/* Test program for returning the canonical absolute name of a given file. Copyright (C) 1996, 1997, 2000, 2002 Free Software Foundation, Inc. This file is part of the GNU C Library. Contributed by David Mosberger . The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ /* This file must be run from within a directory called "stdlib". */ #include #include #include #include #include #include #include #define myrealpath realpath static char cwd[PATH_MAX]; static size_t cwd_len; struct { const char * name; const char * value; } symlinks[] = { {"SYMLINK_LOOP", "SYMLINK_LOOP"}, {"SYMLINK_1", "."}, {"SYMLINK_2", "//////./../../etc"}, {"SYMLINK_3", "SYMLINK_1"}, {"SYMLINK_4", "SYMLINK_2"}, {"SYMLINK_5", "doesNotExist"}, }; struct { const char * in, * out, *resolved; int error; } tests[] = { /* 0 */ {"/", "/", "", 0}, {"/////////////////////////////////", "/", "" ,0}, {"/.././.././.././..///", "/", "",0}, {"/etc", "/etc", "",0}, {"/etc/../etc", "/etc", "",0}, /* 5 */ {"/doesNotExist/../etc", 0, "/doesNotExist", ENOENT}, {"./././././././././.", ".", "",0}, {"/etc/.//doesNotExist", 0, "/etc/doesNotExist", ENOENT}, {"./doesExist", "./doesExist", "",0}, {"./doesExist/", "./doesExist", "",0}, /* 10 */ {"./doesExist/../doesExist", "./doesExist","",0}, {"foobar", 0, "./foobar", ENOENT}, {".", ".","",0}, {"./foobar", 0, "./foobar", ENOENT}, {"SYMLINK_LOOP", 0, "./SYMLINK_LOOP", ELOOP}, /* 15 */ {"./SYMLINK_LOOP", 0, "./SYMLINK_LOOP", ELOOP}, {"SYMLINK_1", ".","",0}, {"SYMLINK_1/foobar", 0, "./foobar", ENOENT}, {"SYMLINK_2", "/etc","",0}, {"SYMLINK_3", ".","",0}, /* 20 */ {"SYMLINK_4", "/etc","",0}, {"../stdlib/SYMLINK_1", ".","",0}, {"../stdlib/SYMLINK_2", "/etc","",0}, {"../stdlib/SYMLINK_3", ".","",0}, {"../stdlib/SYMLINK_4", "/etc","",0}, /* 25 */ {"./SYMLINK_5", 0, "./doesNotExist", ENOENT}, {"SYMLINK_5", 0, "./doesNotExist", ENOENT}, {"SYMLINK_5/foobar", 0, "./doesNotExist", ENOENT}, {"doesExist/../../stdlib/doesExist", "./doesExist","",0}, {"doesExist/.././../stdlib/.", ".","",0} }; static int check_path (const char * result, const char * expected) { int good; if (!result) return (expected == NULL); if (!expected) return 0; if (expected[0] == '.' && (expected[1] == '/' || expected[1] == '\0')) good = (strncmp (result, cwd, cwd_len) == 0 && strcmp (result + cwd_len, expected + 1) == 0); else good = (strcmp (expected, result) == 0); return good; } int main (int argc, char ** argv) { char * result; int fd, i, errors = 0; char buf[PATH_MAX]; getcwd (cwd, sizeof(buf)); cwd_len = strlen (cwd); /* this segfaults with dietlibc man page documents: EINVAL Either path or resolved_path is NULL. (In libc5 this would just cause a segfault.) errno = 0; if (myrealpath (NULL, buf) != NULL || errno != EINVAL) { printf ("%s: expected return value NULL and errno set to EINVAL" " for myrealpath(NULL,...)\n", argv[0]); ++errors; } */ /* according to glibc, this test is invalid errno = 0; if (myrealpath ("/", NULL) != NULL || errno != EINVAL) { printf ("%s: expected return value NULL and errno set to EINVAL" " for myrealpath(...,NULL)\n", argv[0]); ++errors; } */ errno = 0; if (myrealpath ("", buf) != NULL || errno != ENOENT) { printf ("%s: expected return value NULL and set errno to ENOENT" " for myrealpath(\"\",...)\n", argv[0]); ++errors; } for (i = 0; i < (int) (sizeof (symlinks) / sizeof (symlinks[0])); ++i) symlink (symlinks[i].value, symlinks[i].name); fd = open("doesExist", O_CREAT | O_EXCL, 0777); for (i = 0; i < (int) (sizeof (tests) / sizeof (tests[0])); ++i) { buf[0] = '\0'; result = myrealpath (tests[i].in, buf); if (!check_path (result, tests[i].out)) { printf ("%s: flunked test %d (expected `%s', got `%s')\n", argv[0], i, tests[i].out ? tests[i].out : "NULL", result ? result : "NULL"); ++errors; continue; } if (!check_path (buf, tests[i].out ? tests[i].out : tests[i].resolved)) { printf ("%s: flunked test %d (expected resolved `%s', got `%s')\n", argv[0], i, tests[i].out ? tests[i].out : tests[i].resolved, buf); ++errors; continue; } if (!tests[i].out && errno != tests[i].error) { printf ("%s: flunked test %d (expected errno %d, got %d)\n", argv[0], i, tests[i].error, errno); ++errors; continue; } } getcwd (buf, sizeof(buf)); if (strcmp (buf, cwd)) { printf ("%s: current working directory changed from %s to %s\n", argv[0], cwd, buf); ++errors; } if (fd >= 0) unlink("doesExist"); for (i = 0; i < (int) (sizeof (symlinks) / sizeof (symlinks[0])); ++i) unlink (symlinks[i].name); if (errors != 0) { printf ("%d errors.\n", errors); return EXIT_FAILURE; } puts ("No errors."); return EXIT_SUCCESS; } #if 0 static char *sep(char *path) { char *tmp, c; tmp = strrchr(path, '/'); if(tmp) { c = tmp[1]; tmp[1] = 0; if (chdir(path)) { return NULL; } tmp[1] = c; return tmp + 1; } return path; } char *myrealpath(const char *_path, char *resolved_path) { int fd = open(".", O_RDONLY), l; char path[PATH_MAX], lnk[PATH_MAX], *tmp = (char *)""; if (fd < 0) { return NULL; } strncpy(path, _path, PATH_MAX); if (chdir(path)) { if (errno == ENOTDIR) { l = readlink(path, lnk, PATH_MAX); if (!(tmp = sep(path))) { resolved_path = NULL; goto abort; } if (l < 0) { perror("readlink"); if (errno != EINVAL || errno !=ENOENT) { resolved_path = NULL; goto abort; } } else { lnk[l] = 0; if (!(tmp = sep(lnk))) { resolved_path = NULL; goto abort; } } } else { perror("chdir()"); resolved_path = NULL; goto abort; } } if (!getcwd(resolved_path, PATH_MAX)) { resolved_path = NULL; goto abort; } if(strcmp(resolved_path, "/") && *tmp) { strcat(resolved_path, "/"); } strcat(resolved_path, tmp); abort: fchdir(fd); close(fd); return resolved_path; } #endif