/* * (C) 2020 by sysmocom s.f.m.c. GmbH * Author: Neels Hofmeyr * All Rights Reserved * * SPDX-License-Identifier: GPL-2.0+ * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * */ #include #include #include #include #include #include void *ctx; bool ok = true; void bitdump(uint8_t count, uint32_t val) { uint32_t bit; if (count < 1) return; for (bit = ((uint32_t)1) << (count - 1); bit; bit >>= 1) printf("%c", (val & bit)? '1' : '0'); } struct nri_v_get_set_test { uint32_t tmsi; uint8_t nri_bitlen; int16_t expect_get_nri; int expect_get_rc; int16_t set_nri_v; uint32_t expect_tmsi; int expect_set_rc; }; struct nri_v_get_set_test nri_v_get_set_tests[] = { { .tmsi = 0, .nri_bitlen = 10, .expect_get_nri = 0, .set_nri_v = 0, .expect_tmsi = 0, }, { .tmsi = 0, .nri_bitlen = 10, .expect_get_nri = 0, .set_nri_v = 0x7fff, .expect_tmsi = 0x00ffc000 }, { .tmsi = 0xffffffff, .nri_bitlen = 10, .expect_get_nri = 0x3ff, .set_nri_v = 0, .expect_tmsi = 0xff003fff }, { .tmsi = 0xffffffff, .nri_bitlen = 10, .expect_get_nri = 0x3ff, .set_nri_v = 0x7fff, .expect_tmsi = 0xffffffff }, { .tmsi = 0, .nri_bitlen = 5, .expect_get_nri = 0, .set_nri_v = 0, .expect_tmsi = 0, }, { .tmsi = 0, .nri_bitlen = 5, .expect_get_nri = 0, .set_nri_v = 0x7fff, .expect_tmsi = 0x00f80000 }, { .tmsi = 0xffffffff, .nri_bitlen = 5, .expect_get_nri = 0x1f, .set_nri_v = 0, .expect_tmsi = 0xff07ffff }, { .tmsi = 0xffffffff, .nri_bitlen = 5, .expect_get_nri = 0x1f, .set_nri_v = 0x7fff, .expect_tmsi = 0xffffffff }, { .tmsi = 0x01234567, .nri_bitlen = 8, .expect_get_nri = 0x23, .set_nri_v = 0x42, .expect_tmsi = 0x01424567 }, { .tmsi = 0x01234567, .nri_bitlen = 15, .expect_get_nri = 0x2345 >> 1, .set_nri_v = 0x7fff, .expect_tmsi = 0x01ffff67 }, { .tmsi = 0x01234567, .nri_bitlen = 16, .expect_get_rc = -1, .expect_get_nri = -1, .set_nri_v = 0x7fff, .expect_set_rc = -1, .expect_tmsi = 0x01234567, }, { .tmsi = 0x01234567, .nri_bitlen = 0, .expect_get_rc = -1, .expect_get_nri = -1, .set_nri_v = 0x7fff, .expect_set_rc = -1, .expect_tmsi = 0x01234567, }, }; void test_nri_v_get_set() { struct nri_v_get_set_test *t; for (t = nri_v_get_set_tests; t < &nri_v_get_set_tests[ARRAY_SIZE(nri_v_get_set_tests)]; t++) { int16_t nri_v = 0; uint32_t tmsi2; int rc; rc = osmo_tmsi_nri_v_get(&nri_v, t->tmsi, t->nri_bitlen); printf("\nosmo_tmsi_nri_v_get(0x%08x, %u) -> nri_v=0x%x rc=%d\n", t->tmsi, t->nri_bitlen, nri_v, rc); if (!rc) { printf("........|NRI->..................\n"); bitdump(32, t->tmsi); printf(" tmsi nri_bitlen=%u\n", t->nri_bitlen); printf(" "); bitdump(t->nri_bitlen, nri_v); printf(" = 0x%x", nri_v); } if (nri_v == t->expect_get_nri && rc == t->expect_get_rc) { printf(" ok\n"); } else { printf(" ERROR: expected nri_v=0x%x rc=%d\n", t->expect_get_nri, t->expect_get_rc); ok = false; } tmsi2 = t->tmsi; rc = osmo_tmsi_nri_v_set(&tmsi2, t->set_nri_v, t->nri_bitlen); printf("osmo_tmsi_nri_v_set(0x%08x, 0x%x, %u) -> tmsi=0x%08x rc=%d\n", t->tmsi, t->set_nri_v, t->nri_bitlen, tmsi2, rc); if (!rc) { printf(" "); bitdump(t->nri_bitlen, t->set_nri_v); printf("\n"); bitdump(32, tmsi2); } if (tmsi2 == t->expect_tmsi && rc == t->expect_set_rc) { printf(" ok\n"); } else { printf(" ERROR: expected tmsi=0x%08x rc=%d\n", t->expect_tmsi, t->expect_set_rc); ok = false; } } } struct nri_validate_tc { int16_t nri; uint8_t nri_bitlen; int expect_rc; }; struct nri_validate_tc nri_validate_tests[] = { { .nri = INT16_MIN, .nri_bitlen = 10, .expect_rc = -1 }, { .nri = -23, .nri_bitlen = 10, .expect_rc = -1 }, { .nri = -1, .nri_bitlen = 10, .expect_rc = -1 }, { .nri = 0, .nri_bitlen = 10, .expect_rc = 0 }, { .nri = (1 << 10) - 1, .nri_bitlen = 10, .expect_rc = 0 }, { .nri = (1 << 10), .nri_bitlen = 10, .expect_rc = 1 }, { .nri = INT16_MAX, .nri_bitlen = 10, .expect_rc = 1 }, { .nri = INT16_MIN, .nri_bitlen = 5, .expect_rc = -1 }, { .nri = -23, .nri_bitlen = 5, .expect_rc = -1 }, { .nri = -1, .nri_bitlen = 5, .expect_rc = -1 }, { .nri = 0, .nri_bitlen = 5, .expect_rc = 0 }, { .nri = (1 << 5) - 1, .nri_bitlen = 5, .expect_rc = 0 }, { .nri = (1 << 5), .nri_bitlen = 5, .expect_rc = 1 }, { .nri = INT16_MAX, .nri_bitlen = 5, .expect_rc = 1 }, { .nri = INT16_MIN, .nri_bitlen = 1, .expect_rc = -1 }, { .nri = -23, .nri_bitlen = 1, .expect_rc = -1 }, { .nri = -1, .nri_bitlen = 1, .expect_rc = -1 }, { .nri = 0, .nri_bitlen = 1, .expect_rc = 0 }, { .nri = 1, .nri_bitlen = 1, .expect_rc = 0 }, { .nri = 2, .nri_bitlen = 1, .expect_rc = 1 }, { .nri = INT16_MAX, .nri_bitlen = 1, .expect_rc = 1 }, { .nri = INT16_MIN, .nri_bitlen = 0, .expect_rc = -1 }, { .nri = -23, .nri_bitlen = 0, .expect_rc = -1 }, { .nri = -1, .nri_bitlen = 0, .expect_rc = -1 }, { .nri = 0, .nri_bitlen = 0, .expect_rc = 1 }, { .nri = 1, .nri_bitlen = 0, .expect_rc = 1 }, { .nri = INT16_MAX, .nri_bitlen = 0, .expect_rc = 1 }, }; void test_nri_validate() { struct nri_validate_tc *t; printf("\n%s()\n", __func__); for (t = nri_validate_tests; (t - nri_validate_tests) < ARRAY_SIZE(nri_validate_tests); t++) { int rc = osmo_nri_v_validate(t->nri, t->nri_bitlen); printf("osmo_nri_v_validate(%d, %u) = %d ", t->nri, t->nri_bitlen, rc); if (rc == t->expect_rc) { printf("ok\n"); } else { printf("ERROR, expected rc = %d\n", t->expect_rc); ok = false; } } } struct nri_range_validate_tc { struct osmo_nri_range range; uint8_t nri_bitlen; int expect_rc; }; struct nri_range_validate_tc nri_range_validate_tests[] = { { .range = { .first = INT16_MIN, .last = INT16_MIN }, .nri_bitlen = 10, .expect_rc = -1 }, { .range = { .first = -23, .last = -23 }, .nri_bitlen = 10, .expect_rc = -1 }, { .range = { .first = -1, .last = -1 }, .nri_bitlen = 10, .expect_rc = -1 }, { .range = { .first = 0, .last = 0 }, .nri_bitlen = 10, .expect_rc = 0 }, { .range = { .first = (1 << 10) - 1, .last = (1 << 10) - 1 }, .nri_bitlen = 10, .expect_rc = 0 }, { .range = { .first = (1 << 10), .last = (1 << 10) }, .nri_bitlen = 10, .expect_rc = 1 }, { .range = { .first = INT16_MAX, .last = INT16_MAX }, .nri_bitlen = 10, .expect_rc = 1 }, { .range = { .first = INT16_MIN, .last = INT16_MIN }, .nri_bitlen = 5, .expect_rc = -1 }, { .range = { .first = -23, .last = -23 }, .nri_bitlen = 5, .expect_rc = -1 }, { .range = { .first = -1, .last = -1 }, .nri_bitlen = 5, .expect_rc = -1 }, { .range = { .first = 0, .last = 0 }, .nri_bitlen = 5, .expect_rc = 0 }, { .range = { .first = (1 << 5) - 1, .last = (1 << 5) - 1 }, .nri_bitlen = 5, .expect_rc = 0 }, { .range = { .first = (1 << 5), .last = (1 << 5) }, .nri_bitlen = 5, .expect_rc = 1 }, { .range = { .first = INT16_MAX, .last = INT16_MAX }, .nri_bitlen = 5, .expect_rc = 1 }, { .range = { .first = INT16_MIN, .last = INT16_MIN }, .nri_bitlen = 1, .expect_rc = -1 }, { .range = { .first = -23, .last = -23 }, .nri_bitlen = 1, .expect_rc = -1 }, { .range = { .first = -1, .last = -1 }, .nri_bitlen = 1, .expect_rc = -1 }, { .range = { .first = 0, .last = 0 }, .nri_bitlen = 1, .expect_rc = 0 }, { .range = { .first = 1, .last = 1 }, .nri_bitlen = 1, .expect_rc = 0 }, { .range = { .first = 2, .last = 2 }, .nri_bitlen = 1, .expect_rc = 1 }, { .range = { .first = INT16_MAX, .last = INT16_MAX }, .nri_bitlen = 1, .expect_rc = 1 }, { .range = { .first = INT16_MIN, .last = INT16_MIN }, .nri_bitlen = 0, .expect_rc = -1 }, { .range = { .first = -23, .last = -23 }, .nri_bitlen = 0, .expect_rc = -1 }, { .range = { .first = -1, .last = -1 }, .nri_bitlen = 0, .expect_rc = -1 }, { .range = { .first = 0, .last = 0 }, .nri_bitlen = 0, .expect_rc = 1 }, { .range = { .first = 1, .last = 1 }, .nri_bitlen = 0, .expect_rc = 1 }, { .range = { .first = INT16_MAX, .last = INT16_MAX }, .nri_bitlen = 0, .expect_rc = 1 }, { .range = { .first = 0, .last = INT16_MIN }, .nri_bitlen = 10, .expect_rc = -2 }, { .range = { .first = 0, .last = -23 }, .nri_bitlen = 10, .expect_rc = -2 }, { .range = { .first = 0, .last = -1 }, .nri_bitlen = 10, .expect_rc = -2 }, { .range = { .first = 0, .last = 0 }, .nri_bitlen = 10, .expect_rc = 0 }, { .range = { .first = 0, .last = (1 << 10) - 1 }, .nri_bitlen = 10, .expect_rc = 0 }, { .range = { .first = 0, .last = (1 << 10) }, .nri_bitlen = 10, .expect_rc = 2 }, { .range = { .first = 0, .last = INT16_MAX }, .nri_bitlen = 10, .expect_rc = 2 }, { .range = { .first = 0, .last = INT16_MIN }, .nri_bitlen = 5, .expect_rc = -2 }, { .range = { .first = 0, .last = -23 }, .nri_bitlen = 5, .expect_rc = -2 }, { .range = { .first = 0, .last = -1 }, .nri_bitlen = 5, .expect_rc = -2 }, { .range = { .first = 0, .last = 0 }, .nri_bitlen = 5, .expect_rc = 0 }, { .range = { .first = 0, .last = (1 << 5) - 1 }, .nri_bitlen = 5, .expect_rc = 0 }, { .range = { .first = 0, .last = (1 << 5) }, .nri_bitlen = 5, .expect_rc = 2 }, { .range = { .first = 0, .last = INT16_MAX }, .nri_bitlen = 5, .expect_rc = 2 }, { .range = { .first = 0, .last = INT16_MIN }, .nri_bitlen = 1, .expect_rc = -2 }, { .range = { .first = 0, .last = -23 }, .nri_bitlen = 1, .expect_rc = -2 }, { .range = { .first = 0, .last = -1 }, .nri_bitlen = 1, .expect_rc = -2 }, { .range = { .first = 0, .last = 0 }, .nri_bitlen = 1, .expect_rc = 0 }, { .range = { .first = 0, .last = 1 }, .nri_bitlen = 1, .expect_rc = 0 }, { .range = { .first = 0, .last = 2 }, .nri_bitlen = 1, .expect_rc = 2 }, { .range = { .first = 0, .last = INT16_MAX }, .nri_bitlen = 1, .expect_rc = 2 }, { .range = { .first = 0, .last = INT16_MIN }, .nri_bitlen = 0, .expect_rc = 1 }, { .range = { .first = 0, .last = -23 }, .nri_bitlen = 0, .expect_rc = 1 }, { .range = { .first = 0, .last = -1 }, .nri_bitlen = 0, .expect_rc = 1 }, { .range = { .first = 0, .last = 0 }, .nri_bitlen = 0, .expect_rc = 1 }, { .range = { .first = 0, .last = 1 }, .nri_bitlen = 0, .expect_rc = 1 }, { .range = { .first = 0, .last = INT16_MAX }, .nri_bitlen = 0, .expect_rc = 1 }, { .range = { .first = 0, .last = 0 }, .nri_bitlen = 10, .expect_rc = 0 }, { .range = { .first = 1, .last = 0 }, .nri_bitlen = 10, .expect_rc = -3 }, { .range = { .first = (1 << 10) - 1, .last = (1 << 10) - 1 }, .nri_bitlen = 10, .expect_rc = 0 }, { .range = { .first = (1 << 10) - 1, .last = (1 << 10) - 2 }, .nri_bitlen = 10, .expect_rc = -3 }, { .range = { .first = (1 << 10) - 1, .last = 0 }, .nri_bitlen = 10, .expect_rc = -3 }, { .range = { .first = 0, .last = 0 }, .nri_bitlen = 5, .expect_rc = 0 }, { .range = { .first = 1, .last = 0 }, .nri_bitlen = 5, .expect_rc = -3 }, { .range = { .first = (1 << 5) - 1, .last = (1 << 5) - 1 }, .nri_bitlen = 5, .expect_rc = 0 }, { .range = { .first = (1 << 5) - 1, .last = (1 << 5) - 2 }, .nri_bitlen = 5, .expect_rc = -3 }, { .range = { .first = (1 << 5) - 1, .last = 0 }, .nri_bitlen = 5, .expect_rc = -3 }, { .range = { .first = 0, .last = 0 }, .nri_bitlen = 1, .expect_rc = 0 }, { .range = { .first = 1, .last = 1 }, .nri_bitlen = 1, .expect_rc = 0 }, { .range = { .first = 1, .last = 0 }, .nri_bitlen = 1, .expect_rc = -3 }, }; void test_nri_range_validate() { struct nri_range_validate_tc *t; printf("\n%s()\n", __func__); for (t = nri_range_validate_tests; (t - nri_range_validate_tests) < ARRAY_SIZE(nri_range_validate_tests); t++) { int rc = osmo_nri_range_validate(&t->range, t->nri_bitlen); printf("osmo_nri_range_validate({%d,%d}, %u) = %d ", t->range.first, t->range.last, t->nri_bitlen, rc); if (rc == t->expect_rc) { printf("ok\n"); } else { printf("ERROR, expected rc = %d\n", t->expect_rc); ok = false; } } } void dump_list(const struct osmo_nri_ranges *nri_ranges) { struct osmo_nri_range *r; printf("nri_ranges = {\n"); llist_for_each_entry(r, &nri_ranges->entries, entry) { printf(" { %d, %d },\n", r->first, r->last); if (osmo_nri_range_validate(r, 255)) { ok = false; printf(" ^^^^^ ERROR: invalid range\n"); } } printf("};\n"); } void test_nri_list() { struct osmo_nri_ranges *nri_ranges = osmo_nri_ranges_alloc(ctx); printf("\n%s()\n", __func__); #define ADD(FIRST, LAST) do { \ struct osmo_nri_range r = { .first = FIRST, .last = LAST }; \ int rc; \ rc = osmo_nri_ranges_add(nri_ranges, &r); \ printf("osmo_nri_ranges_add(%d, %d) -> %d\n", r.first, r.last, rc); \ dump_list(nri_ranges); \ } while(0) #define DEL(FIRST, LAST) do { \ struct osmo_nri_range r = { .first = FIRST, .last = LAST }; \ int rc; \ rc = osmo_nri_ranges_del(nri_ranges, &r); \ printf("osmo_nri_ranges_del(%d, %d) -> %d\n", r.first, r.last, rc); \ dump_list(nri_ranges); \ } while(0) #define MATCHES(NRI, EXPECT_MATCH) do { \ bool matches = osmo_nri_v_matches_ranges(NRI, nri_ranges); \ printf("osmo_nri_v_matches_ranges(%d) -> %s\n", NRI, matches ? "true" : "false"); \ if (matches != EXPECT_MATCH) { \ ok = false; \ printf(" ^ ERROR: expected " #EXPECT_MATCH "\n"); \ } \ } while(0) #define OVERLAPS(FIRST, LAST, EXPECT_OVERLAP) do { \ struct osmo_nri_range r = { .first = FIRST, .last = LAST }; \ bool overlaps = osmo_nri_range_overlaps_ranges(&r, nri_ranges); \ printf("osmo_nri_range_overlaps_ranges(%d, %d) -> %s\n", r.first, r.last, overlaps ? "true" : "false"); \ if (overlaps != EXPECT_OVERLAP) { \ ok = false; \ printf(" ^ ERROR: expected " #EXPECT_OVERLAP "\n"); \ } \ } while(0) dump_list(nri_ranges); MATCHES(INT16_MIN, false); MATCHES(-1, false); MATCHES(0, false); MATCHES(INT16_MAX, false); MATCHES(100, false); OVERLAPS(INT16_MIN, -1, false); OVERLAPS(-100, 100, false); OVERLAPS(10, 20, false); ADD(100, 200); MATCHES(INT16_MIN, false); MATCHES(-1, false); MATCHES(0, false); MATCHES(INT16_MAX, false); MATCHES(99, false); MATCHES(100, true); MATCHES(101, true); MATCHES(199, true); MATCHES(200, true); MATCHES(201, false); OVERLAPS(INT16_MIN, -1, false); OVERLAPS(-100, 100, true); OVERLAPS(10, 20, false); OVERLAPS(10, 99, false); OVERLAPS(10, 100, true); OVERLAPS(10, 150, true); OVERLAPS(99, 99, false); OVERLAPS(100, 100, true); OVERLAPS(150, 300, true); OVERLAPS(200, 300, true); OVERLAPS(201, 300, false); printf("\ndel from start:\n"); DEL(0, 110); DEL(111, 111); DEL(112, 199); MATCHES(INT16_MIN, false); MATCHES(-1, false); MATCHES(0, false); MATCHES(INT16_MAX, false); MATCHES(199, false); MATCHES(200, true); MATCHES(201, false); OVERLAPS(INT16_MIN, -1, false); OVERLAPS(-1000, 1000, true); OVERLAPS(0, 199, false); OVERLAPS(0, 200, true); OVERLAPS(0, 201, true); OVERLAPS(0, 1000, true); OVERLAPS(199, 199, false); OVERLAPS(200, 200, true); OVERLAPS(201, 201, false); printf("\ndel from end:\n"); ADD(100, 200); DEL(190, INT16_MAX); DEL(189, 189); DEL(101, 188); MATCHES(INT16_MIN, false); MATCHES(-1, false); MATCHES(0, false); MATCHES(INT16_MAX, false); MATCHES(99, false); MATCHES(100, true); MATCHES(101, false); printf("\ndel from middle:\n"); ADD(100, 200); DEL(150, 160); DEL(110, 120); DEL(130, 130); DEL(180, 190); MATCHES(INT16_MIN, false); MATCHES(-1, false); MATCHES(0, false); MATCHES(INT16_MAX, false); MATCHES(99, false); MATCHES(100, true); MATCHES(109, true); MATCHES(110, false); MATCHES(120, false); MATCHES(121, true); MATCHES(129, true); MATCHES(130, false); MATCHES(131, true); MATCHES(148, true); MATCHES(149, true); MATCHES(150, false); MATCHES(160, false); MATCHES(161, true); MATCHES(170, true); MATCHES(179, true); MATCHES(180, false); MATCHES(185, false); MATCHES(190, false); MATCHES(191, true); MATCHES(195, true); MATCHES(200, true); MATCHES(201, false); MATCHES(1000, false); OVERLAPS(110, 120, false); OVERLAPS(110, 130, true); OVERLAPS(100, 200, true); printf("\ndel across whole chunks:\n"); DEL(115, 185); DEL(105, 195); DEL(0, 1000); printf("\nadd to join chunks:\n"); ADD(0, 100); DEL(11, 19); DEL(23, 23); DEL(30, 41); ADD(23, 23); ADD(11, 41); MATCHES(0, true); MATCHES(10, true); MATCHES(11, true); MATCHES(24, true); MATCHES(41, true); MATCHES(42, true); MATCHES(100, true); MATCHES(101, false); printf("\nborder cases:\n"); ADD(0, 0); ADD(INT16_MAX, INT16_MAX); ADD(1, INT16_MAX - 1); MATCHES(INT16_MIN, false); MATCHES(-1, false); MATCHES(0, true); MATCHES(INT16_MAX, true); DEL(0, 0); DEL(INT16_MAX, INT16_MAX); DEL(1, INT16_MAX - 1); printf("\nrange errors:\n"); ADD(-1, -1); ADD(-20, -10); ADD(100, 1); ADD(0, INT16_MAX); DEL(-1, -1); DEL(-20, -10); DEL(100, 1); } void test_nri_limit_by_ranges() { const uint8_t nri_bitlen = 8; const int16_t expect_nri_vals[] = { 10, 20, 21, 30, 31, 32 }; int i; struct osmo_nri_ranges *nri_ranges = osmo_nri_ranges_alloc(ctx); printf("\n%s()\n", __func__); ADD(10, 10); ADD(20, 21); ADD(30, 32); for (i = 0; i < 19; i++) { int rc; int16_t nri_v; int16_t expect_nri_v = expect_nri_vals[i % ARRAY_SIZE(expect_nri_vals)]; nri_v = i; rc = osmo_nri_v_limit_by_ranges(&nri_v, nri_ranges, nri_bitlen); printf("osmo_nri_v_limit_by_ranges(%d) -> nri_v=%d rc=%d", i, nri_v, rc); if (!rc && nri_v == expect_nri_v) { printf(" ok\n"); } else { printf(" ERROR: expected nri_v=%d rc=0\n", expect_nri_v); ok = false; } } for (i = 0; i < 19; i++) { int rc; int16_t nri_v; uint32_t tmsi, tmsi2; int16_t expect_nri_v = expect_nri_vals[i % ARRAY_SIZE(expect_nri_vals)]; tmsi = 0; osmo_tmsi_nri_v_set(&tmsi, i, nri_bitlen); tmsi2 = tmsi; rc = osmo_tmsi_nri_v_limit_by_ranges(&tmsi2, nri_ranges, nri_bitlen); osmo_tmsi_nri_v_get(&nri_v, tmsi2, nri_bitlen); printf("osmo_tmsi_nri_v_limit_by_ranges(0x%08x, %u) -> tmsi=0x%08x nri_v=%d rc=%d", tmsi, nri_bitlen, tmsi2, nri_v, rc); if (!rc && nri_v == expect_nri_v) { printf(" ok\n"); } else { printf(" ERROR: expected nri_v=%d rc=0\n", expect_nri_v); ok = false; } } } int main() { ctx = talloc_named_const(NULL, 0, "nri_test"); test_nri_v_get_set(); test_nri_validate(); test_nri_range_validate(); test_nri_list(); test_nri_limit_by_ranges(); talloc_free(ctx); if (!ok) { printf("\nFAIL\n"); return -1; } printf("\npass\n"); return 0; }