void _auto_configure_addr(gnrc_netif_t *netif, const ipv6_addr_t *pfx,
uint8_t pfx_len)
{
ipv6_addr_t addr = IPV6_ADDR_UNSPECIFIED;
int idx;
uint8_t flags = GNRC_NETIF_IPV6_ADDRS_FLAGS_STATE_TENTATIVE;
if (!(netif->flags & GNRC_NETIF_FLAGS_HAS_L2ADDR)) {
DEBUG("nib: interface %i has no link-layer addresses\n", netif->pid);
return;
}
DEBUG("nib: add address based on %s/%u automatically to interface %u\n",
ipv6_addr_to_str(addr_str, pfx, sizeof(addr_str)),
pfx_len, netif->pid);
#if GNRC_IPV6_NIB_CONF_6LN
bool new_address = false;
#endif /* GNRC_IPV6_NIB_CONF_6LN */
gnrc_netif_ipv6_get_iid(netif, (eui64_t *)&addr.u64[1]);
ipv6_addr_init_prefix(&addr, pfx, pfx_len);
if ((idx = gnrc_netif_ipv6_addr_idx(netif, &addr)) < 0) {
if ((idx = gnrc_netif_ipv6_addr_add_internal(netif, &addr, pfx_len,
flags)) < 0) {
DEBUG("nib: Can't add link-local address on interface %u\n",
netif->pid);
return;
}
#if GNRC_IPV6_NIB_CONF_6LN
new_address = true;
#endif /* GNRC_IPV6_NIB_CONF_6LN */
}
#if GNRC_IPV6_NIB_CONF_6LN
/* mark link-local addresses as valid on 6LN */
if (gnrc_netif_is_6ln(netif) && ipv6_addr_is_link_local(pfx)) {
/* don't do this beforehand or risk a deadlock:
* - gnrc_netif_ipv6_addr_add_internal() adds VALID (i.e. manually configured
* addresses to the prefix list locking the NIB's mutex which is already
* locked here) */
netif->ipv6.addrs_flags[idx] &= ~GNRC_NETIF_IPV6_ADDRS_FLAGS_STATE_MASK;
netif->ipv6.addrs_flags[idx] |= GNRC_NETIF_IPV6_ADDRS_FLAGS_STATE_VALID;
}
#endif /* GNRC_IPV6_NIB_CONF_6LN */
#if GNRC_IPV6_NIB_CONF_6LN
if (new_address && gnrc_netif_is_6ln(netif) &&
!gnrc_netif_is_6lbr(netif)) {
_handle_rereg_address(&netif->ipv6.addrs[idx]);
}
#else /* GNRC_IPV6_NIB_CONF_6LN */
(void)idx;
#endif /* GNRC_IPV6_NIB_CONF_6LN */
}
int gnrc_netif_set_from_netdev(gnrc_netif_t *netif,
const gnrc_netapi_opt_t *opt)
{
int res = -ENOTSUP;
gnrc_netif_acquire(netif);
switch (opt->opt) {
case NETOPT_HOP_LIMIT:
assert(opt->data_len == sizeof(uint8_t));
netif->cur_hl = *((uint8_t *)opt->data);
res = sizeof(uint8_t);
break;
#ifdef MODULE_GNRC_IPV6
case NETOPT_IPV6_ADDR: {
assert(opt->data_len == sizeof(ipv6_addr_t));
/* always assume manually added */
uint8_t flags = ((((uint8_t)opt->context & 0xff) &
~GNRC_NETIF_IPV6_ADDRS_FLAGS_STATE_MASK) |
GNRC_NETIF_IPV6_ADDRS_FLAGS_STATE_VALID);
uint8_t pfx_len = (uint8_t)(opt->context >> 8U);
/* acquire locks a recursive mutex so we are safe calling this
* public function */
res = gnrc_netif_ipv6_addr_add_internal(netif, opt->data,
pfx_len, flags);
if (res >= 0) {
res = sizeof(ipv6_addr_t);
}
}
break;
case NETOPT_IPV6_ADDR_REMOVE:
assert(opt->data_len == sizeof(ipv6_addr_t));
/* acquire locks a recursive mutex so we are safe calling this
* public function */
gnrc_netif_ipv6_addr_remove_internal(netif, opt->data);
res = sizeof(ipv6_addr_t);
break;
case NETOPT_IPV6_GROUP:
assert(opt->data_len == sizeof(ipv6_addr_t));
/* acquire locks a recursive mutex so we are safe calling this
* public function */
res = gnrc_netif_ipv6_group_join_internal(netif, opt->data);
if (res >= 0) {
res = sizeof(ipv6_addr_t);
}
break;
case NETOPT_IPV6_GROUP_LEAVE:
assert(opt->data_len == sizeof(ipv6_addr_t));
/* acquire locks a recursive mutex so we are safe calling this
* public function */
gnrc_netif_ipv6_group_leave_internal(netif, opt->data);
res = sizeof(ipv6_addr_t);
break;
case NETOPT_MAX_PACKET_SIZE:
if (opt->context == GNRC_NETTYPE_IPV6) {
assert(opt->data_len == sizeof(uint16_t));
netif->ipv6.mtu = *((uint16_t *)opt->data);
res = sizeof(uint16_t);
}
/* else set device */
break;
#if GNRC_IPV6_NIB_CONF_ROUTER
case NETOPT_IPV6_FORWARDING:
assert(opt->data_len == sizeof(netopt_enable_t));
if (*(((netopt_enable_t *)opt->data)) == NETOPT_ENABLE) {
netif->flags |= GNRC_NETIF_FLAGS_IPV6_FORWARDING;
}
else {
if (gnrc_netif_is_rtr_adv(netif)) {
gnrc_ipv6_nib_change_rtr_adv_iface(netif, false);
}
netif->flags &= ~GNRC_NETIF_FLAGS_IPV6_FORWARDING;
}
res = sizeof(netopt_enable_t);
break;
case NETOPT_IPV6_SND_RTR_ADV:
assert(opt->data_len == sizeof(netopt_enable_t));
gnrc_ipv6_nib_change_rtr_adv_iface(netif,
(*(((netopt_enable_t *)opt->data)) == NETOPT_ENABLE));
res = sizeof(netopt_enable_t);
break;
#endif /* GNRC_IPV6_NIB_CONF_ROUTER */
#endif /* MODULE_GNRC_IPV6 */
#ifdef MODULE_GNRC_SIXLOWPAN_IPHC
case NETOPT_6LO_IPHC:
assert(opt->data_len == sizeof(netopt_enable_t));
if (*(((netopt_enable_t *)opt->data)) == NETOPT_ENABLE) {
netif->flags |= GNRC_NETIF_FLAGS_6LO_HC;
}
else {
netif->flags &= ~GNRC_NETIF_FLAGS_6LO_HC;
}
res = sizeof(netopt_enable_t);
break;
#endif /* MODULE_GNRC_SIXLOWPAN_IPHC */
default:
break;
}
if (res == -ENOTSUP) {
res = netif->dev->driver->set(netif->dev, opt->opt, opt->data,
opt->data_len);
if (res > 0) {
switch (opt->opt) {
case NETOPT_ADDRESS:
case NETOPT_ADDRESS_LONG:
case NETOPT_ADDR_LEN:
case NETOPT_SRC_LEN:
_update_l2addr_from_dev(netif);
break;
default:
break;
}
}
}
gnrc_netif_release(netif);
return res;
}
