lib/glob.c - kernel/msm-4.9 - Gitiles

 #include <linux/module.h>
 #include <linux/glob.h>

 /*
  * The only reason this code can be compiled as a module is because the
  * ATA code that depends on it can be as well.  In practice, they're
  * both usually compiled in and the module overhead goes away.
  */
 MODULE_DESCRIPTION("glob(7) matching");
 MODULE_LICENSE("Dual MIT/GPL");

 /**
  * glob_match - Shell-style pattern matching, like !fnmatch(pat, str, 0)
  * @pat: Shell-style pattern to match, e.g. "*.[ch]".
  * @str: String to match.  The pattern must match the entire string.
  *
  * Perform shell-style glob matching, returning true (1) if the match
  * succeeds, or false (0) if it fails.  Equivalent to !fnmatch(@pat, @str, 0).
  *
  * Pattern metacharacters are ?, *, [ and \.
  * (And, inside character classes, !, - and ].)
  *
  * This is small and simple implementation intended for device blacklists
  * where a string is matched against a number of patterns.  Thus, it
  * does not preprocess the patterns.  It is non-recursive, and run-time
  * is at most quadratic: strlen(@str)*strlen(@pat).
  *
  * An example of the worst case is glob_match("*aaaaa", "aaaaaaaaaa");
  * it takes 6 passes over the pattern before matching the string.
  *
  * Like !fnmatch(@pat, @str, 0) and unlike the shell, this does NOT
  * treat / or leading . specially; it isn't actually used for pathnames.
  *
  * Note that according to glob(7) (and unlike bash), character classes
  * are complemented by a leading !; this does not support the regex-style
  * [^a-z] syntax.
  *
  * An opening bracket without a matching close is matched literally.
  */
 bool __pure glob_match(char const *pat, char const *str)
 {
 	/*
 	 * Backtrack to previous * on mismatch and retry starting one
 	 * character later in the string.  Because * matches all characters
 	 * (no exception for /), it can be easily proved that there's
 	 * never a need to backtrack multiple levels.
 	 */
 	char const *back_pat = NULL, *back_str = back_str;

 	/*
 	 * Loop over each token (character or class) in pat, matching
 	 * it against the remaining unmatched tail of str.  Return false
 	 * on mismatch, or true after matching the trailing nul bytes.
 	 */
 	for (;;) {
 		unsigned char c = *str++;
 		unsigned char d = *pat++;

 		switch (d) {
 		case '?':	/* Wildcard: anything but nul */
 			if (c == '\0')
 				return false;
 			break;
 		case '*':	/* Any-length wildcard */
 			if (*pat == '\0')	/* Optimize trailing * case */
 				return true;
 			back_pat = pat;
 			back_str = --str;	/* Allow zero-length match */
 			break;
 		case '[': {	/* Character class */
 			bool match = false, inverted = (*pat == '!');
 			char const *class = pat + inverted;
 			unsigned char a = *class++;

 			/*
 			 * Iterate over each span in the character class.
 			 * A span is either a single character a, or a
 			 * range a-b.  The first span may begin with ']'.
 			 */
 			do {
 				unsigned char b = a;

 				if (a == '\0')	/* Malformed */
 					goto literal;

 				if (class[0] == '-' && class[1] != ']') {
 					b = class[1];

 					if (b == '\0')
 						goto literal;

 					class += 2;
 					/* Any special action if a > b? */
 				}
 				match |= (a <= c && c <= b);
 			} while ((a = *class++) != ']');

 			if (match == inverted)
 				goto backtrack;
 			pat = class;
 			}
 			break;
 		case '\\':
 			d = *pat++;
 			/*FALLTHROUGH*/
 		default:	/* Literal character */
 literal:
 			if (c == d) {
 				if (d == '\0')
 					return true;
 				break;
 			}
 backtrack:
 			if (c == '\0' || !back_pat)
 				return false;	/* No point continuing */
 			/* Try again from last *, one character later in str. */
 			pat = back_pat;
 			str = ++back_str;
 			break;
 		}
 	}
 }
 EXPORT_SYMBOL(glob_match);


 #ifdef CONFIG_GLOB_SELFTEST

 #include <linux/printk.h>
 #include <linux/moduleparam.h>

 /* Boot with "glob.verbose=1" to show successful tests, too */
 static bool verbose = false;
 module_param(verbose, bool, 0);

 struct glob_test {
 	char const *pat, *str;
 	bool expected;
 };

 static bool __pure __init test(char const *pat, char const *str, bool expected)
 {
 	bool match = glob_match(pat, str);
 	bool success = match == expected;

 	/* Can't get string literals into a particular section, so... */
 	static char const msg_error[] __initconst =
 		KERN_ERR "glob: \"%s\" vs. \"%s\": %s *** ERROR ***\n";
 	static char const msg_ok[] __initconst =
 		KERN_DEBUG "glob: \"%s\" vs. \"%s\": %s OK\n";
 	static char const mismatch[] __initconst = "mismatch";
 	char const *message;

 	if (!success)
 		message = msg_error;
 	else if (verbose)
 		message = msg_ok;
 	else
 		return success;

 	printk(message, pat, str, mismatch + 3*match);
 	return success;
 }

 /*
  * The tests are all jammed together in one array to make it simpler
  * to place that array in the .init.rodata section.  The obvious
  * "array of structures containing char *" has no way to force the
  * pointed-to strings to be in a particular section.
  *
  * Anyway, a test consists of:
  * 1. Expected glob_match result: '1' or '0'.
  * 2. Pattern to match: null-terminated string
  * 3. String to match against: null-terminated string
  *
  * The list of tests is terminated with a final '\0' instead of
  * a glob_match result character.
  */
 static char const glob_tests[] __initconst =
 	/* Some basic tests */
 	"1" "a\0" "a\0"
 	"0" "a\0" "b\0"
 	"0" "a\0" "aa\0"
 	"0" "a\0" "\0"
 	"1" "\0" "\0"
 	"0" "\0" "a\0"
 	/* Simple character class tests */
 	"1" "[a]\0" "a\0"
 	"0" "[a]\0" "b\0"
 	"0" "[!a]\0" "a\0"
 	"1" "[!a]\0" "b\0"
 	"1" "[ab]\0" "a\0"
 	"1" "[ab]\0" "b\0"
 	"0" "[ab]\0" "c\0"
 	"1" "[!ab]\0" "c\0"
 	"1" "[a-c]\0" "b\0"
 	"0" "[a-c]\0" "d\0"
 	/* Corner cases in character class parsing */
 	"1" "[a-c-e-g]\0" "-\0"
 	"0" "[a-c-e-g]\0" "d\0"
 	"1" "[a-c-e-g]\0" "f\0"
 	"1" "[]a-ceg-ik[]\0" "a\0"
 	"1" "[]a-ceg-ik[]\0" "]\0"
 	"1" "[]a-ceg-ik[]\0" "[\0"
 	"1" "[]a-ceg-ik[]\0" "h\0"
 	"0" "[]a-ceg-ik[]\0" "f\0"
 	"0" "[!]a-ceg-ik[]\0" "h\0"
 	"0" "[!]a-ceg-ik[]\0" "]\0"
 	"1" "[!]a-ceg-ik[]\0" "f\0"
 	/* Simple wild cards */
 	"1" "?\0" "a\0"
 	"0" "?\0" "aa\0"
 	"0" "??\0" "a\0"
 	"1" "?x?\0" "axb\0"
 	"0" "?x?\0" "abx\0"
 	"0" "?x?\0" "xab\0"
 	/* Asterisk wild cards (backtracking) */
 	"0" "*??\0" "a\0"
 	"1" "*??\0" "ab\0"
 	"1" "*??\0" "abc\0"
 	"1" "*??\0" "abcd\0"
 	"0" "??*\0" "a\0"
 	"1" "??*\0" "ab\0"
 	"1" "??*\0" "abc\0"
 	"1" "??*\0" "abcd\0"
 	"0" "?*?\0" "a\0"
 	"1" "?*?\0" "ab\0"
 	"1" "?*?\0" "abc\0"
 	"1" "?*?\0" "abcd\0"
 	"1" "*b\0" "b\0"
 	"1" "*b\0" "ab\0"
 	"0" "*b\0" "ba\0"
 	"1" "*b\0" "bb\0"
 	"1" "*b\0" "abb\0"
 	"1" "*b\0" "bab\0"
 	"1" "*bc\0" "abbc\0"
 	"1" "*bc\0" "bc\0"
 	"1" "*bc\0" "bbc\0"
 	"1" "*bc\0" "bcbc\0"
 	/* Multiple asterisks (complex backtracking) */
 	"1" "*ac*\0" "abacadaeafag\0"
 	"1" "*ac*ae*ag*\0" "abacadaeafag\0"
 	"1" "*a*b*[bc]*[ef]*g*\0" "abacadaeafag\0"
 	"0" "*a*b*[ef]*[cd]*g*\0" "abacadaeafag\0"
 	"1" "*abcd*\0" "abcabcabcabcdefg\0"
 	"1" "*ab*cd*\0" "abcabcabcabcdefg\0"
 	"1" "*abcd*abcdef*\0" "abcabcdabcdeabcdefg\0"
 	"0" "*abcd*\0" "abcabcabcabcefg\0"
 	"0" "*ab*cd*\0" "abcabcabcabcefg\0";

 static int __init glob_init(void)
 {
 	unsigned successes = 0;
 	unsigned n = 0;
 	char const *p = glob_tests;
 	static char const message[] __initconst =
 		KERN_INFO "glob: %u self-tests passed, %u failed\n";

 	/*
 	 * Tests are jammed together in a string.  The first byte is '1'
 	 * or '0' to indicate the expected outcome, or '\0' to indicate the
 	 * end of the tests.  Then come two null-terminated strings: the
 	 * pattern and the string to match it against.
 	 */
 	while (*p) {
 		bool expected = *p++ & 1;
 		char const *pat = p;

 		p += strlen(p) + 1;
 		successes += test(pat, p, expected);
 		p += strlen(p) + 1;
 		n++;
 	}

 	n -= successes;
 	printk(message, successes, n);

 	/* What's the errno for "kernel bug detected"?  Guess... */
 	return n ? -ECANCELED : 0;
 }

 /* We need a dummy exit function to allow unload */
 static void __exit glob_fini(void) { }

 module_init(glob_init);
 module_exit(glob_fini);

 #endif /* CONFIG_GLOB_SELFTEST */
	#include <linux/module.h>
	#include <linux/glob.h>

	/*
	* The only reason this code can be compiled as a module is because the
	* ATA code that depends on it can be as well. In practice, they're
	* both usually compiled in and the module overhead goes away.
	*/
	MODULE_DESCRIPTION("glob(7) matching");
	MODULE_LICENSE("Dual MIT/GPL");

	/**
	* glob_match - Shell-style pattern matching, like !fnmatch(pat, str, 0)
	* @pat: Shell-style pattern to match, e.g. "*.[ch]".
	* @str: String to match. The pattern must match the entire string.
	*
	* Perform shell-style glob matching, returning true (1) if the match
	* succeeds, or false (0) if it fails. Equivalent to !fnmatch(@pat, @str, 0).
	*
	* Pattern metacharacters are ?, *, [ and \.
	* (And, inside character classes, !, - and ].)
	*
	* This is small and simple implementation intended for device blacklists
	* where a string is matched against a number of patterns. Thus, it
	* does not preprocess the patterns. It is non-recursive, and run-time
	* is at most quadratic: strlen(@str)*strlen(@pat).
	*
	* An example of the worst case is glob_match("*aaaaa", "aaaaaaaaaa");
	* it takes 6 passes over the pattern before matching the string.
	*
	* Like !fnmatch(@pat, @str, 0) and unlike the shell, this does NOT
	* treat / or leading . specially; it isn't actually used for pathnames.
	*
	* Note that according to glob(7) (and unlike bash), character classes
	* are complemented by a leading !; this does not support the regex-style
	* [^a-z] syntax.
	*
	* An opening bracket without a matching close is matched literally.
	*/
	bool __pure glob_match(char const pat, char const str)
	{
	/*
	* Backtrack to previous * on mismatch and retry starting one
	* character later in the string. Because * matches all characters
	* (no exception for /), it can be easily proved that there's
	* never a need to backtrack multiple levels.
	*/
	char const back_pat = NULL, back_str = back_str;

	/*
	* Loop over each token (character or class) in pat, matching
	* it against the remaining unmatched tail of str. Return false
	* on mismatch, or true after matching the trailing nul bytes.
	*/
	for (;;) {
	unsigned char c = *str++;
	unsigned char d = *pat++;

	switch (d) {
	case '?': /* Wildcard: anything but nul */
	if (c == '\0')
	return false;
	break;
	case '': / Any-length wildcard */
	if (pat == '\0') / Optimize trailing * case */
	return true;
	back_pat = pat;
	back_str = --str; /* Allow zero-length match */
	break;
	case '[': { /* Character class */
	bool match = false, inverted = (*pat == '!');
	char const *class = pat + inverted;
	unsigned char a = *class++;

	/*
	* Iterate over each span in the character class.
	* A span is either a single character a, or a
	* range a-b. The first span may begin with ']'.
	*/
	do {
	unsigned char b = a;

	if (a == '\0') /* Malformed */
	goto literal;

	if (class[0] == '-' && class[1] != ']') {
	b = class[1];

	if (b == '\0')
	goto literal;

	class += 2;
	/* Any special action if a > b? */
	}
	match \|= (a <= c && c <= b);
	} while ((a = *class++) != ']');

	if (match == inverted)
	goto backtrack;
	pat = class;
	}
	break;
	case '\\':
	d = *pat++;
	/FALLTHROUGH/
	default: /* Literal character */
	literal:
	if (c == d) {
	if (d == '\0')
	return true;
	break;
	}
	backtrack:
	if (c == '\0' \|\| !back_pat)
	return false; /* No point continuing */
	/* Try again from last , one character later in str. /
	pat = back_pat;
	str = ++back_str;
	break;
	}
	}
	}
	EXPORT_SYMBOL(glob_match);


	#ifdef CONFIG_GLOB_SELFTEST

	#include <linux/printk.h>
	#include <linux/moduleparam.h>

	/* Boot with "glob.verbose=1" to show successful tests, too */
	static bool verbose = false;
	module_param(verbose, bool, 0);

	struct glob_test {
	char const pat, str;
	bool expected;
	};

	static bool __pure __init test(char const pat, char const str, bool expected)
	{
	bool match = glob_match(pat, str);
	bool success = match == expected;

	/* Can't get string literals into a particular section, so... */
	static char const msg_error[] __initconst =
	KERN_ERR "glob: \"%s\" vs. \"%s\": %s * ERROR *\n";
	static char const msg_ok[] __initconst =
	KERN_DEBUG "glob: \"%s\" vs. \"%s\": %s OK\n";
	static char const mismatch[] __initconst = "mismatch";
	char const *message;

	if (!success)
	message = msg_error;
	else if (verbose)
	message = msg_ok;
	else
	return success;

	printk(message, pat, str, mismatch + 3*match);
	return success;
	}

	/*
	* The tests are all jammed together in one array to make it simpler
	* to place that array in the .init.rodata section. The obvious
	* "array of structures containing char *" has no way to force the
	* pointed-to strings to be in a particular section.
	*
	* Anyway, a test consists of:
	* 1. Expected glob_match result: '1' or '0'.
	* 2. Pattern to match: null-terminated string
	* 3. String to match against: null-terminated string
	*
	* The list of tests is terminated with a final '\0' instead of
	* a glob_match result character.
	*/
	static char const glob_tests[] __initconst =
	/* Some basic tests */
	"1" "a\0" "a\0"
	"0" "a\0" "b\0"
	"0" "a\0" "aa\0"
	"0" "a\0" "\0"
	"1" "\0" "\0"
	"0" "\0" "a\0"
	/* Simple character class tests */
	"1" "[a]\0" "a\0"
	"0" "[a]\0" "b\0"
	"0" "[!a]\0" "a\0"
	"1" "[!a]\0" "b\0"
	"1" "[ab]\0" "a\0"
	"1" "[ab]\0" "b\0"
	"0" "[ab]\0" "c\0"
	"1" "[!ab]\0" "c\0"
	"1" "[a-c]\0" "b\0"
	"0" "[a-c]\0" "d\0"
	/* Corner cases in character class parsing */
	"1" "[a-c-e-g]\0" "-\0"
	"0" "[a-c-e-g]\0" "d\0"
	"1" "[a-c-e-g]\0" "f\0"
	"1" "[]a-ceg-ik[]\0" "a\0"
	"1" "[]a-ceg-ik[]\0" "]\0"
	"1" "[]a-ceg-ik[]\0" "[\0"
	"1" "[]a-ceg-ik[]\0" "h\0"
	"0" "[]a-ceg-ik[]\0" "f\0"
	"0" "[!]a-ceg-ik[]\0" "h\0"
	"0" "[!]a-ceg-ik[]\0" "]\0"
	"1" "[!]a-ceg-ik[]\0" "f\0"
	/* Simple wild cards */
	"1" "?\0" "a\0"
	"0" "?\0" "aa\0"
	"0" "??\0" "a\0"
	"1" "?x?\0" "axb\0"
	"0" "?x?\0" "abx\0"
	"0" "?x?\0" "xab\0"
	/* Asterisk wild cards (backtracking) */
	"0" "*??\0" "a\0"
	"1" "*??\0" "ab\0"
	"1" "*??\0" "abc\0"
	"1" "*??\0" "abcd\0"
	"0" "??*\0" "a\0"
	"1" "??*\0" "ab\0"
	"1" "??*\0" "abc\0"
	"1" "??*\0" "abcd\0"
	"0" "?*?\0" "a\0"
	"1" "?*?\0" "ab\0"
	"1" "?*?\0" "abc\0"
	"1" "?*?\0" "abcd\0"
	"1" "*b\0" "b\0"
	"1" "*b\0" "ab\0"
	"0" "*b\0" "ba\0"
	"1" "*b\0" "bb\0"
	"1" "*b\0" "abb\0"
	"1" "*b\0" "bab\0"
	"1" "*bc\0" "abbc\0"
	"1" "*bc\0" "bc\0"
	"1" "*bc\0" "bbc\0"
	"1" "*bc\0" "bcbc\0"
	/* Multiple asterisks (complex backtracking) */
	"1" "ac\0" "abacadaeafag\0"
	"1" "acaeag\0" "abacadaeafag\0"
	"1" "ab[bc][ef]g\0" "abacadaeafag\0"
	"0" "ab[ef][cd]g\0" "abacadaeafag\0"
	"1" "abcd\0" "abcabcabcabcdefg\0"
	"1" "abcd*\0" "abcabcabcabcdefg\0"
	"1" "abcdabcdef*\0" "abcabcdabcdeabcdefg\0"
	"0" "abcd\0" "abcabcabcabcefg\0"
	"0" "abcd*\0" "abcabcabcabcefg\0";

	static int __init glob_init(void)
	{
	unsigned successes = 0;
	unsigned n = 0;
	char const *p = glob_tests;
	static char const message[] __initconst =
	KERN_INFO "glob: %u self-tests passed, %u failed\n";

	/*
	* Tests are jammed together in a string. The first byte is '1'
	* or '0' to indicate the expected outcome, or '\0' to indicate the
	* end of the tests. Then come two null-terminated strings: the
	* pattern and the string to match it against.
	*/
	while (*p) {
	bool expected = *p++ & 1;
	char const *pat = p;

	p += strlen(p) + 1;
	successes += test(pat, p, expected);
	p += strlen(p) + 1;
	n++;
	}

	n -= successes;
	printk(message, successes, n);

	/* What's the errno for "kernel bug detected"? Guess... */
	return n ? -ECANCELED : 0;
	}

	/* We need a dummy exit function to allow unload */
	static void __exit glob_fini(void) { }

	module_init(glob_init);
	module_exit(glob_fini);

	#endif /* CONFIG_GLOB_SELFTEST */