minix/external/bsd/libarchive/dist/cpio/test/test_pathmatch.c
Ben Gras 543adbed3a libarchive import
. clean and nbsd_ports managed import
	. also makes it shared
2012-05-02 13:31:48 +02:00

243 lines
12 KiB
C

/*-
* Copyright (c) 2003-2007 Tim Kientzle
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR(S) ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR(S) BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "test.h"
__FBSDID("$FreeBSD$");
#include "pathmatch.h"
/*
* Verify that the pattern matcher implements the wildcard logic specified
* in SUSv2 for the cpio command. This is essentially the
* shell glob syntax:
* * - matches any sequence of chars, including '/'
* ? - matches any single char, including '/'
* [...] - matches any of a set of chars, '-' specifies a range,
* initial '!' is undefined
*
* The specification in SUSv2 is a bit incomplete, I assume the following:
* Trailing '-' in [...] is not special.
*
* TODO: Figure out if there's a good way to extend this to handle
* Windows paths that use '\' as a path separator. <sigh>
*/
DEFINE_TEST(test_pathmatch)
{
assertEqualInt(1, lafe_pathmatch("a/b/c", "a/b/c", 0));
assertEqualInt(0, lafe_pathmatch("a/b/", "a/b/c", 0));
assertEqualInt(0, lafe_pathmatch("a/b", "a/b/c", 0));
assertEqualInt(0, lafe_pathmatch("a/b/c", "a/b/", 0));
assertEqualInt(0, lafe_pathmatch("a/b/c", "a/b", 0));
/* Empty pattern only matches empty string. */
assertEqualInt(1, lafe_pathmatch("","", 0));
assertEqualInt(0, lafe_pathmatch("","a", 0));
assertEqualInt(1, lafe_pathmatch("*","", 0));
assertEqualInt(1, lafe_pathmatch("*","a", 0));
assertEqualInt(1, lafe_pathmatch("*","abcd", 0));
/* SUSv2: * matches / */
assertEqualInt(1, lafe_pathmatch("*","abcd/efgh/ijkl", 0));
assertEqualInt(1, lafe_pathmatch("abcd*efgh/ijkl","abcd/efgh/ijkl", 0));
assertEqualInt(1, lafe_pathmatch("abcd***efgh/ijkl","abcd/efgh/ijkl", 0));
assertEqualInt(1, lafe_pathmatch("abcd***/efgh/ijkl","abcd/efgh/ijkl", 0));
assertEqualInt(0, lafe_pathmatch("?", "", 0));
assertEqualInt(0, lafe_pathmatch("?", "\0", 0));
assertEqualInt(1, lafe_pathmatch("?", "a", 0));
assertEqualInt(0, lafe_pathmatch("?", "ab", 0));
assertEqualInt(1, lafe_pathmatch("?", ".", 0));
assertEqualInt(1, lafe_pathmatch("?", "?", 0));
assertEqualInt(1, lafe_pathmatch("a", "a", 0));
assertEqualInt(0, lafe_pathmatch("a", "ab", 0));
assertEqualInt(0, lafe_pathmatch("a", "ab", 0));
assertEqualInt(1, lafe_pathmatch("a?c", "abc", 0));
/* SUSv2: ? matches / */
assertEqualInt(1, lafe_pathmatch("a?c", "a/c", 0));
assertEqualInt(1, lafe_pathmatch("a?*c*", "a/c", 0));
assertEqualInt(1, lafe_pathmatch("*a*", "a/c", 0));
assertEqualInt(1, lafe_pathmatch("*a*", "/a/c", 0));
assertEqualInt(1, lafe_pathmatch("*a*", "defaaaaaaa", 0));
assertEqualInt(0, lafe_pathmatch("a*", "defghi", 0));
assertEqualInt(0, lafe_pathmatch("*a*", "defghi", 0));
/* Character classes */
assertEqualInt(1, lafe_pathmatch("abc[def", "abc[def", 0));
assertEqualInt(0, lafe_pathmatch("abc[def]", "abc[def", 0));
assertEqualInt(0, lafe_pathmatch("abc[def", "abcd", 0));
assertEqualInt(1, lafe_pathmatch("abc[def]", "abcd", 0));
assertEqualInt(1, lafe_pathmatch("abc[def]", "abce", 0));
assertEqualInt(1, lafe_pathmatch("abc[def]", "abcf", 0));
assertEqualInt(0, lafe_pathmatch("abc[def]", "abcg", 0));
assertEqualInt(1, lafe_pathmatch("abc[d*f]", "abcd", 0));
assertEqualInt(1, lafe_pathmatch("abc[d*f]", "abc*", 0));
assertEqualInt(0, lafe_pathmatch("abc[d*f]", "abcdefghi", 0));
assertEqualInt(0, lafe_pathmatch("abc[d*", "abcdefghi", 0));
assertEqualInt(1, lafe_pathmatch("abc[d*", "abc[defghi", 0));
assertEqualInt(1, lafe_pathmatch("abc[d-f]", "abcd", 0));
assertEqualInt(1, lafe_pathmatch("abc[d-f]", "abce", 0));
assertEqualInt(1, lafe_pathmatch("abc[d-f]", "abcf", 0));
assertEqualInt(0, lafe_pathmatch("abc[d-f]", "abcg", 0));
assertEqualInt(0, lafe_pathmatch("abc[d-fh-k]", "abca", 0));
assertEqualInt(1, lafe_pathmatch("abc[d-fh-k]", "abcd", 0));
assertEqualInt(1, lafe_pathmatch("abc[d-fh-k]", "abce", 0));
assertEqualInt(1, lafe_pathmatch("abc[d-fh-k]", "abcf", 0));
assertEqualInt(0, lafe_pathmatch("abc[d-fh-k]", "abcg", 0));
assertEqualInt(1, lafe_pathmatch("abc[d-fh-k]", "abch", 0));
assertEqualInt(1, lafe_pathmatch("abc[d-fh-k]", "abci", 0));
assertEqualInt(1, lafe_pathmatch("abc[d-fh-k]", "abcj", 0));
assertEqualInt(1, lafe_pathmatch("abc[d-fh-k]", "abck", 0));
assertEqualInt(0, lafe_pathmatch("abc[d-fh-k]", "abcl", 0));
assertEqualInt(0, lafe_pathmatch("abc[d-fh-k]", "abc-", 0));
/* [] matches nothing, [!] is the same as ? */
assertEqualInt(0, lafe_pathmatch("abc[]efg", "abcdefg", 0));
assertEqualInt(0, lafe_pathmatch("abc[]efg", "abcqefg", 0));
assertEqualInt(0, lafe_pathmatch("abc[]efg", "abcefg", 0));
assertEqualInt(1, lafe_pathmatch("abc[!]efg", "abcdefg", 0));
assertEqualInt(1, lafe_pathmatch("abc[!]efg", "abcqefg", 0));
assertEqualInt(0, lafe_pathmatch("abc[!]efg", "abcefg", 0));
/* I assume: Trailing '-' is non-special. */
assertEqualInt(0, lafe_pathmatch("abc[d-fh-]", "abcl", 0));
assertEqualInt(1, lafe_pathmatch("abc[d-fh-]", "abch", 0));
assertEqualInt(1, lafe_pathmatch("abc[d-fh-]", "abc-", 0));
assertEqualInt(1, lafe_pathmatch("abc[d-fh-]", "abc-", 0));
/* ']' can be backslash-quoted within a character class. */
assertEqualInt(1, lafe_pathmatch("abc[\\]]", "abc]", 0));
assertEqualInt(1, lafe_pathmatch("abc[\\]d]", "abc]", 0));
assertEqualInt(1, lafe_pathmatch("abc[\\]d]", "abcd", 0));
assertEqualInt(1, lafe_pathmatch("abc[d\\]]", "abc]", 0));
assertEqualInt(1, lafe_pathmatch("abc[d\\]]", "abcd", 0));
assertEqualInt(1, lafe_pathmatch("abc[d]e]", "abcde]", 0));
assertEqualInt(1, lafe_pathmatch("abc[d\\]e]", "abc]", 0));
assertEqualInt(0, lafe_pathmatch("abc[d\\]e]", "abcd]e", 0));
assertEqualInt(0, lafe_pathmatch("abc[d]e]", "abc]", 0));
/* backslash-quoted chars can appear as either end of a range. */
assertEqualInt(1, lafe_pathmatch("abc[\\d-f]gh", "abcegh", 0));
assertEqualInt(0, lafe_pathmatch("abc[\\d-f]gh", "abcggh", 0));
assertEqualInt(0, lafe_pathmatch("abc[\\d-f]gh", "abc\\gh", 0));
assertEqualInt(1, lafe_pathmatch("abc[d-\\f]gh", "abcegh", 0));
assertEqualInt(1, lafe_pathmatch("abc[\\d-\\f]gh", "abcegh", 0));
assertEqualInt(1, lafe_pathmatch("abc[\\d-\\f]gh", "abcegh", 0));
/* backslash-quoted '-' isn't special. */
assertEqualInt(0, lafe_pathmatch("abc[d\\-f]gh", "abcegh", 0));
assertEqualInt(1, lafe_pathmatch("abc[d\\-f]gh", "abc-gh", 0));
/* Leading '!' negates a character class. */
assertEqualInt(0, lafe_pathmatch("abc[!d]", "abcd", 0));
assertEqualInt(1, lafe_pathmatch("abc[!d]", "abce", 0));
assertEqualInt(1, lafe_pathmatch("abc[!d]", "abcc", 0));
assertEqualInt(0, lafe_pathmatch("abc[!d-z]", "abcq", 0));
assertEqualInt(1, lafe_pathmatch("abc[!d-gi-z]", "abch", 0));
assertEqualInt(1, lafe_pathmatch("abc[!fgijkl]", "abch", 0));
assertEqualInt(0, lafe_pathmatch("abc[!fghijkl]", "abch", 0));
/* Backslash quotes next character. */
assertEqualInt(0, lafe_pathmatch("abc\\[def]", "abc\\d", 0));
assertEqualInt(1, lafe_pathmatch("abc\\[def]", "abc[def]", 0));
assertEqualInt(0, lafe_pathmatch("abc\\\\[def]", "abc[def]", 0));
assertEqualInt(0, lafe_pathmatch("abc\\\\[def]", "abc\\[def]", 0));
assertEqualInt(1, lafe_pathmatch("abc\\\\[def]", "abc\\d", 0));
assertEqualInt(1, lafe_pathmatch("abcd\\", "abcd\\", 0));
assertEqualInt(0, lafe_pathmatch("abcd\\", "abcd\\[", 0));
assertEqualInt(0, lafe_pathmatch("abcd\\", "abcde", 0));
assertEqualInt(0, lafe_pathmatch("abcd\\[", "abcd\\", 0));
/*
* Because '.' and '/' have special meanings, we can
* identify many equivalent paths even if they're expressed
* differently. (But quoting a character with '\\' suppresses
* special meanings!)
*/
assertEqualInt(0, lafe_pathmatch("a/b/", "a/bc", 0));
assertEqualInt(1, lafe_pathmatch("a/./b", "a/b", 0));
assertEqualInt(0, lafe_pathmatch("a\\/./b", "a/b", 0));
assertEqualInt(0, lafe_pathmatch("a/\\./b", "a/b", 0));
assertEqualInt(0, lafe_pathmatch("a/.\\/b", "a/b", 0));
assertEqualInt(0, lafe_pathmatch("a\\/\\.\\/b", "a/b", 0));
assertEqualInt(1, lafe_pathmatch("./abc/./def/", "abc/def/", 0));
assertEqualInt(1, lafe_pathmatch("abc/def", "./././abc/./def", 0));
assertEqualInt(1, lafe_pathmatch("abc/def/././//", "./././abc/./def/", 0));
assertEqualInt(1, lafe_pathmatch(".////abc/.//def", "./././abc/./def", 0));
assertEqualInt(1, lafe_pathmatch("./abc?def/", "abc/def/", 0));
failure("\"?./\" is not the same as \"/./\"");
assertEqualInt(0, lafe_pathmatch("./abc?./def/", "abc/def/", 0));
failure("Trailing '/' should match no trailing '/'");
assertEqualInt(1, lafe_pathmatch("./abc/./def/", "abc/def", 0));
failure("Trailing '/./' is still the same directory.");
assertEqualInt(1, lafe_pathmatch("./abc/./def/./", "abc/def", 0));
failure("Trailing '/.' is still the same directory.");
assertEqualInt(1, lafe_pathmatch("./abc/./def/.", "abc/def", 0));
assertEqualInt(1, lafe_pathmatch("./abc/./def", "abc/def/", 0));
failure("Trailing '/./' is still the same directory.");
assertEqualInt(1, lafe_pathmatch("./abc/./def", "abc/def/./", 0));
failure("Trailing '/.' is still the same directory.");
assertEqualInt(1, lafe_pathmatch("./abc*/./def", "abc/def/.", 0));
/* Matches not anchored at beginning. */
assertEqualInt(0,
lafe_pathmatch("bcd", "abcd", PATHMATCH_NO_ANCHOR_START));
assertEqualInt(1,
lafe_pathmatch("abcd", "abcd", PATHMATCH_NO_ANCHOR_START));
assertEqualInt(0,
lafe_pathmatch("^bcd", "abcd", PATHMATCH_NO_ANCHOR_START));
assertEqualInt(1,
lafe_pathmatch("b/c/d", "a/b/c/d", PATHMATCH_NO_ANCHOR_START));
assertEqualInt(0,
lafe_pathmatch("b/c", "a/b/c/d", PATHMATCH_NO_ANCHOR_START));
assertEqualInt(0,
lafe_pathmatch("^b/c", "a/b/c/d", PATHMATCH_NO_ANCHOR_START));
/* Matches not anchored at end. */
assertEqualInt(0,
lafe_pathmatch("bcd", "abcd", PATHMATCH_NO_ANCHOR_END));
assertEqualInt(1,
lafe_pathmatch("abcd", "abcd", PATHMATCH_NO_ANCHOR_END));
assertEqualInt(1,
lafe_pathmatch("abcd", "abcd/", PATHMATCH_NO_ANCHOR_END));
assertEqualInt(1,
lafe_pathmatch("abcd", "abcd/.", PATHMATCH_NO_ANCHOR_END));
assertEqualInt(0,
lafe_pathmatch("abc", "abcd", PATHMATCH_NO_ANCHOR_END));
assertEqualInt(1,
lafe_pathmatch("a/b/c", "a/b/c/d", PATHMATCH_NO_ANCHOR_END));
assertEqualInt(0,
lafe_pathmatch("a/b/c$", "a/b/c/d", PATHMATCH_NO_ANCHOR_END));
assertEqualInt(1,
lafe_pathmatch("a/b/c$", "a/b/c", PATHMATCH_NO_ANCHOR_END));
assertEqualInt(1,
lafe_pathmatch("a/b/c$", "a/b/c/", PATHMATCH_NO_ANCHOR_END));
assertEqualInt(1,
lafe_pathmatch("a/b/c/", "a/b/c/d", PATHMATCH_NO_ANCHOR_END));
assertEqualInt(0,
lafe_pathmatch("a/b/c/$", "a/b/c/d", PATHMATCH_NO_ANCHOR_END));
assertEqualInt(1,
lafe_pathmatch("a/b/c/$", "a/b/c/", PATHMATCH_NO_ANCHOR_END));
assertEqualInt(1,
lafe_pathmatch("a/b/c/$", "a/b/c", PATHMATCH_NO_ANCHOR_END));
assertEqualInt(0,
lafe_pathmatch("b/c", "a/b/c/d", PATHMATCH_NO_ANCHOR_END));
}