/* Copyright (c) 2007-2019, The Tor Project, Inc. */ /* See LICENSE for licensing information */ /** * \file test_nodelist.c * \brief Unit tests for nodelist related functions. **/ #define NODELIST_PRIVATE #include "core/or/or.h" #include "lib/crypt_ops/crypto_rand.h" #include "feature/nodelist/networkstatus.h" #include "feature/nodelist/nodefamily.h" #include "feature/nodelist/nodelist.h" #include "feature/nodelist/torcert.h" #include "feature/nodelist/microdesc_st.h" #include "feature/nodelist/networkstatus_st.h" #include "feature/nodelist/node_st.h" #include "feature/nodelist/nodefamily_st.h" #include "feature/nodelist/routerinfo_st.h" #include "feature/nodelist/routerstatus_st.h" #include "test/test.h" #include "test/log_test_helpers.h" /** Test the case when node_get_by_id() returns NULL, * node_get_verbose_nickname_by_id should return the base 16 encoding * of the id. */ static void test_nodelist_node_get_verbose_nickname_by_id_null_node(void *arg) { char vname[MAX_VERBOSE_NICKNAME_LEN+1]; const char ID[] = "\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA" "\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA"; (void) arg; /* make sure node_get_by_id returns NULL */ tt_assert(!node_get_by_id(ID)); node_get_verbose_nickname_by_id(ID, vname); tt_str_op(vname,OP_EQ, "$AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"); done: return; } /** For routers without named flag, get_verbose_nickname should return * "Fingerprint~Nickname" */ static void test_nodelist_node_get_verbose_nickname_not_named(void *arg) { node_t mock_node; routerstatus_t mock_rs; char vname[MAX_VERBOSE_NICKNAME_LEN+1]; (void) arg; memset(&mock_node, 0, sizeof(node_t)); memset(&mock_rs, 0, sizeof(routerstatus_t)); /* verbose nickname should use ~ instead of = for unnamed routers */ strlcpy(mock_rs.nickname, "TestOR", sizeof(mock_rs.nickname)); mock_node.rs = &mock_rs; memcpy(mock_node.identity, "\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA" "\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA", DIGEST_LEN); node_get_verbose_nickname(&mock_node, vname); tt_str_op(vname,OP_EQ, "$AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA~TestOR"); done: return; } /** A node should be considered a directory server if it has an open dirport * or it accepts tunnelled directory requests. */ static void test_nodelist_node_is_dir(void *arg) { (void)arg; routerstatus_t rs; routerinfo_t ri; node_t node; memset(&node, 0, sizeof(node_t)); memset(&rs, 0, sizeof(routerstatus_t)); memset(&ri, 0, sizeof(routerinfo_t)); tt_assert(!node_is_dir(&node)); node.rs = &rs; tt_assert(!node_is_dir(&node)); rs.is_v2_dir = 1; tt_assert(node_is_dir(&node)); rs.is_v2_dir = 0; rs.dir_port = 1; tt_assert(! node_is_dir(&node)); node.rs = NULL; tt_assert(!node_is_dir(&node)); node.ri = &ri; ri.supports_tunnelled_dir_requests = 1; tt_assert(node_is_dir(&node)); ri.supports_tunnelled_dir_requests = 0; ri.dir_port = 1; tt_assert(! node_is_dir(&node)); done: return; } static networkstatus_t *dummy_ns = NULL; static networkstatus_t * mock_networkstatus_get_latest_consensus(void) { return dummy_ns; } static networkstatus_t * mock_networkstatus_get_latest_consensus_by_flavor(consensus_flavor_t f) { tor_assert(f == FLAV_MICRODESC); return dummy_ns; } static void test_nodelist_ed_id(void *arg) { #define N_NODES 5 routerstatus_t *rs[N_NODES]; microdesc_t *md[N_NODES]; routerinfo_t *ri[N_NODES]; networkstatus_t *ns; int i; (void)arg; ns = tor_malloc_zero(sizeof(networkstatus_t)); ns->flavor = FLAV_MICRODESC; ns->routerstatus_list = smartlist_new(); dummy_ns = ns; MOCK(networkstatus_get_latest_consensus, mock_networkstatus_get_latest_consensus); MOCK(networkstatus_get_latest_consensus_by_flavor, mock_networkstatus_get_latest_consensus_by_flavor); /* Make a bunch of dummy objects that we can play around with. Only set the necessary fields */ for (i = 0; i < N_NODES; ++i) { rs[i] = tor_malloc_zero(sizeof(*rs[i])); md[i] = tor_malloc_zero(sizeof(*md[i])); ri[i] = tor_malloc_zero(sizeof(*ri[i])); crypto_rand(md[i]->digest, sizeof(md[i]->digest)); md[i]->ed25519_identity_pkey = tor_malloc(sizeof(ed25519_public_key_t)); crypto_rand((char*)md[i]->ed25519_identity_pkey, sizeof(ed25519_public_key_t)); crypto_rand(rs[i]->identity_digest, sizeof(rs[i]->identity_digest)); memcpy(ri[i]->cache_info.identity_digest, rs[i]->identity_digest, DIGEST_LEN); memcpy(rs[i]->descriptor_digest, md[i]->digest, DIGEST256_LEN); ri[i]->cache_info.signing_key_cert = tor_malloc_zero(sizeof(tor_cert_t)); memcpy(&ri[i]->cache_info.signing_key_cert->signing_key, md[i]->ed25519_identity_pkey, sizeof(ed25519_public_key_t)); if (i < 3) smartlist_add(ns->routerstatus_list, rs[i]); } tt_int_op(0, OP_EQ, smartlist_len(nodelist_get_list())); nodelist_set_consensus(ns); tt_int_op(3, OP_EQ, smartlist_len(nodelist_get_list())); /* No Ed25519 info yet, so nothing has an ED id. */ tt_ptr_op(NULL, OP_EQ, node_get_by_ed25519_id(md[0]->ed25519_identity_pkey)); /* Register the first one by md, then look it up. */ node_t *n = nodelist_add_microdesc(md[0]); tt_ptr_op(n, OP_EQ, node_get_by_ed25519_id(md[0]->ed25519_identity_pkey)); /* Register the second by ri, then look it up. */ routerinfo_t *ri_old = NULL; n = nodelist_set_routerinfo(ri[1], &ri_old); tt_ptr_op(n, OP_EQ, node_get_by_ed25519_id(md[1]->ed25519_identity_pkey)); tt_ptr_op(ri_old, OP_EQ, NULL); /* Register it by md too. */ node_t *n2 = nodelist_add_microdesc(md[1]); tt_ptr_op(n2, OP_EQ, n); tt_ptr_op(n, OP_EQ, node_get_by_ed25519_id(md[1]->ed25519_identity_pkey)); /* Register the 4th by ri only -- we never put it into the networkstatus, * so it has to be independent */ node_t *n3 = nodelist_set_routerinfo(ri[3], &ri_old); tt_ptr_op(n3, OP_EQ, node_get_by_ed25519_id(md[3]->ed25519_identity_pkey)); tt_ptr_op(ri_old, OP_EQ, NULL); tt_int_op(4, OP_EQ, smartlist_len(nodelist_get_list())); /* Register the 5th by ri only, and rewrite its ed25519 pubkey to be * the same as the 4th, to test the duplicate ed25519 key logging in * nodelist.c */ memcpy(md[4]->ed25519_identity_pkey, md[3]->ed25519_identity_pkey, sizeof(ed25519_public_key_t)); memcpy(&ri[4]->cache_info.signing_key_cert->signing_key, md[3]->ed25519_identity_pkey, sizeof(ed25519_public_key_t)); setup_capture_of_logs(LOG_NOTICE); node_t *n4 = nodelist_set_routerinfo(ri[4], &ri_old); tt_ptr_op(ri_old, OP_EQ, NULL); tt_int_op(5, OP_EQ, smartlist_len(nodelist_get_list())); tt_ptr_op(n4, OP_NE, node_get_by_ed25519_id(md[3]->ed25519_identity_pkey)); tt_ptr_op(n3, OP_EQ, node_get_by_ed25519_id(md[3]->ed25519_identity_pkey)); expect_log_msg_containing("Reused ed25519_id"); done: teardown_capture_of_logs(); for (i = 0; i < N_NODES; ++i) { tor_free(rs[i]); tor_free(md[i]->ed25519_identity_pkey); tor_free(md[i]); tor_free(ri[i]->cache_info.signing_key_cert); tor_free(ri[i]); } smartlist_clear(ns->routerstatus_list); networkstatus_vote_free(ns); UNMOCK(networkstatus_get_latest_consensus); UNMOCK(networkstatus_get_latest_consensus_by_flavor); #undef N_NODES } static void test_nodelist_nodefamily(void *arg) { (void)arg; /* hex ID digests */ const char h1[] = "5B435D6869206861206C65207363617270652070"; const char h2[] = "75C3B220616E6461726520696E206769726F2061"; const char h3[] = "2074726F766172206461206D616E67696172652C"; const char h4[] = "206D656E747265206E6F6E2076616C65206C2769"; const char h5[] = "6E766572736F2E202D2D5072696D6F204C657669"; /* binary ID digests */ uint8_t d1[DIGEST_LEN], d2[DIGEST_LEN], d3[DIGEST_LEN], d4[DIGEST_LEN], d5[DIGEST_LEN]; base16_decode((char*)d1, sizeof(d1), h1, strlen(h1)); base16_decode((char*)d2, sizeof(d2), h2, strlen(h2)); base16_decode((char*)d3, sizeof(d3), h3, strlen(h3)); base16_decode((char*)d4, sizeof(d4), h4, strlen(h4)); base16_decode((char*)d5, sizeof(d5), h5, strlen(h5)); char *enc=NULL, *enc2=NULL; nodefamily_t *nf1 = NULL; nodefamily_t *nf2 = NULL; nodefamily_t *nf3 = NULL; enc = nodefamily_format(NULL); tt_str_op(enc, OP_EQ, ""); tor_free(enc); /* Make sure that sorting and de-duplication work. */ tor_asprintf(&enc, "$%s hello", h1); nf1 = nodefamily_parse(enc, NULL, 0); tt_assert(nf1); tor_free(enc); tor_asprintf(&enc, "hello hello $%s hello", h1); nf2 = nodefamily_parse(enc, NULL, 0); tt_assert(nf2); tt_ptr_op(nf1, OP_EQ, nf2); tor_free(enc); tor_asprintf(&enc, "%s $%s hello", h1, h1); nf3 = nodefamily_parse(enc, NULL, 0); tt_assert(nf3); tt_ptr_op(nf1, OP_EQ, nf3); tor_free(enc); tt_assert(nodefamily_contains_rsa_id(nf1, d1)); tt_assert(! nodefamily_contains_rsa_id(nf1, d2)); tt_assert(nodefamily_contains_nickname(nf1, "hello")); tt_assert(nodefamily_contains_nickname(nf1, "HELLO")); tt_assert(! nodefamily_contains_nickname(nf1, "goodbye")); tt_int_op(nf1->refcnt, OP_EQ, 3); nodefamily_free(nf3); tt_int_op(nf1->refcnt, OP_EQ, 2); /* Try parsing with a provided self RSA digest. */ nf3 = nodefamily_parse("hello ", d1, 0); tt_assert(nf3); tt_ptr_op(nf1, OP_EQ, nf3); /* Do we get the expected result when we re-encode? */ tor_asprintf(&enc, "$%s hello", h1); enc2 = nodefamily_format(nf1); tt_str_op(enc2, OP_EQ, enc); tor_free(enc2); tor_free(enc); /* Make sure that we get a different result if we give a different digest. */ nodefamily_free(nf3); tor_asprintf(&enc, "hello $%s hello", h3); nf3 = nodefamily_parse(enc, NULL, 0); tt_assert(nf3); tt_ptr_op(nf1, OP_NE, nf3); tor_free(enc); tt_assert(nodefamily_contains_rsa_id(nf3, d3)); tt_assert(! nodefamily_contains_rsa_id(nf3, d2)); tt_assert(! nodefamily_contains_rsa_id(nf3, d1)); tt_assert(nodefamily_contains_nickname(nf3, "hello")); tt_assert(! nodefamily_contains_nickname(nf3, "goodbye")); nodefamily_free(nf1); nodefamily_free(nf2); nodefamily_free(nf3); /* Try one with several digests, all with nicknames appended, in different formats. */ tor_asprintf(&enc, "%s $%s $%s=res $%s~ist", h1, h2, h3, h4); nf1 = nodefamily_parse(enc, d5, 0); tt_assert(nf1); tt_assert(nodefamily_contains_rsa_id(nf1, d1)); tt_assert(nodefamily_contains_rsa_id(nf1, d2)); tt_assert(nodefamily_contains_rsa_id(nf1, d3)); tt_assert(nodefamily_contains_rsa_id(nf1, d4)); tt_assert(nodefamily_contains_rsa_id(nf1, d5)); /* Nicknames aren't preserved when ids are present, since node naming is * deprecated */ tt_assert(! nodefamily_contains_nickname(nf3, "res")); tor_free(enc); tor_asprintf(&enc, "$%s $%s $%s $%s $%s", h4, h3, h1, h5, h2); enc2 = nodefamily_format(nf1); tt_str_op(enc, OP_EQ, enc2); tor_free(enc); tor_free(enc2); /* Try ones where we parse the empty string. */ nf2 = nodefamily_parse("", NULL, 0); nf3 = nodefamily_parse("", d4, 0); tt_assert(nf2); tt_assert(nf3); tt_ptr_op(nf2, OP_NE, nf3); tt_assert(! nodefamily_contains_rsa_id(nf2, d4)); tt_assert(nodefamily_contains_rsa_id(nf3, d4)); tt_assert(! nodefamily_contains_rsa_id(nf2, d5)); tt_assert(! nodefamily_contains_rsa_id(nf3, d5)); tt_assert(! nodefamily_contains_nickname(nf2, "fred")); tt_assert(! nodefamily_contains_nickname(nf3, "bosco")); /* The NULL family should contain nothing. */ tt_assert(! nodefamily_contains_rsa_id(NULL, d4)); tt_assert(! nodefamily_contains_rsa_id(NULL, d5)); done: tor_free(enc); tor_free(enc2); nodefamily_free(nf1); nodefamily_free(nf2); nodefamily_free(nf3); nodefamily_free_all(); } static void test_nodelist_nodefamily_parse_err(void *arg) { (void)arg; nodefamily_t *nf1 = NULL; char *enc = NULL; const char *semibogus = "sdakljfdslkfjdsaklfjdkl9sdf " // too long for nickname "$jkASDFLkjsadfjhkl " // not hex "$7468696e67732d696e2d7468656d73656c766573 " // ok "reticulatogranulate "// ok "$73656d69616e7468726f706f6c6f676963616c6c79 " // too long for hex "$616273656e746d696e6465646e6573736573" // too short for hex ; setup_capture_of_logs(LOG_WARN); // We only get two items when we parse this. for (int reject = 0; reject <= 1; ++reject) { for (int log_at_warn = 0; log_at_warn <= 1; ++log_at_warn) { unsigned flags = log_at_warn ? NF_WARN_MALFORMED : 0; flags |= reject ? NF_REJECT_MALFORMED : 0; nf1 = nodefamily_parse(semibogus, NULL, flags); if (reject) { tt_assert(nf1 == NULL); } else { tt_assert(nf1); enc = nodefamily_format(nf1); tt_str_op(enc, OP_EQ, "$7468696E67732D696E2D7468656D73656C766573 " "reticulatogranulate"); tor_free(enc); } if (log_at_warn) { expect_log_msg_containing("$616273656e746d696e6465646e6573736573"); expect_log_msg_containing("sdakljfdslkfjdsaklfjdkl9sdf"); } else { tt_int_op(mock_saved_log_n_entries(), OP_EQ, 0); } mock_clean_saved_logs(); } } done: tor_free(enc); nodefamily_free(nf1); teardown_capture_of_logs(); } static const node_t * mock_node_get_by_id(const char *id) { if (fast_memeq(id, "!!!!!!!!!!!!!!!!!!!!", DIGEST_LEN)) return NULL; // use tor_free, not node_free. node_t *fake_node = tor_malloc_zero(sizeof(node_t)); memcpy(fake_node->identity, id, DIGEST_LEN); return fake_node; } static const node_t * mock_node_get_by_nickname(const char *nn, unsigned flags) { (void)flags; if (!strcmp(nn, "nonesuch")) return NULL; // use tor_free, not node_free. node_t *fake_node = tor_malloc_zero(sizeof(node_t)); strlcpy(fake_node->identity, nn, DIGEST_LEN); return fake_node; } static void test_nodelist_nodefamily_lookup(void *arg) { (void)arg; MOCK(node_get_by_nickname, mock_node_get_by_nickname); MOCK(node_get_by_id, mock_node_get_by_id); smartlist_t *sl = smartlist_new(); nodefamily_t *nf1 = NULL; char *mem_op_hex_tmp = NULL; // 'null' is allowed. nodefamily_add_nodes_to_smartlist(NULL, sl); tt_int_op(smartlist_len(sl), OP_EQ, 0); // Try a real family nf1 = nodefamily_parse("$EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE " "$2121212121212121212121212121212121212121 " "$3333333333333333333333333333333333333333 " "erewhon nonesuch", NULL, 0); tt_assert(nf1); nodefamily_add_nodes_to_smartlist(nf1, sl); // There were 5 elements; 2 were dropped because the mocked lookup failed. tt_int_op(smartlist_len(sl), OP_EQ, 3); const node_t *n = smartlist_get(sl, 0); test_memeq_hex(n->identity, "3333333333333333333333333333333333333333"); n = smartlist_get(sl, 1); test_memeq_hex(n->identity, "EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE"); n = smartlist_get(sl, 2); tt_str_op(n->identity, OP_EQ, "erewhon"); done: UNMOCK(node_get_by_nickname); UNMOCK(node_get_by_id); SMARTLIST_FOREACH(sl, node_t *, fake_node, tor_free(fake_node)); smartlist_free(sl); nodefamily_free(nf1); tor_free(mem_op_hex_tmp); } static void test_nodelist_nickname_matches(void *arg) { (void)arg; node_t mock_node; routerstatus_t mock_rs; memset(&mock_node, 0, sizeof(mock_node)); memset(&mock_rs, 0, sizeof(mock_rs)); strlcpy(mock_rs.nickname, "evilgeniuses", sizeof(mock_rs.nickname)); mock_node.rs = &mock_rs; memcpy(mock_node.identity, ".forabettertomorrow.", DIGEST_LEN); #define match(x) tt_assert(node_nickname_matches(&mock_node, (x))) #define no_match(x) tt_assert(! node_nickname_matches(&mock_node, (x))) match("evilgeniuses"); match("EvilGeniuses"); match("EvilGeniuses"); match("2e666f7261626574746572746f6d6f72726f772e"); match("2E666F7261626574746572746F6D6F72726F772E"); match("$2e666f7261626574746572746f6d6f72726f772e"); match("$2E666F7261626574746572746F6D6F72726F772E"); match("$2E666F7261626574746572746F6D6F72726F772E~evilgeniuses"); match("$2E666F7261626574746572746F6D6F72726F772E~EVILGENIUSES"); no_match("evilgenius"); no_match("evilgeniuseses"); no_match("evil.genius"); no_match("$2E666F7261626574746572746F6D6F72726FFFFF"); no_match("2E666F7261626574746572746F6D6F72726FFFFF"); no_match("$2E666F7261626574746572746F6D6F72726F772E~fred"); no_match("$2E666F7261626574746572746F6D6F72726F772E=EVILGENIUSES"); done: ; } static void test_nodelist_node_nodefamily(void *arg) { (void)arg; node_t mock_node1; routerstatus_t mock_rs; microdesc_t mock_md; node_t mock_node2; routerinfo_t mock_ri; smartlist_t *nodes=smartlist_new(); memset(&mock_node1, 0, sizeof(mock_node1)); memset(&mock_node2, 0, sizeof(mock_node2)); memset(&mock_rs, 0, sizeof(mock_rs)); memset(&mock_md, 0, sizeof(mock_md)); memset(&mock_ri, 0, sizeof(mock_ri)); mock_node1.rs = &mock_rs; mock_node1.md = &mock_md; mock_node2.ri = &mock_ri; strlcpy(mock_rs.nickname, "nodeone", sizeof(mock_rs.nickname)); mock_ri.nickname = tor_strdup("nodetwo"); memcpy(mock_node1.identity, "NodeOneNode1NodeOne1", DIGEST_LEN); memcpy(mock_node2.identity, "SecondNodeWe'reTestn", DIGEST_LEN); // empty families. tt_assert(! node_family_contains(&mock_node1, &mock_node2)); tt_assert(! node_family_contains(&mock_node2, &mock_node1)); // Families contain nodes, but not these nodes mock_ri.declared_family = smartlist_new(); smartlist_add(mock_ri.declared_family, (char*)"NodeThree"); mock_md.family = nodefamily_parse("NodeFour", NULL, 0); tt_assert(! node_family_contains(&mock_node1, &mock_node2)); tt_assert(! node_family_contains(&mock_node2, &mock_node1)); // Families contain one another. smartlist_add(mock_ri.declared_family, (char*) "4e6f64654f6e654e6f6465314e6f64654f6e6531"); tt_assert(! node_family_contains(&mock_node1, &mock_node2)); tt_assert(node_family_contains(&mock_node2, &mock_node1)); nodefamily_free(mock_md.family); mock_md.family = nodefamily_parse( "NodeFour " "5365636f6e644e6f64655765277265546573746e", NULL, 0); tt_assert(node_family_contains(&mock_node1, &mock_node2)); tt_assert(node_family_contains(&mock_node2, &mock_node1)); // Try looking up families now. MOCK(node_get_by_nickname, mock_node_get_by_nickname); MOCK(node_get_by_id, mock_node_get_by_id); node_lookup_declared_family(nodes, &mock_node1); tt_int_op(smartlist_len(nodes), OP_EQ, 2); const node_t *n = smartlist_get(nodes, 0); tt_mem_op(n->identity, OP_EQ, "SecondNodeWe'reTestn", DIGEST_LEN); n = smartlist_get(nodes, 1); tt_str_op(n->identity, OP_EQ, "nodefour"); // free, try the other one. SMARTLIST_FOREACH(nodes, node_t *, x, tor_free(x)); smartlist_clear(nodes); node_lookup_declared_family(nodes, &mock_node2); tt_int_op(smartlist_len(nodes), OP_EQ, 2); n = smartlist_get(nodes, 0); // This gets a truncated hex hex ID since it was looked up by name tt_str_op(n->identity, OP_EQ, "NodeThree"); n = smartlist_get(nodes, 1); tt_str_op(n->identity, OP_EQ, "4e6f64654f6e654e6f6"); done: UNMOCK(node_get_by_nickname); UNMOCK(node_get_by_id); smartlist_free(mock_ri.declared_family); nodefamily_free(mock_md.family); tor_free(mock_ri.nickname); // use tor_free, these aren't real nodes SMARTLIST_FOREACH(nodes, node_t *, x, tor_free(x)); smartlist_free(nodes); } static void test_nodelist_nodefamily_canonicalize(void *arg) { (void)arg; char *c = NULL; c = nodefamily_canonicalize("", NULL, 0); tt_str_op(c, OP_EQ, ""); tor_free(c); uint8_t own_id[20]; memset(own_id, 0, sizeof(own_id)); c = nodefamily_canonicalize( "alice BOB caroL %potrzebie !!!@#@# " "$bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb=fred " "ffffffffffffffffffffffffffffffffffffffff " "$cccccccccccccccccccccccccccccccccccccccc ", own_id, 0); tt_str_op(c, OP_EQ, "!!!@#@# " "$0000000000000000000000000000000000000000 " "$BBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBB " "$CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC " "$FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF " "%potrzebie " "alice bob carol"); done: tor_free(c); } #define NODE(name, flags) \ { #name, test_nodelist_##name, (flags), NULL, NULL } struct testcase_t nodelist_tests[] = { NODE(node_get_verbose_nickname_by_id_null_node, TT_FORK), NODE(node_get_verbose_nickname_not_named, TT_FORK), NODE(node_is_dir, TT_FORK), NODE(ed_id, TT_FORK), NODE(nodefamily, TT_FORK), NODE(nodefamily_parse_err, TT_FORK), NODE(nodefamily_lookup, TT_FORK), NODE(nickname_matches, 0), NODE(node_nodefamily, TT_FORK), NODE(nodefamily_canonicalize, 0), END_OF_TESTCASES };