/* Copyright (C) CZ.NIC, z.s.p.o. * SPDX-License-Identifier: GPL-3.0-or-later */ #include #include #include #include "tests/unit/test.h" #include "lib/utils.h" static void test_strcatdup(void **state) { auto_free char *empty_res = kr_strcatdup(0); assert_null(empty_res); auto_free char *null_res = kr_strcatdup(1, NULL); assert_null(null_res); auto_free char *nullcat_res = kr_strcatdup(2, NULL, "beef"); assert_string_equal(nullcat_res, "beef"); auto_free char *multi_res = kr_strcatdup(3, "need", "beef", "dead"); assert_string_equal(multi_res, "needbeefdead"); /* Test fails if this leaks. */ auto_fclose FILE* null_file = fopen("/dev/null", "r"); (void)(null_file); /* Test fails if this leaks. */ auto_close int null_sock = socket(AF_INET, SOCK_DGRAM, 0); (void)(null_sock); } static inline int test_bitcmp(const char *subnet, const char *str_addr, size_t len) { char addr_buf[16] = {'\0'}; kr_straddr_subnet(addr_buf, str_addr); return kr_bitcmp(subnet, addr_buf, len); } static void test_straddr(void **state) { const char *ip4_ok = "1.2.3.0/30"; const char *ip4_bad = "1.2.3.0/33"; const char *ip4_in = "1.2.3.1"; const char *ip4_out = "1.2.3.5"; const char *ip6_ok = "7caa::/4"; const char *ip6_bad = "7caa::/129"; const char *ip6_in = "7caa::aa7c"; const char *ip6_out = "8caa::aa7c"; /* Parsing family */ assert_int_equal(kr_straddr_family(ip4_ok), AF_INET); assert_int_equal(kr_straddr_family(ip4_in), AF_INET); assert_int_equal(kr_straddr_family(ip6_ok), AF_INET6); assert_int_equal(kr_straddr_family(ip6_in), AF_INET6); /* Parsing subnet */ char ip4_sub[4], ip6_sub[16]; assert_true(kr_straddr_subnet(ip4_sub, ip4_bad) < 0); assert_int_equal(kr_straddr_subnet(ip4_sub, ip4_ok), 30); assert_true(kr_straddr_subnet(ip6_sub, ip6_bad) < 0); assert_int_equal(kr_straddr_subnet(ip6_sub, ip6_ok), 4); /* Matching subnet */ assert_int_equal(test_bitcmp(ip4_sub, ip4_in, 30), 0); assert_int_not_equal(test_bitcmp(ip4_sub, ip4_out, 30), 0); assert_int_equal(test_bitcmp(ip6_sub, ip6_in, 4), 0); assert_int_not_equal(test_bitcmp(ip6_sub, ip6_out, 4), 0); } static inline int assert_bitmask(const char *addr, const char *exp_masked) { unsigned char addr_buf[16]; unsigned char exp_masked_buf[16]; int bits = kr_straddr_subnet(addr_buf, addr); size_t addr_len = (kr_straddr_family(addr) == AF_INET6) ? 16 : 4; int exp_masked_bits = kr_straddr_subnet(exp_masked_buf, exp_masked); size_t exp_masked_len = (kr_straddr_family(exp_masked) == AF_INET6) ? 16 : 4; /* sanity checks */ assert_true(bits >= 0); assert_int_equal(addr_len, exp_masked_len); assert_int_equal(exp_masked_bits, exp_masked_len * 8); kr_bitmask(addr_buf, addr_len, bits); return memcmp(addr_buf, exp_masked_buf, addr_len); } static void test_bitmask(void **state) { assert_int_equal(assert_bitmask("10.0.1.5/32", "10.0.1.5"), 0); assert_int_equal(assert_bitmask("10.0.1.5", "10.0.1.5"), 0); assert_int_equal(assert_bitmask("10.0.1.5/24", "10.0.1.0"), 0); assert_int_equal(assert_bitmask("128.30.1.16/16", "128.30.0.0"), 0); assert_int_equal(assert_bitmask("255.255.255.255/20", "255.255.240.0"), 0); assert_int_equal(assert_bitmask("255.255.255.255/22", "255.255.252.0"), 0); assert_int_equal(assert_bitmask("192.168.0.1/0", "0.0.0.0"), 0); assert_int_equal(assert_bitmask("7caa::/4", "7000::"), 0); assert_int_equal(assert_bitmask("dead:beef::/16", "dead::"), 0); assert_int_equal(assert_bitmask("dead:beef::/20", "dead:b000::"), 0); assert_int_equal(assert_bitmask("dead:beef::/0", "::"), 0); assert_int_equal(assert_bitmask("64aa:22fa:1378:aaaa:bbbb::/36", "64aa:22fa:1000::"), 0); } static void test_strptime_diff(void **state) { char *format = "%Y-%m-%dT%H:%M:%S"; const char *errmsg = NULL; double output; errmsg = kr_strptime_diff(format, "2019-01-09T12:06:04", "2019-01-09T12:06:04", &output); assert_true(errmsg == NULL); /* double type -> equality is not reliable */ assert_true(output > -0.01 && output < 0.01); errmsg = kr_strptime_diff(format, "2019-01-09T12:06:04", "2019-01-09T11:06:04", &output); assert_true(errmsg == NULL); /* double type -> equality is not reliable */ assert_true(output > -3600.01 && output < 3600.01); /* invalid inputs */ errmsg = kr_strptime_diff(format, "2019-01-09T25:06:04", "2019-01-09T11:06:04", &output); assert_true(errmsg != NULL); errmsg = kr_strptime_diff("fail", "2019-01-09T23:06:04", "2019-01-09T11:06:04", &output); assert_true(errmsg != NULL); } int main(void) { const UnitTest tests[] = { unit_test(test_strcatdup), unit_test(test_straddr), unit_test(test_bitmask), unit_test(test_strptime_diff) }; return run_tests(tests); }