81/1,/;K:MDkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDIgADURzxmttZoIRIPWGoQMV00XHWCAQIhXruVWOz0NjlkIA=;;", .expect_fail = true }, }; static bool verify_info(const struct dpp_uri_info *parsed, const struct dpp_test_info *result) { const struct dpp_uri_info *expected = &result->result; uint32_t i; assert(!memcmp(parsed->mac, expected->mac, 6)); assert(parsed->version == expected->version); assert(parsed->boot_public); for (i = 0; result->expected_freqs[i]; i++) assert(scan_freq_set_contains(parsed->freqs, result->expected_freqs[i])); return true; } static void test_uri_parse(const void *data) { const struct dpp_test_info *test_info = data; struct dpp_uri_info *info; info = dpp_parse_uri(test_info->uri); if (test_info->expect_fail) { assert(!info); return; } assert(verify_info(info, test_info)); dpp_free_uri_info(info); } static void test_bad_channels(const void *data) { unsigned int i; for (i = 0; i < L_ARRAY_SIZE(bad_channels); i++) test_uri_parse(&bad_channels[i]); } struct dpp_test_vector { /* Initiator values */ const char *i_proto_public; const char *i_proto_private; const char *i_boot_public; const char *i_boot_private; const char *i_nonce; const char *i_auth; const char *i_asn1; /* Responder values */ const char *r_proto_public; const char *r_proto_private; const char *r_boot_public; const char *r_boot_private; const char *r_nonce; const char *r_auth; const char *r_asn1; const char *k1; const char *k2; const char *ke; const char *mx; const char *nx; const char *lx; }; /* * B.1 Test Vectors for DPP Authentication Using P-256 for * Mutual Authentication */ static struct dpp_test_vector mutual_p256 = { .i_proto_public = "50a532ae2a07207276418d2fa630295d45569be425aa634f02014d00a7d1f61a" "e14f35a5a858bccad90d126c46594c49ef82655e78888e15a32d916ac2172491", .i_proto_private = "a87de9afbb406c96e5f79a3df895ecac3ad406f95da66314c8cb3165e0c61783", /* * The spec uses a 31 octet Y value, a zero byte was prepended to the * Y value here otherwise the point cannot be created */ .i_boot_public = "88b37ed91938b5197097808a6244847617892046d93b9501afd48fa0f148dfde" "00f73b6991287884a9c9a33f8e0691f14d44b59811e9d8242d010270b0d33ec0", .i_boot_private = "15b2a83c5a0a38b61f2aa8200ee4994b8afdc01c58507d10d0a38f7eedf051bb", .i_nonce = "13f4602a16daeb69712263b9c46cba31", .i_auth = "d34944bb4b1f05caebda762c6e4ae034c819ec2f62a57dcfade2473876e007b2", .i_asn1 = "3039301306072a8648ce3d020106082a8648ce3d0301070322000288b37ed919" "38b5197097808a6244847617892046d93b9501afd48fa0f148dfde", .r_proto_public = "5e3fb3576884887f17c3203d8a3a6c2fac722ef0e2201b61ac73bc655c709a90" "2d4b030669fb9eff8b0a79fa7c1a172ac2a92c626256963f9274dc90682c81e5", .r_proto_private = "f798ed2e19286f6a6efe210b1863badb99af2a14b497634dbfd2a97394fb5aa5", .r_boot_public = "09c585a91b4df9fd25a045201885c39cc5cfae397ddaeda957dec57fa0e3503f" "52bf05968198a2f92883e96a386d767579883302dbf292105c90a43694c2fd5c", .r_boot_private = "54ce181a98525f217216f59b245f60e9df30ac7f6b26c939418cfc3c42d1afa0", .r_nonce = "3d0cfb011ca916d796f7029ff0b43393", .r_auth = "a725abe6dc66ccf3aa3d6d61a19932fcbb0799ed09ff78e5bc6d4ea5ef8e8670", .r_asn1 = "3039301306072a8648ce3d020106082a8648ce3d0301070322000209c585a91b" "4df9fd25a045201885c39cc5cfae397ddaeda957dec57fa0e3503f", .k1 = "3d832a02ed6d7fc1dc96d2eceab738cf01c0028eb256be33d5a21a720bfcf949", .k2 = "ca08bdeeef838ddf897a5f01f20bb93dc5a895cb86788ca8c00a7664899bc310", .ke = "b6db65526c9a0174c3bed56f7e614f3a656233c078693249ac3516425127e5d5", .mx = "dde2878117d69745be4f916a2dd14269d783d1d788c603bb8746beabbd1dbbbc", .nx = "92118478b75c21c2c59340c842b5bce560a535f60bc37a75fe390d738c58d8e8", .lx = "fb737234c973cc3a36e64e5170a32f12089d198c73c2fd85a53d0b282530fd02" }; /* * B.2 Test Vectors for DPP Authentication Using P-256 for * Responder-only Authentication */ static struct dpp_test_vector responder_only_p256 = { .i_proto_public = "50a532ae2a07207276418d2fa630295d45569be425aa634f02014d00a7d1f61a" "e14f35a5a858bccad90d126c46594c49ef82655e78888e15a32d916ac2172491", .i_nonce = "13f4602a16daeb69712263b9c46cba31", .i_auth = "787d1189b526448d2901e7f6c22775ce514fce52fc886c1e924f2fbb8d97b210", .r_proto_public = "5e3fb3576884887f17c3203d8a3a6c2fac722ef0e2201b61ac73bc655c709a90" "2d4b030669fb9eff8b0a79fa7c1a172ac2a92c626256963f9274dc90682c81e5", .r_proto_private = "f798ed2e19286f6a6efe210b1863badb99af2a14b497634dbfd2a97394fb5aa5", .r_boot_public = "09c585a91b4df9fd25a045201885c39cc5cfae397ddaeda957dec57fa0e3503f" "52bf05968198a2f92883e96a386d767579883302dbf292105c90a43694c2fd5c", .r_boot_private = "54ce181a98525f217216f59b245f60e9df30ac7f6b26c939418cfc3c42d1afa0", .r_nonce = "3d0cfb011ca916d796f7029ff0b43393", .r_auth = "43509ef7137d8c2fbe66d802ae09dedd94d41b8cbfafb4954782014ff4a3f91c", .r_asn1 = "3039301306072a8648ce3d020106082a8648ce3d0301070322000209c585a91b" "4df9fd25a045201885c39cc5cfae397ddaeda957dec57fa0e3503f", .k1 = "3d832a02ed6d7fc1dc96d2eceab738cf01c0028eb256be33d5a21a720bfcf949", .k2 = "ca08bdeeef838ddf897a5f01f20bb93dc5a895cb86788ca8c00a7664899bc310", .ke = "c8882a8ab30c878467822534138c704ede0ab1e873fe03b601a7908463fec87a", .mx = "dde2878117d69745be4f916a2dd14269d783d1d788c603bb8746beabbd1dbbbc", .nx = "92118478b75c21c2c59340c842b5bce560a535f60bc37a75fe390d738c58d8e8", }; #define HEX2BUF(s, buf, _len) { \ size_t _len_out; \ unsigned char *_tmp = l_util_from_hexstring(s, &_len_out); \ memcpy(buf, _tmp, _len_out); \ l_free(_tmp); \ } #define CHECK_FROM_STR(str, bytes, __len) \ ({ \ uint64_t __tmp[L_ECC_MAX_DIGITS]; \ HEX2BUF(str, __tmp, __len); \ assert(!memcmp(bytes, __tmp, __len)); \ }) static void test_key_derivation(const void *data) { const struct dpp_test_vector *vector = data; uint64_t tmp[L_ECC_MAX_DIGITS * 2]; const struct l_ecc_curve *curve = l_ecc_curve_from_ike_group(19); _auto_(l_ecc_point_free) struct l_ecc_point *i_boot_public = NULL; _auto_(l_ecc_scalar_free) struct l_ecc_scalar *i_boot_private = NULL; _auto_(l_ecc_point_free) struct l_ecc_point *i_proto_public = NULL; _auto_(l_ecc_point_free) struct l_ecc_point *r_boot_public = NULL; _auto_(l_ecc_scalar_free) struct l_ecc_scalar *r_boot_private = NULL; _auto_(l_ecc_scalar_free) struct l_ecc_scalar *r_proto_private = NULL; _auto_(l_ecc_point_free) struct l_ecc_point *r_proto_public = NULL; _auto_(l_ecc_scalar_free) struct l_ecc_scalar *m = NULL; _auto_(l_ecc_scalar_free) struct l_ecc_scalar *n = NULL; _auto_(l_ecc_point_free) struct l_ecc_point *l = NULL; _auto_(l_ecc_point_free) struct l_ecc_point *from_asn1 = NULL; uint64_t k1[L_ECC_MAX_DIGITS]; uint64_t k2[L_ECC_MAX_DIGITS]; uint64_t ke[L_ECC_MAX_DIGITS]; uint8_t i_nonce[16]; uint8_t r_nonce[16]; uint64_t r_auth[L_ECC_MAX_DIGITS]; uint64_t i_auth[L_ECC_MAX_DIGITS]; _auto_(l_free) uint8_t *asn1 = NULL; size_t asn1_len; HEX2BUF(vector->i_proto_public, tmp, 64); i_proto_public = l_ecc_point_from_data(curve, L_ECC_POINT_TYPE_FULL, tmp, 64); assert(i_proto_public); HEX2BUF(vector->r_boot_public, tmp, 64); r_boot_public = l_ecc_point_from_data(curve, L_ECC_POINT_TYPE_FULL, tmp, 64); assert(r_boot_public); if (vector->i_boot_public) { HEX2BUF(vector->i_boot_public, tmp, 64); i_boot_public = l_ecc_point_from_data(curve, L_ECC_POINT_TYPE_FULL, tmp, 64); assert(i_boot_public); } if (vector->i_boot_private) { HEX2BUF(vector->i_boot_private, tmp, 32); i_boot_private = l_ecc_scalar_new(curve, tmp, 32); assert(i_boot_private); } HEX2BUF(vector->r_asn1, tmp, sizeof(tmp)); asn1 = dpp_point_to_asn1(r_boot_public, &asn1_len); from_asn1 = dpp_point_from_asn1(asn1, asn1_len); assert(l_ecc_points_are_equal(from_asn1, r_boot_public)); assert(asn1_len == 59); assert(memcmp(tmp, asn1, asn1_len) == 0); if (vector->i_asn1) { HEX2BUF(vector->i_asn1, tmp, sizeof(tmp)); l_free(asn1); asn1 = dpp_point_to_asn1(i_boot_public, &asn1_len); l_free(from_asn1); from_asn1 = dpp_point_from_asn1(asn1, asn1_len); assert(l_ecc_points_are_equal(from_asn1, i_boot_public)); assert(asn1_len == 59); assert(memcmp(tmp, asn1, asn1_len) == 0); } HEX2BUF(vector->r_proto_public, tmp, 64); r_proto_public = l_ecc_point_from_data(curve, L_ECC_POINT_TYPE_FULL, tmp, 64); assert(r_proto_public); HEX2BUF(vector->r_boot_private, tmp, 32); r_boot_private = l_ecc_scalar_new(curve, tmp, 32); assert(r_boot_private); HEX2BUF(vector->r_proto_private, tmp, 32); r_proto_private = l_ecc_scalar_new(curve, tmp, 32); assert(r_proto_private); m = dpp_derive_k1(i_proto_public, r_boot_private, k1); assert(m); CHECK_FROM_STR(vector->k1, k1, 32); l_ecc_scalar_get_data(m, tmp, sizeof(tmp)); CHECK_FROM_STR(vector->mx, tmp, 32); n = dpp_derive_k2(i_proto_public, r_proto_private, k2); assert(n); CHECK_FROM_STR(vector->k2, k2, 32); l_ecc_scalar_get_data(n, tmp, sizeof(tmp)); CHECK_FROM_STR(vector->nx, tmp, 32); if (vector->lx) { /* Check initiator derivation */ l = dpp_derive_li(r_boot_public, r_proto_public, i_boot_private); assert(l); l_ecc_point_get_x(l, tmp, sizeof(tmp)); CHECK_FROM_STR(vector->lx, tmp, 32); l_ecc_point_free(l); l = NULL; /* Check responder derivation */ l = dpp_derive_lr(r_boot_private, r_proto_private, i_boot_public); assert(l); l_ecc_point_get_x(l, tmp, sizeof(tmp)); CHECK_FROM_STR(vector->lx, tmp, 32); } HEX2BUF(vector->i_nonce, i_nonce, 16); HEX2BUF(vector->r_nonce, r_nonce, 16); dpp_derive_ke(i_nonce, r_nonce, m, n, l, ke); CHECK_FROM_STR(vector->ke, ke, 32); dpp_derive_r_auth(i_nonce, r_nonce, 16, i_proto_public, r_proto_public, i_boot_public, r_boot_public, r_auth); CHECK_FROM_STR(vector->r_auth, r_auth, 32); dpp_derive_i_auth(r_nonce, i_nonce, 16, r_proto_public, i_proto_public, r_boot_public, i_boot_public, i_auth); CHECK_FROM_STR(vector->i_auth, i_auth, 32); } struct dpp_pkex_test_vector { uint8_t mac_i[6]; uint8_t mac_r[6]; const char *identifier; const char *key; const char *i_boot_public; const char *i_boot_private; const char *qix; const char *r_boot_public; const char *r_boot_private; const char *qrx; const char *mx; const char *nx; const char *k; const char *j; const char *ax; const char *yx; const char *xx; const char *bx; const char *lx; const char *z; const char *u; const char *v; }; /* * Appendix D PKEX Test Vector for NIST p256 */ static struct dpp_pkex_test_vector pkex_vector = { .mac_i = { 0xac, 0x64, 0x91, 0xf4, 0x52, 0x07 }, .mac_r = { 0x6e, 0x5e, 0xce, 0x6e, 0xf3, 0xdd }, .identifier = "joes_key", .key = "thisisreallysecret", .i_boot_public = "0ad58864754c812685ff3a52a573c1d72c72c4ebed98f3915622d4dfc84a438d" "7e81429aac49ddec75ad6521db9c74074e30b5eb2ba53693c9341b79be14e101", .i_boot_private = "5941b51acfc702cdc1c347264beb2920db88eb1a0bf03a211868b1632233c269", .qix = "2867c4e080980dbad5099a8f821e8729679c5c714888c0bd9c7e8e4048c5fa5e", .r_boot_public = "977b7fa39779a81429febb12e1dc5e20a7e017c4bc7437090e57c966a2b0e8a3" "9d2b62733947639763f64c7b6708c1e0857becb7e24fc195248b5b06036cf792", .r_boot_private = "2ae8956293f49986b6d0b8169a86805d9232babb5f6813fdfe96f19d59536c60", .qrx = "134af1c41c8e7d974c647cc2bfca30b036966959f9044e90f673d756706e624c", .mx = "bcca8e23e5c05032ae6051ca6392f7c4a4b4f9fe13e8126132d070e552848176", .nx = "0a91e0728809bb8191ea36d0a1d5602bf36ab6708fbfd063e2511e533b534020", .k = "7415e1c68611f0443cc345d136984e488c6a26d3d5482fa67e9841a03a87c78f", .j = "31c1b9ab31d9c2f278b35b5c29d180dfeaf76d585ede9c0dd91cb66149db572e", .ax = "0ad58864754c812685ff3a52a573c1d72c72c4ebed98f3915622d4dfc84a438d", .yx = "a9972a94f143740df31c7a61124d01a4e949d0fdcede61369f4c6b097aeb18b5", .xx = "740ab9f0c173507b0081b475b275de6a3060cf434b6a65f0b0144a1dbf913310", .bx = "977b7fa39779a81429febb12e1dc5e20a7e017c4bc7437090e57c966a2b0e8a3", .lx = "bc5f3128b0b997079a23ead63cf502ef4f7526602269620377b79bce20e03d44", .z = "5271dee915cf7b1908747d8edb8394442411c5183ee38b79ebef399c08738e0b", .u = "598c3d8dcccea2d43259068d542a907442f07e8cbcfb3fb49faac12eb2fee5b6", .v = "b2833ce21ab4e42c082111a5dd232334e48019f66b2e274f521fe2f7dfa11999", }; static void test_pkex_key_derivation(const void *user_data) { const struct dpp_pkex_test_vector *vector = user_data; const struct l_ecc_curve *curve = l_ecc_curve_from_ike_group(19); uint64_t tmp[L_ECC_MAX_DIGITS * 2]; _auto_(l_ecc_point_free) struct l_ecc_point *qi = NULL; _auto_(l_ecc_point_free) struct l_ecc_point *qr = NULL; _auto_(l_ecc_point_free) struct l_ecc_point *n = NULL; _auto_(l_ecc_point_free) struct l_ecc_point *m = NULL; _auto_(l_ecc_point_free) struct l_ecc_point *j = NULL; _auto_(l_ecc_point_free) struct l_ecc_point *k = NULL; _auto_(l_ecc_point_free) struct l_ecc_point *a = NULL; _auto_(l_ecc_point_free) struct l_ecc_point *y = NULL; _auto_(l_ecc_point_free) struct l_ecc_point *x = NULL; _auto_(l_ecc_point_free) struct l_ecc_point *b = NULL; _auto_(l_ecc_point_free) struct l_ecc_point *l = NULL; size_t len; qi = dpp_derive_qi(curve, vector->key, vector->identifier, vector->mac_i); l_ecc_point_get_x(qi, tmp, sizeof(tmp)); CHECK_FROM_STR(vector->qix, tmp, 32); qr = dpp_derive_qr(curve, vector->key, vector->identifier, vector->mac_r); l_ecc_point_get_x(qr, tmp, sizeof(tmp)); CHECK_FROM_STR(vector->qrx, tmp, 32); HEX2BUF(vector->nx, tmp, 32); n = l_ecc_point_from_data(curve, L_ECC_POINT_TYPE_COMPLIANT, tmp, 32); assert(n); HEX2BUF(vector->mx, tmp, 32); m = l_ecc_point_from_data(curve, L_ECC_POINT_TYPE_COMPLIANT, tmp, 32); assert(m); HEX2BUF(vector->k, tmp, 32); k = l_ecc_point_from_data(curve, L_ECC_POINT_TYPE_COMPLIANT, tmp, 32); assert(k); dpp_derive_z(vector->mac_i, vector->mac_r, n, m, k, vector->key, vector->identifier, tmp, &len); CHECK_FROM_STR(vector->z, tmp, 32); HEX2BUF(vector->j, tmp, 32); j = l_ecc_point_from_data(curve, L_ECC_POINT_TYPE_COMPLIANT, tmp, 32); assert(j); HEX2BUF(vector->ax, tmp, 32); a = l_ecc_point_from_data(curve, L_ECC_POINT_TYPE_COMPLIANT, tmp, 32); assert(a); HEX2BUF(vector->yx, tmp, 32); y = l_ecc_point_from_data(curve, L_ECC_POINT_TYPE_COMPLIANT, tmp, 32); assert(y); HEX2BUF(vector->xx, tmp, 32); x = l_ecc_point_from_data(curve, L_ECC_POINT_TYPE_COMPLIANT, tmp, 32); assert(x); dpp_derive_u(j, vector->mac_i, a, y, x, tmp, &len); CHECK_FROM_STR(vector->u, tmp, 32); HEX2BUF(vector->bx, tmp, 32); b = l_ecc_point_from_data(curve, L_ECC_POINT_TYPE_COMPLIANT, tmp, 32); assert(b); HEX2BUF(vector->lx, tmp, 32); l = l_ecc_point_from_data(curve, L_ECC_POINT_TYPE_COMPLIANT, tmp, 32); assert(l); dpp_derive_v(l, vector->mac_r, b, x, y, tmp, &len); CHECK_FROM_STR(vector->v, tmp, 32); } int main(int argc, char *argv[]) { l_test_init(&argc, &argv); if (l_checksum_is_supported(L_CHECKSUM_SHA256, true) && l_getrandom_is_supported()) { l_test_add("DPP test responder-only key derivation", test_key_derivation, &responder_only_p256); l_test_add("DPP test mutual key derivation", test_key_derivation, &mutual_p256); l_test_add("DPP test PKEX key derivation", test_pkex_key_derivation, &pkex_vector); } l_test_add("DPP URI parse", test_uri_parse, &all_values); l_test_add("DPP URI no type", test_uri_parse, &no_type); l_test_add("DPP URI empty", test_uri_parse, &empty); l_test_add("DPP URI no key", test_uri_parse, &no_key); l_test_add("DPP URI data after terminator", test_uri_parse, &data_after_terminator); l_test_add("DPP URI single terminator", test_uri_parse, &single_terminator); l_test_add("DPP URI no terminator", test_uri_parse, &no_terminator); l_test_add("DPP URI bad key", test_uri_parse, &bad_key); l_test_add("DPP URI bad channels", test_bad_channels, &bad_channels); l_test_add("DPP URI unexpected ID", test_uri_parse, &unexpected_id); return l_test_run(); }