/* acl.c - routines to parse and check acl's */ #include "portable.h" #include #include #include #include #include "slap.h" static int regex_matches(char *pat, char *str, char *buf, regmatch_t *matches); static void string_expand(char *newbuf, int bufsiz, char *pattern, char *match, regmatch_t *matches); /* * access_allowed - check whether op->o_ndn is allowed the requested access * to entry e, attribute attr, value val. if val is null, access to * the whole attribute is assumed (all values). this routine finds * the applicable acl and calls acl_access_allowed() to make the * decision. * * returns 0 access NOT allowed * 1 access allowed */ int access_allowed( Backend *be, Connection *conn, Operation *op, Entry *e, char *attr, struct berval *val, int access ) { int rc; struct acl *a; char *edn; regmatch_t matches[MAXREMATCHES]; int i; int n; if ( be == NULL ) { return( 0 ); } edn = e->e_ndn; Debug( LDAP_DEBUG_ACL, "\n=> access_allowed: entry (%s) attr (%s)\n", e->e_dn, attr, 0 ); /* the lastmod attributes are ignored by ACL checking */ if ( oc_check_no_usermod_attr( attr ) ) { Debug( LDAP_DEBUG_ACL, "Operational attribute: %s access allowed\n", attr, 0, 0 ); return(1); } memset(matches, 0, sizeof(matches)); a = acl_get_applicable( be, op, e, attr, MAXREMATCHES, matches ); if (a) { for (i = 0; i < MAXREMATCHES && matches[i].rm_so > 0; i++) { Debug( LDAP_DEBUG_ARGS, "=> match[%d]: %d %d ", i, (int)matches[i].rm_so, (int)matches[i].rm_eo ); if( matches[i].rm_so <= matches[0].rm_eo ) { for ( n = matches[i].rm_so; n < matches[i].rm_eo; n++) { Debug( LDAP_DEBUG_ARGS, "%c", edn[n], 0, 0 ); } } Debug( LDAP_DEBUG_ARGS, "\n", 0, 0, 0 ); } } rc = acl_access_allowed( a, be, conn, e, val, op, access, edn, matches ); Debug( LDAP_DEBUG_ACL, "\n=> access_allowed: exit (%s) attr (%s)\n", e->e_dn, attr, 0); return( rc ); } /* * acl_get_applicable - return the acl applicable to entry e, attribute * attr. the acl returned is suitable for use in subsequent calls to * acl_access_allowed(). */ struct acl * acl_get_applicable( Backend *be, Operation *op, Entry *e, char *attr, int nmatch, regmatch_t *matches ) { int i; struct acl *a; char *edn; Debug( LDAP_DEBUG_ACL, "\n=> acl_get: entry (%s) attr (%s)\n", e->e_dn, attr, 0 ); if ( be_isroot( be, op->o_ndn ) ) { Debug( LDAP_DEBUG_ACL, "<= acl_get: no acl applicable to database root\n", 0, 0, 0 ); return( NULL ); } edn = e->e_ndn; Debug( LDAP_DEBUG_ARGS, "=> acl_get: edn %s\n", edn, 0, 0 ); /* check for a backend-specific acl that matches the entry */ for ( i = 1, a = be->be_acl; a != NULL; a = a->acl_next, i++ ) { if (a->acl_dnpat != NULL) { Debug( LDAP_DEBUG_TRACE, "=> dnpat: [%d] %s nsub: %d\n", i, a->acl_dnpat, (int) a->acl_dnre.re_nsub); if (regexec(&a->acl_dnre, edn, nmatch, matches, 0)) continue; else Debug( LDAP_DEBUG_TRACE, "=> acl_get:[%d] backend ACL match\n", i, 0, 0); } if ( a->acl_filter != NULL ) { if ( test_filter( NULL, NULL, NULL, e, a->acl_filter ) != 0 ) { continue; } } Debug( LDAP_DEBUG_ARGS, "=> acl_get: [%d] check attr %s\n", i, attr, 0); if ( attr == NULL || a->acl_attrs == NULL || charray_inlist( a->acl_attrs, attr ) ) { Debug( LDAP_DEBUG_ACL, "<= acl_get: [%d] backend acl %s attr: %s\n", i, e->e_dn, attr ); return( a ); } matches[0].rm_so = matches[0].rm_eo = -1; } /* check for a global acl that matches the entry */ for ( i = 1, a = global_acl; a != NULL; a = a->acl_next, i++ ) { if (a->acl_dnpat != NULL) { Debug( LDAP_DEBUG_TRACE, "=> dnpat: [%d] %s nsub: %d\n", i, a->acl_dnpat, (int) a->acl_dnre.re_nsub); if (regexec(&a->acl_dnre, edn, nmatch, matches, 0)) { continue; } else { Debug( LDAP_DEBUG_TRACE, "=> acl_get: [%d] global ACL match\n", i, 0, 0); } } if ( a->acl_filter != NULL ) { if ( test_filter( NULL, NULL, NULL, e, a->acl_filter ) != 0 ) { continue; } } Debug( LDAP_DEBUG_ARGS, "=> acl_get: [%d] check attr\n", i, 0, 0); if ( attr == NULL || a->acl_attrs == NULL || charray_inlist( a->acl_attrs, attr ) ) { Debug( LDAP_DEBUG_ACL, "<= acl_get: [%d] global acl %s attr: %s\n", i, e->e_dn, attr ); return( a ); } matches[0].rm_so = matches[0].rm_eo = -1; } Debug( LDAP_DEBUG_ACL, "<= acl_get: no match\n", 0, 0, 0 ); return( NULL ); } /* * acl_access_allowed - check whether the given acl allows dn the * requested access to entry e, attribute attr, value val. if val * is null, access to the whole attribute is assumed (all values). * * returns 0 access NOT allowed * 1 access allowed */ int acl_access_allowed( struct acl *a, Backend *be, Connection *conn, Entry *e, struct berval *val, Operation *op, int access, char *edn, regmatch_t *matches ) { int i; struct access *b; Attribute *at; struct berval bv; int default_access; Debug( LDAP_DEBUG_ACL, "\n=> acl_access_allowed: %s access to entry \"%s\"\n", access2str( access ), e->e_dn, 0 ); Debug( LDAP_DEBUG_ACL, "\n=> acl_access_allowed: %s access to value \"%s\" by \"%s\"\n", access2str( access ), val ? val->bv_val : "any", op->o_ndn ? op->o_ndn : "" ); if ( be_isroot( be, op->o_ndn ) ) { Debug( LDAP_DEBUG_ACL, "<= acl_access_allowed: granted to database root\n", 0, 0, 0 ); return( 1 ); } default_access = be->be_dfltaccess ? be->be_dfltaccess : global_default_access; if ( a == NULL ) { Debug( LDAP_DEBUG_ACL, "<= acl_access_allowed: %s by default (no matching to)\n", default_access >= access ? "granted" : "denied", 0, 0 ); return( default_access >= access ); } if ( op->o_ndn != NULL ) { bv.bv_val = op->o_ndn; bv.bv_len = strlen( bv.bv_val ); } for ( i = 1, b = a->acl_access; b != NULL; b = b->a_next, i++ ) { if ( b->a_dnpat != NULL ) { Debug( LDAP_DEBUG_TRACE, "<= check a_dnpat: %s\n", b->a_dnpat, 0, 0); /* * if access applies to the entry itself, and the * user is bound as somebody in the same namespace as * the entry, OR the given dn matches the dn pattern */ if ( strcasecmp( b->a_dnpat, "anonymous" ) == 0 && (op->o_ndn == NULL || *(op->o_ndn) == '\0' ) ) { Debug( LDAP_DEBUG_ACL, "<= acl_access_allowed: matched by clause #%d access %s\n", i, ACL_GRANT(b->a_access, access) ? "granted" : "denied", 0 ); return ACL_GRANT(b->a_access, access ); } else if ( strcasecmp( b->a_dnpat, "self" ) == 0 && op->o_ndn != NULL && *(op->o_ndn) && e->e_dn != NULL ) { if ( strcmp( edn, op->o_ndn ) == 0 ) { Debug( LDAP_DEBUG_ACL, "<= acl_access_allowed: matched by clause #%d access %s\n", i, ACL_GRANT(b->a_access, access) ? "granted" : "denied", 0 ); return ACL_GRANT(b->a_access, access ); } } else { if ( regex_matches( b->a_dnpat, op->o_ndn, edn, matches ) ) { Debug( LDAP_DEBUG_ACL, "<= acl_access_allowed: matched by clause #%d access %s\n", i, ACL_GRANT(b->a_access, access) ? "granted" : "denied", 0 ); return ACL_GRANT(b->a_access, access ); } } } if ( b->a_addrpat != NULL ) { if ( regex_matches( b->a_addrpat, conn->c_client_addr, edn, matches ) ) { Debug( LDAP_DEBUG_ACL, "<= acl_access_allowed: matched by clause #%d access %s\n", i, ACL_GRANT(b->a_access, access) ? "granted" : "denied", 0 ); return ACL_GRANT(b->a_access, access ); } } if ( b->a_domainpat != NULL ) { Debug( LDAP_DEBUG_ARGS, "<= check a_domainpath: %s\n", b->a_domainpat, 0, 0 ); if ( regex_matches( b->a_domainpat, conn->c_client_name, edn, matches ) ) { Debug( LDAP_DEBUG_ACL, "<= acl_access_allowed: matched by clause #%d access %s\n", i, ACL_GRANT(b->a_access, access) ? "granted" : "denied", 0 ); return ACL_GRANT(b->a_access, access ); } } if ( b->a_dnattr != NULL && op->o_ndn != NULL ) { Debug( LDAP_DEBUG_ARGS, "<= check a_dnattr: %s\n", b->a_dnattr, 0, 0); /* see if asker is listed in dnattr */ if ( (at = attr_find( e->e_attrs, b->a_dnattr )) != NULL && value_find( at->a_vals, &bv, at->a_syntax, 3 ) == 0 ) { if ( ACL_IS_SELF(b->a_access) && (val == NULL || value_cmp( &bv, val, at->a_syntax, 2 )) ) { continue; } Debug( LDAP_DEBUG_ACL, "<= acl_acces_allowed: matched by clause #%d access %s\n", i, ACL_GRANT(b->a_access, access) ? "granted" : "denied", 0 ); return ACL_GRANT(b->a_access, access ); } /* asker not listed in dnattr - check for self access */ if ( ! ACL_IS_SELF(b->a_access) || val == NULL || value_cmp( &bv, val, at->a_syntax, 2 ) != 0 ) { continue; } Debug( LDAP_DEBUG_ACL, "<= acl_access_allowed: matched by clause #%d (self) access %s\n", i, ACL_GRANT(b->a_access, access) ? "granted" : "denied", 0 ); return ACL_GRANT(b->a_access, access ); } if ( b->a_group != NULL && op->o_ndn != NULL ) { char buf[1024]; /* b->a_group is an unexpanded entry name, expanded it should be an * entry with objectclass group* and we test to see if odn is one of * the values in the attribute group */ /* see if asker is listed in dnattr */ string_expand(buf, sizeof(buf), b->a_group, edn, matches); (void) dn_normalize_case(buf); if (backend_group(be, e, buf, op->o_ndn, b->a_group_oc, b->a_group_at) == 0) { Debug( LDAP_DEBUG_ACL, "<= acl_access_allowed: matched by clause #%d (group) access granted\n", i, 0, 0 ); return ACL_GRANT(b->a_access, access ); } } } Debug( LDAP_DEBUG_ACL, "<= acl_access_allowed: %s by default (no matching by)\n", default_access >= access ? "granted" : "denied", 0, 0 ); return( default_access >= access ); } /* * acl_check_modlist - check access control on the given entry to see if * it allows the given modifications by the user associated with op. * returns LDAP_SUCCESS mods allowed ok * anything else mods not allowed - return is an error * code indicating the problem */ int acl_check_modlist( Backend *be, Connection *conn, Operation *op, Entry *e, LDAPModList *mlist ) { int i; struct acl *a; char *edn = e->e_ndn; for ( ; mlist != NULL; mlist = mlist->ml_next ) { regmatch_t matches[MAXREMATCHES]; /* the lastmod attributes are ignored by ACL checking */ if ( oc_check_no_usermod_attr( mlist->ml_type ) ) { Debug( LDAP_DEBUG_ACL, "Operational attribute: %s access allowed\n", mlist->ml_type, 0, 0 ); continue; } a = acl_get_applicable( be, op, e, mlist->ml_type, MAXREMATCHES, matches ); switch ( mlist->ml_op & ~LDAP_MOD_BVALUES ) { case LDAP_MOD_REPLACE: case LDAP_MOD_ADD: if ( mlist->ml_bvalues == NULL ) { break; } for ( i = 0; mlist->ml_bvalues[i] != NULL; i++ ) { if ( ! acl_access_allowed( a, be, conn, e, mlist->ml_bvalues[i], op, ACL_WRITE, edn, matches) ) { return( LDAP_INSUFFICIENT_ACCESS ); } } break; case LDAP_MOD_DELETE: if ( mlist->ml_bvalues == NULL ) { if ( ! acl_access_allowed( a, be, conn, e, NULL, op, ACL_WRITE, edn, matches) ) { return( LDAP_INSUFFICIENT_ACCESS ); } break; } for ( i = 0; mlist->ml_bvalues[i] != NULL; i++ ) { if ( ! acl_access_allowed( a, be, conn, e, mlist->ml_bvalues[i], op, ACL_WRITE, edn, matches) ) { return( LDAP_INSUFFICIENT_ACCESS ); } } break; } } return( LDAP_SUCCESS ); } static void string_expand( char *newbuf, int bufsiz, char *pat, char *match, regmatch_t *matches) { int size; char *sp; char *dp; int flag; size = 0; newbuf[0] = '\0'; flag = 0; for ( dp = newbuf, sp = pat; size < bufsiz && *sp ; sp++) { /* did we previously see a $ */ if (flag) { if (*sp == '$') { *dp++ = '$'; size++; } else if (*sp >= '0' && *sp <= '9' ) { int n; int i; int l; n = *sp - '0'; *dp = '\0'; i = matches[n].rm_so; l = matches[n].rm_eo; for ( ; size < 512 && i < l; size++, i++ ) { *dp++ = match[i]; size++; } *dp = '\0'; } flag = 0; } else { if (*sp == '$') { flag = 1; } else { *dp++ = *sp; size++; } } } *dp = '\0'; Debug( LDAP_DEBUG_TRACE, "=> string_expand: pattern: %s\n", pat, 0, 0 ); Debug( LDAP_DEBUG_TRACE, "=> string_expand: expanded: %s\n", newbuf, 0, 0 ); } static int regex_matches( char *pat, /* pattern to expand and match against */ char *str, /* string to match against pattern */ char *buf, /* buffer with $N expansion variables */ regmatch_t *matches /* offsets in buffer for $N expansion variables */ ) { regex_t re; char newbuf[512]; int rc; if(str == NULL) str = ""; string_expand(newbuf, sizeof(newbuf), pat, buf, matches); if (( rc = regcomp(&re, newbuf, REG_EXTENDED|REG_ICASE))) { char error[512]; regerror(rc, &re, error, sizeof(error)); Debug( LDAP_DEBUG_TRACE, "compile( \"%s\", \"%s\") failed %s\n", pat, str, error ); return( 0 ); } rc = regexec(&re, str, 0, NULL, 0); regfree( &re ); Debug( LDAP_DEBUG_TRACE, "=> regex_matches: string: %s\n", str, 0, 0 ); Debug( LDAP_DEBUG_TRACE, "=> regex_matches: rc: %d %s\n", rc, !rc ? "matches" : "no matches", 0 ); return( !rc ); }