/* Unix SMB/Netbios implementation. Version 2.2. Samba system utilities for ACL support. Copyright (C) Jeremy Allison 2000. 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 2 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, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "includes.h" extern int DEBUGLEVEL; /* This file wraps all differing system ACL interfaces into a consistent one based on the POSIX interface. It also returns the correct errors for older UNIX systems that don't support ACLs. The interfaces that each ACL implementation must support are as follows : int sys_acl_get_entry( SMB_ACL_T theacl, int entry_id, SMB_ACL_ENTRY_T *entry_p) int sys_acl_get_tag_type( SMB_ACL_ENTRY_T entry_d, SMB_ACL_TAG_T *tag_type_p) int sys_acl_get_permset( SMB_ACL_ENTRY_T entry_d, SMB_ACL_PERMSET_T *permset_p void *sys_acl_get_qualifier( SMB_ACL_ENTRY_T entry_d) SMB_ACL_T sys_acl_get_file( const char *path_p, SMB_ACL_TYPE_T type) SMB_ACL_T sys_acl_get_fd(int fd) int sys_acl_clear_perms(SMB_ACL_PERMSET_T permset); int sys_acl_add_perm( SMB_ACL_PERMSET_T permset, SMB_ACL_PERM_T perm); char *sys_acl_to_text( SMB_ACL_T theacl, ssize_t *plen) SMB_ACL_T sys_acl_init( int count) int sys_acl_create_entry( SMB_ACL_T *pacl, SMB_ACL_ENTRY_T *pentry) int sys_acl_set_tag_type( SMB_ACL_ENTRY_T entry, SMB_ACL_TAG_T tagtype) int sys_acl_set_qualifier( SMB_ACL_ENTRY_T entry, void *qual) int sys_acl_set_permset( SMB_ACL_ENTRY_T entry, SMB_ACL_PERMSET_T permset) int sys_acl_valid( SMB_ACL_T theacl ) int sys_acl_set_file( char *name, SMB_ACL_TYPE_T acltype, SMB_ACL_T theacl) int sys_acl_set_fd( int fd, SMB_ACL_T theacl) This next one is not POSIX complient - but we *have* to have it ! More POSIX braindamage. int sys_acl_get_perm( SMB_ACL_PERMSET_T permset, SMB_ACL_PERM_T perm) The generic POSIX free is the following call. We split this into several different free functions as we may need to add tag info to structures when emulating the POSIX interface. int sys_acl_free( void *obj_p) The calls we actually use are : int sys_acl_free_text(char *text) - free acl_to_text int sys_acl_free_acl(SMB_ACL_T posix_acl) */ #if defined(HAVE_POSIX_ACLS) /* Identity mapping - easy. */ int sys_acl_get_entry( SMB_ACL_T the_acl, int entry_id, SMB_ACL_ENTRY_T *entry_p) { return acl_get_entry( the_acl, entry_id, entry_p); } int sys_acl_get_tag_type( SMB_ACL_ENTRY_T entry_d, SMB_ACL_TAG_T *tag_type_p) { return acl_get_tag_type( entry_d, tag_type_p); } int sys_acl_get_permset( SMB_ACL_ENTRY_T entry_d, SMB_ACL_PERMSET_T *permset_p) { return acl_get_permset( entry_d, permset_p); } void *sys_acl_get_qualifier( SMB_ACL_ENTRY_T entry_d) { return acl_get_qualifier( entry_d); } SMB_ACL_T sys_acl_get_file( const char *path_p, SMB_ACL_TYPE_T type) { return acl_get_file( path_p, type); } SMB_ACL_T sys_acl_get_fd(int fd) { return acl_get_fd(fd); } int sys_acl_clear_perms(SMB_ACL_PERMSET_T permset) { return acl_clear_perms(permset); } int sys_acl_add_perm( SMB_ACL_PERMSET_T permset, SMB_ACL_PERM_T perm) { return acl_add_perm(permset, perm); } int sys_acl_get_perm( SMB_ACL_PERMSET_T permset, SMB_ACL_PERM_T perm) { return acl_get_perm(permset, perm); } char *sys_acl_to_text( SMB_ACL_T the_acl, ssize_t *plen) { return acl_to_text( the_acl, plen); } SMB_ACL_T sys_acl_init( int count) { return acl_init(count); } int sys_acl_create_entry( SMB_ACL_T *pacl, SMB_ACL_ENTRY_T *pentry) { return acl_create_entry(pacl, pentry); } int sys_acl_set_tag_type( SMB_ACL_ENTRY_T entry, SMB_ACL_TAG_T tagtype) { return acl_set_tag_type(entry, tagtype); } int sys_acl_set_qualifier( SMB_ACL_ENTRY_T entry, void *qual) { return acl_set_qualifier(entry, qual); } int sys_acl_set_permset( SMB_ACL_ENTRY_T entry, SMB_ACL_PERMSET_T permset) { return acl_set_permset(entry, permset); } int sys_acl_valid( SMB_ACL_T theacl ) { return acl_valid(theacl); } int sys_acl_set_file( char *name, SMB_ACL_TYPE_T acltype, SMB_ACL_T theacl) { return acl_set_file(name, acltype, theacl); } int sys_acl_set_fd( int fd, SMB_ACL_T theacl) { return acl_set_fd(fd, theacl); } int sys_acl_free_text(char *text) { return acl_free(text); } int sys_acl_free_acl(SMB_ACL_T the_acl) { return acl_free(the_acl); } #elif defined(HAVE_UNIXWARE_ACLS) /* * Donated by Michael Davidson for UnixWare. * As this is generic SVR4.x code, it may also work for Solaris ! */ #define INITIAL_ACL_SIZE 16 #ifndef SETACL #define SETACL ACL_SET #endif #ifndef GETACL #define GETACL ACL_GET #endif #ifndef GETACLCNT #define GETACLCNT ACL_CNT #endif #ifndef HAVE__FACL /* * until official facl() support shows up in UW 7.1.2 */ int facl(int fd, int cmd, int nentries, struct acl *aclbufp) { return syscall(188, fd, cmd, nentries, aclbufp); } #endif int sys_acl_get_entry(SMB_ACL_T acl_d, int entry_id, SMB_ACL_ENTRY_T *entry_p) { if (entry_id != SMB_ACL_FIRST_ENTRY && entry_id != SMB_ACL_NEXT_ENTRY) { errno = EINVAL; return -1; } if (entry_p == NULL) { errno = EINVAL; return -1; } if (entry_id == SMB_ACL_FIRST_ENTRY) { acl_d->next = 0; } if (acl_d->next < 0) { errno = EINVAL; return -1; } if (acl_d->next >= acl_d->count) { return 0; } *entry_p = &acl_d->acl[acl_d->next++]; return 1; } int sys_acl_get_tag_type(SMB_ACL_ENTRY_T entry_d, SMB_ACL_TAG_T *type_p) { *type_p = entry_d->a_type; return 0; } int sys_acl_get_permset(SMB_ACL_ENTRY_T entry_d, SMB_ACL_PERMSET_T *permset_p) { *permset_p = &entry_d->a_perm; return 0; } void *sys_acl_get_qualifier(SMB_ACL_ENTRY_T entry_d) { if (entry_d->a_type != SMB_ACL_USER && entry_d->a_type != SMB_ACL_GROUP) { errno = EINVAL; return NULL; } return &entry_d->a_id; } SMB_ACL_T sys_acl_get_file(const char *path_p, SMB_ACL_TYPE_T type) { SMB_ACL_T acl_d; int count; /* # of ACL entries allocated */ int naccess; /* # of access ACL entries */ int ndefault; /* # of default ACL entries */ if (type != SMB_ACL_TYPE_ACCESS && type != SMB_ACL_TYPE_DEFAULT) { errno = EINVAL; return NULL; } count = INITIAL_ACL_SIZE; if ((acl_d = sys_acl_init(count)) == NULL) { return NULL; } while ((count = acl(path_p, GETACL, count, &acl_d->acl[0])) < 0 && errno == ENOSPC) { if ((count = acl(path_p, GETACLCNT, 0, NULL)) < 0) { return NULL; } sys_acl_free_acl(acl_d); if ((acl_d = sys_acl_init(count)) == NULL) { return NULL; } } if (count < 0) { return NULL; } /* * calculate the number of access and default ACL entries * * Note: we assume that the acl() system call returned a * well formed ACL which is sorted so that all of the * access ACL entries preceed any default ACL entries */ for (naccess = 0; naccess < count; naccess++) { if (acl_d->acl[naccess].a_type & ACL_DEFAULT) break; } ndefault = count - naccess; /* * if the caller wants the default ACL we have to copy * the entries down to the start of the acl[] buffer * and mask out the ACL_DEFAULT flag from the type field */ if (type == SMB_ACL_TYPE_DEFAULT) { int i, j; for (i = 0, j = naccess; i < ndefault; i++, j++) { acl_d->acl[i] = acl_d->acl[j]; acl_d->acl[i].a_type &= ~ACL_DEFAULT; } acl_d->count = ndefault; } else { acl_d->count = naccess; } return acl_d; } SMB_ACL_T sys_acl_get_fd(int fd) { SMB_ACL_T acl_d; int count; /* # of ACL entries allocated */ int naccess; /* # of access ACL entries */ count = INITIAL_ACL_SIZE; if ((acl_d = sys_acl_init(count)) == NULL) { return NULL; } while ((count = facl(fd, GETACL, count, &acl_d->acl[0])) < 0 && errno == ENOSPC) { if ((count = facl(fd, GETACLCNT, 0, NULL)) < 0) { return NULL; } sys_acl_free_acl(acl_d); if ((acl_d = sys_acl_init(count)) == NULL) { return NULL; } } if (count < 0) { return NULL; } /* * calculate the number of access ACL entries */ for (naccess = 0; naccess < count; naccess++) { if (acl_d->acl[naccess].a_type & ACL_DEFAULT) break; } acl_d->count = naccess; return acl_d; } int sys_acl_clear_perms(SMB_ACL_PERMSET_T permset_d) { *permset_d = 0; return 0; } int sys_acl_add_perm(SMB_ACL_PERMSET_T permset_d, SMB_ACL_PERM_T perm) { if (perm != SMB_ACL_READ && perm != SMB_ACL_WRITE && perm != SMB_ACL_EXECUTE) { errno = EINVAL; return -1; } if (permset_d == NULL) { errno = EINVAL; return -1; } *permset_d |= perm; return 0; } int sys_acl_get_perm(SMB_ACL_PERMSET_T permset_d, SMB_ACL_PERM_T perm) { return *permset_d & perm; } char *sys_acl_to_text(SMB_ACL_T acl_d, ssize_t *len_p) { int i; int len, maxlen; char *text; /* * use an initial estimate of 20 bytes per ACL entry * when allocating memory for the text representation * of the ACL */ len = 0; maxlen = 20 * acl_d->count; if ((text = malloc(maxlen)) == NULL) { errno = ENOMEM; return NULL; } for (i = 0; i < acl_d->count; i++) { struct acl *ap = &acl_d->acl[i]; struct passwd *pw; struct group *gr; char tagbuf[12]; char idbuf[12]; char *tag; char *id = ""; char perms[4]; int nbytes; switch (ap->a_type) { /* * for debugging purposes it's probably more * useful to dump unknown tag types rather * than just returning an error */ default: slprintf(tagbuf, sizeof(tagbuf)-1, "0x%x", ap->a_type); tag = tagbuf; slprintf(idbuf, sizeof(idbuf)-1, "%ld", (long)ap->a_id); id = idbuf; break; case SMB_ACL_USER: if ((pw = sys_getpwuid(ap->a_id)) == NULL) { slprintf(idbuf, sizeof(idbuf)-1, "%ld", (long)ap->a_id); id = idbuf; } else { id = pw->pw_name; } case SMB_ACL_USER_OBJ: tag = "user"; break; case SMB_ACL_GROUP: if ((gr = getgrgid(ap->a_id)) == NULL) { slprintf(idbuf, sizeof(idbuf)-1, "%ld", (long)ap->a_id); id = idbuf; } else { id = gr->gr_name; } case SMB_ACL_GROUP_OBJ: tag = "group"; break; case SMB_ACL_OTHER: tag = "other"; break; case SMB_ACL_MASK: tag = "mask"; break; } perms[0] = (ap->a_perm & S_IRUSR) ? 'r' : '-'; perms[1] = (ap->a_perm & S_IWUSR) ? 'w' : '-'; perms[2] = (ap->a_perm & S_IXUSR) ? 'x' : '-'; perms[3] = '\0'; /* : : rwx \n \0 */ nbytes = strlen(tag) + 1 + strlen(id) + 1 + 3 + 1 + 1; if ((len + nbytes) > maxlen) { /* * allocate enough additional memory for this * entry and an estimate of another 20 bytes * for each entry still to be processed */ maxlen += nbytes + 20 * (acl_d->count - i); if ((text = realloc(text, maxlen)) == NULL) { errno = ENOMEM; return NULL; } } slprintf(&text[len], nbytes-1, "%s:%s:%s\n", tag, id, perms); len += nbytes - 1; } if (len_p) *len_p = len; return text; } SMB_ACL_T sys_acl_init(int count) { SMB_ACL_T a; if (count < 0) { errno = EINVAL; return NULL; } /* * note that since the definition of the structure pointed * to by the SMB_ACL_T includes the first element of the * acl[] array, this actually allocates an ACL with room * for (count+1) entries */ if ((a = malloc(sizeof(*a) + count * sizeof(struct acl))) == NULL) { errno = ENOMEM; return NULL; } a->size = count + 1; a->count = 0; a->next = -1; return a; } int sys_acl_create_entry(SMB_ACL_T *acl_p, SMB_ACL_ENTRY_T *entry_p) { SMB_ACL_T acl_d; SMB_ACL_ENTRY_T entry_d; if (acl_p == NULL || entry_p == NULL || (acl_d = *acl_p) == NULL) { errno = EINVAL; return -1; } if (acl_d->count >= acl_d->size) { errno = ENOSPC; return -1; } entry_d = &acl_d->acl[acl_d->count++]; entry_d->a_type = 0; entry_d->a_id = -1; entry_d->a_perm = 0; *entry_p = entry_d; return 0; } int sys_acl_set_tag_type(SMB_ACL_ENTRY_T entry_d, SMB_ACL_TAG_T tag_type) { switch (tag_type) { case SMB_ACL_USER: case SMB_ACL_USER_OBJ: case SMB_ACL_GROUP: case SMB_ACL_GROUP_OBJ: case SMB_ACL_OTHER: case SMB_ACL_MASK: entry_d->a_type = tag_type; break; default: errno = EINVAL; return -1; } return 0; } int sys_acl_set_qualifier(SMB_ACL_ENTRY_T entry_d, void *qual_p) { if (entry_d->a_type != SMB_ACL_GROUP && entry_d->a_type != SMB_ACL_USER) { errno = EINVAL; return -1; } entry_d->a_id = *((id_t *)qual_p); return 0; } int sys_acl_set_permset(SMB_ACL_ENTRY_T entry_d, SMB_ACL_PERMSET_T permset_d) { if (*permset_d & ~(SMB_ACL_READ|SMB_ACL_WRITE|SMB_ACL_EXECUTE)) { return EINVAL; } entry_d->a_perm = *permset_d; return 0; } int sys_acl_valid(SMB_ACL_T acl_d) { if (aclsort(acl_d->count, 0, acl_d->acl) != 0) { errno = EINVAL; return -1; } return 0; } int sys_acl_set_file(char *name, SMB_ACL_TYPE_T type, SMB_ACL_T acl_d) { struct stat s; struct acl *acl_p; int acl_count; struct acl *acl_buf = NULL; int ret; if (type != SMB_ACL_TYPE_ACCESS && type != SMB_ACL_TYPE_DEFAULT) { errno = EINVAL; return -1; } if (stat(name, &s) != 0) { return -1; } acl_p = &acl_d->acl[0]; acl_count = acl_d->count; /* * if it's a directory there is extra work to do * since the acl() system call will replace both * the access ACLs and the default ACLs (if any) */ if (S_ISDIR(s.st_mode)) { SMB_ACL_T acc_acl; SMB_ACL_T def_acl; SMB_ACL_T tmp_acl; int i; if (type == SMB_ACL_TYPE_ACCESS) { acc_acl = acl_d; def_acl = tmp_acl = sys_acl_get_file(name, SMB_ACL_TYPE_DEFAULT); } else { def_acl = acl_d; acc_acl = tmp_acl = sys_acl_get_file(name, SMB_ACL_TYPE_ACCESS); } if (tmp_acl == NULL) { return -1; } /* * allocate a temporary buffer for the complete ACL */ acl_count = acc_acl->count + def_acl->count; acl_p = acl_buf = malloc(acl_count * sizeof(acl_buf[0])); if (acl_buf == NULL) { sys_acl_free_acl(tmp_acl); errno = ENOMEM; return -1; } /* * copy the access control and default entries into the buffer */ memcpy(&acl_buf[0], &acc_acl->acl[0], acc_acl->count * sizeof(acl_buf[0])); memcpy(&acl_buf[acc_acl->count], &def_acl->acl[0], def_acl->count * sizeof(acl_buf[0])); /* * set the ACL_DEFAULT flag on the default entries */ for (i = acc_acl->count; i < acl_count; i++) { acl_buf[i].a_type |= ACL_DEFAULT; } sys_acl_free_acl(tmp_acl); } else if (type != SMB_ACL_TYPE_ACCESS) { errno = EINVAL; return -1; } if (aclsort(acl_count, 0, acl_p) != 0) { errno = EINVAL; ret = -1; } else { ret = acl(name, SETACL, acl_count, acl_p); } if (acl_buf) { free(acl_buf); } return ret; } int sys_acl_set_fd(int fd, SMB_ACL_T acl_d) { if (aclsort(acl_d->count, 0, acl_d->acl) != 0) { errno = EINVAL; return -1; } return facl(fd, SETACL, acl_d->count, &acl_d->acl[0]); } int sys_acl_free_text(char *text) { free(text); return 0; } int sys_acl_free_acl(SMB_ACL_T acl_d) { free(acl_d); return 0; } #elif defined(HAVE_SOLARIS_ACLS) /* * Code donated by Toomas Soome . * Based on the implementation by Michael Davidson for UnixWare. */ #define INITIAL_ACL_SIZE 16 int sys_acl_get_entry(SMB_ACL_T acl_d, int entry_id, SMB_ACL_ENTRY_T *entry_p) { if (entry_id != SMB_ACL_FIRST_ENTRY && entry_id != SMB_ACL_NEXT_ENTRY) { errno = EINVAL; return -1; } if (entry_p == NULL) { errno = EINVAL; return -1; } if (entry_id == SMB_ACL_FIRST_ENTRY) { acl_d->next = 0; } if (acl_d->next < 0) { errno = EINVAL; return -1; } if (acl_d->next >= acl_d->count) { return 0; } *entry_p = &acl_d->acl[acl_d->next++]; return 1; } int sys_acl_get_tag_type(SMB_ACL_ENTRY_T entry_d, SMB_ACL_TAG_T *type_p) { *type_p = entry_d->a_type; return 0; } int sys_acl_get_permset(SMB_ACL_ENTRY_T entry_d, SMB_ACL_PERMSET_T *permset_p) { *permset_p = &entry_d->a_perm; return 0; } void *sys_acl_get_qualifier(SMB_ACL_ENTRY_T entry_d) { if (entry_d->a_type != SMB_ACL_USER && entry_d->a_type != SMB_ACL_GROUP) { errno = EINVAL; return NULL; } return &entry_d->a_id; } SMB_ACL_T sys_acl_get_file(const char *path_p, SMB_ACL_TYPE_T type) { SMB_ACL_T acl_d; int count; /* # of ACL entries allocated */ int naccess; /* # of access ACL entries */ int ndefault; /* # of default ACL entries */ if (type != SMB_ACL_TYPE_ACCESS && type != SMB_ACL_TYPE_DEFAULT) { errno = EINVAL; return NULL; } count = INITIAL_ACL_SIZE; if ((acl_d = sys_acl_init(count)) == NULL) { return NULL; } while ((count = acl(path_p, GETACL, count, &acl_d->acl[0])) < 0 && errno == ENOSPC) { if ((count = acl(path_p, GETACLCNT, 0, NULL)) < 0) { return NULL; } sys_acl_free_acl(acl_d); if ((acl_d = sys_acl_init(count)) == NULL) { return NULL; } } if (count < 0) { return NULL; } /* * calculate the number of access and default ACL entries * * Note: we assume that the acl() system call returned a * well formed ACL which is sorted so that all of the * access ACL entries preceed any default ACL entries */ for (naccess = 0; naccess < count; naccess++) { if (acl_d->acl[naccess].a_type & ACL_DEFAULT) break; } ndefault = count - naccess; /* * if the caller wants the default ACL we have to copy * the entries down to the start of the acl[] buffer * and mask out the ACL_DEFAULT flag from the type field */ if (type == SMB_ACL_TYPE_DEFAULT) { int i, j; for (i = 0, j = naccess; i < ndefault; i++, j++) { acl_d->acl[i] = acl_d->acl[j]; acl_d->acl[i].a_type &= ~ACL_DEFAULT; } acl_d->count = ndefault; } else { acl_d->count = naccess; } return acl_d; } SMB_ACL_T sys_acl_get_fd(int fd) { SMB_ACL_T acl_d; int count; /* # of ACL entries allocated */ int naccess; /* # of access ACL entries */ count = INITIAL_ACL_SIZE; if ((acl_d = sys_acl_init(count)) == NULL) { return NULL; } while ((count = facl(fd, GETACL, count, &acl_d->acl[0])) < 0 && errno == ENOSPC) { if ((count = facl(fd, GETACLCNT, 0, NULL)) < 0) { return NULL; } sys_acl_free_acl(acl_d); if ((acl_d = sys_acl_init(count)) == NULL) { return NULL; } } if (count < 0) { return NULL; } /* * calculate the number of access ACL entries */ for (naccess = 0; naccess < count; naccess++) { if (acl_d->acl[naccess].a_type & ACL_DEFAULT) break; } acl_d->count = naccess; return acl_d; } int sys_acl_clear_perms(SMB_ACL_PERMSET_T permset_d) { *permset_d = 0; return 0; } int sys_acl_add_perm(SMB_ACL_PERMSET_T permset_d, SMB_ACL_PERM_T perm) { if (perm != SMB_ACL_READ && perm != SMB_ACL_WRITE && perm != SMB_ACL_EXECUTE) { errno = EINVAL; return -1; } if (permset_d == NULL) { errno = EINVAL; return -1; } *permset_d |= perm; return 0; } int sys_acl_get_perm(SMB_ACL_PERMSET_T permset_d, SMB_ACL_PERM_T perm) { return *permset_d & perm; } char *sys_acl_to_text(SMB_ACL_T acl_d, ssize_t *len_p) { int i; int len, maxlen; char *text; /* * use an initial estimate of 20 bytes per ACL entry * when allocating memory for the text representation * of the ACL */ len = 0; maxlen = 20 * acl_d->count; if ((text = malloc(maxlen)) == NULL) { errno = ENOMEM; return NULL; } for (i = 0; i < acl_d->count; i++) { struct acl *ap = &acl_d->acl[i]; struct passwd *pw; struct group *gr; char tagbuf[12]; char idbuf[12]; char *tag; char *id = ""; char perms[4]; int nbytes; switch (ap->a_type) { /* * for debugging purposes it's probably more * useful to dump unknown tag types rather * than just returning an error */ default: slprintf(tagbuf, sizeof(tagbuf)-1, "0x%x", ap->a_type); tag = tagbuf; slprintf(idbuf, sizeof(idbuf)-1, "%ld", (long)ap->a_id); id = idbuf; break; case SMB_ACL_USER: if ((pw = sys_getpwuid(ap->a_id)) == NULL) { slprintf(idbuf, sizeof(idbuf)-1, "%ld", (long)ap->a_id); id = idbuf; } else { id = pw->pw_name; } case SMB_ACL_USER_OBJ: tag = "user"; break; case SMB_ACL_GROUP: if ((gr = getgrgid(ap->a_id)) == NULL) { slprintf(idbuf, sizeof(idbuf)-1, "%ld", (long)ap->a_id); id = idbuf; } else { id = gr->gr_name; } case SMB_ACL_GROUP_OBJ: tag = "group"; break; case SMB_ACL_OTHER: tag = "other"; break; case SMB_ACL_MASK: tag = "mask"; break; } perms[0] = (ap->a_perm & SMB_ACL_READ) ? 'r' : '-'; perms[1] = (ap->a_perm & SMB_ACL_WRITE) ? 'w' : '-'; perms[2] = (ap->a_perm & SMB_ACL_EXECUTE) ? 'x' : '-'; perms[3] = '\0'; /* : : rwx \n \0 */ nbytes = strlen(tag) + 1 + strlen(id) + 1 + 3 + 1 + 1; if ((len + nbytes) > maxlen) { /* * allocate enough additional memory for this * entry and an estimate of another 20 bytes * for each entry still to be processed */ maxlen += nbytes + 20 * (acl_d->count - i); if ((text = realloc(text, maxlen)) == NULL) { errno = ENOMEM; return NULL; } } slprintf(&text[len], nbytes-1, "%s:%s:%s\n", tag, id, perms); len += nbytes - 1; } if (len_p) *len_p = len; return text; } SMB_ACL_T sys_acl_init(int count) { SMB_ACL_T a; if (count < 0) { errno = EINVAL; return NULL; } /* * note that since the definition of the structure pointed * to by the SMB_ACL_T includes the first element of the * acl[] array, this actually allocates an ACL with room * for (count+1) entries */ if ((a = malloc(sizeof(*a) + count * sizeof(struct acl))) == NULL) { errno = ENOMEM; return NULL; } a->size = count + 1; a->count = 0; a->next = -1; return a; } int sys_acl_create_entry(SMB_ACL_T *acl_p, SMB_ACL_ENTRY_T *entry_p) { SMB_ACL_T acl_d; SMB_ACL_ENTRY_T entry_d; if (acl_p == NULL || entry_p == NULL || (acl_d = *acl_p) == NULL) { errno = EINVAL; return -1; } if (acl_d->count >= acl_d->size) { errno = ENOSPC; return -1; } entry_d = &acl_d->acl[acl_d->count++]; entry_d->a_type = 0; entry_d->a_id = -1; entry_d->a_perm = 0; *entry_p = entry_d; return 0; } int sys_acl_set_tag_type(SMB_ACL_ENTRY_T entry_d, SMB_ACL_TAG_T tag_type) { switch (tag_type) { case SMB_ACL_USER: case SMB_ACL_USER_OBJ: case SMB_ACL_GROUP: case SMB_ACL_GROUP_OBJ: case SMB_ACL_OTHER: case SMB_ACL_MASK: entry_d->a_type = tag_type; break; default: errno = EINVAL; return -1; } return 0; } int sys_acl_set_qualifier(SMB_ACL_ENTRY_T entry_d, void *qual_p) { if (entry_d->a_type != SMB_ACL_GROUP && entry_d->a_type != SMB_ACL_USER) { errno = EINVAL; return -1; } entry_d->a_id = *((id_t *)qual_p); return 0; } int sys_acl_set_permset(SMB_ACL_ENTRY_T entry_d, SMB_ACL_PERMSET_T permset_d) { if (*permset_d & ~(SMB_ACL_READ|SMB_ACL_WRITE|SMB_ACL_EXECUTE)) { return EINVAL; } entry_d->a_perm = *permset_d; return 0; } int sys_acl_valid(SMB_ACL_T acl_d) { if (aclsort(acl_d->count, 0, acl_d->acl) != 0) { errno = EINVAL; return -1; } return 0; } int sys_acl_set_file(char *name, SMB_ACL_TYPE_T type, SMB_ACL_T acl_d) { struct stat s; struct acl *acl_p; int acl_count; struct acl *acl_buf = NULL; int ret; if (type != SMB_ACL_TYPE_ACCESS && type != SMB_ACL_TYPE_DEFAULT) { errno = EINVAL; return -1; } if (stat(name, &s) != 0) { return -1; } acl_p = &acl_d->acl[0]; acl_count = acl_d->count; /* * if it's a directory there is extra work to do * since the acl() system call will replace both * the access ACLs and the default ACLs (if any) */ if (S_ISDIR(s.st_mode)) { SMB_ACL_T acc_acl; SMB_ACL_T def_acl; SMB_ACL_T tmp_acl; int i; if (type == SMB_ACL_TYPE_ACCESS) { acc_acl = acl_d; def_acl = tmp_acl = sys_acl_get_file(name, SMB_ACL_TYPE_DEFAULT); } else { def_acl = acl_d; acc_acl = tmp_acl = sys_acl_get_file(name, SMB_ACL_TYPE_ACCESS); } if (tmp_acl == NULL) { return -1; } /* * allocate a temporary buffer for the complete ACL */ acl_count = acc_acl->count + def_acl->count; acl_p = acl_buf = malloc(acl_count * sizeof(acl_buf[0])); if (acl_buf == NULL) { sys_acl_free_acl(tmp_acl); errno = ENOMEM; return -1; } /* * copy the access control and default entries into the buffer */ memcpy(&acl_buf[0], &acc_acl->acl[0], acc_acl->count * sizeof(acl_buf[0])); memcpy(&acl_buf[acc_acl->count], &def_acl->acl[0], def_acl->count * sizeof(acl_buf[0])); /* * set the ACL_DEFAULT flag on the default entries */ for (i = acc_acl->count; i < acl_count; i++) { acl_buf[i].a_type |= ACL_DEFAULT; } sys_acl_free_acl(tmp_acl); } else if (type != SMB_ACL_TYPE_ACCESS) { errno = EINVAL; return -1; } if (aclsort(acl_count, 0, acl_p) != 0) { errno = EINVAL; ret = -1; } else { ret = acl(name, SETACL, acl_count, acl_p); } if (acl_buf) { free(acl_buf); } return ret; } int sys_acl_set_fd(int fd, SMB_ACL_T acl_d) { if (aclsort(acl_d->count, 0, acl_d->acl) != 0) { errno = EINVAL; return -1; } return facl(fd, SETACL, acl_d->count, &acl_d->acl[0]); } int sys_acl_free_text(char *text) { free(text); return 0; } int sys_acl_free_acl(SMB_ACL_T acl_d) { free(acl_d); return 0; } #elif defined(HAVE_IRIX_ACLS) #else /* No ACLs. */ int sys_acl_get_entry( SMB_ACL_T the_acl, int entry_id, SMB_ACL_ENTRY_T *entry_p) { errno = ENOSYS; return -1; } int sys_acl_get_tag_type( SMB_ACL_ENTRY_T entry_d, SMB_ACL_TAG_T *tag_type_p) { errno = ENOSYS; return -1; } int sys_acl_get_permset( SMB_ACL_ENTRY_T entry_d, SMB_ACL_PERMSET_T *permset_p) { errno = ENOSYS; return -1; } void *sys_acl_get_qualifier( SMB_ACL_ENTRY_T entry_d) { errno = ENOSYS; return NULL; } SMB_ACL_T sys_acl_get_file( const char *path_p, SMB_ACL_TYPE_T type) { errno = ENOSYS; return (SMB_ACL_T)NULL; } SMB_ACL_T sys_acl_get_fd(int fd) { errno = ENOSYS; return (SMB_ACL_T)NULL; } int sys_acl_clear_perms(SMB_ACL_PERMSET_T permset) { errno = ENOSYS; return -1; } int sys_acl_add_perm( SMB_ACL_PERMSET_T permset, SMB_ACL_PERM_T perm) { errno = ENOSYS; return -1; } int sys_acl_get_perm( SMB_ACL_PERMSET_T permset, SMB_ACL_PERM_T perm) { errno = ENOSYS; return (permset & perm) ? 1 : 0; } char *sys_acl_to_text( SMB_ACL_T the_acl, ssize_t *plen) { errno = ENOSYS; return NULL; } int sys_acl_free_text(char *text) { errno = ENOSYS; return -1; } SMB_ACL_T sys_acl_init( int count) { errno = ENOSYS; return NULL; } int sys_acl_create_entry( SMB_ACL_T *pacl, SMB_ACL_ENTRY_T *pentry) { errno = ENOSYS; return -1; } int sys_acl_set_tag_type( SMB_ACL_ENTRY_T entry, SMB_ACL_TAG_T tagtype) { errno = ENOSYS; return -1; } int sys_acl_set_qualifier( SMB_ACL_ENTRY_T entry, void *qual) { errno = ENOSYS; return -1; } int sys_acl_set_permset( SMB_ACL_ENTRY_T entry, SMB_ACL_PERMSET_T permset) { errno = ENOSYS; return -1; } int sys_acl_valid( SMB_ACL_T theacl ) { errno = ENOSYS; return -1; } int sys_acl_set_file( char *name, SMB_ACL_TYPE_T acltype, SMB_ACL_T theacl) { errno = ENOSYS; return -1; } int sys_acl_set_fd( int fd, SMB_ACL_T theacl) { errno = ENOSYS; return -1; } int sys_acl_free_acl(SMB_ACL_T the_acl) { errno = ENOSYS; return -1; } #endif /* No ACLs. */