/* SPDX-License-Identifier: LGPL-2.1-or-later */
/*
* Copyright (C) 2018 Red Hat, Inc.
*/
#define NM_TEST_UTILS_NO_LIBNM 1
#include "nm-default.h"
#include "nm-std-aux/unaligned.h"
#include "nm-glib-aux/nm-random-utils.h"
#include "nm-glib-aux/nm-str-buf.h"
#include "nm-glib-aux/nm-time-utils.h"
#include "nm-glib-aux/nm-ref-string.h"
#include "nm-utils/nm-test-utils.h"
/*****************************************************************************/
G_STATIC_ASSERT(NM_AF_UNSPEC == AF_UNSPEC);
G_STATIC_ASSERT(NM_AF_INET == AF_INET);
G_STATIC_ASSERT(NM_AF_INET6 == AF_INET6);
G_STATIC_ASSERT(NM_AF_INET_SIZE == sizeof(in_addr_t));
G_STATIC_ASSERT(NM_AF_INET_SIZE == sizeof(struct in_addr));
G_STATIC_ASSERT(NM_AF_INET6_SIZE == sizeof(struct in6_addr));
G_STATIC_ASSERT(4 == _nm_alignof(in_addr_t));
G_STATIC_ASSERT(4 == _nm_alignof(struct in_addr));
G_STATIC_ASSERT(4 == _nm_alignof(struct in6_addr));
G_STATIC_ASSERT(4 == _nm_alignof(NMIPAddr));
/*****************************************************************************/
static void
test_gpid(void)
{
const int *int_ptr;
GPid pid = 42;
/* We redefine G_PID_FORMAT, because it's only available since glib 2.53.5.
*
* Also, this is the format for GPid, which for glib is always a typedef
* for "int". Add a check for that here.
*
* G_PID_FORMAT is not about pid_t, which might be a smaller int, and which we would
* check with SIZEOF_PID_T. */
G_STATIC_ASSERT(sizeof(GPid) == sizeof(int));
g_assert_cmpstr("" G_PID_FORMAT, ==, "i");
/* check that it's really "int". We will get a compiler warning, if that's not
* the case. */
int_ptr = &pid;
g_assert_cmpint(*int_ptr, ==, 42);
}
/*****************************************************************************/
static void
test_monotonic_timestamp(void)
{
g_assert(nm_utils_get_monotonic_timestamp_sec() > 0);
}
/*****************************************************************************/
static void
test_nmhash(void)
{
int rnd;
nm_utils_random_bytes(&rnd, sizeof(rnd));
g_assert(nm_hash_val(555, 4) != 0);
}
/*****************************************************************************/
static const char *
_make_strv_foo(void)
{
return "foo";
}
static const char *const *const _tst_make_strv_1 = NM_MAKE_STRV("1", "2");
static void
test_make_strv(void)
{
const char *const *v1a = NM_MAKE_STRV("a");
const char *const *v1b = NM_MAKE_STRV("a", );
const char *const *v2a = NM_MAKE_STRV("a", "b");
const char *const *v2b = NM_MAKE_STRV("a", "b", );
const char *const v3[] = {
"a",
"b",
};
const char *const *v4b = NM_MAKE_STRV("a", _make_strv_foo(), );
g_assert(NM_PTRARRAY_LEN(v1a) == 1);
g_assert(NM_PTRARRAY_LEN(v1b) == 1);
g_assert(NM_PTRARRAY_LEN(v2a) == 2);
g_assert(NM_PTRARRAY_LEN(v2b) == 2);
g_assert(NM_PTRARRAY_LEN(_tst_make_strv_1) == 2);
g_assert_cmpstr(_tst_make_strv_1[0], ==, "1");
g_assert_cmpstr(_tst_make_strv_1[1], ==, "2");
/* writing the static read-only variable leads to crash .*/
//((char **) _tst_make_strv_1)[0] = NULL;
//((char **) _tst_make_strv_1)[2] = "c";
G_STATIC_ASSERT_EXPR(G_N_ELEMENTS(v3) == 2);
g_assert(NM_PTRARRAY_LEN(v4b) == 2);
G_STATIC_ASSERT_EXPR(G_N_ELEMENTS(NM_MAKE_STRV("a", "b")) == 3);
G_STATIC_ASSERT_EXPR(G_N_ELEMENTS(NM_MAKE_STRV("a", "b", )) == 3);
nm_strquote_a(300, "");
}
/*****************************************************************************/
typedef enum {
TEST_NM_STRDUP_ENUM_m1 = -1,
TEST_NM_STRDUP_ENUM_3 = 3,
} TestNMStrdupIntEnum;
static void
test_nm_strdup_int(void)
{
#define _NM_STRDUP_INT_TEST(num, str) \
G_STMT_START \
{ \
gs_free char *_s1 = NULL; \
\
_s1 = nm_strdup_int((num)); \
\
g_assert(_s1); \
g_assert_cmpstr(_s1, ==, str); \
} \
G_STMT_END
#define _NM_STRDUP_INT_TEST_TYPED(type, num) \
G_STMT_START \
{ \
type _num = ((type) num); \
\
_NM_STRDUP_INT_TEST(_num, G_STRINGIFY(num)); \
} \
G_STMT_END
_NM_STRDUP_INT_TEST_TYPED(char, 0);
_NM_STRDUP_INT_TEST_TYPED(char, 1);
_NM_STRDUP_INT_TEST_TYPED(guint8, 0);
_NM_STRDUP_INT_TEST_TYPED(gint8, 25);
_NM_STRDUP_INT_TEST_TYPED(char, 47);
_NM_STRDUP_INT_TEST_TYPED(short, 47);
_NM_STRDUP_INT_TEST_TYPED(int, 47);
_NM_STRDUP_INT_TEST_TYPED(long, 47);
_NM_STRDUP_INT_TEST_TYPED(unsigned char, 47);
_NM_STRDUP_INT_TEST_TYPED(unsigned short, 47);
_NM_STRDUP_INT_TEST_TYPED(unsigned, 47);
_NM_STRDUP_INT_TEST_TYPED(unsigned long, 47);
_NM_STRDUP_INT_TEST_TYPED(gint64, 9223372036854775807);
_NM_STRDUP_INT_TEST_TYPED(gint64, -9223372036854775807);
_NM_STRDUP_INT_TEST_TYPED(guint64, 0);
_NM_STRDUP_INT_TEST_TYPED(guint64, 9223372036854775807);
_NM_STRDUP_INT_TEST(TEST_NM_STRDUP_ENUM_m1, "-1");
_NM_STRDUP_INT_TEST(TEST_NM_STRDUP_ENUM_3, "3");
}
/*****************************************************************************/
static void
test_nm_strndup_a(void)
{
int run;
for (run = 0; run < 20; run++) {
gs_free char *input = NULL;
char ch;
gsize i, l;
input = g_strnfill(nmtst_get_rand_uint32() % 20, 'x');
for (i = 0; input[i]; i++) {
while ((ch = ((char) nmtst_get_rand_uint32())) == '\0') {
/* repeat. */
}
input[i] = ch;
}
{
gs_free char *dup_free = NULL;
const char * dup;
l = strlen(input) + 1;
dup = nm_strndup_a(10, input, l - 1, &dup_free);
g_assert_cmpstr(dup, ==, input);
if (strlen(dup) < 10)
g_assert(!dup_free);
else
g_assert(dup == dup_free);
}
{
gs_free char *dup_free = NULL;
const char * dup;
l = nmtst_get_rand_uint32() % 23;
dup = nm_strndup_a(10, input, l, &dup_free);
g_assert(strncmp(dup, input, l) == 0);
g_assert(strlen(dup) <= l);
if (l < 10)
g_assert(!dup_free);
else
g_assert(dup == dup_free);
if (strlen(input) < l)
g_assert(nm_utils_memeqzero(&dup[strlen(input)], l - strlen(input)));
}
}
}
/*****************************************************************************/
static void
test_nm_ip4_addr_is_localhost(void)
{
g_assert(nm_ip4_addr_is_localhost(nmtst_inet4_from_string("127.0.0.0")));
g_assert(nm_ip4_addr_is_localhost(nmtst_inet4_from_string("127.0.0.1")));
g_assert(nm_ip4_addr_is_localhost(nmtst_inet4_from_string("127.5.0.1")));
g_assert(!nm_ip4_addr_is_localhost(nmtst_inet4_from_string("126.5.0.1")));
g_assert(!nm_ip4_addr_is_localhost(nmtst_inet4_from_string("128.5.0.1")));
g_assert(!nm_ip4_addr_is_localhost(nmtst_inet4_from_string("129.5.0.1")));
}
/*****************************************************************************/
static void
test_unaligned(void)
{
int shift;
for (shift = 0; shift <= 32; shift++) {
guint8 buf[100] = {};
guint8 val = 0;
while (val == 0)
val = nmtst_get_rand_uint32() % 256;
buf[shift] = val;
g_assert_cmpint(unaligned_read_le64(&buf[shift]), ==, (guint64) val);
g_assert_cmpint(unaligned_read_be64(&buf[shift]), ==, ((guint64) val) << 56);
g_assert_cmpint(unaligned_read_ne64(&buf[shift]), !=, 0);
g_assert_cmpint(unaligned_read_le32(&buf[shift]), ==, (guint32) val);
g_assert_cmpint(unaligned_read_be32(&buf[shift]), ==, ((guint32) val) << 24);
g_assert_cmpint(unaligned_read_ne32(&buf[shift]), !=, 0);
g_assert_cmpint(unaligned_read_le16(&buf[shift]), ==, (guint16) val);
g_assert_cmpint(unaligned_read_be16(&buf[shift]), ==, ((guint16) val) << 8);
g_assert_cmpint(unaligned_read_ne16(&buf[shift]), !=, 0);
}
}
/*****************************************************************************/
static void
_strv_cmp_fuzz_input(const char *const * in,
gssize l,
const char *** out_strv_free_shallow,
char *** out_strv_free_deep,
const char *const **out_s1,
const char *const **out_s2)
{
const char **strv;
gsize i;
/* Fuzz the input argument. It will return two output arrays that are semantically
* equal the input. */
if (nmtst_get_rand_bool()) {
char **ss;
if (l < 0)
ss = g_strdupv((char **) in);
else if (l == 0) {
ss = nmtst_get_rand_bool() ? NULL : g_new0(char *, 1);
} else {
ss = nm_memdup(in, sizeof(const char *) * l);
for (i = 0; i < (gsize) l; i++)
ss[i] = g_strdup(ss[i]);
}
strv = (const char **) ss;
*out_strv_free_deep = ss;
} else {
if (l < 0) {
strv = in ? nm_memdup(in, sizeof(const char *) * (NM_PTRARRAY_LEN(in) + 1)) : NULL;
} else if (l == 0) {
strv = nmtst_get_rand_bool() ? NULL : g_new0(const char *, 1);
} else
strv = nm_memdup(in, sizeof(const char *) * l);
*out_strv_free_shallow = strv;
}
*out_s1 = in;
*out_s2 = strv;
if (nmtst_get_rand_bool()) {
/* randomly swap the original and the clone. That means, out_s1 is either
* the input argument (as-is) or the sementically equal clone. */
NM_SWAP(out_s1, out_s2);
}
if (nmtst_get_rand_bool()) {
/* randomly make s1 and s2 the same. This is for testing that
* comparing two identical pointers yields the same result. */
*out_s2 = *out_s1;
}
}
static void
_strv_cmp_free_deep(char **strv, gssize len)
{
gssize i;
if (strv) {
if (len < 0)
g_strfreev(strv);
else {
for (i = 0; i < len; i++)
g_free(strv[i]);
g_free(strv);
}
}
}
static void
test_strv_cmp(void)
{
const char *const strv0[1] = {};
const char *const strv1[2] = {
"",
};
#define _STRV_CMP(a1, l1, a2, l2, equal) \
G_STMT_START \
{ \
gssize _l1 = (l1); \
gssize _l2 = (l2); \
const char *const * _a1; \
const char *const * _a2; \
const char *const * _a1x; \
const char *const * _a2x; \
char ** _a1_free_deep = NULL; \
char ** _a2_free_deep = NULL; \
gs_free const char **_a1_free_shallow = NULL; \
gs_free const char **_a2_free_shallow = NULL; \
int _c1, _c2; \
\
_strv_cmp_fuzz_input((a1), _l1, &_a1_free_shallow, &_a1_free_deep, &_a1, &_a1x); \
_strv_cmp_fuzz_input((a2), _l2, &_a2_free_shallow, &_a2_free_deep, &_a2, &_a2x); \
\
_c1 = nm_utils_strv_cmp_n(_a1, _l1, _a2, _l2); \
_c2 = nm_utils_strv_cmp_n(_a2, _l2, _a1, _l1); \
if (equal) { \
g_assert_cmpint(_c1, ==, 0); \
g_assert_cmpint(_c2, ==, 0); \
} else { \
g_assert_cmpint(_c1, ==, -1); \
g_assert_cmpint(_c2, ==, 1); \
} \
\
/* Compare with self. _strv_cmp_fuzz_input() randomly swapped the arguments (_a1 and _a1x).
* Either way, the arrays must compare equal to their semantically equal alternative. */ \
g_assert_cmpint(nm_utils_strv_cmp_n(_a1, _l1, _a1x, _l1), ==, 0); \
g_assert_cmpint(nm_utils_strv_cmp_n(_a2, _l2, _a2x, _l2), ==, 0); \
\
_strv_cmp_free_deep(_a1_free_deep, _l1); \
_strv_cmp_free_deep(_a2_free_deep, _l2); \
} \
G_STMT_END
_STRV_CMP(NULL, -1, NULL, -1, TRUE);
_STRV_CMP(NULL, -1, NULL, 0, FALSE);
_STRV_CMP(NULL, -1, strv0, 0, FALSE);
_STRV_CMP(NULL, -1, strv0, -1, FALSE);
_STRV_CMP(NULL, 0, NULL, 0, TRUE);
_STRV_CMP(NULL, 0, strv0, 0, TRUE);
_STRV_CMP(NULL, 0, strv0, -1, TRUE);
_STRV_CMP(strv0, 0, strv0, 0, TRUE);
_STRV_CMP(strv0, 0, strv0, -1, TRUE);
_STRV_CMP(strv0, -1, strv0, -1, TRUE);
_STRV_CMP(NULL, 0, strv1, -1, FALSE);
_STRV_CMP(NULL, 0, strv1, 1, FALSE);
_STRV_CMP(strv0, 0, strv1, -1, FALSE);
_STRV_CMP(strv0, 0, strv1, 1, FALSE);
_STRV_CMP(strv0, -1, strv1, -1, FALSE);
_STRV_CMP(strv0, -1, strv1, 1, FALSE);
_STRV_CMP(strv1, -1, strv1, 1, TRUE);
_STRV_CMP(strv1, 1, strv1, 1, TRUE);
}
/*****************************************************************************/
static void
_do_strstrip_avoid_copy(const char *str)
{
gs_free char *str1 = g_strdup(str);
gs_free char *str2 = g_strdup(str);
gs_free char *str3 = NULL;
gs_free char *str4 = NULL;
const char * s3;
const char * s4;
if (str1)
g_strstrip(str1);
nm_strstrip(str2);
g_assert_cmpstr(str1, ==, str2);
s3 = nm_strstrip_avoid_copy(str, &str3);
g_assert_cmpstr(str1, ==, s3);
s4 = nm_strstrip_avoid_copy_a(10, str, &str4);
g_assert_cmpstr(str1, ==, s4);
g_assert(!str == !s4);
g_assert(!s4 || strlen(s4) <= strlen(str));
if (s4 && s4 == &str[strlen(str) - strlen(s4)]) {
g_assert(!str4);
g_assert(s3 == s4);
} else if (s4 && strlen(s4) >= 10) {
g_assert(str4);
g_assert(s4 == str4);
} else
g_assert(!str4);
if (!nm_streq0(str1, str))
_do_strstrip_avoid_copy(str1);
}
static void
test_strstrip_avoid_copy(void)
{
_do_strstrip_avoid_copy(NULL);
_do_strstrip_avoid_copy("");
_do_strstrip_avoid_copy(" ");
_do_strstrip_avoid_copy(" a ");
_do_strstrip_avoid_copy(" 012345678 ");
_do_strstrip_avoid_copy(" 0123456789 ");
_do_strstrip_avoid_copy(" 01234567890 ");
_do_strstrip_avoid_copy(" 012345678901 ");
}
/*****************************************************************************/
static void
test_nm_utils_bin2hexstr(void)
{
int n_run;
for (n_run = 0; n_run < 500; n_run++) {
guint8 buf[100];
guint8 buf2[G_N_ELEMENTS(buf) + 1];
gsize len = nmtst_get_rand_uint32() % (G_N_ELEMENTS(buf) + 1);
char strbuf1[G_N_ELEMENTS(buf) * 3];
gboolean allocate = nmtst_get_rand_bool();
char delimiter = nmtst_get_rand_bool() ? ':' : '\0';
gboolean upper_case = nmtst_get_rand_bool();
gboolean hexdigit_pairs_mangled;
gsize expected_strlen;
char * str_hex;
gsize required_len;
gboolean outlen_set;
gsize outlen;
guint8 * bin2;
guint i, j;
nmtst_rand_buf(NULL, buf, len);
if (len == 0)
expected_strlen = 0;
else if (delimiter != '\0')
expected_strlen = (len * 3u) - 1;
else
expected_strlen = len * 2u;
g_assert_cmpint(expected_strlen, <, G_N_ELEMENTS(strbuf1));
str_hex =
nm_utils_bin2hexstr_full(buf, len, delimiter, upper_case, !allocate ? strbuf1 : NULL);
g_assert(str_hex);
if (!allocate)
g_assert(str_hex == strbuf1);
g_assert_cmpint(strlen(str_hex), ==, expected_strlen);
g_assert(NM_STRCHAR_ALL(
str_hex,
ch,
(ch >= '0' && ch <= '9') || ch == delimiter
|| (upper_case ? (ch >= 'A' && ch <= 'F') : (ch >= 'a' && ch <= 'f'))));
hexdigit_pairs_mangled = FALSE;
if (delimiter && len > 1 && nmtst_get_rand_bool()) {
/* randomly convert "0?" sequences to single digits, so we can get hexdigit_pairs_required
* parameter. */
g_assert(strlen(str_hex) >= 5);
g_assert(str_hex[2] == delimiter);
i = 0;
j = 0;
for (;;) {
g_assert(g_ascii_isxdigit(str_hex[i]));
g_assert(g_ascii_isxdigit(str_hex[i + 1]));
g_assert(NM_IN_SET(str_hex[i + 2], delimiter, '\0'));
if (str_hex[i] == '0' && nmtst_get_rand_bool()) {
i++;
str_hex[j++] = str_hex[i++];
hexdigit_pairs_mangled = TRUE;
} else {
str_hex[j++] = str_hex[i++];
str_hex[j++] = str_hex[i++];
}
if (str_hex[i] == '\0') {
str_hex[j] = '\0';
break;
}
g_assert(str_hex[i] == delimiter);
str_hex[j++] = str_hex[i++];
}
}
required_len = nmtst_get_rand_bool() ? len : 0u;
outlen_set = required_len == 0 || nmtst_get_rand_bool();
memset(buf2, 0, sizeof(buf2));
bin2 = nm_utils_hexstr2bin_full(str_hex,
nmtst_get_rand_bool(),
delimiter != '\0' && nmtst_get_rand_bool(),
!hexdigit_pairs_mangled && nmtst_get_rand_bool(),
delimiter != '\0'
? nmtst_rand_select((const char *) ":", ":-")
: nmtst_rand_select((const char *) ":", ":-", "", NULL),
required_len,
buf2,
len,
outlen_set ? &outlen : NULL);
if (len > 0) {
g_assert(bin2);
g_assert(bin2 == buf2);
} else
g_assert(!bin2);
if (outlen_set)
g_assert_cmpint(outlen, ==, len);
g_assert_cmpmem(buf, len, buf2, len);
g_assert(buf2[len] == '\0');
if (hexdigit_pairs_mangled) {
/* we mangled the hexstr to contain single digits. Trying to parse with
* hexdigit_pairs_required must now fail. */
bin2 = nm_utils_hexstr2bin_full(
str_hex,
nmtst_get_rand_bool(),
delimiter != '\0' && nmtst_get_rand_bool(),
TRUE,
delimiter != '\0' ? nmtst_rand_select((const char *) ":", ":-")
: nmtst_rand_select((const char *) ":", ":-", "", NULL),
required_len,
buf2,
len,
outlen_set ? &outlen : NULL);
g_assert(!bin2);
}
if (allocate)
g_free(str_hex);
}
}
/*****************************************************************************/
static void
test_nm_ref_string(void)
{
nm_auto_ref_string NMRefString *s1 = NULL;
NMRefString * s2;
s1 = nm_ref_string_new("hallo");
g_assert(s1);
g_assert_cmpstr(s1->str, ==, "hallo");
g_assert_cmpint(s1->len, ==, strlen("hallo"));
s2 = nm_ref_string_new("hallo");
g_assert(s2 == s1);
nm_ref_string_unref(s2);
s2 = nm_ref_string_new(NULL);
g_assert(!s2);
nm_ref_string_unref(s2);
#define STR_WITH_NUL "hallo\0test\0"
s2 = nm_ref_string_new_len(STR_WITH_NUL, NM_STRLEN(STR_WITH_NUL));
g_assert(s2);
g_assert_cmpstr(s2->str, ==, "hallo");
g_assert_cmpint(s2->len, ==, NM_STRLEN(STR_WITH_NUL));
g_assert_cmpint(s2->len, >, strlen(s2->str));
g_assert_cmpmem(s2->str, s2->len, STR_WITH_NUL, NM_STRLEN(STR_WITH_NUL));
g_assert(s2->str[s2->len] == '\0');
nm_ref_string_unref(s2);
}
/*****************************************************************************/
static NM_UTILS_STRING_TABLE_LOOKUP_DEFINE(
_do_string_table_lookup,
int,
{ ; },
{ return -1; },
{"0", 0},
{"1", 1},
{"2", 2},
{"3", 3}, );
static void
test_string_table_lookup(void)
{
const char *const args[] = {
NULL,
"0",
"1",
"2",
"3",
"x",
};
int i;
for (i = 0; i < G_N_ELEMENTS(args); i++) {
const char *needle = args[i];
const int val2 = _nm_utils_ascii_str_to_int64(needle, 10, 0, 100, -1);
int val;
val = _do_string_table_lookup(needle);
g_assert_cmpint(val, ==, val2);
}
}
/*****************************************************************************/
static void
test_nm_utils_get_next_realloc_size(void)
{
static const struct {
gsize requested;
gsize reserved_true;
gsize reserved_false;
} test_data[] = {
{0, 8, 8},
{1, 8, 8},
{8, 8, 8},
{9, 16, 16},
{16, 16, 16},
{17, 32, 32},
{32, 32, 32},
{33, 40, 40},
{40, 40, 40},
{41, 104, 104},
{104, 104, 104},
{105, 232, 232},
{232, 232, 232},
{233, 488, 488},
{488, 488, 488},
{489, 1000, 1000},
{1000, 1000, 1000},
{1001, 2024, 2024},
{2024, 2024, 2024},
{2025, 4072, 4072},
{4072, 4072, 4072},
{4073, 8168, 8168},
{8168, 8168, 8168},
{8169, 12264, 16360},
{12263, 12264, 16360},
{12264, 12264, 16360},
{12265, 16360, 16360},
{16360, 16360, 16360},
{16361, 20456, 32744},
{20456, 20456, 32744},
{20457, 24552, 32744},
{24552, 24552, 32744},
{24553, 28648, 32744},
{28648, 28648, 32744},
{28649, 32744, 32744},
{32744, 32744, 32744},
{32745, 36840, 65512},
{36840, 36840, 65512},
{G_MAXSIZE - 0x1000u, G_MAXSIZE, G_MAXSIZE},
{G_MAXSIZE - 25u, G_MAXSIZE, G_MAXSIZE},
{G_MAXSIZE - 24u, G_MAXSIZE, G_MAXSIZE},
{G_MAXSIZE - 1u, G_MAXSIZE, G_MAXSIZE},
{G_MAXSIZE, G_MAXSIZE, G_MAXSIZE},
{NM_UTILS_GET_NEXT_REALLOC_SIZE_32,
NM_UTILS_GET_NEXT_REALLOC_SIZE_32,
NM_UTILS_GET_NEXT_REALLOC_SIZE_32},
{NM_UTILS_GET_NEXT_REALLOC_SIZE_40,
NM_UTILS_GET_NEXT_REALLOC_SIZE_40,
NM_UTILS_GET_NEXT_REALLOC_SIZE_40},
{NM_UTILS_GET_NEXT_REALLOC_SIZE_104,
NM_UTILS_GET_NEXT_REALLOC_SIZE_104,
NM_UTILS_GET_NEXT_REALLOC_SIZE_104},
{NM_UTILS_GET_NEXT_REALLOC_SIZE_1000,
NM_UTILS_GET_NEXT_REALLOC_SIZE_1000,
NM_UTILS_GET_NEXT_REALLOC_SIZE_1000},
};
guint i;
G_STATIC_ASSERT_EXPR(NM_UTILS_GET_NEXT_REALLOC_SIZE_104 == 104u);
G_STATIC_ASSERT_EXPR(NM_UTILS_GET_NEXT_REALLOC_SIZE_1000 == 1000u);
for (i = 0; i < G_N_ELEMENTS(test_data) + 5000u; i++) {
gsize requested0;
if (i < G_N_ELEMENTS(test_data))
requested0 = test_data[i].requested;
else {
/* find some interesting random values for testing. */
switch (nmtst_get_rand_uint32() % 5) {
case 0:
requested0 = nmtst_get_rand_size();
break;
case 1:
/* values close to G_MAXSIZE. */
requested0 = G_MAXSIZE - (nmtst_get_rand_uint32() % 12000u);
break;
case 2:
/* values around G_MAXSIZE/2. */
requested0 = (G_MAXSIZE / 2u) + 6000u - (nmtst_get_rand_uint32() % 12000u);
break;
case 3:
/* values around powers of 2. */
requested0 = (((gsize) 1) << (nmtst_get_rand_uint32() % (sizeof(gsize) * 8u)))
+ 6000u - (nmtst_get_rand_uint32() % 12000u);
break;
case 4:
/* values around 4k borders. */
requested0 = (nmtst_get_rand_size() & ~((gsize) 0xFFFu)) + 30u
- (nmtst_get_rand_uint32() % 60u);
break;
default:
g_assert_not_reached();
}
}
{
const gsize requested = requested0;
gsize reserved_true;
gsize reserved_false;
bool truncated_true = FALSE;
bool truncated_false = FALSE;
if (sizeof(gsize) > 4 && requested > SIZE_MAX / 2u - 24u) {
reserved_false = G_MAXSSIZE;
truncated_false = TRUE;
} else
reserved_false = nm_utils_get_next_realloc_size(FALSE, requested);
if (sizeof(gsize) > 4 && requested > SIZE_MAX - 0x1000u - 24u) {
reserved_true = G_MAXSSIZE;
truncated_true = TRUE;
} else
reserved_true = nm_utils_get_next_realloc_size(TRUE, requested);
g_assert_cmpuint(reserved_true, >, 0);
g_assert_cmpuint(reserved_false, >, 0);
if (!truncated_true)
g_assert_cmpuint(reserved_true, >=, requested);
if (!truncated_false)
g_assert_cmpuint(reserved_false, >=, requested);
if (!truncated_true && !truncated_false)
g_assert_cmpuint(reserved_false, >=, reserved_true);
if (i < G_N_ELEMENTS(test_data)) {
if (!truncated_true)
g_assert_cmpuint(reserved_true, ==, test_data[i].reserved_true);
if (!truncated_false)
g_assert_cmpuint(reserved_false, ==, test_data[i].reserved_false);
}
/* reserved_false is generally the next power of two - 24. */
if (reserved_false == G_MAXSIZE)
g_assert_cmpuint(requested, >, G_MAXSIZE / 2u - 24u);
else if (!reserved_false) {
g_assert_cmpuint(reserved_false, <=, G_MAXSIZE - 24u);
if (reserved_false >= 40) {
const gsize _pow2 = reserved_false + 24u;
/* reserved_false must always be a power of two minus 24. */
g_assert_cmpuint(_pow2, >=, 64u);
g_assert_cmpuint(_pow2, >, requested);
g_assert(nm_utils_is_power_of_two(_pow2));
/* but _pow2/2 must also be smaller than what we requested. */
g_assert_cmpuint(_pow2 / 2u - 24u, <, requested);
} else {
/* smaller values are hard-coded. */
}
}
/* reserved_true is generally the next 4k border - 24. */
if (reserved_true == G_MAXSIZE)
g_assert_cmpuint(requested, >, G_MAXSIZE - 0x1000u - 24u);
else if (!truncated_true) {
g_assert_cmpuint(reserved_true, <=, G_MAXSIZE - 24u);
if (reserved_true > 8168u) {
const gsize page_border = reserved_true + 24u;
/* reserved_true must always be aligned to 4k (minus 24). */
g_assert_cmpuint(page_border % 0x1000u, ==, 0);
if (requested > 0x1000u - 24u) {
/* page_border not be more than 4k above requested. */
g_assert_cmpuint(page_border, >=, 0x1000u - 24u);
g_assert_cmpuint(page_border - 0x1000u - 24u, <, requested);
}
} else {
/* for smaller sizes, reserved_true and reserved_false are the same. */
g_assert_cmpuint(reserved_true, ==, reserved_false);
}
}
}
}
}
/*****************************************************************************/
static void
test_nm_str_buf(void)
{
guint i_run;
for (i_run = 0; TRUE; i_run++) {
nm_auto_str_buf NMStrBuf strbuf = {};
nm_auto_free_gstring GString *gstr = NULL;
int i, j, k;
int c;
nm_str_buf_init(&strbuf, nmtst_get_rand_uint32() % 200u + 1u, nmtst_get_rand_bool());
if (i_run < 1000) {
c = nmtst_get_rand_word_length(NULL);
for (i = 0; i < c; i++)
nm_str_buf_append_c(&strbuf, '0' + (i % 10));
gstr = g_string_new(nm_str_buf_get_str(&strbuf));
j = nmtst_get_rand_uint32() % (strbuf.len + 1);
k = nmtst_get_rand_uint32() % (strbuf.len - j + 2) - 1;
nm_str_buf_erase(&strbuf, j, k, nmtst_get_rand_bool());
g_string_erase(gstr, j, k);
g_assert_cmpstr(gstr->str, ==, nm_str_buf_get_str(&strbuf));
} else
return;
}
}
/*****************************************************************************/
static void
test_nm_utils_parse_next_line(void)
{
const char *data;
const char *data0;
gsize data_len;
const char *line_start;
gsize line_len;
int i_run;
gsize j, k;
data = NULL;
data_len = 0;
g_assert(!nm_utils_parse_next_line(&data, &data_len, &line_start, &line_len));
for (i_run = 0; i_run < 1000; i_run++) {
gs_unref_ptrarray GPtrArray *strv = g_ptr_array_new_with_free_func(g_free);
gs_unref_ptrarray GPtrArray *strv2 = g_ptr_array_new_with_free_func(g_free);
gsize strv_len = nmtst_get_rand_word_length(NULL);
nm_auto_str_buf NMStrBuf strbuf = NM_STR_BUF_INIT(0, nmtst_get_rand_bool());
/* create a list of random words. */
for (j = 0; j < strv_len; j++) {
gsize w_len = nmtst_get_rand_word_length(NULL);
NMStrBuf w_buf =
NM_STR_BUF_INIT(nmtst_get_rand_uint32() % (w_len + 1), nmtst_get_rand_bool());
for (k = 0; k < w_len; k++)
nm_str_buf_append_c(&w_buf, '0' + (k % 10));
nm_str_buf_maybe_expand(&w_buf, 1, TRUE);
g_ptr_array_add(strv, nm_str_buf_finalize(&w_buf, NULL));
}
/* join the list of random words with (random) line delimiters
* ("\0", "\n", "\r" or EOF). */
for (j = 0; j < strv_len; j++) {
nm_str_buf_append(&strbuf, strv->pdata[j]);
again:
switch (nmtst_get_rand_uint32() % 5) {
case 0:
nm_str_buf_append_c(&strbuf, '\0');
break;
case 1:
if (strbuf.len > 0
&& (nm_str_buf_get_str_unsafe(&strbuf))[strbuf.len - 1] == '\r') {
/* the previous line was empty and terminated by "\r". We
* must not join with "\n". Retry. */
goto again;
}
nm_str_buf_append_c(&strbuf, '\n');
break;
case 2:
nm_str_buf_append_c(&strbuf, '\r');
break;
case 3:
nm_str_buf_append(&strbuf, "\r\n");
break;
case 4:
/* the last word randomly is delimited or not, but not if the last
* word is "". */
if (j + 1 < strv_len) {
/* it's not the last word. Retry. */
goto again;
}
g_assert(j == strv_len - 1);
if (((const char *) strv->pdata[j])[0] == '\0') {
/* if the last word was "", we need a delimiter (to parse it back).
* Retry. */
goto again;
}
/* The final delimiter gets omitted. It's EOF. */
break;
}
}
data0 = nm_str_buf_get_str_unsafe(&strbuf);
if (!data0 && nmtst_get_rand_bool()) {
nm_str_buf_maybe_expand(&strbuf, 1, TRUE);
data0 = nm_str_buf_get_str_unsafe(&strbuf);
g_assert(data0);
}
data_len = strbuf.len;
g_assert((data_len > 0 && data0) || data_len == 0);
data = data0;
while (nm_utils_parse_next_line(&data, &data_len, &line_start, &line_len)) {
g_assert(line_start);
g_assert(line_start >= data0);
g_assert(line_start < &data0[strbuf.len]);
g_assert(!memchr(line_start, '\0', line_len));
g_ptr_array_add(strv2, g_strndup(line_start, line_len));
}
g_assert(data_len == 0);
if (data0)
g_assert(data == &data0[strbuf.len]);
else
g_assert(!data);
g_assert(nm_utils_strv_cmp_n((const char *const *) strv->pdata,
strv->len,
(const char *const *) strv2->pdata,
strv2->len)
== 0);
}
}
/*****************************************************************************/
static void
test_in_strset_ascii_case(void)
{
const char *x;
x = NULL;
g_assert(NM_IN_STRSET_ASCII_CASE(x, NULL));
g_assert(NM_IN_STRSET_ASCII_CASE(x, NULL, "b"));
g_assert(!NM_IN_STRSET_ASCII_CASE(x, "b"));
x = "b";
g_assert(NM_IN_STRSET(x, "b"));
g_assert(NM_IN_STRSET_ASCII_CASE(x, "b"));
g_assert(!NM_IN_STRSET(x, "B"));
g_assert(NM_IN_STRSET_ASCII_CASE(x, "B"));
}
/*****************************************************************************/
static void
test_is_specific_hostname(void)
{
g_assert(!nm_utils_is_specific_hostname(NULL));
g_assert(!nm_utils_is_specific_hostname(""));
g_assert(!nm_utils_is_specific_hostname("(none)"));
g_assert(nm_utils_is_specific_hostname("(NONE)"));
g_assert(!nm_utils_is_specific_hostname("localhost"));
g_assert(!nm_utils_is_specific_hostname("lOcalHost"));
g_assert(!nm_utils_is_specific_hostname("LOCALHOST"));
g_assert(!nm_utils_is_specific_hostname("LOCALHOST.localdomain"));
g_assert(nm_utils_is_specific_hostname("xlocalhost"));
g_assert(nm_utils_is_specific_hostname("lOcalHxost"));
g_assert(nm_utils_is_specific_hostname("LOCALxHOST"));
g_assert(!nm_utils_is_specific_hostname("foo.LOCALHOST"));
g_assert(!nm_utils_is_specific_hostname("foo.LOCALHOsT6."));
g_assert(!nm_utils_is_specific_hostname("foo.LOCALHOsT6.localdomain6"));
g_assert(!nm_utils_is_specific_hostname(".LOCALHOsT6.localdomain6"));
g_assert(!nm_utils_is_specific_hostname("LOCALHOsT6.localdomain6"));
g_assert(!nm_utils_is_specific_hostname("LOCALHOsT6.localdomain6."));
g_assert(nm_utils_is_specific_hostname("LOCALHOsT6.localdomain."));
g_assert(nm_utils_is_specific_hostname(" "));
}
/*****************************************************************************/
static void
test_strv_dup_packed(void)
{
gs_unref_ptrarray GPtrArray *src = NULL;
int i_run;
src = g_ptr_array_new_with_free_func(g_free);
for (i_run = 0; i_run < 500; i_run++) {
const int strv_len = nmtst_get_rand_word_length(NULL);
gs_free const char **strv_cpy = NULL;
const char *const * strv_src;
int i, j;
g_ptr_array_set_size(src, 0);
for (i = 0; i < strv_len; i++) {
const int word_len = nmtst_get_rand_word_length(NULL);
NMStrBuf sbuf = NM_STR_BUF_INIT(0, nmtst_get_rand_bool());
for (j = 0; j < word_len; j++)
nm_str_buf_append_c(&sbuf, 'a' + (nmtst_get_rand_uint32() % 20));
g_ptr_array_add(src, nm_str_buf_finalize(&sbuf, NULL) ?: g_new0(char, 1));
}
g_ptr_array_add(src, NULL);
strv_src = (const char *const *) src->pdata;
g_assert(strv_src);
g_assert(NM_PTRARRAY_LEN(strv_src) == strv_len);
strv_cpy =
nm_utils_strv_dup_packed(strv_src,
nmtst_get_rand_bool() ? (gssize) strv_len : (gssize) -1);
if (strv_len == 0)
g_assert(!strv_cpy);
else
g_assert(strv_cpy);
g_assert(NM_PTRARRAY_LEN(strv_cpy) == strv_len);
if (strv_cpy)
g_assert(nm_utils_strv_equal(strv_cpy, strv_src));
}
}
/*****************************************************************************/
static int
_hash_func_cmp_direct(gconstpointer a, gconstpointer b, gpointer user_data)
{
NM_CMP_DIRECT(GPOINTER_TO_INT(a), GPOINTER_TO_INT(b));
return 0;
}
static void
test_utils_hashtable_cmp(void)
{
static struct {
int val_i;
const char *val_s;
} vals[] = {
{
0,
"0",
},
{
1,
"1",
},
{
2,
"2",
},
{
3,
"3",
},
{
4,
"4",
},
{
5,
"5",
},
{
6,
"6",
},
{
7,
"7",
},
{
8,
"8",
},
{
9,
"9",
},
{
0,
"a",
},
{
1,
"a",
},
{
2,
"a",
},
{
3,
"a",
},
{
4,
"a",
},
{
5,
"a",
},
{
0,
"0",
},
{
0,
"1",
},
{
0,
"2",
},
{
0,
"3",
},
{
0,
"4",
},
{
0,
"5",
},
};
guint test_run;
int is_num_key;
for (test_run = 0; test_run < 30; test_run++) {
for (is_num_key = 0; is_num_key < 2; is_num_key++) {
GHashFunc func_key_hash = is_num_key ? nm_direct_hash : nm_str_hash;
GEqualFunc func_key_equal = is_num_key ? g_direct_equal : g_str_equal;
GCompareDataFunc func_key_cmp =
is_num_key ? _hash_func_cmp_direct : (GCompareDataFunc) nm_strcmp_with_data;
GCompareDataFunc func_val_cmp =
!is_num_key ? _hash_func_cmp_direct : (GCompareDataFunc) nm_strcmp_with_data;
gs_unref_hashtable GHashTable *h1 = NULL;
gs_unref_hashtable GHashTable *h2 = NULL;
gboolean has_same_keys;
guint i, n;
h1 = g_hash_table_new(func_key_hash, func_key_equal);
h2 = g_hash_table_new(func_key_hash, func_key_equal);
n = nmtst_get_rand_word_length(NULL);
for (i = 0; i < n; i++) {
typeof(vals[0]) *v = &vals[nmtst_get_rand_uint32() % G_N_ELEMENTS(vals)];
gconstpointer v_key = is_num_key ? GINT_TO_POINTER(v->val_i) : v->val_s;
gconstpointer v_val = !is_num_key ? GINT_TO_POINTER(v->val_i) : v->val_s;
g_hash_table_insert(h1, (gpointer) v_key, (gpointer) v_val);
g_hash_table_insert(h2, (gpointer) v_key, (gpointer) v_val);
}
g_assert(nm_utils_hashtable_same_keys(h1, h2));
g_assert(nm_utils_hashtable_cmp_equal(h1, h2, NULL, NULL));
g_assert(nm_utils_hashtable_cmp_equal(h1, h2, func_val_cmp, NULL));
g_assert(nm_utils_hashtable_cmp(h1, h2, FALSE, func_key_cmp, NULL, NULL) == 0);
g_assert(nm_utils_hashtable_cmp(h1, h2, TRUE, func_key_cmp, NULL, NULL) == 0);
g_assert(nm_utils_hashtable_cmp(h1, h2, FALSE, func_key_cmp, func_val_cmp, NULL) == 0);
g_assert(nm_utils_hashtable_cmp(h1, h2, TRUE, func_key_cmp, func_val_cmp, NULL) == 0);
n = nmtst_get_rand_word_length(NULL) + 1;
has_same_keys = TRUE;
for (i = 0; i < n; i++) {
again:
{
typeof(vals[0]) *v = &vals[nmtst_get_rand_uint32() % G_N_ELEMENTS(vals)];
gconstpointer v_key = is_num_key ? GINT_TO_POINTER(v->val_i) : v->val_s;
gconstpointer v_val = !is_num_key ? GINT_TO_POINTER(v->val_i) : v->val_s;
gpointer v_key2;
gpointer v_val2;
if (g_hash_table_lookup_extended(h1, v_key, &v_key2, &v_val2)) {
g_assert(func_key_cmp(v_key, v_key2, NULL) == 0);
if (func_val_cmp(v_val, v_val2, NULL) == 0)
goto again;
} else
has_same_keys = FALSE;
g_hash_table_insert(h2, (gpointer) v_key, (gpointer) v_val);
}
}
if (has_same_keys) {
g_assert(nm_utils_hashtable_same_keys(h1, h2));
g_assert(nm_utils_hashtable_cmp_equal(h1, h2, NULL, NULL));
g_assert(nm_utils_hashtable_cmp(h1, h2, FALSE, func_key_cmp, NULL, NULL) == 0);
g_assert(nm_utils_hashtable_cmp(h1, h2, TRUE, func_key_cmp, NULL, NULL) == 0);
} else {
g_assert(!nm_utils_hashtable_same_keys(h1, h2));
g_assert(!nm_utils_hashtable_cmp_equal(h1, h2, NULL, NULL));
g_assert(nm_utils_hashtable_cmp(h1, h2, FALSE, func_key_cmp, NULL, NULL) != 0);
g_assert(nm_utils_hashtable_cmp(h1, h2, TRUE, func_key_cmp, NULL, NULL) != 0);
}
g_assert(!nm_utils_hashtable_cmp_equal(h1, h2, func_val_cmp, NULL));
g_assert(nm_utils_hashtable_cmp(h1, h2, FALSE, func_key_cmp, func_val_cmp, NULL) != 0);
g_assert(nm_utils_hashtable_cmp(h1, h2, TRUE, func_key_cmp, func_val_cmp, NULL) != 0);
}
}
}
/*****************************************************************************/
NMTST_DEFINE();
int
main(int argc, char **argv)
{
nmtst_init(&argc, &argv, TRUE);
g_test_add_func("/general/test_gpid", test_gpid);
g_test_add_func("/general/test_monotonic_timestamp", test_monotonic_timestamp);
g_test_add_func("/general/test_nmhash", test_nmhash);
g_test_add_func("/general/test_nm_make_strv", test_make_strv);
g_test_add_func("/general/test_nm_strdup_int", test_nm_strdup_int);
g_test_add_func("/general/test_nm_strndup_a", test_nm_strndup_a);
g_test_add_func("/general/test_nm_ip4_addr_is_localhost", test_nm_ip4_addr_is_localhost);
g_test_add_func("/general/test_unaligned", test_unaligned);
g_test_add_func("/general/test_strv_cmp", test_strv_cmp);
g_test_add_func("/general/test_strstrip_avoid_copy", test_strstrip_avoid_copy);
g_test_add_func("/general/test_nm_utils_bin2hexstr", test_nm_utils_bin2hexstr);
g_test_add_func("/general/test_nm_ref_string", test_nm_ref_string);
g_test_add_func("/general/test_string_table_lookup", test_string_table_lookup);
g_test_add_func("/general/test_nm_utils_get_next_realloc_size",
test_nm_utils_get_next_realloc_size);
g_test_add_func("/general/test_nm_str_buf", test_nm_str_buf);
g_test_add_func("/general/test_nm_utils_parse_next_line", test_nm_utils_parse_next_line);
g_test_add_func("/general/test_in_strset_ascii_case", test_in_strset_ascii_case);
g_test_add_func("/general/test_is_specific_hostname", test_is_specific_hostname);
g_test_add_func("/general/test_strv_dup_packed", test_strv_dup_packed);
g_test_add_func("/general/test_utils_hashtable_cmp", test_utils_hashtable_cmp);
return g_test_run();
}