gnrc_ndp2.c
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/*
* Copyright (C) 2017 Freie Universität Berlin
*
* This file is subject to the terms and conditions of the GNU Lesser
* General Public License v2.1. See the file LICENSE in the top level
* directory for more details.
*/
/**
* @{
*
* @file
* @author Martine Lenders <m.lenders@fu-berlin.de>
*/
#include "net/gnrc/icmpv6.h"
#include "net/gnrc/ipv6.h"
#include "net/gnrc/netif.h"
#ifdef MODULE_GNRC_SIXLOWPAN_ND
#include "net/gnrc/sixlowpan/nd.h"
#endif
#include "net/ndp.h"
#include "net/gnrc/ndp2.h"
#define ENABLE_DEBUG (0)
#include "debug.h"
#if ENABLE_DEBUG
static char addr_str[IPV6_ADDR_MAX_STR_LEN];
#endif
gnrc_pktsnip_t *gnrc_ndp2_nbr_sol_build(const ipv6_addr_t *tgt,
gnrc_pktsnip_t *options)
{
gnrc_pktsnip_t *pkt;
assert((tgt != NULL) && !ipv6_addr_is_multicast(tgt));
DEBUG("ndp2: building neighbor solicitation message\n");
pkt = gnrc_icmpv6_build(options, ICMPV6_NBR_SOL, 0, sizeof(ndp_nbr_sol_t));
if (pkt != NULL) {
ndp_nbr_sol_t *nbr_sol = pkt->data;
nbr_sol->resv.u32 = 0;
nbr_sol->tgt.u64[0].u64 = tgt->u64[0].u64;
nbr_sol->tgt.u64[1].u64 = tgt->u64[1].u64;
}
#if ENABLE_DEBUG
else {
DEBUG("ndp2: NS not created due to no space in packet buffer\n");
}
#endif
return pkt;
}
gnrc_pktsnip_t *gnrc_ndp2_nbr_adv_build(const ipv6_addr_t *tgt, uint8_t flags,
gnrc_pktsnip_t *options)
{
gnrc_pktsnip_t *pkt;
assert((tgt != NULL) && !ipv6_addr_is_multicast(tgt));
DEBUG("ndp2: building neighbor advertisement message\n");
pkt = gnrc_icmpv6_build(options, ICMPV6_NBR_ADV, 0, sizeof(ndp_nbr_adv_t));
if (pkt != NULL) {
ndp_nbr_adv_t *nbr_adv = pkt->data;
nbr_adv->flags = (flags & NDP_NBR_ADV_FLAGS_MASK);
nbr_adv->resv[0] = nbr_adv->resv[1] = nbr_adv->resv[2] = 0;
nbr_adv->tgt.u64[0].u64 = tgt->u64[0].u64;
nbr_adv->tgt.u64[1].u64 = tgt->u64[1].u64;
}
#if ENABLE_DEBUG
else {
DEBUG("ndp2: NA not created due to no space in packet buffer\n");
}
#endif
return pkt;
}
gnrc_pktsnip_t *gnrc_ndp2_rtr_sol_build(gnrc_pktsnip_t *options)
{
gnrc_pktsnip_t *pkt;
DEBUG("ndp2: building router solicitation message\n");
pkt = gnrc_icmpv6_build(options, ICMPV6_RTR_SOL, 0, sizeof(ndp_rtr_sol_t));
if (pkt != NULL) {
ndp_rtr_sol_t *rtr_sol = pkt->data;
rtr_sol->resv.u32 = 0;
}
#if ENABLE_DEBUG
else {
DEBUG("ndp2: RS not created due to no space in packet buffer\n");
}
#endif
return pkt;
}
gnrc_pktsnip_t *gnrc_ndp2_rtr_adv_build(uint8_t cur_hl, uint8_t flags,
uint16_t ltime, uint32_t reach_time,
uint32_t retrans_timer,
gnrc_pktsnip_t *options)
{
gnrc_pktsnip_t *pkt;
DEBUG("ndp2: building router advertisement message\n");
pkt = gnrc_icmpv6_build(options, ICMPV6_RTR_ADV, 0, sizeof(ndp_rtr_adv_t));
if (pkt != NULL) {
ndp_rtr_adv_t *rtr_adv = pkt->data;
rtr_adv->cur_hl = cur_hl;
rtr_adv->flags = (flags & NDP_RTR_ADV_FLAGS_MASK);
rtr_adv->ltime = byteorder_htons(ltime);
rtr_adv->reach_time = byteorder_htonl(reach_time);
rtr_adv->retrans_timer = byteorder_htonl(retrans_timer);
}
#if ENABLE_DEBUG
else {
DEBUG("ndp2: RA not created due to no space in packet buffer\n");
}
#endif
return pkt;
}
static inline size_t _ceil8(uint8_t length)
{
/* NDP options use units of 8 byte for their length field, so round up */
return (length + 7U) & 0xf8U;
}
gnrc_pktsnip_t *gnrc_ndp2_opt_build(uint8_t type, size_t size,
gnrc_pktsnip_t *next)
{
gnrc_pktsnip_t *pkt = gnrc_pktbuf_add(next, NULL, _ceil8(size),
GNRC_NETTYPE_UNDEF);
if (pkt != NULL) {
ndp_opt_t *opt = pkt->data;
opt->type = type;
opt->len = (uint8_t)(pkt->size / 8);
}
#if ENABLE_DEBUG
else {
DEBUG("ndp2: option not created due to no space in packet buffer\n");
}
#endif
return pkt;
}
static inline gnrc_pktsnip_t *_opt_l2a_build(const uint8_t *l2addr,
uint8_t l2addr_len,
gnrc_pktsnip_t *next,
uint8_t type)
{
gnrc_pktsnip_t *pkt = gnrc_ndp2_opt_build(type,
sizeof(ndp_opt_t) + l2addr_len,
next);
if (pkt != NULL) {
ndp_opt_t *l2a_opt = pkt->data;
memset(l2a_opt + 1, 0, pkt->size - sizeof(ndp_opt_t));
memcpy(l2a_opt + 1, l2addr, l2addr_len);
}
return pkt;
}
gnrc_pktsnip_t *gnrc_ndp2_opt_sl2a_build(const uint8_t *l2addr,
uint8_t l2addr_len,
gnrc_pktsnip_t *next)
{
assert((l2addr != NULL) && (l2addr_len != 0));
DEBUG("ndp2: building source link-layer address option (l2addr: %s)\n",
gnrc_netif_addr_to_str(addr_str, sizeof(addr_str), l2addr,
l2addr_len));
return _opt_l2a_build(l2addr, l2addr_len, next, NDP_OPT_SL2A);
}
gnrc_pktsnip_t *gnrc_ndp2_opt_tl2a_build(const uint8_t *l2addr,
uint8_t l2addr_len,
gnrc_pktsnip_t *next)
{
assert((l2addr != NULL) && (l2addr_len != 0));
DEBUG("ndp2: building target link-layer address option (l2addr: %s)\n",
gnrc_netif_addr_to_str(addr_str, sizeof(addr_str), l2addr,
l2addr_len));
return _opt_l2a_build(l2addr, l2addr_len, next, NDP_OPT_TL2A);
}
gnrc_pktsnip_t *gnrc_ndp2_opt_pi_build(const ipv6_addr_t *prefix,
uint8_t prefix_len,
uint32_t valid_ltime, uint32_t pref_ltime,
uint8_t flags, gnrc_pktsnip_t *next)
{
assert(prefix != NULL);
assert(!ipv6_addr_is_link_local(prefix) && !ipv6_addr_is_multicast(prefix));
assert(prefix_len <= 128);
gnrc_pktsnip_t *pkt = gnrc_ndp2_opt_build(NDP_OPT_PI, sizeof(ndp_opt_pi_t),
next);
if (pkt != NULL) {
ndp_opt_pi_t *pi_opt = pkt->data;
pi_opt->prefix_len = prefix_len;
pi_opt->flags = (flags & NDP_OPT_PI_FLAGS_MASK);
pi_opt->valid_ltime = byteorder_htonl(valid_ltime);
pi_opt->pref_ltime = byteorder_htonl(pref_ltime);
pi_opt->resv.u32 = 0;
/* Bits beyond prefix_len MUST be 0 */
ipv6_addr_set_unspecified(&pi_opt->prefix);
ipv6_addr_init_prefix(&pi_opt->prefix, prefix, prefix_len);
}
return pkt;
}
gnrc_pktsnip_t *gnrc_ndp2_opt_mtu_build(uint32_t mtu, gnrc_pktsnip_t *next)
{
gnrc_pktsnip_t *pkt = gnrc_ndp2_opt_build(NDP_OPT_MTU,
sizeof(ndp_opt_mtu_t), next);
if (pkt != NULL) {
ndp_opt_mtu_t *mtu_opt = pkt->data;
mtu_opt->resv.u16 = 0;
mtu_opt->mtu = byteorder_htonl(mtu);
}
return pkt;
}
static gnrc_pktsnip_t *_build_headers(gnrc_ipv6_netif_t *netif,
const ipv6_addr_t *src,
const ipv6_addr_t *dst,
gnrc_pktsnip_t *payload);
static size_t _get_l2src(gnrc_ipv6_netif_t *netif, uint8_t *l2src,
size_t l2src_maxlen);
void gnrc_ndp2_nbr_sol_send(const ipv6_addr_t *tgt, gnrc_ipv6_netif_t *netif,
const ipv6_addr_t *src, const ipv6_addr_t *dst,
gnrc_pktsnip_t *ext_opts)
{
assert((tgt != NULL) && !ipv6_addr_is_multicast(tgt));
assert((netif != NULL) && (dst != NULL));
gnrc_pktsnip_t *hdr, *pkt = ext_opts;
/* cppcheck-suppress variableScope
* (reason: also used in MODULE_GNRC_SIXLOWPAN_ND compile path) */
uint8_t l2src[8];
/* cppcheck-suppress variableScope
* (reason: also used in MODULE_GNRC_SIXLOWPAN_ND compile path) */
size_t l2src_len = 0;
DEBUG("ndp2: send neighbor solicitation (iface: %" PRIkernel_pid ", "
"src: %s, ", netif->pid,
ipv6_addr_to_str(addr_str, (src != NULL) ? src : &ipv6_addr_unspecified,
sizeof(addr_str)));
DEBUG("tgt: %s, ", ipv6_addr_to_str(addr_str, tgt, sizeof(addr_str)));
DEBUG("dst: %s)\n", ipv6_addr_to_str(addr_str, dst, sizeof(addr_str)));
/* check if there is a fitting source address to target */
if (src == NULL) {
src = gnrc_ipv6_netif_find_best_src_addr(netif->pid, tgt, false);
}
/* add SL2AO based on interface and source address */
if ((src != NULL) && !ipv6_addr_is_unspecified(src)) {
l2src_len = _get_l2src(netif, l2src, sizeof(l2src));
if (l2src_len > 0) {
/* add source address link-layer address option */
hdr = gnrc_ndp2_opt_sl2a_build(l2src, l2src_len, pkt);
if (hdr == NULL) {
DEBUG("ndp2: error allocating SL2AO.\n");
gnrc_pktbuf_release(pkt);
return;
}
pkt = hdr;
}
}
/* add neighbor solicitation header */
hdr = gnrc_ndp2_nbr_sol_build(tgt, pkt);
if (hdr == NULL) {
DEBUG("ndp2: error allocating neighbor solicitation.\n");
gnrc_pktbuf_release(pkt);
return;
}
pkt = hdr;
/* add remaining headers */
hdr = _build_headers(netif, src, dst, pkt);
if (hdr == NULL) {
DEBUG("ndp2: error adding lower-layer headers.\n");
gnrc_pktbuf_release(pkt);
}
else if (gnrc_netapi_dispatch_send(GNRC_NETTYPE_NDP2,
GNRC_NETREG_DEMUX_CTX_ALL, hdr) == 0) {
DEBUG("ndp2: unable to send neighbor solicitation\n");
gnrc_pktbuf_release(hdr);
}
}
void gnrc_ndp2_nbr_adv_send(const ipv6_addr_t *tgt, gnrc_ipv6_netif_t *netif,
const ipv6_addr_t *dst, bool supply_tl2a,
gnrc_pktsnip_t *ext_opts)
{
ipv6_addr_t real_dst;
gnrc_pktsnip_t *hdr, *pkt = ext_opts;
uint8_t adv_flags = 0;
assert((tgt != NULL) && !ipv6_addr_is_multicast(tgt));
assert((netif != NULL) && (dst != NULL));
DEBUG("ndp2: send neighbor advertisement (iface: %" PRIkernel_pid
", tgt: %s, ", netif->pid,
ipv6_addr_to_str(addr_str, tgt, sizeof(addr_str)));
DEBUG("dst: %s, supply_tl2a: %d)\n",
ipv6_addr_to_str(addr_str, dst, sizeof(addr_str)), supply_tl2a);
if ((netif->flags & GNRC_IPV6_NETIF_FLAGS_ROUTER) &&
(netif->flags & GNRC_IPV6_NETIF_FLAGS_RTR_ADV)) {
adv_flags |= NDP_NBR_ADV_FLAGS_R;
}
if (ipv6_addr_is_unspecified(dst)) {
memcpy(&real_dst, &ipv6_addr_all_nodes_link_local, sizeof(ipv6_addr_t));
supply_tl2a = true;
}
else {
memcpy(&real_dst, dst, sizeof(real_dst));
adv_flags |= NDP_NBR_ADV_FLAGS_S;
}
/* add SL2AO based on target address */
if (supply_tl2a) {
uint8_t l2tgt[8];
size_t l2tgt_len;
/* we previously checked if we are the target, so we can take our L2tgt */
l2tgt_len = _get_l2src(netif, l2tgt, sizeof(l2tgt));
if (l2tgt_len > 0) {
/* add target address link-layer address option */
hdr = gnrc_ndp2_opt_tl2a_build(l2tgt, l2tgt_len, pkt);
if (hdr == NULL) {
DEBUG("ndp2: error allocating TL2AO.\n");
gnrc_pktbuf_release(ext_opts);
return;
}
pkt = hdr;
}
}
/* TODO: also check if the node provides proxy services for tgt */
if ((pkt != NULL) &&
(!gnrc_ipv6_netif_addr_is_non_unicast(tgt) || supply_tl2a)) {
/* TL2A is not supplied and tgt is not anycast */
adv_flags |= NDP_NBR_ADV_FLAGS_O;
}
/* add neighbor advertisement header */
hdr = gnrc_ndp2_nbr_adv_build(tgt, adv_flags, pkt);
if (hdr == NULL) {
DEBUG("ndp2: error allocating neighbor advertisement.\n");
gnrc_pktbuf_release(pkt);
return;
}
pkt = hdr;
/* add remaining headers */
hdr = _build_headers(netif, NULL, &real_dst, pkt);
if (hdr == NULL) {
DEBUG("ndp2: error adding lower-layer headers.\n");
gnrc_pktbuf_release(pkt);
}
else if (gnrc_netapi_dispatch_send(GNRC_NETTYPE_NDP2,
GNRC_NETREG_DEMUX_CTX_ALL, hdr) == 0) {
DEBUG("ndp2: unable to send neighbor advertisement\n");
gnrc_pktbuf_release(hdr);
}
}
void gnrc_ndp2_rtr_sol_send(gnrc_ipv6_netif_t *netif, const ipv6_addr_t *dst)
{
gnrc_pktsnip_t *hdr, *pkt = NULL;
ipv6_addr_t *src = NULL;
assert(netif != NULL);
if (dst == NULL) {
dst = &ipv6_addr_all_routers_link_local;
}
DEBUG("ndp2: send router solicitation (iface: %" PRIkernel_pid
", dst: %s)\n", netif->pid,
ipv6_addr_to_str(addr_str, dst, sizeof(addr_str)));
/* add SL2AO => check if there is a fitting source address to target */
if ((src = gnrc_ipv6_netif_find_best_src_addr(netif->pid, dst,
false)) != NULL) {
uint8_t l2src[8];
size_t l2src_len = _get_l2src(netif, l2src, sizeof(l2src));
if (l2src_len > 0) {
/* add source address link-layer address option */
pkt = gnrc_ndp2_opt_sl2a_build(l2src, l2src_len, NULL);
if (pkt == NULL) {
DEBUG("ndp2: error allocating SL2AO.\n");
gnrc_pktbuf_release(pkt);
return;
}
}
}
/* add router solicitation header */
hdr = gnrc_ndp2_rtr_sol_build(pkt);
if (hdr == NULL) {
DEBUG("ndp2: error allocating router solicitation.\n");
gnrc_pktbuf_release(pkt);
return;
}
pkt = hdr;
/* add remaining headers */
hdr = _build_headers(netif, src, dst, pkt);
if (hdr == NULL) {
DEBUG("ndp2: error adding lower-layer headers.\n");
gnrc_pktbuf_release(pkt);
}
else if (gnrc_netapi_dispatch_send(GNRC_NETTYPE_NDP2,
GNRC_NETREG_DEMUX_CTX_ALL, hdr) == 0) {
DEBUG("ndp2: unable to send router advertisement\n");
gnrc_pktbuf_release(hdr);
}
}
void gnrc_ndp2_rtr_adv_send(gnrc_ipv6_netif_t *netif, const ipv6_addr_t *src,
const ipv6_addr_t *dst, bool fin,
gnrc_pktsnip_t *ext_opts)
{
#if GNRC_IPV6_NIB_CONF_ROUTER
gnrc_pktsnip_t *hdr = NULL, *pkt = ext_opts;
uint32_t reach_time = 0, retrans_timer = 0;
uint16_t adv_ltime = 0;
uint8_t cur_hl = 0;
if (dst == NULL) {
dst = &ipv6_addr_all_nodes_link_local;
}
DEBUG("ndp2: send router advertisement (iface: %" PRIkernel_pid ", dst: %s%s\n",
netif->pid, ipv6_addr_to_str(addr_str, dst, sizeof(addr_str)),
fin ? ", final" : "");
if (netif->flags & GNRC_IPV6_NETIF_FLAGS_ADV_MTU) {
if ((hdr = gnrc_ndp2_opt_mtu_build(netif->mtu, pkt)) == NULL) {
DEBUG("ndp rtr: no space left in packet buffer\n");
return;
}
pkt = hdr;
}
if (src == NULL) {
/* get address from source selection algorithm.
* Only link local addresses may be used (RFC 4861 section 4.1) */
src = gnrc_ipv6_netif_find_best_src_addr(netif->pid, dst, true);
}
/* add SL2A for source address */
if (src != NULL) {
DEBUG(" - SL2A\n");
uint8_t l2src[8];
size_t l2src_len;
/* optimization note: MAY also be omitted to facilitate in-bound load balancing over
* replicated interfaces.
* source: https://tools.ietf.org/html/rfc4861#section-6.2.3 */
l2src_len = _get_l2src(netif, l2src, sizeof(l2src));
if (l2src_len > 0) {
/* add source address link-layer address option */
hdr = gnrc_ndp2_opt_sl2a_build(l2src, l2src_len, pkt);
if (hdr == NULL) {
DEBUG("ndp2: error allocating Source Link-layer address option.\n");
gnrc_pktbuf_release(pkt);
return;
}
pkt = hdr;
}
}
if (netif->flags & GNRC_IPV6_NETIF_FLAGS_ADV_CUR_HL) {
cur_hl = netif->cur_hl;
}
if (netif->flags & GNRC_IPV6_NETIF_FLAGS_ADV_REACH_TIME) {
if (netif->reach_time > (3600 * US_PER_SEC)) { /* reach_time > 1 hour */
reach_time = (3600 * MS_PER_SEC);
}
else {
reach_time = netif->reach_time / US_PER_MS;
}
}
if (netif->flags & GNRC_IPV6_NETIF_FLAGS_ADV_RETRANS_TIMER) {
retrans_timer = netif->retrans_timer / US_PER_MS;
}
if (!fin) {
/* TODO set netif dependent adv_ltime */
adv_ltime = 1800U;
}
hdr = gnrc_ndp2_rtr_adv_build(cur_hl,
(netif->flags & (GNRC_IPV6_NETIF_FLAGS_OTHER_CONF |
GNRC_IPV6_NETIF_FLAGS_MANAGED)) >> 8,
adv_ltime, reach_time, retrans_timer, pkt);
if (hdr == NULL) {
DEBUG("ndp2: error allocating router advertisement.\n");
gnrc_pktbuf_release(pkt);
return;
}
pkt = hdr;
hdr = _build_headers(netif, src, dst, pkt);
if (hdr == NULL) {
DEBUG("ndp2: error adding lower-layer headers.\n");
gnrc_pktbuf_release(pkt);
}
else if (gnrc_netapi_dispatch_send(GNRC_NETTYPE_NDP2,
GNRC_NETREG_DEMUX_CTX_ALL, hdr) == 0) {
DEBUG("ndp2: unable to send router solicitation\n");
gnrc_pktbuf_release(hdr);
}
#else
(void)netif;
(void)src;
(void)dst;
(void)fin;
DEBUG("ndp2: not a router, dropping ext_opts\n");
gnrc_pktbuf_release(ext_opts);
#endif /* GNRC_IPV6_NIB_CONF_ROUTER */
}
static gnrc_pktsnip_t *_build_headers(gnrc_ipv6_netif_t *netif,
const ipv6_addr_t *src,
const ipv6_addr_t *dst,
gnrc_pktsnip_t *payload)
{
gnrc_pktsnip_t *l2hdr;
gnrc_pktsnip_t *iphdr = gnrc_ipv6_hdr_build(payload, src, dst);
if (iphdr == NULL) {
DEBUG("ndp2: error allocating IPv6 header.\n");
return NULL;
}
((ipv6_hdr_t *)iphdr->data)->hl = 255;
/* add netif header for send interface specification */
l2hdr = gnrc_netif_hdr_build(NULL, 0, NULL, 0);
if (l2hdr == NULL) {
DEBUG("ndp2: error allocating netif header.\n");
gnrc_pktbuf_remove_snip(iphdr, iphdr);
return NULL;
}
((gnrc_netif_hdr_t *)l2hdr->data)->if_pid = netif->pid;
LL_PREPEND(iphdr, l2hdr);
return l2hdr;
}
static size_t _get_l2src(gnrc_ipv6_netif_t *netif, uint8_t *l2src,
size_t l2src_maxlen)
{
bool try_long = false;
int res;
uint16_t l2src_len;
/* maximum address length that fits into a minimum length (8) S/TL2A option */
const uint16_t max_short_len = 6;
/* try getting source address */
if ((gnrc_netapi_get(netif->pid, NETOPT_SRC_LEN, 0, &l2src_len,
sizeof(l2src_len)) >= 0) &&
(l2src_len > max_short_len)) {
try_long = true;
}
if (try_long && ((res = gnrc_netapi_get(netif->pid, NETOPT_ADDRESS_LONG, 0,
l2src,
l2src_maxlen)) > max_short_len)) {
l2src_len = (uint16_t)res;
}
else if ((res = gnrc_netapi_get(netif->pid, NETOPT_ADDRESS, 0, l2src,
l2src_maxlen)) >= 0) {
l2src_len = (uint16_t)res;
}
else {
DEBUG("ndp2: no link-layer address found.\n");
l2src_len = 0;
}
return l2src_len;
}
/** @} */