Add and use a generic version of devmem_is_allowed()
[platform/kernel/linux-starfive.git] / lib / globtest.c
1 /*
2  * Extracted fronm glob.c
3  */
4
5 #include <linux/module.h>
6 #include <linux/moduleparam.h>
7 #include <linux/glob.h>
8 #include <linux/printk.h>
9
10 /* Boot with "glob.verbose=1" to show successful tests, too */
11 static bool verbose = false;
12 module_param(verbose, bool, 0);
13
14 struct glob_test {
15         char const *pat, *str;
16         bool expected;
17 };
18
19 static bool __pure __init test(char const *pat, char const *str, bool expected)
20 {
21         bool match = glob_match(pat, str);
22         bool success = match == expected;
23
24         /* Can't get string literals into a particular section, so... */
25         static char const msg_error[] __initconst =
26                 KERN_ERR "glob: \"%s\" vs. \"%s\": %s *** ERROR ***\n";
27         static char const msg_ok[] __initconst =
28                 KERN_DEBUG "glob: \"%s\" vs. \"%s\": %s OK\n";
29         static char const mismatch[] __initconst = "mismatch";
30         char const *message;
31
32         if (!success)
33                 message = msg_error;
34         else if (verbose)
35                 message = msg_ok;
36         else
37                 return success;
38
39         printk(message, pat, str, mismatch + 3*match);
40         return success;
41 }
42
43 /*
44  * The tests are all jammed together in one array to make it simpler
45  * to place that array in the .init.rodata section.  The obvious
46  * "array of structures containing char *" has no way to force the
47  * pointed-to strings to be in a particular section.
48  *
49  * Anyway, a test consists of:
50  * 1. Expected glob_match result: '1' or '0'.
51  * 2. Pattern to match: null-terminated string
52  * 3. String to match against: null-terminated string
53  *
54  * The list of tests is terminated with a final '\0' instead of
55  * a glob_match result character.
56  */
57 static char const glob_tests[] __initconst =
58         /* Some basic tests */
59         "1" "a\0" "a\0"
60         "0" "a\0" "b\0"
61         "0" "a\0" "aa\0"
62         "0" "a\0" "\0"
63         "1" "\0" "\0"
64         "0" "\0" "a\0"
65         /* Simple character class tests */
66         "1" "[a]\0" "a\0"
67         "0" "[a]\0" "b\0"
68         "0" "[!a]\0" "a\0"
69         "1" "[!a]\0" "b\0"
70         "1" "[ab]\0" "a\0"
71         "1" "[ab]\0" "b\0"
72         "0" "[ab]\0" "c\0"
73         "1" "[!ab]\0" "c\0"
74         "1" "[a-c]\0" "b\0"
75         "0" "[a-c]\0" "d\0"
76         /* Corner cases in character class parsing */
77         "1" "[a-c-e-g]\0" "-\0"
78         "0" "[a-c-e-g]\0" "d\0"
79         "1" "[a-c-e-g]\0" "f\0"
80         "1" "[]a-ceg-ik[]\0" "a\0"
81         "1" "[]a-ceg-ik[]\0" "]\0"
82         "1" "[]a-ceg-ik[]\0" "[\0"
83         "1" "[]a-ceg-ik[]\0" "h\0"
84         "0" "[]a-ceg-ik[]\0" "f\0"
85         "0" "[!]a-ceg-ik[]\0" "h\0"
86         "0" "[!]a-ceg-ik[]\0" "]\0"
87         "1" "[!]a-ceg-ik[]\0" "f\0"
88         /* Simple wild cards */
89         "1" "?\0" "a\0"
90         "0" "?\0" "aa\0"
91         "0" "??\0" "a\0"
92         "1" "?x?\0" "axb\0"
93         "0" "?x?\0" "abx\0"
94         "0" "?x?\0" "xab\0"
95         /* Asterisk wild cards (backtracking) */
96         "0" "*??\0" "a\0"
97         "1" "*??\0" "ab\0"
98         "1" "*??\0" "abc\0"
99         "1" "*??\0" "abcd\0"
100         "0" "??*\0" "a\0"
101         "1" "??*\0" "ab\0"
102         "1" "??*\0" "abc\0"
103         "1" "??*\0" "abcd\0"
104         "0" "?*?\0" "a\0"
105         "1" "?*?\0" "ab\0"
106         "1" "?*?\0" "abc\0"
107         "1" "?*?\0" "abcd\0"
108         "1" "*b\0" "b\0"
109         "1" "*b\0" "ab\0"
110         "0" "*b\0" "ba\0"
111         "1" "*b\0" "bb\0"
112         "1" "*b\0" "abb\0"
113         "1" "*b\0" "bab\0"
114         "1" "*bc\0" "abbc\0"
115         "1" "*bc\0" "bc\0"
116         "1" "*bc\0" "bbc\0"
117         "1" "*bc\0" "bcbc\0"
118         /* Multiple asterisks (complex backtracking) */
119         "1" "*ac*\0" "abacadaeafag\0"
120         "1" "*ac*ae*ag*\0" "abacadaeafag\0"
121         "1" "*a*b*[bc]*[ef]*g*\0" "abacadaeafag\0"
122         "0" "*a*b*[ef]*[cd]*g*\0" "abacadaeafag\0"
123         "1" "*abcd*\0" "abcabcabcabcdefg\0"
124         "1" "*ab*cd*\0" "abcabcabcabcdefg\0"
125         "1" "*abcd*abcdef*\0" "abcabcdabcdeabcdefg\0"
126         "0" "*abcd*\0" "abcabcabcabcefg\0"
127         "0" "*ab*cd*\0" "abcabcabcabcefg\0";
128
129 static int __init glob_init(void)
130 {
131         unsigned successes = 0;
132         unsigned n = 0;
133         char const *p = glob_tests;
134         static char const message[] __initconst =
135                 KERN_INFO "glob: %u self-tests passed, %u failed\n";
136
137         /*
138          * Tests are jammed together in a string.  The first byte is '1'
139          * or '0' to indicate the expected outcome, or '\0' to indicate the
140          * end of the tests.  Then come two null-terminated strings: the
141          * pattern and the string to match it against.
142          */
143         while (*p) {
144                 bool expected = *p++ & 1;
145                 char const *pat = p;
146
147                 p += strlen(p) + 1;
148                 successes += test(pat, p, expected);
149                 p += strlen(p) + 1;
150                 n++;
151         }
152
153         n -= successes;
154         printk(message, successes, n);
155
156         /* What's the errno for "kernel bug detected"?  Guess... */
157         return n ? -ECANCELED : 0;
158 }
159
160 /* We need a dummy exit function to allow unload */
161 static void __exit glob_fini(void) { }
162
163 module_init(glob_init);
164 module_exit(glob_fini);
165
166 MODULE_DESCRIPTION("glob(7) matching tests");
167 MODULE_LICENSE("Dual MIT/GPL");