/* * This file is part of the Sofia-SIP package * * Copyright (C) 2006 Nokia Corporation. * * Contact: Pekka Pessi * * 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 * */ /**@internal * @file su_alloc_test.c * * Testing functions for su_alloc functions. * * @author Pekka Pessi * * @date Created: Thu May 2 18:17:46 2002 ppessi */ #include "config.h" #include #include #include #include #include #include #include #define TSTFLAGS tstflags #include int tstflags; char const *name = "su_alloc_test"; /* Type derived from home */ typedef struct { su_home_t home[1]; int *p; } exhome_t; void exdestructor(void *arg) { exhome_t *ex = arg; (*ex->p)++; } void test_destructor(void *a) { su_home_t *h = a; h->suh_size = 13; } /** Test basic memory home operations */ static int test_alloc(void) { exhome_t *h0, *h1, *h2, *h3; su_home_t home[1] = { SU_HOME_INIT(home) }; su_home_t home0[1]; enum { N = 40 }; void *m0[N], *m1[N], *m; char *c, *c0, *p0, *p1; int i; enum { destructed_once = 1 }; int d0, d1a, d1, d2, d3; BEGIN(); /* su_home_init() was not initializing suh_locks */ memset(home0, 0xff, sizeof home0); TEST(su_home_init(home0), 0); TEST_VOID(su_home_deinit(home0)); TEST_1(h0 = su_home_new(sizeof(*h0))); TEST_1(h1 = su_home_clone(h0->home, sizeof(*h1))); d0 = d1a = d1 = d2 = d3 = 0; h0->p = &d0; h1->p = &d1a; TEST(su_home_destructor(h0->home, exdestructor), 0); TEST(su_home_destructor(h1->home, exdestructor), 0); TEST_1(h2 = su_home_ref(h0->home)); su_home_unref(h0->home); TEST(d0, 0); for (i = 0; i < 128; i++) TEST_1(su_alloc(h0->home, 16)); for (i = 0; i < 128; i++) TEST_1(su_alloc(h1->home, 16)); su_home_unref(h1->home); TEST(d1a, destructed_once); TEST_1(h1 = su_home_clone(h0->home, sizeof(*h1))); TEST(su_home_destructor(h1->home, exdestructor), 0); h1->p = &d1; for (i = 0; i < 128; i++) TEST_1(su_alloc(h1->home, 16)); for (i = 0; i < 128; i++) TEST_1(su_alloc(h2->home, 16)); su_home_unref(h2->home); /* Should call destructor of cloned home, too */ TEST(d0, destructed_once); TEST(d1, destructed_once); TEST_1(h0 = su_home_new(sizeof(*h0))); TEST_1(h1 = su_home_clone(h0->home, sizeof(*h1))); TEST_1(h2 = su_home_clone(h1->home, sizeof(*h2))); TEST_1(h3 = su_home_clone(h2->home, sizeof(*h3))); TEST(su_home_threadsafe(h0->home), 0); for (i = 0; i < N; i++) { TEST_1(m0[i] = su_zalloc(h3->home, 20)); TEST_1(m1[i] = su_zalloc(h2->home, 20)); } TEST_1(m = su_zalloc(h2->home, 20)); TEST_1(su_in_home(h2->home, m)); TEST_1(!su_in_home(h2->home, (char *)m + 1)); TEST_1(!su_in_home(h2->home, (void *)(intptr_t)su_in_home)); TEST_1(!su_in_home(h3->home, m)); TEST_1(!su_in_home(NULL, m)); TEST_1(!su_in_home(h3->home, NULL)); TEST(su_home_move(home, NULL), 0); TEST(su_home_move(NULL, home), 0); TEST(su_home_move(home, h3->home), 0); TEST(su_home_move(h2->home, h3->home), 0); TEST(su_home_move(h1->home, h2->home), 0); su_home_preload(home, 1, 1024 + 2 * 8); TEST_1(c = su_zalloc(home, 64)); p0 = c; p1 = c + 1024; TEST_P(c = su_realloc(home, c0 = c, 127), c0); TEST_1(c = c0 = su_zalloc(home, 1024 - 128)); TEST_1(p0 <= c); TEST_1(c < p1); TEST_P(c = su_realloc(home, c, 128), c0); TEST_P(c = su_realloc(home, c, 1023 - 128), c0); TEST_P(c = su_realloc(home, c, 1024 - 128), c0); TEST_1(c = su_realloc(home, c, 1024)); TEST_1(c = su_realloc(home, c, 2 * 1024)); TEST_P(c = su_realloc(home, p0, 126), p0); TEST_1(c = su_realloc(home, p0, 1024)); TEST_P(c = su_realloc(home, c, 0), NULL); su_home_check(home); su_home_deinit(home); su_home_check(h2->home); su_home_zap(h2->home); su_home_check(h0->home); su_home_zap(h0->home); { su_home_t h1[1]; memset(h1, 0, sizeof h1); TEST(su_home_init(h1), 0); TEST(su_home_threadsafe(h1), 0); TEST_1(su_home_ref(h1)); TEST_1(su_home_ref(h1)); TEST(su_home_destructor(h1, test_destructor), 0); TEST_1(!su_home_unref(h1)); TEST_1(!su_home_unref(h1)); TEST_1(su_home_unref(h1)); TEST(h1->suh_size, 13); } /* Test su_home_parent() */ TEST_1(h0 = su_home_new(sizeof *h0)); TEST_1(h1 = su_home_clone(h0->home, sizeof *h1)); TEST_1(h2 = su_home_clone(h1->home, sizeof *h2)); TEST_1(h3 = su_home_clone(h2->home, sizeof *h3)); TEST_P(su_home_parent(h0->home), NULL); TEST_P(su_home_parent(h1->home), h0); TEST_P(su_home_parent(h2->home), h1); TEST_P(su_home_parent(h3->home), h2); TEST(su_home_move(h0->home, h1->home), 0); TEST_P(su_home_parent(h2->home), h0); TEST_P(su_home_parent(h3->home), h2); TEST(su_home_move(h0->home, h2->home), 0); TEST_P(su_home_parent(h3->home), h0); su_home_move(NULL, h0->home); TEST_P(su_home_parent(h0->home), NULL); TEST_P(su_home_parent(h1->home), NULL); TEST_P(su_home_parent(h2->home), NULL); TEST_P(su_home_parent(h3->home), NULL); su_home_unref(h0->home); su_home_unref(h1->home); su_home_unref(h2->home); su_home_unref(h3->home); END(); } static int test_lock(void) { su_home_t home[1] = { SU_HOME_INIT(home) }; BEGIN(); TEST(su_home_mutex_lock(home), -1); TEST(su_home_mutex_unlock(home), -1); TEST(su_home_lock(home), -1); TEST(su_home_trylock(home), -1); TEST(su_home_unlock(home), -1); TEST(su_home_init(home), 0); TEST(su_home_mutex_lock(home), 0); TEST(su_home_trylock(home), -1); TEST(su_home_mutex_unlock(home), 0); TEST(su_home_trylock(home), -1); TEST(su_home_threadsafe(home), 0); TEST(su_home_mutex_lock(home), 0); TEST(su_home_trylock(home), EBUSY); TEST(su_home_mutex_unlock(home), 0); TEST(su_home_lock(home), 0); TEST(su_home_trylock(home), EBUSY); TEST(su_home_unlock(home), 0); TEST(su_home_trylock(home), 0); TEST(su_home_unlock(home), 0); END(); } static int test_strdupcat(void) { su_home_t home[1] = { SU_HOME_INIT(home) }; BEGIN(); TEST_S(su_strdup(home, "foo"), "foo"); TEST_S(su_strcat(home, "foo", "bar"), "foobar"); TEST_S(su_strndup(home, "foobar", 3), "foo"); TEST_S(su_strcat_all(home, NULL), ""); TEST_S(su_strcat_all(home, "a", "", "b", "", NULL), "ab"); su_home_deinit(home); END(); } #include static int test_sprintf(char const *fmt, ...) { BEGIN(); su_home_t home[1] = { SU_HOME_INIT(home) }; va_list va; TEST_S(su_sprintf(home, "foo%s", "bar"), "foobar"); va_start(va, fmt); TEST_S(su_vsprintf(home, fmt, va), "foo.bar"); TEST_S(su_sprintf(home, "foo%200s", "bar"), "foo " " " " " " bar"); su_home_deinit(home); END(); } static int test_strlst(void) { su_home_t home[1] = { SU_HOME_INIT(home) }; su_strlst_t *l, *l1, *l2; char *s; char foo[] = "foo"; char bar[] = "bar"; char baz[] = "baz"; su_home_stat_t parent[1], kids[2]; BEGIN(); parent->hs_size = (sizeof parent); kids[0].hs_size = (sizeof kids[0]); kids[1].hs_size = (sizeof kids[1]); su_home_init_stats(home); /* Test API for invalid arguments */ TEST_1(l = su_strlst_create(NULL)); TEST_1(l2 = su_strlst_dup(home, l)); TEST_VOID(su_strlst_destroy(l2)); TEST_1(!su_strlst_dup(home, NULL)); TEST_1(l1 = su_strlst_copy(home, l)); TEST_VOID(su_strlst_destroy(l1)); TEST_1(!su_strlst_copy(home, NULL)); TEST_VOID(su_strlst_destroy(NULL)); TEST_VOID(su_strlst_destroy(l)); TEST_1(!su_strlst_dup_append(NULL, "aa")); TEST_1(!su_strlst_append(NULL, "bee")); TEST_1(!su_strlst_item(NULL, 1)); TEST_1(!su_strlst_set_item(NULL, 1, "cee")); TEST_1(!su_strlst_remove(NULL, 1)); TEST_S(s = su_strlst_join(NULL, home, "a"), ""); TEST_VOID(su_free(home, s)); TEST_1(!su_strlst_split(home, NULL, ".")); TEST_1(s = su_strdup(home, "aaa")); TEST_1(l = su_strlst_split(home, s, NULL)); TEST_S(su_strlst_item(l, 0), "aaa"); TEST_VOID(su_strlst_destroy(l)); TEST_VOID(su_free(home, s)); TEST_1(!su_strlst_dup_split(home, NULL, ".")); TEST_1(l1 = su_strlst_dup_split(home, "aaa", "")); TEST_S(su_strlst_item(l1, 0), "aaa"); TEST_VOID(su_strlst_destroy(l1)); TEST_SIZE(su_strlst_len(NULL), 0); TEST_1(!su_strlst_get_array(NULL)); TEST_VOID(su_strlst_free_array(NULL, NULL)); TEST_1(l = su_strlst_create(home)); TEST_VOID(su_strlst_free_array(l, NULL)); TEST_S(su_strlst_dup_append(l, "oh"), "oh"); TEST_VOID(su_strlst_free_array(l, NULL)); TEST_VOID(su_strlst_destroy(l)); /* Test functionality */ TEST_1(l = su_strlst_create(home)); su_home_init_stats(su_strlst_home(l)); TEST_S(su_strlst_join(l, home, "bar"), ""); TEST_S(su_strlst_append(l, foo), "foo"); TEST_S(su_strlst_dup_append(l, bar), "bar"); TEST_S(su_strlst_append(l, baz), "baz"); TEST_S((s = su_strlst_join(l, home, "!")), "foo!bar!baz"); TEST_S(su_strlst_item(l, 0), foo); TEST_S(su_strlst_item(l, 1), bar); TEST_S(su_strlst_item(l, 2), baz); TEST_P(su_strlst_item(l, 3), NULL); TEST_P(su_strlst_item(l, (unsigned)-1), NULL); TEST_1(l1 = su_strlst_copy(su_strlst_home(l), l)); TEST_1(l2 = su_strlst_dup(su_strlst_home(l), l)); strcpy(foo, "hum"); strcpy(bar, "pah"); strcpy(baz, "hah"); TEST_S(su_strlst_dup_append(l1, "kuik"), "kuik"); TEST_S(su_strlst_dup_append(l2, "uik"), "uik"); TEST_S((s = su_strlst_join(l, home, ".")), "hum.bar.hah"); TEST_S((su_strlst_join(l1, home, ".")), "hum.bar.hah.kuik"); TEST_S((su_strlst_join(l2, home, ".")), "foo.bar.baz.uik"); su_strlst_destroy(l2); su_home_get_stats(su_strlst_home(l), 0, kids, sizeof kids); TEST_SIZE(kids->hs_clones, 2); TEST64(kids->hs_allocs.hsa_number, 3); TEST64(kids->hs_frees.hsf_number, 1); su_strlst_destroy(l); TEST_S(s, "hum.bar.hah"); TEST_1(l = su_strlst_create(home)); su_home_init_stats(su_strlst_home(l)); TEST_S(su_strlst_join(l, home, "bar"), ""); TEST_S(su_strlst_append(l, "a"), "a"); TEST_S(su_strlst_append(l, "b"), "b"); TEST_S(su_strlst_append(l, "c"), "c"); TEST_S(su_strlst_append(l, "d"), "d"); TEST_S(su_strlst_append(l, "e"), "e"); TEST_S(su_strlst_append(l, "f"), "f"); TEST_S(su_strlst_append(l, "g"), "g"); TEST_S(su_strlst_append(l, "h"), "h"); TEST_S(su_strlst_append(l, "i"), "i"); TEST_S(su_strlst_append(l, "j"), "j"); TEST_S((s = su_strlst_join(l, home, "")), "abcdefghij"); TEST_S(su_strlst_append(l, "a"), "a"); TEST_S(su_strlst_append(l, "b"), "b"); TEST_S(su_strlst_append(l, "c"), "c"); TEST_S(su_strlst_append(l, "d"), "d"); TEST_S(su_strlst_append(l, "e"), "e"); TEST_S(su_strlst_append(l, "f"), "f"); TEST_S(su_strlst_append(l, "g"), "g"); TEST_S(su_strlst_append(l, "h"), "h"); TEST_S(su_strlst_append(l, "i"), "i"); TEST_S(su_strlst_append(l, "j"), "j"); TEST_S((s = su_strlst_join(l, home, "")), "abcdefghijabcdefghij"); su_home_get_stats(su_strlst_home(l), 0, kids + 1, (sizeof kids[1])); su_home_stat_add(kids, kids + 1); su_strlst_destroy(l); su_home_get_stats(home, 1, parent, (sizeof parent)); su_home_check(home); su_home_deinit(home); su_home_init(home); { char s[] = "foo\nfaa\n"; TEST_1((l = su_strlst_split(home, s, "\n"))); TEST_SIZE(su_strlst_len(l), 3); TEST_1(su_strlst_append(l, "bar")); TEST_S(su_strlst_join(l, home, "\n"), "foo\nfaa\n\nbar"); } { char s[] = "foo"; TEST_1((l = su_strlst_split(home, s, "\n"))); TEST_SIZE(su_strlst_len(l), 1); } { char s[] = "\n\n"; TEST_1((l = su_strlst_split(home, s, "\n"))); TEST_SIZE(su_strlst_len(l), 3); } { char s[] = ""; TEST_1((l = su_strlst_split(home, s, "\n"))); TEST_SIZE(su_strlst_len(l), 1); } { int i; #define S \ "a\nb\nc\nd\ne\nf\ng\nh\ni\nj\nk\nl\nm\n" \ "n\no\np\nq\nr\ns\nt\nu\nv\nw\nx\ny\nz\n" \ "A\nB\nC\nD\nE\nF\nG\nH\nI\nJ\nK\nL\nM\n" \ "N\nO\nP\nQ\nR\nS\nT\nU\nV\nW\nX\nY\nZ\n" char s[] = S; TEST_1((l = su_strlst_split(home, s, "\n"))); TEST_SIZE(su_strlst_len(l), 53); TEST_1(su_strlst_append(l, "bar")); TEST_S(su_strlst_join(l, home, "\n"), S "\nbar"); TEST_1(!su_strlst_remove(l, 54)); for (i = 0; i < 54; i++) { TEST_1(su_strlst_remove(l, 0)); TEST_1(!su_strlst_remove(l, 53 - i)); TEST_SIZE(su_strlst_len(l), 53 - i); } TEST_1(!su_strlst_remove(l, 0)); TEST_SIZE(su_strlst_len(l), 0); } { char const *s0; TEST_1(l = su_strlst_create_with(NULL, s0 = "a", "b", NULL)); TEST_1(su_strlst_item(l, 0) == s0); TEST_S(su_strlst_item(l, 0), "a"); TEST_S(su_strlst_item(l, 1), "b"); TEST_1(su_strlst_item(l, 2) == NULL); TEST_S(su_slprintf(l, "1: %u", 1), "1: 1"); TEST_S(su_slprintf(l, "1.0: %g", 1.0), "1.0: 1"); TEST_1(su_strlst_append(l, "")); TEST_S(su_strlst_join(l, home, "\n"), "a\n" "b\n" "1: 1\n" "1.0: 1\n"); TEST_VOID(su_strlst_destroy(l)); TEST_1(l2 = su_strlst_create_with_dup(NULL, s0 = "0", "1", "2", "3", "4", "5", "6", "7", NULL)); TEST_1(su_strlst_item(l2, 0) != s0); TEST_S(su_strlst_item(l2, 0), "0"); TEST_S(su_strlst_item(l2, 1), "1"); TEST_S(su_strlst_item(l2, 2), "2"); TEST_S(su_strlst_item(l2, 3), "3"); TEST_S(su_strlst_item(l2, 4), "4"); TEST_S(su_strlst_item(l2, 5), "5"); TEST_S(su_strlst_item(l2, 6), "6"); TEST_S(su_strlst_item(l2, 7), "7"); TEST_1(su_strlst_item(l2, 8) == NULL); TEST_S(su_strlst_join(l2, home, ""), "01234567"); TEST_VOID(su_strlst_destroy(l2)); } su_home_check(home); su_home_deinit(home); END(); } #include typedef struct test_data_s { su_home_t test_home[1]; int data; } test_data_t; static void test_vector_free(void *data) { su_home_zap((su_home_t *) data); } static int test_vectors(void) { su_home_t home[1] = { SU_HOME_INIT(home) }; su_vector_t *v, *w; test_data_t *data1, *data2, *data3, *data4; char foo[] = "foo"; char bar[] = "bar"; char baz[] = "baz"; void **a; int i; BEGIN(); TEST_1(v = su_vector_create(home, NULL)); TEST_1(su_vector_is_empty(v)); TEST(su_vector_append(v, foo), 0); TEST(su_vector_append(v, bar), 0); TEST(su_vector_insert(v, 0, baz), 0); TEST_P(su_vector_item(v, 0), baz); TEST_P(su_vector_item(v, 1), foo); TEST_P(su_vector_item(v, 2), bar); TEST_P(su_vector_item(v, 3), NULL); TEST_P(su_vector_item(v, (unsigned)-1), NULL); TEST_1(!su_vector_is_empty(v)); su_vector_destroy(v); TEST_1(v = su_vector_create(home, NULL)); TEST(su_vector_insert(v, 0, "j"), 0); TEST(su_vector_insert(v, 0, "i"), 0); TEST(su_vector_insert(v, 0, "h"), 0); TEST(su_vector_insert(v, 0, "g"), 0); TEST(su_vector_insert(v, 0, "f"), 0); TEST(su_vector_insert(v, 0, "e"), 0); TEST(su_vector_insert(v, 0, "d"), 0); TEST(su_vector_insert(v, 0, "c"), 0); TEST(su_vector_insert(v, 0, "b"), 0); TEST(su_vector_insert(v, 0, "a"), 0); TEST_SIZE(su_vector_len(v), 10); TEST_1(a = su_vector_get_array(v)); for (i = 0; i < 10; i++) { TEST_S(su_vector_item(v, i), a[i]); } TEST_P(su_vector_item(v, 10), NULL); TEST_P(a[10], NULL); TEST_1(w = su_vector_create(home, NULL)); TEST(su_vector_append(w, "a"), 0); TEST(su_vector_append(w, "b"), 0); TEST(su_vector_append(w, "c"), 0); TEST(su_vector_append(w, "d"), 0); TEST(su_vector_append(w, "e"), 0); TEST(su_vector_append(w, "f"), 0); TEST(su_vector_append(w, "g"), 0); TEST(su_vector_append(w, "h"), 0); TEST(su_vector_append(w, "i"), 0); TEST(su_vector_append(w, "j"), 0); TEST_SIZE(su_vector_len(w), 10); for (i = 0; i < 10; i++) { TEST_S(su_vector_item(v, i), a[i]); } su_vector_empty(w); TEST_1(su_vector_is_empty(w)); su_vector_destroy(v); su_vector_destroy(w); TEST_1(v = su_vector_create(home, test_vector_free)); data1 = su_home_clone(home, sizeof(test_data_t)); data1->data = 1; data2 = su_home_clone(home, sizeof(test_data_t)); data2->data = 2; data3 = su_home_clone(home, sizeof(test_data_t)); data3->data = 3; data4 = su_home_clone(home, sizeof(test_data_t)); data4->data = 4; TEST(su_vector_append(v, data1), 0); TEST(su_vector_append(v, data2), 0); TEST(su_vector_append(v, data3), 0); TEST(su_vector_append(v, data4), 0); TEST_SIZE(su_vector_len(v), 4); TEST_P(su_vector_item(v, 0), data1); TEST_P(su_vector_item(v, 1), data2); TEST_P(su_vector_item(v, 2), data3); TEST_P(su_vector_item(v, 3), data4); TEST(data1->data, 1); TEST(data2->data, 2); TEST(data3->data, 3); TEST(data4->data, 4); TEST(su_vector_remove(v, 2), 0); TEST_SIZE(su_vector_len(v), 3); TEST_P(su_vector_item(v, 0), data1); TEST_P(su_vector_item(v, 1), data2); TEST_P(su_vector_item(v, 2), data4); TEST(data1->data, 1); TEST(data2->data, 2); TEST(data4->data, 4); su_vector_destroy(v); su_home_check(home); su_home_deinit(home); END(); } #define ALIGNMENT (8) #define ALIGN(n) ((size_t)((n) + (ALIGNMENT - 1)) & (size_t)~(ALIGNMENT - 1)) static int test_auto(void) { BEGIN(); int i; su_home_t tmphome[SU_HOME_AUTO_SIZE(8000)]; char *b = NULL; su_home_stat_t hs[1]; TEST_1(!su_home_auto(tmphome, sizeof tmphome[0])); TEST_1(su_home_auto(tmphome, sizeof tmphome)); for (i = 0; i < 8192; i++) TEST_1(su_alloc(tmphome, 12)); TEST_VOID(su_home_deinit(tmphome)); TEST_1(su_home_auto(tmphome, sizeof tmphome)); su_home_init_stats(tmphome); for (i = 1; i < 8192; i++) { TEST_1(b = su_realloc(tmphome, b, i)); b[i - 1] = '\125'; } for (i = 1; i < 8192; i++) { TEST(b[i - 1], '\125'); } for (i = 1; i < 8192; i++) { TEST_1(b = su_realloc(tmphome, b, i)); b[i - 1] = '\125'; if ((i % 32) == 0) TEST_1(b = su_realloc(tmphome, b, 1)); } su_home_get_stats(tmphome, 0, hs, sizeof *hs); TEST64(hs->hs_allocs.hsa_preload + hs->hs_allocs.hsa_number, 8191 + 8191 + 8191 / 32); TEST64(hs->hs_frees.hsf_preload + hs->hs_frees.hsf_number, 8191 + 8191 + 8191 / 32 - 1); /* This test depends on macro SU_HOME_AUTO_SIZE() calculating offsetof(su_block_t, sub_nodes[7]) correctly with ((3 * sizeof (void *) + 4 * sizeof(unsigned) + 7 * (sizeof (long) + sizeof(void *)) + 7) */ TEST_1(hs->hs_frees.hsf_preload == hs->hs_allocs.hsa_preload); su_free(tmphome, b); for (i = 1; i < 8192; i++) TEST_1(b = su_alloc(tmphome, 1)); TEST_VOID(su_home_deinit(tmphome)); END(); } void usage(int exitcode) { fprintf(stderr, "usage: %s [-v] [-a]\n", name); exit(exitcode); } int main(int argc, char *argv[]) { int retval = 0; int i; for (i = 1; argv[i]; i++) { if (strcmp(argv[i], "-v") == 0) tstflags |= tst_verbatim; else if (strcmp(argv[i], "-a") == 0) tstflags |= tst_abort; else usage(1); } #if HAVE_OPEN_C tstflags |= tst_verbatim; #endif retval |= test_alloc(); retval |= test_lock(); retval |= test_strdupcat(); retval |= test_sprintf("%s.%s", "foo", "bar"); retval |= test_strlst(); retval |= test_vectors(); retval |= test_auto(); return retval; }