/* Prototypes */
int safe_open_ex(int at_fd, char* pathname, int flags);
int safe_open(const char* pathname, int flags);
-int acl_update_entry(acl_t aclp, acl_entry_t entry);
+int acl_update_entry(acl_t aclp, acl_entry_t updated_entry);
int acl_entry_count(acl_t acl);
int acl_is_minimal(acl_t acl);
int acl_execute_masked(acl_t acl);
* @param aclp
* A pointer to the acl_t structure whose entry we want to update.
*
- * @param entry
- * The new entry.
+ * @param updated_entry
+ * An updated copy of an existing entry in @c aclp.
*
* @return
* - @c ACL_SUCCESS - If we update an existing entry.
* - @c ACL_FAILURE - If we don't find an entry to update.
* - @c ACL_ERROR - Unexpected library error.
*/
-int acl_update_entry(acl_t aclp, acl_entry_t entry) {
- if (aclp == NULL || entry == NULL) {
+int acl_update_entry(acl_t aclp, acl_entry_t updated_entry) {
+ if (aclp == NULL || updated_entry == NULL) {
errno = EINVAL;
perror("acl_update_entry (args)");
return ACL_ERROR;
}
- acl_tag_t entry_tag;
- if (acl_get_tag_type(entry, &entry_tag) == ACL_ERROR) {
+ acl_tag_t updated_tag;
+ if (acl_get_tag_type(updated_entry, &updated_tag) == ACL_ERROR) {
perror("acl_update_entry (acl_get_tag_type)");
return ACL_ERROR;
}
- acl_permset_t entry_permset;
- if (acl_get_permset(entry, &entry_permset) == ACL_ERROR) {
+ acl_permset_t updated_permset;
+ if (acl_get_permset(updated_entry, &updated_permset) == ACL_ERROR) {
perror("acl_update_entry (acl_get_permset)");
return ACL_ERROR;
}
+ /* This can allocate memory, so from here on out we have to jump to
+ the "cleanup" label to exit. */
+ void* updated_qualifier = acl_get_qualifier(updated_entry);
+ if (updated_qualifier == NULL &&
+ (updated_tag == ACL_USER || updated_tag == ACL_GROUP)) {
+ /* acl_get_qualifier() can return NULL, but it shouldn't for
+ ACL_USER or ACL_GROUP entries. */
+ perror("acl_update_entry (acl_get_qualifier)");
+ return ACL_ERROR;
+ }
+
+ /* Our return value. Default to failure, and change to success if we
+ actually update something. */
+ int result = ACL_FAILURE;
+
acl_entry_t existing_entry;
/* Loop through the given ACL looking for matching entries. */
- int result = acl_get_entry(aclp, ACL_FIRST_ENTRY, &existing_entry);
+ int get_entry_result = acl_get_entry(aclp, ACL_FIRST_ENTRY, &existing_entry);
- while (result == ACL_SUCCESS) {
+ while (get_entry_result == ACL_SUCCESS) {
acl_tag_t existing_tag = ACL_UNDEFINED_TAG;
if (acl_get_tag_type(existing_entry, &existing_tag) == ACL_ERROR) {
perror("set_acl_tag_permset (acl_get_tag_type)");
- return ACL_ERROR;
+ result = ACL_ERROR;
+ goto cleanup;
}
- if (existing_tag == entry_tag) {
- /* If we update something, we're done and return ACL_SUCCESS */
- if (acl_set_permset(existing_entry, entry_permset) == ACL_ERROR) {
- perror("acl_update_entry (acl_set_permset)");
- return ACL_ERROR;
+ if (existing_tag == updated_tag) {
+ /* Our tag types match, but if we have a named user or group
+ entry, then we need to check that the user/group (that is,
+ the qualifier) matches too. */
+ bool qualifiers_match = false;
+
+ /* There are three ways the qualifiers can match... */
+ void* existing_qualifier = acl_get_qualifier(existing_entry);
+ if (existing_qualifier == NULL) {
+ if (existing_tag == ACL_USER || existing_tag == ACL_GROUP) {
+ perror("acl_update_entry (acl_get_qualifier)");
+ result = ACL_ERROR;
+ goto cleanup;
+ }
+ else {
+ /* First, we could be dealing with an entry that isn't a
+ named user or group, in which case they "match
+ vacuously." */
+ qualifiers_match = true;
+ }
+ }
+
+ /* Second, they could have matching UIDs. We don't really need to
+ check both tags here, since we know that they're equal. However,
+ clang-tidy can't figure that out, and the redundant equality
+ check prevents it from complaining about a potential null pointer
+ dereference. */
+ if (updated_tag == ACL_USER && existing_tag == ACL_USER) {
+ qualifiers_match = ( *((uid_t*)existing_qualifier)
+ ==
+ *((uid_t*)updated_qualifier) );
}
- return ACL_SUCCESS;
+ /* Third, they could have matching GIDs. See above for why
+ we check the redundant condition existing_tag == ACL_GROUP. */
+ if (updated_tag == ACL_GROUP && existing_tag == ACL_GROUP) {
+ qualifiers_match = ( *((gid_t*)existing_qualifier)
+ ==
+ *((gid_t*)updated_qualifier) );
+ }
+
+ /* Be sure to free this inside the loop, where memory is allocated. */
+ acl_free(existing_qualifier);
+
+ if (qualifiers_match) {
+ /* If we update something, we're done and return ACL_SUCCESS */
+ if (acl_set_permset(existing_entry, updated_permset) == ACL_ERROR) {
+ perror("acl_update_entry (acl_set_permset)");
+ result = ACL_ERROR;
+ goto cleanup;
+ }
+
+ result = ACL_SUCCESS;
+ goto cleanup;
+ }
}
- result = acl_get_entry(aclp, ACL_NEXT_ENTRY, &existing_entry);
+ get_entry_result = acl_get_entry(aclp, ACL_NEXT_ENTRY, &existing_entry);
}
/* This catches both the initial acl_get_entry and the ones at the
end of the loop. */
- if (result == ACL_ERROR) {
+ if (get_entry_result == ACL_ERROR) {
perror("acl_update_entry (acl_get_entry)");
- return ACL_ERROR;
+ result = ACL_ERROR;
}
- return ACL_FAILURE;
+ cleanup:
+ acl_free(updated_qualifier);
+ return result;
}