2 This file is part of systemd.
4 Copyright 2010 Lennart Poettering
6 systemd is free software; you can redistribute it and/or modify it
7 under the terms of the GNU Lesser General Public License as published by
8 the Free Software Foundation; either version 2.1 of the License, or
9 (at your option) any later version.
11 systemd is distributed in the hope that it will be useful, but
12 WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 Lesser General Public License for more details.
16 You should have received a copy of the GNU Lesser General Public License
17 along with systemd; If not, see <http://www.gnu.org/licenses/>.
20 #include "alloc-util.h"
21 #include "hexdecoct.h"
23 #include "string-util.h"
25 static void test_hexchar(void) {
26 assert_se(hexchar(0xa) == 'a');
27 assert_se(hexchar(0x0) == '0');
30 static void test_unhexchar(void) {
31 assert_se(unhexchar('a') == 0xA);
32 assert_se(unhexchar('A') == 0xA);
33 assert_se(unhexchar('0') == 0x0);
36 static void test_base32hexchar(void) {
37 assert_se(base32hexchar(0) == '0');
38 assert_se(base32hexchar(9) == '9');
39 assert_se(base32hexchar(10) == 'A');
40 assert_se(base32hexchar(31) == 'V');
43 static void test_unbase32hexchar(void) {
44 assert_se(unbase32hexchar('0') == 0);
45 assert_se(unbase32hexchar('9') == 9);
46 assert_se(unbase32hexchar('A') == 10);
47 assert_se(unbase32hexchar('V') == 31);
48 assert_se(unbase32hexchar('=') == -EINVAL);
51 static void test_base64char(void) {
52 assert_se(base64char(0) == 'A');
53 assert_se(base64char(26) == 'a');
54 assert_se(base64char(63) == '/');
57 static void test_unbase64char(void) {
58 assert_se(unbase64char('A') == 0);
59 assert_se(unbase64char('Z') == 25);
60 assert_se(unbase64char('a') == 26);
61 assert_se(unbase64char('z') == 51);
62 assert_se(unbase64char('0') == 52);
63 assert_se(unbase64char('9') == 61);
64 assert_se(unbase64char('+') == 62);
65 assert_se(unbase64char('/') == 63);
66 assert_se(unbase64char('=') == -EINVAL);
69 static void test_octchar(void) {
70 assert_se(octchar(00) == '0');
71 assert_se(octchar(07) == '7');
74 static void test_unoctchar(void) {
75 assert_se(unoctchar('0') == 00);
76 assert_se(unoctchar('7') == 07);
79 static void test_decchar(void) {
80 assert_se(decchar(0) == '0');
81 assert_se(decchar(9) == '9');
84 static void test_undecchar(void) {
85 assert_se(undecchar('0') == 0);
86 assert_se(undecchar('9') == 9);
89 static void test_unhexmem(void) {
90 const char *hex = "efa2149213";
91 const char *hex_invalid = "efa214921o";
92 _cleanup_free_ char *hex2 = NULL;
93 _cleanup_free_ void *mem = NULL;
96 assert_se(unhexmem(hex_invalid, strlen(hex_invalid), &mem, &len) == -EINVAL);
97 assert_se(unhexmem(hex, strlen(hex) + 1, &mem, &len) == -EINVAL);
98 assert_se(unhexmem(hex, strlen(hex) - 1, &mem, &len) == -EINVAL);
99 assert_se(unhexmem(hex, strlen(hex), &mem, &len) == 0);
101 assert_se((hex2 = hexmem(mem, len)));
102 assert_se(streq(hex, hex2));
105 /* https://tools.ietf.org/html/rfc4648#section-10 */
106 static void test_base32hexmem(void) {
109 b32 = base32hexmem("", strlen(""), true);
111 assert_se(streq(b32, ""));
114 b32 = base32hexmem("f", strlen("f"), true);
116 assert_se(streq(b32, "CO======"));
119 b32 = base32hexmem("fo", strlen("fo"), true);
121 assert_se(streq(b32, "CPNG===="));
124 b32 = base32hexmem("foo", strlen("foo"), true);
126 assert_se(streq(b32, "CPNMU==="));
129 b32 = base32hexmem("foob", strlen("foob"), true);
131 assert_se(streq(b32, "CPNMUOG="));
134 b32 = base32hexmem("fooba", strlen("fooba"), true);
136 assert_se(streq(b32, "CPNMUOJ1"));
139 b32 = base32hexmem("foobar", strlen("foobar"), true);
141 assert_se(streq(b32, "CPNMUOJ1E8======"));
144 b32 = base32hexmem("", strlen(""), false);
146 assert_se(streq(b32, ""));
149 b32 = base32hexmem("f", strlen("f"), false);
151 assert_se(streq(b32, "CO"));
154 b32 = base32hexmem("fo", strlen("fo"), false);
156 assert_se(streq(b32, "CPNG"));
159 b32 = base32hexmem("foo", strlen("foo"), false);
161 assert_se(streq(b32, "CPNMU"));
164 b32 = base32hexmem("foob", strlen("foob"), false);
166 assert_se(streq(b32, "CPNMUOG"));
169 b32 = base32hexmem("fooba", strlen("fooba"), false);
171 assert_se(streq(b32, "CPNMUOJ1"));
174 b32 = base32hexmem("foobar", strlen("foobar"), false);
176 assert_se(streq(b32, "CPNMUOJ1E8"));
180 static void test_unbase32hexmem(void) {
184 assert_se(unbase32hexmem("", strlen(""), true, &mem, &len) == 0);
185 assert_se(streq(strndupa(mem, len), ""));
188 assert_se(unbase32hexmem("CO======", strlen("CO======"), true, &mem, &len) == 0);
189 assert_se(streq(strndupa(mem, len), "f"));
192 assert_se(unbase32hexmem("CPNG====", strlen("CPNG===="), true, &mem, &len) == 0);
193 assert_se(streq(strndupa(mem, len), "fo"));
196 assert_se(unbase32hexmem("CPNMU===", strlen("CPNMU==="), true, &mem, &len) == 0);
197 assert_se(streq(strndupa(mem, len), "foo"));
200 assert_se(unbase32hexmem("CPNMUOG=", strlen("CPNMUOG="), true, &mem, &len) == 0);
201 assert_se(streq(strndupa(mem, len), "foob"));
204 assert_se(unbase32hexmem("CPNMUOJ1", strlen("CPNMUOJ1"), true, &mem, &len) == 0);
205 assert_se(streq(strndupa(mem, len), "fooba"));
208 assert_se(unbase32hexmem("CPNMUOJ1E8======", strlen("CPNMUOJ1E8======"), true, &mem, &len) == 0);
209 assert_se(streq(strndupa(mem, len), "foobar"));
212 assert_se(unbase32hexmem("A", strlen("A"), true, &mem, &len) == -EINVAL);
213 assert_se(unbase32hexmem("A=======", strlen("A======="), true, &mem, &len) == -EINVAL);
214 assert_se(unbase32hexmem("AAA=====", strlen("AAA====="), true, &mem, &len) == -EINVAL);
215 assert_se(unbase32hexmem("AAAAAA==", strlen("AAAAAA=="), true, &mem, &len) == -EINVAL);
216 assert_se(unbase32hexmem("AB======", strlen("AB======"), true, &mem, &len) == -EINVAL);
217 assert_se(unbase32hexmem("AAAB====", strlen("AAAB===="), true, &mem, &len) == -EINVAL);
218 assert_se(unbase32hexmem("AAAAB===", strlen("AAAAB==="), true, &mem, &len) == -EINVAL);
219 assert_se(unbase32hexmem("AAAAAAB=", strlen("AAAAAAB="), true, &mem, &len) == -EINVAL);
221 assert_se(unbase32hexmem("XPNMUOJ1", strlen("CPNMUOJ1"), true, &mem, &len) == -EINVAL);
222 assert_se(unbase32hexmem("CXNMUOJ1", strlen("CPNMUOJ1"), true, &mem, &len) == -EINVAL);
223 assert_se(unbase32hexmem("CPXMUOJ1", strlen("CPNMUOJ1"), true, &mem, &len) == -EINVAL);
224 assert_se(unbase32hexmem("CPNXUOJ1", strlen("CPNMUOJ1"), true, &mem, &len) == -EINVAL);
225 assert_se(unbase32hexmem("CPNMXOJ1", strlen("CPNMUOJ1"), true, &mem, &len) == -EINVAL);
226 assert_se(unbase32hexmem("CPNMUXJ1", strlen("CPNMUOJ1"), true, &mem, &len) == -EINVAL);
227 assert_se(unbase32hexmem("CPNMUOX1", strlen("CPNMUOJ1"), true, &mem, &len) == -EINVAL);
228 assert_se(unbase32hexmem("CPNMUOJX", strlen("CPNMUOJ1"), true, &mem, &len) == -EINVAL);
230 assert_se(unbase32hexmem("", strlen(""), false, &mem, &len) == 0);
231 assert_se(streq(strndupa(mem, len), ""));
234 assert_se(unbase32hexmem("CO", strlen("CO"), false, &mem, &len) == 0);
235 assert_se(streq(strndupa(mem, len), "f"));
238 assert_se(unbase32hexmem("CPNG", strlen("CPNG"), false, &mem, &len) == 0);
239 assert_se(streq(strndupa(mem, len), "fo"));
242 assert_se(unbase32hexmem("CPNMU", strlen("CPNMU"), false, &mem, &len) == 0);
243 assert_se(streq(strndupa(mem, len), "foo"));
246 assert_se(unbase32hexmem("CPNMUOG", strlen("CPNMUOG"), false, &mem, &len) == 0);
247 assert_se(streq(strndupa(mem, len), "foob"));
250 assert_se(unbase32hexmem("CPNMUOJ1", strlen("CPNMUOJ1"), false, &mem, &len) == 0);
251 assert_se(streq(strndupa(mem, len), "fooba"));
254 assert_se(unbase32hexmem("CPNMUOJ1E8", strlen("CPNMUOJ1E8"), false, &mem, &len) == 0);
255 assert_se(streq(strndupa(mem, len), "foobar"));
258 assert_se(unbase32hexmem("CPNMUOG=", strlen("CPNMUOG="), false, &mem, &len) == -EINVAL);
259 assert_se(unbase32hexmem("CPNMUOJ1E8======", strlen("CPNMUOJ1E8======"), false, &mem, &len) == -EINVAL);
260 assert_se(unbase32hexmem("A", strlen("A"), false, &mem, &len) == -EINVAL);
261 assert_se(unbase32hexmem("A", strlen("A"), false, &mem, &len) == -EINVAL);
262 assert_se(unbase32hexmem("AAA", strlen("AAA"), false, &mem, &len) == -EINVAL);
263 assert_se(unbase32hexmem("AAAAAA", strlen("AAAAAA"), false, &mem, &len) == -EINVAL);
264 assert_se(unbase32hexmem("AB", strlen("AB"), false, &mem, &len) == -EINVAL);
265 assert_se(unbase32hexmem("AAAB", strlen("AAAB"), false, &mem, &len) == -EINVAL);
266 assert_se(unbase32hexmem("AAAAB", strlen("AAAAB"), false, &mem, &len) == -EINVAL);
267 assert_se(unbase32hexmem("AAAAAAB", strlen("AAAAAAB"), false, &mem, &len) == -EINVAL);
270 /* https://tools.ietf.org/html/rfc4648#section-10 */
271 static void test_base64mem(void) {
274 assert_se(base64mem("", strlen(""), &b64) == 0);
275 assert_se(streq(b64, ""));
278 assert_se(base64mem("f", strlen("f"), &b64) == 4);
279 assert_se(streq(b64, "Zg=="));
282 assert_se(base64mem("fo", strlen("fo"), &b64) == 4);
283 assert_se(streq(b64, "Zm8="));
286 assert_se(base64mem("foo", strlen("foo"), &b64) == 4);
287 assert_se(streq(b64, "Zm9v"));
290 assert_se(base64mem("foob", strlen("foob"), &b64) == 8);
291 assert_se(streq(b64, "Zm9vYg=="));
294 assert_se(base64mem("fooba", strlen("fooba"), &b64) == 8);
295 assert_se(streq(b64, "Zm9vYmE="));
298 assert_se(base64mem("foobar", strlen("foobar"), &b64) == 8);
299 assert_se(streq(b64, "Zm9vYmFy"));
303 static void test_unbase64mem(void) {
307 assert_se(unbase64mem("", strlen(""), &mem, &len) == 0);
308 assert_se(streq(strndupa(mem, len), ""));
311 assert_se(unbase64mem("Zg==", strlen("Zg=="), &mem, &len) == 0);
312 assert_se(streq(strndupa(mem, len), "f"));
315 assert_se(unbase64mem("Zm8=", strlen("Zm8="), &mem, &len) == 0);
316 assert_se(streq(strndupa(mem, len), "fo"));
319 assert_se(unbase64mem("Zm9v", strlen("Zm9v"), &mem, &len) == 0);
320 assert_se(streq(strndupa(mem, len), "foo"));
323 assert_se(unbase64mem("Zm9vYg==", strlen("Zm9vYg=="), &mem, &len) == 0);
324 assert_se(streq(strndupa(mem, len), "foob"));
327 assert_se(unbase64mem("Zm9vYmE=", strlen("Zm9vYmE="), &mem, &len) == 0);
328 assert_se(streq(strndupa(mem, len), "fooba"));
331 assert_se(unbase64mem("Zm9vYmFy", strlen("Zm9vYmFy"), &mem, &len) == 0);
332 assert_se(streq(strndupa(mem, len), "foobar"));
335 assert_se(unbase64mem("A", strlen("A"), &mem, &len) == -EINVAL);
336 assert_se(unbase64mem("A====", strlen("A===="), &mem, &len) == -EINVAL);
337 assert_se(unbase64mem("AAB==", strlen("AAB=="), &mem, &len) == -EINVAL);
338 assert_se(unbase64mem("AAAB=", strlen("AAAB="), &mem, &len) == -EINVAL);
341 static void test_hexdump(void) {
345 hexdump(stdout, NULL, 0);
346 hexdump(stdout, "", 0);
347 hexdump(stdout, "", 1);
348 hexdump(stdout, "x", 1);
349 hexdump(stdout, "x", 2);
350 hexdump(stdout, "foobar", 7);
351 hexdump(stdout, "f\nobar", 7);
352 hexdump(stdout, "xxxxxxxxxxxxxxxxxxxxyz", 23);
354 for (i = 0; i < ELEMENTSOF(data); i++)
357 hexdump(stdout, data, sizeof(data));
360 int main(int argc, char *argv[]) {
363 test_base32hexchar();
364 test_unbase32hexchar();
373 test_unbase32hexmem();