Mercurial > gnulib
view tests/test-sameacls.c @ 40224:5d9b82ca550a
tests: Free allocated memory.
Reported by <deltatau@protonmail.com> via Assaf Gordon.
* tests/test-astrxfrm.c (main): Free allocated memory.
* tests/test-bitset.c (compare, check_attributes): Free allocated
bitsets.
* tests/test-filenamecat.c (main): Free allocated memory.
* tests/test-freadahead.c (main): Free allocated memory and close stdin.
* tests/test-freadptr.c (main): Likewise.
* tests/test-freadptr2.c (main): Free allocated memory.
* tests/test-freadseek.c (main): Likewise.
* tests/test-gc-arcfour.c (main): Close allocated context.
* tests/test-gc-arctwo.c (main): Likewise.
* tests/test-gc-des.c (main): Close all allocated contexts.
* tests/test-pipe-filter-gi1.c (main): Free allocated memory.
* tests/test-pipe-filter-ii1.c (main): Likewise.
* tests/test-posix_spawn_file_actions_addchdir.c (main): Destroy the
allocated file actions.
* tests/test-posix_spawn_file_actions_addclose.c (main): Likewise.
* tests/test-posix_spawn_file_actions_adddup2.c (main): Likewise.
* tests/test-posix_spawn_file_actions_addopen.c (main): Likewise.
* tests/test-sameacls.c (main): Free allocated memory and ACLs.
* tests/test-strfmon_l.c (main): Free allocated locales.
* tests/test-striconveh.c (main): Free allocated iconv_t objects.
* tests/uniconv/test-u8-conv-to-enc.c (main): Free allocated memory.
* tests/uniconv/test-u16-conv-to-enc.c (main): Likewise.
* tests/uniconv/test-u32-conv-to-enc.c (main): Likewise.
* tests/unistr/test-chr.h (main): Free input32.
* tests/unistr/test-strchr.h (test_strchr): Likewise.
| author | Bruno Haible <bruno@clisp.org> |
|---|---|
| date | Sun, 10 Mar 2019 14:05:09 +0100 |
| parents | b06060465f09 |
| children |
line wrap: on
line source
/* Test whether two files have the same ACLs. Copyright (C) 2008-2019 Free Software Foundation, Inc. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <https://www.gnu.org/licenses/>. */ /* Written by Bruno Haible <bruno@clisp.org>, 2008. */ #include <config.h> #include <errno.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <sys/stat.h> #if HAVE_ACL_GET_FILE || HAVE_FACL || HAVE_GETACL || HAVE_ACLX_GET || HAVE_STATACL || HAVE_ACLSORT # include <sys/types.h> # include <sys/acl.h> #endif #if HAVE_ACLV_H # include <sys/types.h> # include <aclv.h> #endif #include "read-file.h" #include "xalloc.h" #include "macros.h" int main (int argc, char *argv[]) { const char *file1; const char *file2; ASSERT (argc == 3); file1 = argv[1]; file2 = argv[2]; /* Compare the contents of the two files. */ { size_t size1; char *contents1; size_t size2; char *contents2; contents1 = read_file (file1, &size1); if (contents1 == NULL) { fprintf (stderr, "error reading file %s: errno = %d\n", file1, errno); fflush (stderr); abort (); } contents2 = read_file (file2, &size2); if (contents2 == NULL) { fprintf (stderr, "error reading file %s: errno = %d\n", file2, errno); fflush (stderr); abort (); } if (size2 != size1) { fprintf (stderr, "files %s and %s have different sizes\n", file1, file2); fflush (stderr); abort (); } if (memcmp (contents1, contents2, size1) != 0) { fprintf (stderr, "files %s and %s have different contents\n", file1, file2); fflush (stderr); abort (); } free (contents2); free (contents1); } /* Compare the access permissions of the two files, including ACLs. */ { struct stat statbuf1; struct stat statbuf2; if (stat (file1, &statbuf1) < 0) { fprintf (stderr, "error accessing file %s: errno = %d\n", file1, errno); fflush (stderr); abort (); } if (stat (file2, &statbuf2) < 0) { fprintf (stderr, "error accessing file %s: errno = %d\n", file2, errno); fflush (stderr); abort (); } if (statbuf1.st_mode != statbuf2.st_mode) { fprintf (stderr, "files %s and %s have different access modes: %03o and %03o\n", file1, file2, (unsigned int) statbuf1.st_mode, (unsigned int) statbuf2.st_mode); return 1; } } { #if HAVE_ACL_GET_FILE /* Linux, FreeBSD, Mac OS X, IRIX, Tru64 */ static const int types[] = { ACL_TYPE_ACCESS # if HAVE_ACL_TYPE_EXTENDED /* Mac OS X */ , ACL_TYPE_EXTENDED # endif }; int t; for (t = 0; t < sizeof (types) / sizeof (types[0]); t++) { int type = types[t]; acl_t acl1; char *text1; int errno1; acl_t acl2; char *text2; int errno2; acl1 = acl_get_file (file1, type); if (acl1 == (acl_t)NULL) { text1 = NULL; errno1 = errno; } else { text1 = acl_to_text (acl1, NULL); if (text1 == NULL) errno1 = errno; else errno1 = 0; } acl2 = acl_get_file (file2, type); if (acl2 == (acl_t)NULL) { text2 = NULL; errno2 = errno; } else { text2 = acl_to_text (acl2, NULL); if (text2 == NULL) errno2 = errno; else errno2 = 0; } if (acl1 != (acl_t)NULL) { if (acl2 != (acl_t)NULL) { if (text1 != NULL) { if (text2 != NULL) { if (strcmp (text1, text2) != 0) { fprintf (stderr, "files %s and %s have different ACLs:\n%s\n%s\n", file1, file2, text1, text2); return 1; } } else { fprintf (stderr, "file %s has a valid ACL, but file %s has an invalid ACL\n", file1, file2); return 1; } } else { if (text2 != NULL) { fprintf (stderr, "file %s has an invalid ACL, but file %s has a valid ACL\n", file1, file2); return 1; } else { if (errno1 != errno2) { fprintf (stderr, "files %s and %s have differently invalid ACLs, errno = %d vs. %d\n", file1, file2, errno1, errno2); return 1; } } } } else { fprintf (stderr, "file %s has an ACL, but file %s has no ACL\n", file1, file2); return 1; } } else { if (acl2 != (acl_t)NULL) { fprintf (stderr, "file %s has no ACL, but file %s has an ACL\n", file1, file2); return 1; } } acl_free (text2); if (acl2 != (acl_t)NULL) acl_free (acl2); acl_free (text1); if (acl1 != (acl_t)NULL) acl_free (acl1); } #elif HAVE_FACL && defined GETACL /* Solaris, Cygwin, not HP-UX */ int count1; int count2; count1 = acl (file1, GETACLCNT, 0, NULL); if (count1 < 0 && errno == ENOSYS) /* Can happen on Solaris 10 with ZFS */ count1 = 0; count2 = acl (file2, GETACLCNT, 0, NULL); if (count2 < 0 && errno == ENOSYS) /* Can happen on Solaris 10 with ZFS */ count2 = 0; if (count1 < 0) { fprintf (stderr, "error accessing the ACLs of file %s\n", file1); fflush (stderr); abort (); } if (count2 < 0) { fprintf (stderr, "error accessing the ACLs of file %s\n", file2); fflush (stderr); abort (); } if (count1 != count2) { fprintf (stderr, "files %s and %s have different number of ACLs: %d and %d\n", file1, file2, count1, count2); return 1; } else { aclent_t *entries1 = XNMALLOC (count1, aclent_t); aclent_t *entries2 = XNMALLOC (count2, aclent_t); int i; if (count1 > 0 && acl (file1, GETACL, count1, entries1) < count1) { fprintf (stderr, "error retrieving the ACLs of file %s\n", file1); fflush (stderr); abort (); } if (count2 > 0 && acl (file2, GETACL, count2, entries2) < count1) { fprintf (stderr, "error retrieving the ACLs of file %s\n", file2); fflush (stderr); abort (); } for (i = 0; i < count1; i++) { if (entries1[i].a_type != entries2[i].a_type) { fprintf (stderr, "files %s and %s: different ACL entry #%d: different types %d and %d\n", file1, file2, i, entries1[i].a_type, entries2[i].a_type); return 1; } if (entries1[i].a_id != entries2[i].a_id) { fprintf (stderr, "files %s and %s: different ACL entry #%d: different ids %d and %d\n", file1, file2, i, (int)entries1[i].a_id, (int)entries2[i].a_id); return 1; } if (entries1[i].a_perm != entries2[i].a_perm) { fprintf (stderr, "files %s and %s: different ACL entry #%d: different permissions %03o and %03o\n", file1, file2, i, (unsigned int) entries1[i].a_perm, (unsigned int) entries2[i].a_perm); return 1; } } free (entries2); free (entries1); } # ifdef ACE_GETACL count1 = acl (file1, ACE_GETACLCNT, 0, NULL); if (count1 < 0 && errno == EINVAL) count1 = 0; count2 = acl (file2, ACE_GETACLCNT, 0, NULL); if (count2 < 0 && errno == EINVAL) count2 = 0; if (count1 < 0) { fprintf (stderr, "error accessing the ACE-ACLs of file %s\n", file1); fflush (stderr); abort (); } if (count2 < 0) { fprintf (stderr, "error accessing the ACE-ACLs of file %s\n", file2); fflush (stderr); abort (); } { ace_t *entries1 = XNMALLOC (count1, ace_t); ace_t *entries2 = XNMALLOC (count2, ace_t); int ret; int i; ret = acl (file1, ACE_GETACL, count1, entries1); if (ret < 0 && errno == EINVAL) count1 = 0; else if (ret < count1) { fprintf (stderr, "error retrieving the ACE-ACLs of file %s\n", file1); fflush (stderr); abort (); } ret = acl (file2, ACE_GETACL, count2, entries2); if (ret < 0 && errno == EINVAL) count2 = 0; else if (ret < count2) { fprintf (stderr, "error retrieving the ACE-ACLs of file %s\n", file2); fflush (stderr); abort (); } if (count1 != count2) { fprintf (stderr, "files %s and %s have different number of ACE-ACLs: %d and %d\n", file1, file2, count1, count2); return 1; } for (i = 0; i < count1; i++) { if (entries1[i].a_type != entries2[i].a_type) { fprintf (stderr, "files %s and %s: different ACE-ACL entry #%d: different types %d and %d\n", file1, file2, i, entries1[i].a_type, entries2[i].a_type); return 1; } if (entries1[i].a_who != entries2[i].a_who) { fprintf (stderr, "files %s and %s: different ACE-ACL entry #%d: different ids %d and %d\n", file1, file2, i, (int)entries1[i].a_who, (int)entries2[i].a_who); return 1; } if (entries1[i].a_access_mask != entries2[i].a_access_mask) { fprintf (stderr, "files %s and %s: different ACE-ACL entry #%d: different access masks %03o and %03o\n", file1, file2, i, (unsigned int) entries1[i].a_access_mask, (unsigned int) entries2[i].a_access_mask); return 1; } if (entries1[i].a_flags != entries2[i].a_flags) { fprintf (stderr, "files %s and %s: different ACE-ACL entry #%d: different flags 0x%x and 0x%x\n", file1, file2, i, (unsigned int) entries1[i].a_flags, (unsigned int) entries2[i].a_flags); return 1; } } free (entries2); free (entries1); } # endif #elif HAVE_GETACL /* HP-UX */ int count1; int count2; count1 = getacl (file1, 0, NULL); if (count1 < 0 && (errno == ENOSYS || errno == EOPNOTSUPP || errno == ENOTSUP)) count1 = 0; count2 = getacl (file2, 0, NULL); if (count2 < 0 && (errno == ENOSYS || errno == EOPNOTSUPP || errno == ENOTSUP)) count2 = 0; if (count1 < 0) { fprintf (stderr, "error accessing the ACLs of file %s\n", file1); fflush (stderr); abort (); } if (count2 < 0) { fprintf (stderr, "error accessing the ACLs of file %s\n", file2); fflush (stderr); abort (); } if (count1 != count2) { fprintf (stderr, "files %s and %s have different number of ACLs: %d and %d\n", file1, file2, count1, count2); return 1; } else if (count1 > 0) { struct acl_entry *entries1 = XNMALLOC (count1, struct acl_entry); struct acl_entry *entries2 = XNMALLOC (count2, struct acl_entry); int i; if (getacl (file1, count1, entries1) < count1) { fprintf (stderr, "error retrieving the ACLs of file %s\n", file1); fflush (stderr); abort (); } if (getacl (file2, count2, entries2) < count1) { fprintf (stderr, "error retrieving the ACLs of file %s\n", file2); fflush (stderr); abort (); } for (i = 0; i < count1; i++) { if (entries1[i].uid != entries2[i].uid) { fprintf (stderr, "files %s and %s: different ACL entry #%d: different uids %d and %d\n", file1, file2, i, (int)entries1[i].uid, (int)entries2[i].uid); return 1; } if (entries1[i].gid != entries2[i].gid) { fprintf (stderr, "files %s and %s: different ACL entry #%d: different gids %d and %d\n", file1, file2, i, (int)entries1[i].gid, (int)entries2[i].gid); return 1; } if (entries1[i].mode != entries2[i].mode) { fprintf (stderr, "files %s and %s: different ACL entry #%d: different permissions %03o and %03o\n", file1, file2, i, (unsigned int) entries1[i].mode, (unsigned int) entries2[i].mode); return 1; } } free (entries2); free (entries1); } # if HAVE_ACLV_H /* HP-UX >= 11.11 */ { struct acl dummy_entries[NACLVENTRIES]; count1 = acl ((char *) file1, ACL_CNT, NACLVENTRIES, dummy_entries); if (count1 < 0 && (errno == ENOSYS || errno == EOPNOTSUPP || errno == EINVAL)) count1 = 0; count2 = acl ((char *) file2, ACL_CNT, NACLVENTRIES, dummy_entries); if (count2 < 0 && (errno == ENOSYS || errno == EOPNOTSUPP || errno == EINVAL)) count2 = 0; } if (count1 < 0) { fprintf (stderr, "error accessing the ACLs of file %s\n", file1); fflush (stderr); abort (); } if (count2 < 0) { fprintf (stderr, "error accessing the ACLs of file %s\n", file2); fflush (stderr); abort (); } if (count1 != count2) { fprintf (stderr, "files %s and %s have different number of ACLs: %d and %d\n", file1, file2, count1, count2); return 1; } else if (count1 > 0) { struct acl *entries1 = XNMALLOC (count1, struct acl); struct acl *entries2 = XNMALLOC (count2, struct acl); int i; if (acl ((char *) file1, ACL_GET, count1, entries1) < count1) { fprintf (stderr, "error retrieving the ACLs of file %s\n", file1); fflush (stderr); abort (); } if (acl ((char *) file2, ACL_GET, count2, entries2) < count1) { fprintf (stderr, "error retrieving the ACLs of file %s\n", file2); fflush (stderr); abort (); } for (i = 0; i < count1; i++) { if (entries1[i].a_type != entries2[i].a_type) { fprintf (stderr, "files %s and %s: different ACL entry #%d: different types %d and %d\n", file1, file2, i, entries1[i].a_type, entries2[i].a_type); return 1; } if (entries1[i].a_id != entries2[i].a_id) { fprintf (stderr, "files %s and %s: different ACL entry #%d: different ids %d and %d\n", file1, file2, i, (int)entries1[i].a_id, (int)entries2[i].a_id); return 1; } if (entries1[i].a_perm != entries2[i].a_perm) { fprintf (stderr, "files %s and %s: different ACL entry #%d: different permissions %03o and %03o\n", file1, file2, i, (unsigned int) entries1[i].a_perm, (unsigned int) entries2[i].a_perm); return 1; } } free (entries2); free (entries1); } # endif #elif HAVE_ACLX_GET /* AIX */ acl_type_t type1; char acl1[1000]; size_t aclsize1 = sizeof (acl1); mode_t mode1; char text1[1000]; size_t textsize1 = sizeof (text1); acl_type_t type2; char acl2[1000]; size_t aclsize2 = sizeof (acl2); mode_t mode2; char text2[1000]; size_t textsize2 = sizeof (text2); /* The docs say that type1 being 0 is equivalent to ACL_ANY, but it is not true, in AIX 5.3. */ type1.u64 = ACL_ANY; if (aclx_get (file1, 0, &type1, acl1, &aclsize1, &mode1) < 0) { if (errno == ENOSYS) text1[0] = '\0'; else { fprintf (stderr, "error accessing the ACLs of file %s\n", file1); fflush (stderr); abort (); } } else if (aclx_printStr (text1, &textsize1, acl1, aclsize1, type1, file1, 0) < 0) { fprintf (stderr, "cannot convert the ACLs of file %s to text\n", file1); fflush (stderr); abort (); } /* The docs say that type2 being 0 is equivalent to ACL_ANY, but it is not true, in AIX 5.3. */ type2.u64 = ACL_ANY; if (aclx_get (file2, 0, &type2, acl2, &aclsize2, &mode2) < 0) { if (errno == ENOSYS) text2[0] = '\0'; else { fprintf (stderr, "error accessing the ACLs of file %s\n", file2); fflush (stderr); abort (); } } else if (aclx_printStr (text2, &textsize2, acl2, aclsize2, type2, file2, 0) < 0) { fprintf (stderr, "cannot convert the ACLs of file %s to text\n", file2); fflush (stderr); abort (); } if (strcmp (text1, text2) != 0) { fprintf (stderr, "files %s and %s have different ACLs:\n%s\n%s\n", file1, file2, text1, text2); return 1; } #elif HAVE_STATACL /* older AIX */ union { struct acl a; char room[4096]; } acl1; union { struct acl a; char room[4096]; } acl2; unsigned int i; if (statacl (file1, STX_NORMAL, &acl1.a, sizeof (acl1)) < 0) { fprintf (stderr, "error accessing the ACLs of file %s\n", file1); fflush (stderr); abort (); } if (statacl (file2, STX_NORMAL, &acl2.a, sizeof (acl2)) < 0) { fprintf (stderr, "error accessing the ACLs of file %s\n", file2); fflush (stderr); abort (); } if (acl1.a.acl_len != acl2.a.acl_len) { fprintf (stderr, "files %s and %s have different ACL lengths: %u and %u\n", file1, file2, acl1.a.acl_len, acl2.a.acl_len); return 1; } if (acl1.a.acl_mode != acl2.a.acl_mode) { fprintf (stderr, "files %s and %s have different ACL modes: %03o and %03o\n", file1, file2, acl1.a.acl_mode, acl2.a.acl_mode); return 1; } if (acl1.a.u_access != acl2.a.u_access || acl1.a.g_access != acl2.a.g_access || acl1.a.o_access != acl2.a.o_access) { fprintf (stderr, "files %s and %s have different ACL access masks: %03o %03o %03o and %03o %03o %03o\n", file1, file2, acl1.a.u_access, acl1.a.g_access, acl1.a.o_access, acl2.a.u_access, acl2.a.g_access, acl2.a.o_access); return 1; } if (memcmp (acl1.a.acl_ext, acl2.a.acl_ext, acl1.a.acl_len) != 0) { fprintf (stderr, "files %s and %s have different ACL entries\n", file1, file2); return 1; } #elif HAVE_ACLSORT /* NonStop Kernel */ int count1; int count2; count1 = acl ((char *) file1, ACL_CNT, NACLENTRIES, NULL); count2 = acl ((char *) file2, ACL_CNT, NACLENTRIES, NULL); if (count1 < 0) { fprintf (stderr, "error accessing the ACLs of file %s\n", file1); fflush (stderr); abort (); } if (count2 < 0) { fprintf (stderr, "error accessing the ACLs of file %s\n", file2); fflush (stderr); abort (); } if (count1 != count2) { fprintf (stderr, "files %s and %s have different number of ACLs: %d and %d\n", file1, file2, count1, count2); return 1; } else if (count1 > 0) { struct acl *entries1 = XNMALLOC (count1, struct acl); struct acl *entries2 = XNMALLOC (count2, struct acl); int i; if (acl ((char *) file1, ACL_GET, count1, entries1) < count1) { fprintf (stderr, "error retrieving the ACLs of file %s\n", file1); fflush (stderr); abort (); } if (acl ((char *) file2, ACL_GET, count2, entries2) < count1) { fprintf (stderr, "error retrieving the ACLs of file %s\n", file2); fflush (stderr); abort (); } for (i = 0; i < count1; i++) { if (entries1[i].a_type != entries2[i].a_type) { fprintf (stderr, "files %s and %s: different ACL entry #%d: different types %d and %d\n", file1, file2, i, entries1[i].a_type, entries2[i].a_type); return 1; } if (entries1[i].a_id != entries2[i].a_id) { fprintf (stderr, "files %s and %s: different ACL entry #%d: different ids %d and %d\n", file1, file2, i, (int)entries1[i].a_id, (int)entries2[i].a_id); return 1; } if (entries1[i].a_perm != entries2[i].a_perm) { fprintf (stderr, "files %s and %s: different ACL entry #%d: different permissions %03o and %03o\n", file1, file2, i, (unsigned int) entries1[i].a_perm, (unsigned int) entries2[i].a_perm); return 1; } } free (entries2); free (entries1); } #endif } return 0; }