/* * Copyright (C) 2013 - 2014 INRIA. * Copyright (C) 2015 Cenk Gündoğan * * 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 Cenk Gündoğan */ #include "net/af.h" #include "net/icmpv6.h" #include "net/ipv6/hdr.h" #include "net/gnrc/icmpv6.h" #include "net/gnrc/ipv6.h" #include "net/gnrc.h" #include "net/eui64.h" #ifdef MODULE_NETSTATS_RPL #include "gnrc_rpl_internal/netstats.h" #endif #include "net/gnrc/rpl.h" #ifndef GNRC_RPL_WITHOUT_VALIDATION #include "gnrc_rpl_internal/validation.h" #endif #ifdef MODULE_GNRC_RPL_P2P #include "net/gnrc/rpl/p2p_structs.h" #include "net/gnrc/rpl/p2p_dodag.h" #include "net/gnrc/rpl/p2p.h" #endif #define ENABLE_DEBUG (0) #include "debug.h" #if ENABLE_DEBUG static char addr_str[IPV6_ADDR_MAX_STR_LEN]; #endif #define GNRC_RPL_GROUNDED_SHIFT (7) #define GNRC_RPL_MOP_SHIFT (3) #define GNRC_RPL_OPT_TRANSIT_E_FLAG_SHIFT (7) #define GNRC_RPL_OPT_TRANSIT_E_FLAG (1 << GNRC_RPL_OPT_TRANSIT_E_FLAG_SHIFT) #define GNRC_RPL_SHIFTED_MOP_MASK (0x7) #define GNRC_RPL_PRF_MASK (0x7) #define GNRC_RPL_PREFIX_AUTO_ADDRESS_BIT (1 << 6) void gnrc_rpl_send(gnrc_pktsnip_t *pkt, kernel_pid_t iface, ipv6_addr_t *src, ipv6_addr_t *dst, ipv6_addr_t *dodag_id) { (void)dodag_id; gnrc_pktsnip_t *hdr; if (iface == KERNEL_PID_UNDEF) { if ((iface = gnrc_ipv6_netif_find_by_addr(NULL, &ipv6_addr_all_rpl_nodes)) == KERNEL_PID_UNDEF) { DEBUG("RPL: no suitable interface found for this destination address\n"); gnrc_pktbuf_release(pkt); return; } } if (src == NULL) { src = gnrc_ipv6_netif_match_prefix(iface, &ipv6_addr_link_local_prefix); if (src == NULL) { DEBUG("RPL: no suitable src address found\n"); gnrc_pktbuf_release(pkt); return; } } if (dst == NULL) { dst = (ipv6_addr_t *) &ipv6_addr_all_rpl_nodes; } hdr = gnrc_ipv6_hdr_build(pkt, src, dst); if (hdr == NULL) { DEBUG("RPL: Send - no space left in packet buffer\n"); gnrc_pktbuf_release(pkt); return; } pkt = hdr; hdr = gnrc_netif_hdr_build(NULL, 0, NULL, 0); ((gnrc_netif_hdr_t *)hdr->data)->if_pid = iface; LL_PREPEND(pkt, hdr); if (!gnrc_netapi_dispatch_send(GNRC_NETTYPE_IPV6, GNRC_NETREG_DEMUX_CTX_ALL, pkt)) { DEBUG("RPL: cannot send packet: no subscribers found.\n"); gnrc_pktbuf_release(pkt); } } gnrc_pktsnip_t *_dio_dodag_conf_build(gnrc_pktsnip_t *pkt, gnrc_rpl_dodag_t *dodag) { gnrc_rpl_opt_dodag_conf_t *dodag_conf; gnrc_pktsnip_t *opt_snip; if ((opt_snip = gnrc_pktbuf_add(pkt, NULL, sizeof(gnrc_rpl_opt_dodag_conf_t), GNRC_NETTYPE_UNDEF)) == NULL) { DEBUG("RPL: BUILD DODAG CONF - no space left in packet buffer\n"); gnrc_pktbuf_release(pkt); return NULL; } dodag_conf = opt_snip->data; dodag_conf->type = GNRC_RPL_OPT_DODAG_CONF; dodag_conf->length = GNRC_RPL_OPT_DODAG_CONF_LEN; dodag_conf->flags_a_pcs = 0; dodag_conf->dio_int_doubl = dodag->dio_interval_doubl; dodag_conf->dio_int_min = dodag->dio_min; dodag_conf->dio_redun = dodag->dio_redun; dodag_conf->max_rank_inc = byteorder_htons(dodag->instance->max_rank_inc); dodag_conf->min_hop_rank_inc = byteorder_htons(dodag->instance->min_hop_rank_inc); dodag_conf->ocp = byteorder_htons(dodag->instance->of->ocp); dodag_conf->reserved = 0; dodag_conf->default_lifetime = dodag->default_lifetime; dodag_conf->lifetime_unit = byteorder_htons(dodag->lifetime_unit); return opt_snip; } #ifndef GNRC_RPL_WITHOUT_PIO gnrc_pktsnip_t *_dio_prefix_info_build(gnrc_pktsnip_t *pkt, gnrc_rpl_dodag_t *dodag) { gnrc_rpl_opt_prefix_info_t *prefix_info; gnrc_pktsnip_t *opt_snip; if ((opt_snip = gnrc_pktbuf_add(pkt, NULL, sizeof(gnrc_rpl_opt_prefix_info_t), GNRC_NETTYPE_UNDEF)) == NULL) { DEBUG("RPL: BUILD PREFIX INFO - no space left in packet buffer\n"); gnrc_pktbuf_release(pkt); return NULL; } prefix_info = opt_snip->data; prefix_info->type = GNRC_RPL_OPT_PREFIX_INFO; prefix_info->length = GNRC_RPL_OPT_PREFIX_INFO_LEN; /* auto-address configuration */ prefix_info->LAR_flags = GNRC_RPL_PREFIX_AUTO_ADDRESS_BIT; prefix_info->valid_lifetime = dodag->netif_addr->valid; prefix_info->pref_lifetime = dodag->netif_addr->preferred; prefix_info->prefix_len = dodag->netif_addr->prefix_len; prefix_info->reserved = 0; memset(&prefix_info->prefix, 0, sizeof(prefix_info->prefix)); ipv6_addr_init_prefix(&prefix_info->prefix, &dodag->dodag_id, dodag->netif_addr->prefix_len); return opt_snip; } #endif void gnrc_rpl_send_DIO(gnrc_rpl_instance_t *inst, ipv6_addr_t *destination) { if (inst == NULL) { DEBUG("RPL: Error - trying to send DIO without being part of a dodag.\n"); return; } gnrc_rpl_dodag_t *dodag = &inst->dodag; gnrc_pktsnip_t *pkt = NULL, *tmp; gnrc_rpl_dio_t *dio; #ifdef MODULE_GNRC_RPL_P2P gnrc_rpl_p2p_ext_t *p2p_ext = gnrc_rpl_p2p_ext_get(dodag); if (dodag->instance->mop == GNRC_RPL_P2P_MOP) { if (!p2p_ext->for_me) { if ((pkt = gnrc_rpl_p2p_rdo_build(pkt, p2p_ext)) == NULL) { return; } } dodag->dio_opts &= ~GNRC_RPL_REQ_DIO_OPT_PREFIX_INFO; } #endif #ifndef GNRC_RPL_WITHOUT_PIO if (dodag->dio_opts & GNRC_RPL_REQ_DIO_OPT_PREFIX_INFO) { if ((pkt = _dio_prefix_info_build(pkt, dodag)) == NULL) { return; } } #endif if (dodag->dio_opts & GNRC_RPL_REQ_DIO_OPT_DODAG_CONF) { if ((pkt = _dio_dodag_conf_build(pkt, dodag)) == NULL) { return; } dodag->dio_opts &= ~GNRC_RPL_REQ_DIO_OPT_DODAG_CONF; } if ((tmp = gnrc_pktbuf_add(pkt, NULL, sizeof(gnrc_rpl_dio_t), GNRC_NETTYPE_UNDEF)) == NULL) { DEBUG("RPL: Send DIO - no space left in packet buffer\n"); gnrc_pktbuf_release(pkt); return; } pkt = tmp; dio = pkt->data; dio->instance_id = inst->id; dio->version_number = dodag->version; /* a leaf node announces an INFINITE_RANK */ dio->rank = ((dodag->node_status == GNRC_RPL_LEAF_NODE) ? byteorder_htons(GNRC_RPL_INFINITE_RANK) : byteorder_htons(dodag->my_rank)); dio->g_mop_prf = (dodag->grounded << GNRC_RPL_GROUNDED_SHIFT) | (inst->mop << GNRC_RPL_MOP_SHIFT) | dodag->prf; dio->dtsn = dodag->dtsn; dio->flags = 0; dio->reserved = 0; dio->dodag_id = dodag->dodag_id; if ((tmp = gnrc_icmpv6_build(pkt, ICMPV6_RPL_CTRL, GNRC_RPL_ICMPV6_CODE_DIO, sizeof(icmpv6_hdr_t))) == NULL) { DEBUG("RPL: Send DIO - no space left in packet buffer\n"); gnrc_pktbuf_release(pkt); return; } pkt = tmp; #ifdef MODULE_NETSTATS_RPL gnrc_rpl_netstats_tx_DIO(&gnrc_rpl_netstats, gnrc_pkt_len(pkt), (destination && !ipv6_addr_is_multicast(destination))); #endif gnrc_rpl_send(pkt, dodag->iface, NULL, destination, &dodag->dodag_id); } void gnrc_rpl_send_DIS(gnrc_rpl_instance_t *inst, ipv6_addr_t *destination) { gnrc_pktsnip_t *pkt; icmpv6_hdr_t *icmp; gnrc_rpl_dis_t *dis; /* TODO: Currently the DIS is too small so that wireshark complains about an incorrect * ethernet frame check sequence. In order to prevent this, 4 PAD1 options are added. * This will be addressed in follow-up PRs */ uint8_t padding[] = { 0x01, 0x02, 0x00, 0x00 }; int size = sizeof(icmpv6_hdr_t) + sizeof(gnrc_rpl_dis_t) + sizeof(padding); if ((pkt = gnrc_icmpv6_build(NULL, ICMPV6_RPL_CTRL, GNRC_RPL_ICMPV6_CODE_DIS, size)) == NULL) { DEBUG("RPL: Send DIS - no space left in packet buffer\n"); return; } icmp = (icmpv6_hdr_t *)pkt->data; dis = (gnrc_rpl_dis_t *)(icmp + 1); dis->flags = 0; dis->reserved = 0; /* TODO add padding may be removed if packet size grows */ memcpy((dis + 1), padding, sizeof(padding)); #ifdef MODULE_NETSTATS_RPL gnrc_rpl_netstats_tx_DIS(&gnrc_rpl_netstats, gnrc_pkt_len(pkt), (destination && !ipv6_addr_is_multicast(destination))); #endif gnrc_rpl_send(pkt, KERNEL_PID_UNDEF, NULL, destination, (inst? &(inst->dodag.dodag_id) : NULL)); } void gnrc_rpl_recv_DIS(gnrc_rpl_dis_t *dis, kernel_pid_t iface, ipv6_addr_t *src, ipv6_addr_t *dst, uint16_t len) { /* TODO handle Solicited Information Option */ (void)iface; (void)dis; (void)len; #ifdef MODULE_NETSTATS_RPL gnrc_rpl_netstats_rx_DIS(&gnrc_rpl_netstats, len, (dst && !ipv6_addr_is_multicast(dst))); #endif #ifndef GNRC_RPL_WITHOUT_VALIDATION if (!gnrc_rpl_validation_DIS(dis, len)) { return; } #endif if (ipv6_addr_is_multicast(dst)) { for (uint8_t i = 0; i < GNRC_RPL_INSTANCES_NUMOF; ++i) { if ((gnrc_rpl_instances[i].state != 0) /* a leaf node should only react to unicast DIS */ && (gnrc_rpl_instances[i].dodag.node_status != GNRC_RPL_LEAF_NODE)) { #ifdef MODULE_GNRC_RPL_P2P if (gnrc_rpl_instances[i].mop == GNRC_RPL_P2P_MOP) { DEBUG("RPL: Not responding to DIS for P2P-RPL DODAG\n"); continue; } #endif trickle_reset_timer(&(gnrc_rpl_instances[i].dodag.trickle)); } } } else { for (uint8_t i = 0; i < GNRC_RPL_INSTANCES_NUMOF; ++i) { if (gnrc_rpl_instances[i].state != 0) { gnrc_rpl_instances[i].dodag.dio_opts |= GNRC_RPL_REQ_DIO_OPT_DODAG_CONF; gnrc_rpl_send_DIO(&gnrc_rpl_instances[i], src); } } } } /** @todo allow target prefixes in target options to be of variable length */ bool _parse_options(int msg_type, gnrc_rpl_instance_t *inst, gnrc_rpl_opt_t *opt, uint16_t len, ipv6_addr_t *src, uint32_t *included_opts) { uint16_t l = 0; gnrc_rpl_opt_target_t *first_target = NULL; gnrc_rpl_dodag_t *dodag = &inst->dodag; eui64_t iid; *included_opts = 0; ipv6_addr_t *me; #ifndef GNRC_RPL_WITHOUT_VALIDATION if (!gnrc_rpl_validation_options(msg_type, inst, opt, len)) { return false; } #else (void) msg_type; #endif while(l < len) { switch(opt->type) { case (GNRC_RPL_OPT_PAD1): DEBUG("RPL: PAD1 option parsed\n"); *included_opts |= ((uint32_t) 1) << GNRC_RPL_OPT_PAD1; l += 1; opt = (gnrc_rpl_opt_t *) (((uint8_t *) opt) + 1); continue; case (GNRC_RPL_OPT_PADN): DEBUG("RPL: PADN option parsed\n"); *included_opts |= ((uint32_t) 1) << GNRC_RPL_OPT_PADN; break; case (GNRC_RPL_OPT_DODAG_CONF): DEBUG("RPL: DODAG CONF DIO option parsed\n"); *included_opts |= ((uint32_t) 1) << GNRC_RPL_OPT_DODAG_CONF; dodag->dio_opts |= GNRC_RPL_REQ_DIO_OPT_DODAG_CONF; gnrc_rpl_opt_dodag_conf_t *dc = (gnrc_rpl_opt_dodag_conf_t *) opt; gnrc_rpl_of_t *of = gnrc_rpl_get_of_for_ocp(byteorder_ntohs(dc->ocp)); if (of != NULL) { inst->of = of; } else { DEBUG("RPL: Unsupported OCP 0x%02x\n", byteorder_ntohs(dc->ocp)); inst->of = gnrc_rpl_get_of_for_ocp(GNRC_RPL_DEFAULT_OCP); } dodag->dio_interval_doubl = dc->dio_int_doubl; dodag->dio_min = dc->dio_int_min; dodag->dio_redun = dc->dio_redun; inst->max_rank_inc = byteorder_ntohs(dc->max_rank_inc); inst->min_hop_rank_inc = byteorder_ntohs(dc->min_hop_rank_inc); dodag->default_lifetime = dc->default_lifetime; dodag->lifetime_unit = byteorder_ntohs(dc->lifetime_unit); dodag->trickle.Imin = (1 << dodag->dio_min); dodag->trickle.Imax = dodag->dio_interval_doubl; dodag->trickle.k = dodag->dio_redun; break; case (GNRC_RPL_OPT_PREFIX_INFO): DEBUG("RPL: Prefix Information DIO option parsed\n"); *included_opts |= ((uint32_t) 1) << GNRC_RPL_OPT_PREFIX_INFO; #ifndef GNRC_RPL_WITHOUT_PIO dodag->dio_opts |= GNRC_RPL_REQ_DIO_OPT_PREFIX_INFO; #endif gnrc_rpl_opt_prefix_info_t *pi = (gnrc_rpl_opt_prefix_info_t *) opt; /* check for the auto address-configuration flag */ if ((gnrc_netapi_get(dodag->iface, NETOPT_IPV6_IID, 0, &iid, sizeof(eui64_t)) < 0) && !(pi->LAR_flags & GNRC_RPL_PREFIX_AUTO_ADDRESS_BIT)) { break; } ipv6_addr_set_aiid(&pi->prefix, iid.uint8); me = gnrc_ipv6_netif_add_addr(dodag->iface, &pi->prefix, pi->prefix_len, 0); if (me) { dodag->netif_addr = gnrc_ipv6_netif_addr_get(me); } break; case (GNRC_RPL_OPT_TARGET): DEBUG("RPL: RPL TARGET DAO option parsed\n"); *included_opts |= ((uint32_t) 1) << GNRC_RPL_OPT_TARGET; gnrc_rpl_opt_target_t *target = (gnrc_rpl_opt_target_t *) opt; if (first_target == NULL) { first_target = target; } uint32_t fib_dst_flags = 0; if (target->prefix_length <= IPV6_ADDR_BIT_LEN) { fib_dst_flags = ((uint32_t)(target->prefix_length) << FIB_FLAG_NET_PREFIX_SHIFT); } DEBUG("RPL: adding fib entry %s/%d 0x%" PRIx32 "\n", ipv6_addr_to_str(addr_str, &(target->target), sizeof(addr_str)), target->prefix_length, fib_dst_flags); fib_add_entry(&gnrc_ipv6_fib_table, dodag->iface, target->target.u8, sizeof(ipv6_addr_t), fib_dst_flags, src->u8, sizeof(ipv6_addr_t), FIB_FLAG_RPL_ROUTE, (dodag->default_lifetime * dodag->lifetime_unit) * MS_PER_SEC); break; case (GNRC_RPL_OPT_TRANSIT): DEBUG("RPL: RPL TRANSIT INFO DAO option parsed\n"); *included_opts |= ((uint32_t) 1) << GNRC_RPL_OPT_TRANSIT; gnrc_rpl_opt_transit_t *transit = (gnrc_rpl_opt_transit_t *) opt; if (first_target == NULL) { DEBUG("RPL: Encountered a RPL TRANSIT DAO option without " "a preceding RPL TARGET DAO option\n"); break; } do { DEBUG("RPL: updating fib entry %s/%d\n", ipv6_addr_to_str(addr_str, &(first_target->target), sizeof(addr_str)), first_target->prefix_length); fib_update_entry(&gnrc_ipv6_fib_table, first_target->target.u8, sizeof(ipv6_addr_t), src->u8, sizeof(ipv6_addr_t), ((transit->e_flags & GNRC_RPL_OPT_TRANSIT_E_FLAG) ? 0x0 : FIB_FLAG_RPL_ROUTE), (transit->path_lifetime * dodag->lifetime_unit * MS_PER_SEC)); first_target = (gnrc_rpl_opt_target_t *) (((uint8_t *) (first_target)) + sizeof(gnrc_rpl_opt_t) + first_target->length); } while (first_target->type == GNRC_RPL_OPT_TARGET); first_target = NULL; break; #ifdef MODULE_GNRC_RPL_P2P case (GNRC_RPL_P2P_OPT_RDO): gnrc_rpl_p2p_rdo_parse((gnrc_rpl_p2p_opt_rdo_t *) opt, gnrc_rpl_p2p_ext_get(dodag)); break; #endif } l += opt->length + sizeof(gnrc_rpl_opt_t); opt = (gnrc_rpl_opt_t *) (((uint8_t *) (opt + 1)) + opt->length); } return true; } void gnrc_rpl_recv_DIO(gnrc_rpl_dio_t *dio, kernel_pid_t iface, ipv6_addr_t *src, ipv6_addr_t *dst, uint16_t len) { (void) dst; gnrc_rpl_instance_t *inst = NULL; gnrc_rpl_dodag_t *dodag = NULL; #ifdef MODULE_NETSTATS_RPL gnrc_rpl_netstats_rx_DIO(&gnrc_rpl_netstats, len, (dst && !ipv6_addr_is_multicast(dst))); #endif #ifndef GNRC_RPL_WITHOUT_VALIDATION if (!gnrc_rpl_validation_DIO(dio, len)) { return; } #endif len -= (sizeof(gnrc_rpl_dio_t) + sizeof(icmpv6_hdr_t)); if (gnrc_rpl_instance_add(dio->instance_id, &inst)) { /* new instance and DODAG */ if (byteorder_ntohs(dio->rank) == GNRC_RPL_INFINITE_RANK) { DEBUG("RPL: ignore INFINITE_RANK DIO when we are not yet part of this DODAG\n"); gnrc_rpl_instance_remove(inst); return; } inst->mop = (dio->g_mop_prf >> GNRC_RPL_MOP_SHIFT) & GNRC_RPL_SHIFTED_MOP_MASK; inst->of = gnrc_rpl_get_of_for_ocp(GNRC_RPL_DEFAULT_OCP); if (iface == KERNEL_PID_UNDEF) { iface = gnrc_ipv6_netif_find_by_addr(NULL, &ipv6_addr_all_rpl_nodes); assert(iface != KERNEL_PID_UNDEF); } gnrc_rpl_dodag_init(inst, &dio->dodag_id, iface, NULL); dodag = &inst->dodag; DEBUG("RPL: Joined DODAG (%s).\n", ipv6_addr_to_str(addr_str, &dio->dodag_id, sizeof(addr_str))); gnrc_rpl_parent_t *parent = NULL; if (!gnrc_rpl_parent_add_by_addr(dodag, src, &parent) && (parent == NULL)) { DEBUG("RPL: Could not allocate new parent.\n"); gnrc_rpl_instance_remove(inst); return; } dodag->version = dio->version_number; dodag->grounded = dio->g_mop_prf >> GNRC_RPL_GROUNDED_SHIFT; dodag->prf = dio->g_mop_prf & GNRC_RPL_PRF_MASK; parent->rank = byteorder_ntohs(dio->rank); uint32_t included_opts = 0; if(!_parse_options(GNRC_RPL_ICMPV6_CODE_DIO, inst, (gnrc_rpl_opt_t *)(dio + 1), len, src, &included_opts)) { DEBUG("RPL: Error encountered during DIO option parsing - remove DODAG\n"); gnrc_rpl_instance_remove(inst); return; } if (!(included_opts & (((uint32_t) 1) << GNRC_RPL_OPT_DODAG_CONF))) { #ifndef GNRC_RPL_DODAG_CONF_OPTIONAL_ON_JOIN DEBUG("RPL: DIO without DODAG_CONF option - remove DODAG and request new DIO\n"); gnrc_rpl_instance_remove(inst); gnrc_rpl_send_DIS(NULL, src); return; #else DEBUG("RPL: DIO without DODAG_CONF option - use default trickle parameters\n"); gnrc_rpl_send_DIS(NULL, src); #endif } /* if there was no netif_addr created manually or by a PIO, then leave this DODAG */ if (!dodag->netif_addr) { ipv6_addr_t *configured_addr; if (!(configured_addr = gnrc_ipv6_netif_match_prefix(dodag->iface, &dodag->dodag_id))) { DEBUG("RPL: no IPv6 address configured to match the given dodag id: %s\n", ipv6_addr_to_str(addr_str, &(dodag->dodag_id), sizeof(addr_str))); gnrc_rpl_instance_remove(inst); return; } if (!(dodag->netif_addr = gnrc_ipv6_netif_addr_get(configured_addr))) { DEBUG("RPL: no netif address found for %s\n", ipv6_addr_to_str(addr_str, configured_addr, sizeof(addr_str))); gnrc_rpl_instance_remove(inst); return; } } gnrc_rpl_delay_dao(dodag); trickle_start(gnrc_rpl_pid, &dodag->trickle, GNRC_RPL_MSG_TYPE_TRICKLE_MSG, (1 << dodag->dio_min), dodag->dio_interval_doubl, dodag->dio_redun); gnrc_rpl_parent_update(dodag, parent); return; } else if (inst == NULL) { DEBUG("RPL: Could not allocate a new instance.\n"); return; } else { /* instance exists already */ /* ignore dodags with other dodag_id's for now */ /* TODO: choose DODAG with better rank */ dodag = &inst->dodag; if (memcmp(&dodag->dodag_id, &dio->dodag_id, sizeof(ipv6_addr_t)) != 0) { DEBUG("RPL: DIO received from another DODAG, but same instance - ignore\n"); return; } } if (inst->mop != ((dio->g_mop_prf >> GNRC_RPL_MOP_SHIFT) & GNRC_RPL_SHIFTED_MOP_MASK)) { DEBUG("RPL: invalid MOP for this instance.\n"); return; } #ifdef MODULE_GNRC_RPL_P2P gnrc_rpl_p2p_ext_t *p2p_ext = gnrc_rpl_p2p_ext_get(dodag); if ((dodag->instance->mop == GNRC_RPL_P2P_MOP) && (p2p_ext->lifetime_sec <= 0)) { return; } #endif if (GNRC_RPL_COUNTER_GREATER_THAN(dio->version_number, dodag->version)) { if (dodag->node_status == GNRC_RPL_ROOT_NODE) { dodag->version = GNRC_RPL_COUNTER_INCREMENT(dio->version_number); trickle_reset_timer(&dodag->trickle); } else { dodag->version = dio->version_number; gnrc_rpl_local_repair(dodag); } } else if (GNRC_RPL_COUNTER_GREATER_THAN(dodag->version, dio->version_number)) { trickle_reset_timer(&dodag->trickle); return; } if (dodag->node_status == GNRC_RPL_ROOT_NODE) { if (byteorder_ntohs(dio->rank) != GNRC_RPL_INFINITE_RANK) { trickle_increment_counter(&dodag->trickle); } else { trickle_reset_timer(&dodag->trickle); } return; } gnrc_rpl_parent_t *parent = NULL; if (!gnrc_rpl_parent_add_by_addr(dodag, src, &parent) && (parent == NULL)) { DEBUG("RPL: Could not allocate new parent.\n"); return; } else if (parent != NULL) { trickle_increment_counter(&dodag->trickle); } /* gnrc_rpl_parent_add_by_addr should have set this already */ assert(parent != NULL); parent->rank = byteorder_ntohs(dio->rank); gnrc_rpl_parent_update(dodag, parent); /* sender of incoming DIO is not a parent of mine (anymore) and has an INFINITE rank and I have a rank != INFINITE_RANK */ if (parent->state == 0) { if ((byteorder_ntohs(dio->rank) == GNRC_RPL_INFINITE_RANK) && (dodag->my_rank != GNRC_RPL_INFINITE_RANK)) { trickle_reset_timer(&dodag->trickle); return; } } /* incoming DIO is from pref. parent */ else if (parent == dodag->parents) { if (parent->dtsn != dio->dtsn) { gnrc_rpl_delay_dao(dodag); } parent->dtsn = dio->dtsn; dodag->grounded = dio->g_mop_prf >> GNRC_RPL_GROUNDED_SHIFT; dodag->prf = dio->g_mop_prf & GNRC_RPL_PRF_MASK; uint32_t included_opts = 0; if(!_parse_options(GNRC_RPL_ICMPV6_CODE_DIO, inst, (gnrc_rpl_opt_t *)(dio + 1), len, src, &included_opts)) { DEBUG("RPL: Error encountered during DIO option parsing - remove DODAG\n"); gnrc_rpl_instance_remove(inst); return; } } } gnrc_pktsnip_t *_dao_target_build(gnrc_pktsnip_t *pkt, ipv6_addr_t *addr, uint8_t prefix_length) { gnrc_rpl_opt_target_t *target; gnrc_pktsnip_t *opt_snip; if ((opt_snip = gnrc_pktbuf_add(pkt, NULL, sizeof(gnrc_rpl_opt_target_t), GNRC_NETTYPE_UNDEF)) == NULL) { DEBUG("RPL: Send DAO - no space left in packet buffer\n"); gnrc_pktbuf_release(pkt); return NULL; } target = opt_snip->data; target->type = GNRC_RPL_OPT_TARGET; target->length = sizeof(target->flags) + sizeof(target->prefix_length) + sizeof(target->target); target->flags = 0; target->prefix_length = prefix_length; target->target = *addr; return opt_snip; } gnrc_pktsnip_t *_dao_transit_build(gnrc_pktsnip_t *pkt, uint8_t lifetime, bool external) { gnrc_rpl_opt_transit_t *transit; gnrc_pktsnip_t *opt_snip; if ((opt_snip = gnrc_pktbuf_add(pkt, NULL, sizeof(gnrc_rpl_opt_transit_t), GNRC_NETTYPE_UNDEF)) == NULL) { DEBUG("RPL: Send DAO - no space left in packet buffer\n"); gnrc_pktbuf_release(pkt); return NULL; } transit = opt_snip->data; transit->type = GNRC_RPL_OPT_TRANSIT; transit->length = sizeof(transit->e_flags) + sizeof(transit->path_control) + sizeof(transit->path_sequence) + sizeof(transit->path_lifetime); transit->e_flags = (external) << GNRC_RPL_OPT_TRANSIT_E_FLAG_SHIFT; transit->path_control = 0; transit->path_sequence = 0; transit->path_lifetime = lifetime; return opt_snip; } void gnrc_rpl_send_DAO(gnrc_rpl_instance_t *inst, ipv6_addr_t *destination, uint8_t lifetime) { gnrc_rpl_dodag_t *dodag; if (inst == NULL) { DEBUG("RPL: Error - trying to send DAO without being part of a dodag.\n"); return; } dodag = &inst->dodag; if (dodag->node_status == GNRC_RPL_ROOT_NODE) { return; } #ifdef MODULE_GNRC_RPL_P2P if (dodag->instance->mop == GNRC_RPL_P2P_MOP) { return; } #endif if (destination == NULL) { if (dodag->parents == NULL) { DEBUG("RPL: dodag has no preferred parent\n"); return; } destination = &(dodag->parents->addr); } gnrc_pktsnip_t *pkt = NULL, **ptr = NULL, *tmp = NULL, *tr_int = NULL; gnrc_rpl_dao_t *dao; bool ext_processed = false, int_processed = false; /* find my address */ ipv6_addr_t *me = NULL; gnrc_ipv6_netif_find_by_prefix(&me, &dodag->dodag_id); if (me == NULL) { DEBUG("RPL: no address configured\n"); return; } mutex_lock(&(gnrc_ipv6_fib_table.mtx_access)); /* add external and RPL FIB entries */ for (size_t i = 0; i < gnrc_ipv6_fib_table.size; ++i) { fib_entry_t *fentry = &gnrc_ipv6_fib_table.data.entries[i]; if (fentry->lifetime != 0) { if (!(fentry->next_hop_flags & FIB_FLAG_RPL_ROUTE)) { ptr = &tmp; if (!ext_processed) { DEBUG("RPL: Send DAO - building external transit\n"); if ((tmp = _dao_transit_build(NULL, lifetime, true)) == NULL) { DEBUG("RPL: Send DAO - no space left in packet buffer\n"); mutex_unlock(&(gnrc_ipv6_fib_table.mtx_access)); return; } ext_processed = true; } } else { ptr = &pkt; if (!int_processed) { DEBUG("RPL: Send DAO - building internal transit\n"); if ((tr_int = pkt = _dao_transit_build(NULL, lifetime, false)) == NULL) { DEBUG("RPL: Send DAO - no space left in packet buffer\n"); mutex_unlock(&(gnrc_ipv6_fib_table.mtx_access)); return; } int_processed = true; } } ipv6_addr_t *addr = (ipv6_addr_t *) fentry->global->address; if (ipv6_addr_is_global(addr)) { size_t prefix_length = (fentry->global_flags >> FIB_FLAG_NET_PREFIX_SHIFT); DEBUG("RPL: Send DAO - building target %s/%d\n", ipv6_addr_to_str(addr_str, addr, sizeof(addr_str)), (int) prefix_length); if ((*ptr = _dao_target_build(*ptr, addr, (uint8_t) prefix_length)) == NULL) { DEBUG("RPL: Send DAO - no space left in packet buffer\n"); mutex_unlock(&(gnrc_ipv6_fib_table.mtx_access)); return; } } } } mutex_unlock(&(gnrc_ipv6_fib_table.mtx_access)); if (tr_int) { tr_int->next = tmp; } else { pkt = tmp; } /* add own address */ DEBUG("RPL: Send DAO - building target %s/128\n", ipv6_addr_to_str(addr_str, me, sizeof(addr_str))); if ((pkt = _dao_target_build(pkt, me, IPV6_ADDR_BIT_LEN)) == NULL) { DEBUG("RPL: Send DAO - no space left in packet buffer\n"); return; } bool local_instance = (inst->id & GNRC_RPL_INSTANCE_ID_MSB) ? true : false; if (local_instance) { if ((tmp = gnrc_pktbuf_add(pkt, &dodag->dodag_id, sizeof(ipv6_addr_t), GNRC_NETTYPE_UNDEF)) == NULL) { DEBUG("RPL: Send DAO - no space left in packet buffer\n"); gnrc_pktbuf_release(pkt); return; } pkt = tmp; } if ((tmp = gnrc_pktbuf_add(pkt, NULL, sizeof(gnrc_rpl_dao_t), GNRC_NETTYPE_UNDEF)) == NULL) { DEBUG("RPL: Send DAO - no space left in packet buffer\n"); gnrc_pktbuf_release(pkt); return; } pkt = tmp; dao = pkt->data; dao->instance_id = inst->id; if (local_instance) { /* set the D flag to indicate that a DODAG id is present */ dao->k_d_flags = GNRC_RPL_DAO_D_BIT; } else { dao->k_d_flags = 0; } /* set the K flag to indicate that ACKs are required */ dao->k_d_flags |= GNRC_RPL_DAO_K_BIT; dao->dao_sequence = dodag->dao_seq; dao->reserved = 0; if ((tmp = gnrc_icmpv6_build(pkt, ICMPV6_RPL_CTRL, GNRC_RPL_ICMPV6_CODE_DAO, sizeof(icmpv6_hdr_t))) == NULL) { DEBUG("RPL: Send DAO - no space left in packet buffer\n"); gnrc_pktbuf_release(pkt); return; } pkt = tmp; #ifdef MODULE_NETSTATS_RPL gnrc_rpl_netstats_tx_DAO(&gnrc_rpl_netstats, gnrc_pkt_len(pkt), (destination && !ipv6_addr_is_multicast(destination))); #endif gnrc_rpl_send(pkt, dodag->iface, NULL, destination, &dodag->dodag_id); GNRC_RPL_COUNTER_INCREMENT(dodag->dao_seq); } void gnrc_rpl_send_DAO_ACK(gnrc_rpl_instance_t *inst, ipv6_addr_t *destination, uint8_t seq) { gnrc_rpl_dodag_t *dodag = NULL; if (inst == NULL) { DEBUG("RPL: Error - trying to send DAO-ACK without being part of a dodag.\n"); return; } dodag = &inst->dodag; gnrc_pktsnip_t *pkt; icmpv6_hdr_t *icmp; gnrc_rpl_dao_ack_t *dao_ack; int size = sizeof(icmpv6_hdr_t) + sizeof(gnrc_rpl_dao_ack_t); bool local_instance = (inst->id & GNRC_RPL_INSTANCE_ID_MSB) ? true : false; if (local_instance) { size += sizeof(ipv6_addr_t); } if ((pkt = gnrc_icmpv6_build(NULL, ICMPV6_RPL_CTRL, GNRC_RPL_ICMPV6_CODE_DAO_ACK, size)) == NULL) { DEBUG("RPL: Send DAOACK - no space left in packet buffer\n"); return; } icmp = (icmpv6_hdr_t *)pkt->data; dao_ack = (gnrc_rpl_dao_ack_t *)(icmp + 1); dao_ack->instance_id = inst->id; if (local_instance) { /* set the D flag to indicate that a DODAG id is present */ dao_ack->d_reserved = GNRC_RPL_DAO_ACK_D_BIT; memcpy((dao_ack + 1), &dodag->dodag_id, sizeof(ipv6_addr_t)); } else { dao_ack->d_reserved = 0; } dao_ack->dao_sequence = seq; dao_ack->status = 0; #ifdef MODULE_NETSTATS_RPL gnrc_rpl_netstats_tx_DAO_ACK(&gnrc_rpl_netstats, gnrc_pkt_len(pkt), (destination && !ipv6_addr_is_multicast(destination))); #endif gnrc_rpl_send(pkt, dodag->iface, NULL, destination, &dodag->dodag_id); } void gnrc_rpl_recv_DAO(gnrc_rpl_dao_t *dao, kernel_pid_t iface, ipv6_addr_t *src, ipv6_addr_t *dst, uint16_t len) { (void)iface; (void)dst; #ifdef MODULE_NETSTATS_RPL gnrc_rpl_netstats_rx_DAO(&gnrc_rpl_netstats, len, (dst && !ipv6_addr_is_multicast(dst))); #endif gnrc_rpl_instance_t *inst = NULL; gnrc_rpl_dodag_t *dodag = NULL; #ifndef GNRC_RPL_WITHOUT_VALIDATION if (!gnrc_rpl_validation_DAO(dao, len)) { return; } #endif gnrc_rpl_opt_t *opts = (gnrc_rpl_opt_t *) (dao + 1); if ((inst = gnrc_rpl_instance_get(dao->instance_id)) == NULL) { DEBUG("RPL: DAO with unknown instance id (%d) received\n", dao->instance_id); return; } dodag = &inst->dodag; len -= (sizeof(gnrc_rpl_dao_t) + sizeof(icmpv6_hdr_t)); /* check if the D flag is set before accessing the DODAG id */ if ((dao->k_d_flags & GNRC_RPL_DAO_D_BIT)) { if (memcmp(&dodag->dodag_id, (ipv6_addr_t *)(dao + 1), sizeof(ipv6_addr_t)) != 0) { DEBUG("RPL: DAO with unknown DODAG id (%s)\n", ipv6_addr_to_str(addr_str, (ipv6_addr_t *)(dao + 1), sizeof(addr_str))); return; } opts = (gnrc_rpl_opt_t *)(((uint8_t *) opts) + sizeof(ipv6_addr_t)); len -= sizeof(ipv6_addr_t); } /* a leaf node should not parse DAOs */ if (dodag->node_status == GNRC_RPL_LEAF_NODE) { return; } #ifdef MODULE_GNRC_RPL_P2P if (dodag->instance->mop == GNRC_RPL_P2P_MOP) { return; } #endif uint32_t included_opts = 0; if(!_parse_options(GNRC_RPL_ICMPV6_CODE_DAO, inst, opts, len, src, &included_opts)) { DEBUG("RPL: Error encountered during DAO option parsing - ignore DAO\n"); return; } /* send a DAO-ACK if K flag is set */ if (dao->k_d_flags & GNRC_RPL_DAO_K_BIT) { gnrc_rpl_send_DAO_ACK(inst, src, dao->dao_sequence); } gnrc_rpl_delay_dao(dodag); } void gnrc_rpl_recv_DAO_ACK(gnrc_rpl_dao_ack_t *dao_ack, kernel_pid_t iface, ipv6_addr_t *src, ipv6_addr_t *dst, uint16_t len) { (void)iface; (void)src; (void)dst; (void)len; gnrc_rpl_instance_t *inst = NULL; gnrc_rpl_dodag_t *dodag = NULL; #ifdef MODULE_NETSTATS_RPL gnrc_rpl_netstats_rx_DAO_ACK(&gnrc_rpl_netstats, len, (dst && !ipv6_addr_is_multicast(dst))); #endif #ifndef GNRC_RPL_WITHOUT_VALIDATION if (!gnrc_rpl_validation_DAO_ACK(dao_ack, len, dst)) { return; } #endif if ((inst = gnrc_rpl_instance_get(dao_ack->instance_id)) == NULL) { DEBUG("RPL: DAO-ACK with unknown instance id (%d) received\n", dao_ack->instance_id); return; } dodag = &inst->dodag; /* check if the D flag is set before accessing the DODAG id */ if ((dao_ack->d_reserved & GNRC_RPL_DAO_ACK_D_BIT)) { if (memcmp(&dodag->dodag_id, (ipv6_addr_t *)(dao_ack + 1), sizeof(ipv6_addr_t)) != 0) { DEBUG("RPL: DAO-ACK with unknown DODAG id (%s)\n", ipv6_addr_to_str(addr_str, (ipv6_addr_t *)(dao_ack + 1), sizeof(addr_str))); return; } } if ((dao_ack->status != 0) && (dao_ack->dao_sequence != dodag->dao_seq)) { DEBUG("RPL: DAO-ACK sequence (%d) does not match expected sequence (%d)\n", dao_ack->dao_sequence, dodag->dao_seq); return; } dodag->dao_ack_received = true; gnrc_rpl_long_delay_dao(dodag); } /** * @} */