/** * \addtogroup uip6 * @{ */ /* * Copyright (c) 2010, Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the Contiki operating system. * */ /** * \file * ICMP6 I/O for RPL control messages. * * \author Joakim Eriksson , Nicolas Tsiftes * Contributors: Niclas Finne , Joel Hoglund , * Mathieu Pouillot * George Oikonomou (multicast) */ #include "net/ip/tcpip.h" #include "net/ip/uip.h" #include "net/ipv6/uip-ds6.h" #include "net/ipv6/uip-nd6.h" #include "net/ipv6/uip-icmp6.h" #include "net/rpl/rpl-private.h" #include "net/packetbuf.h" #include "net/ipv6/multicast/uip-mcast6.h" #include #include #define DEBUG DEBUG_NONE #include "net/ip/uip-debug.h" #if UIP_CONF_IPV6 /*---------------------------------------------------------------------------*/ #define RPL_DIO_GROUNDED 0x80 #define RPL_DIO_MOP_SHIFT 3 #define RPL_DIO_MOP_MASK 0x3c #define RPL_DIO_PREFERENCE_MASK 0x07 #define UIP_IP_BUF ((struct uip_ip_hdr *)&uip_buf[UIP_LLH_LEN]) #define UIP_ICMP_BUF ((struct uip_icmp_hdr *)&uip_buf[uip_l2_l3_hdr_len]) #define UIP_ICMP_PAYLOAD ((unsigned char *)&uip_buf[uip_l2_l3_icmp_hdr_len]) /*---------------------------------------------------------------------------*/ static void dis_input(void); static void dio_input(void); static void dao_input(void); static void dao_ack_input(void); /* some debug callbacks useful when debugging RPL networks */ #ifdef RPL_DEBUG_DIO_INPUT void RPL_DEBUG_DIO_INPUT(uip_ipaddr_t *, rpl_dio_t *); #endif #ifdef RPL_DEBUG_DAO_OUTPUT void RPL_DEBUG_DAO_OUTPUT(rpl_parent_t *); #endif static uint8_t dao_sequence = RPL_LOLLIPOP_INIT; extern rpl_of_t RPL_OF; #if RPL_CONF_MULTICAST static uip_mcast6_route_t *mcast_group; #endif /*---------------------------------------------------------------------------*/ /* Initialise RPL ICMPv6 message handlers */ UIP_ICMP6_HANDLER(dis_handler, ICMP6_RPL, RPL_CODE_DIS, dis_input); UIP_ICMP6_HANDLER(dio_handler, ICMP6_RPL, RPL_CODE_DIO, dio_input); UIP_ICMP6_HANDLER(dao_handler, ICMP6_RPL, RPL_CODE_DAO, dao_input); UIP_ICMP6_HANDLER(dao_ack_handler, ICMP6_RPL, RPL_CODE_DAO_ACK, dao_ack_input); /*---------------------------------------------------------------------------*/ static int get_global_addr(uip_ipaddr_t *addr) { int i; int state; for(i = 0; i < UIP_DS6_ADDR_NB; i++) { state = uip_ds6_if.addr_list[i].state; if(uip_ds6_if.addr_list[i].isused && (state == ADDR_TENTATIVE || state == ADDR_PREFERRED)) { if(!uip_is_addr_link_local(&uip_ds6_if.addr_list[i].ipaddr)) { memcpy(addr, &uip_ds6_if.addr_list[i].ipaddr, sizeof(uip_ipaddr_t)); return 1; } } } return 0; } /*---------------------------------------------------------------------------*/ static uint32_t get32(uint8_t *buffer, int pos) { return (uint32_t)buffer[pos] << 24 | (uint32_t)buffer[pos + 1] << 16 | (uint32_t)buffer[pos + 2] << 8 | buffer[pos + 3]; } /*---------------------------------------------------------------------------*/ static void set32(uint8_t *buffer, int pos, uint32_t value) { buffer[pos++] = value >> 24; buffer[pos++] = (value >> 16) & 0xff; buffer[pos++] = (value >> 8) & 0xff; buffer[pos++] = value & 0xff; } /*---------------------------------------------------------------------------*/ static uint16_t get16(uint8_t *buffer, int pos) { return (uint16_t)buffer[pos] << 8 | buffer[pos + 1]; } /*---------------------------------------------------------------------------*/ static void set16(uint8_t *buffer, int pos, uint16_t value) { buffer[pos++] = value >> 8; buffer[pos++] = value & 0xff; } /*---------------------------------------------------------------------------*/ static void dis_input(void) { rpl_instance_t *instance; rpl_instance_t *end; /* DAG Information Solicitation */ PRINTF("RPL: Received a DIS from "); PRINT6ADDR(&UIP_IP_BUF->srcipaddr); PRINTF("\n"); for(instance = &instance_table[0], end = instance + RPL_MAX_INSTANCES; instance < end; ++instance) { if(instance->used == 1) { #if RPL_LEAF_ONLY if(!uip_is_addr_mcast(&UIP_IP_BUF->destipaddr)) { PRINTF("RPL: LEAF ONLY Multicast DIS will NOT reset DIO timer\n"); #else /* !RPL_LEAF_ONLY */ if(uip_is_addr_mcast(&UIP_IP_BUF->destipaddr)) { PRINTF("RPL: Multicast DIS => reset DIO timer\n"); rpl_reset_dio_timer(instance); } else { #endif /* !RPL_LEAF_ONLY */ PRINTF("RPL: Unicast DIS, reply to sender\n"); dio_output(instance, &UIP_IP_BUF->srcipaddr); } } } uip_len = 0; } /*---------------------------------------------------------------------------*/ void dis_output(uip_ipaddr_t *addr) { unsigned char *buffer; uip_ipaddr_t tmpaddr; /* * DAG Information Solicitation - 2 bytes reserved * 0 1 2 * 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * | Flags | Reserved | Option(s)... * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ */ buffer = UIP_ICMP_PAYLOAD; buffer[0] = buffer[1] = 0; if(addr == NULL) { uip_create_linklocal_rplnodes_mcast(&tmpaddr); addr = &tmpaddr; } PRINTF("RPL: Sending a DIS to "); PRINT6ADDR(addr); PRINTF("\n"); uip_icmp6_send(addr, ICMP6_RPL, RPL_CODE_DIS, 2); } /*---------------------------------------------------------------------------*/ static void dio_input(void) { unsigned char *buffer; uint8_t buffer_length; rpl_dio_t dio; uint8_t subopt_type; int i; int len; uip_ipaddr_t from; uip_ds6_nbr_t *nbr; memset(&dio, 0, sizeof(dio)); /* Set default values in case the DIO configuration option is missing. */ dio.dag_intdoubl = RPL_DIO_INTERVAL_DOUBLINGS; dio.dag_intmin = RPL_DIO_INTERVAL_MIN; dio.dag_redund = RPL_DIO_REDUNDANCY; dio.dag_min_hoprankinc = RPL_MIN_HOPRANKINC; dio.dag_max_rankinc = RPL_MAX_RANKINC; dio.ocp = RPL_OF.ocp; dio.default_lifetime = RPL_DEFAULT_LIFETIME; dio.lifetime_unit = RPL_DEFAULT_LIFETIME_UNIT; uip_ipaddr_copy(&from, &UIP_IP_BUF->srcipaddr); /* DAG Information Object */ PRINTF("RPL: Received a DIO from "); PRINT6ADDR(&from); PRINTF("\n"); if((nbr = uip_ds6_nbr_lookup(&from)) == NULL) { if((nbr = uip_ds6_nbr_add(&from, (uip_lladdr_t *) packetbuf_addr(PACKETBUF_ADDR_SENDER), 0, NBR_REACHABLE)) != NULL) { /* set reachable timer */ stimer_set(&nbr->reachable, UIP_ND6_REACHABLE_TIME / 1000); PRINTF("RPL: Neighbor added to neighbor cache "); PRINT6ADDR(&from); PRINTF(", "); PRINTLLADDR((uip_lladdr_t *)packetbuf_addr(PACKETBUF_ADDR_SENDER)); PRINTF("\n"); } else { PRINTF("RPL: Out of memory, dropping DIO from "); PRINT6ADDR(&from); PRINTF(", "); PRINTLLADDR((uip_lladdr_t *)packetbuf_addr(PACKETBUF_ADDR_SENDER)); PRINTF("\n"); return; } } else { PRINTF("RPL: Neighbor already in neighbor cache\n"); } buffer_length = uip_len - uip_l3_icmp_hdr_len; /* Process the DIO base option. */ i = 0; buffer = UIP_ICMP_PAYLOAD; dio.instance_id = buffer[i++]; dio.version = buffer[i++]; dio.rank = get16(buffer, i); i += 2; PRINTF("RPL: Incoming DIO (id, ver, rank) = (%u,%u,%u)\n", (unsigned)dio.instance_id, (unsigned)dio.version, (unsigned)dio.rank); dio.grounded = buffer[i] & RPL_DIO_GROUNDED; dio.mop = (buffer[i]& RPL_DIO_MOP_MASK) >> RPL_DIO_MOP_SHIFT; dio.preference = buffer[i++] & RPL_DIO_PREFERENCE_MASK; dio.dtsn = buffer[i++]; /* two reserved bytes */ i += 2; memcpy(&dio.dag_id, buffer + i, sizeof(dio.dag_id)); i += sizeof(dio.dag_id); PRINTF("RPL: Incoming DIO (dag_id, pref) = ("); PRINT6ADDR(&dio.dag_id); PRINTF(", %u)\n", dio.preference); /* Check if there are any DIO suboptions. */ for(; i < buffer_length; i += len) { subopt_type = buffer[i]; if(subopt_type == RPL_OPTION_PAD1) { len = 1; } else { /* Suboption with a two-byte header + payload */ len = 2 + buffer[i + 1]; } if(len + i > buffer_length) { PRINTF("RPL: Invalid DIO packet\n"); RPL_STAT(rpl_stats.malformed_msgs++); return; } PRINTF("RPL: DIO option %u, length: %u\n", subopt_type, len - 2); switch(subopt_type) { case RPL_OPTION_DAG_METRIC_CONTAINER: if(len < 6) { PRINTF("RPL: Invalid DAG MC, len = %d\n", len); RPL_STAT(rpl_stats.malformed_msgs++); return; } dio.mc.type = buffer[i + 2]; dio.mc.flags = buffer[i + 3] << 1; dio.mc.flags |= buffer[i + 4] >> 7; dio.mc.aggr = (buffer[i + 4] >> 4) & 0x3; dio.mc.prec = buffer[i + 4] & 0xf; dio.mc.length = buffer[i + 5]; if(dio.mc.type == RPL_DAG_MC_NONE) { /* No metric container: do nothing */ } else if(dio.mc.type == RPL_DAG_MC_ETX) { dio.mc.obj.etx = get16(buffer, i + 6); PRINTF("RPL: DAG MC: type %u, flags %u, aggr %u, prec %u, length %u, ETX %u\n", (unsigned)dio.mc.type, (unsigned)dio.mc.flags, (unsigned)dio.mc.aggr, (unsigned)dio.mc.prec, (unsigned)dio.mc.length, (unsigned)dio.mc.obj.etx); } else if(dio.mc.type == RPL_DAG_MC_ENERGY) { dio.mc.obj.energy.flags = buffer[i + 6]; dio.mc.obj.energy.energy_est = buffer[i + 7]; } else { PRINTF("RPL: Unhandled DAG MC type: %u\n", (unsigned)dio.mc.type); return; } break; case RPL_OPTION_ROUTE_INFO: if(len < 9) { PRINTF("RPL: Invalid destination prefix option, len = %d\n", len); RPL_STAT(rpl_stats.malformed_msgs++); return; } /* The flags field includes the preference value. */ dio.destination_prefix.length = buffer[i + 2]; dio.destination_prefix.flags = buffer[i + 3]; dio.destination_prefix.lifetime = get32(buffer, i + 4); if(((dio.destination_prefix.length + 7) / 8) + 8 <= len && dio.destination_prefix.length <= 128) { PRINTF("RPL: Copying destination prefix\n"); memcpy(&dio.destination_prefix.prefix, &buffer[i + 8], (dio.destination_prefix.length + 7) / 8); } else { PRINTF("RPL: Invalid route info option, len = %d\n", len); RPL_STAT(rpl_stats.malformed_msgs++); return; } break; case RPL_OPTION_DAG_CONF: if(len != 16) { PRINTF("RPL: Invalid DAG configuration option, len = %d\n", len); RPL_STAT(rpl_stats.malformed_msgs++); return; } /* Path control field not yet implemented - at i + 2 */ dio.dag_intdoubl = buffer[i + 3]; dio.dag_intmin = buffer[i + 4]; dio.dag_redund = buffer[i + 5]; dio.dag_max_rankinc = get16(buffer, i + 6); dio.dag_min_hoprankinc = get16(buffer, i + 8); dio.ocp = get16(buffer, i + 10); /* buffer + 12 is reserved */ dio.default_lifetime = buffer[i + 13]; dio.lifetime_unit = get16(buffer, i + 14); PRINTF("RPL: DAG conf:dbl=%d, min=%d red=%d maxinc=%d mininc=%d ocp=%d d_l=%u l_u=%u\n", dio.dag_intdoubl, dio.dag_intmin, dio.dag_redund, dio.dag_max_rankinc, dio.dag_min_hoprankinc, dio.ocp, dio.default_lifetime, dio.lifetime_unit); break; case RPL_OPTION_PREFIX_INFO: if(len != 32) { PRINTF("RPL: Invalid DAG prefix info, len != 32\n"); RPL_STAT(rpl_stats.malformed_msgs++); return; } dio.prefix_info.length = buffer[i + 2]; dio.prefix_info.flags = buffer[i + 3]; /* valid lifetime is ingnored for now - at i + 4 */ /* preferred lifetime stored in lifetime */ dio.prefix_info.lifetime = get32(buffer, i + 8); /* 32-bit reserved at i + 12 */ PRINTF("RPL: Copying prefix information\n"); memcpy(&dio.prefix_info.prefix, &buffer[i + 16], 16); break; default: PRINTF("RPL: Unsupported suboption type in DIO: %u\n", (unsigned)subopt_type); } } #ifdef RPL_DEBUG_DIO_INPUT RPL_DEBUG_DIO_INPUT(&from, &dio); #endif rpl_process_dio(&from, &dio); uip_len = 0; } /*---------------------------------------------------------------------------*/ void dio_output(rpl_instance_t *instance, uip_ipaddr_t *uc_addr) { unsigned char *buffer; int pos; rpl_dag_t *dag = instance->current_dag; #if !RPL_LEAF_ONLY uip_ipaddr_t addr; #endif /* !RPL_LEAF_ONLY */ #if RPL_LEAF_ONLY /* In leaf mode, we only send DIO messages as unicasts in response to unicast DIS messages. */ if(uc_addr == NULL) { PRINTF("RPL: LEAF ONLY have multicast addr: skip dio_output\n"); return; } #endif /* RPL_LEAF_ONLY */ /* DAG Information Object */ pos = 0; buffer = UIP_ICMP_PAYLOAD; buffer[pos++] = instance->instance_id; buffer[pos++] = dag->version; #if RPL_LEAF_ONLY PRINTF("RPL: LEAF ONLY DIO rank set to INFINITE_RANK\n"); set16(buffer, pos, INFINITE_RANK); #else /* RPL_LEAF_ONLY */ set16(buffer, pos, dag->rank); #endif /* RPL_LEAF_ONLY */ pos += 2; buffer[pos] = 0; if(dag->grounded) { buffer[pos] |= RPL_DIO_GROUNDED; } buffer[pos] |= instance->mop << RPL_DIO_MOP_SHIFT; buffer[pos] |= dag->preference & RPL_DIO_PREFERENCE_MASK; pos++; buffer[pos++] = instance->dtsn_out; /* always request new DAO to refresh route */ RPL_LOLLIPOP_INCREMENT(instance->dtsn_out); /* reserved 2 bytes */ buffer[pos++] = 0; /* flags */ buffer[pos++] = 0; /* reserved */ memcpy(buffer + pos, &dag->dag_id, sizeof(dag->dag_id)); pos += 16; #if !RPL_LEAF_ONLY if(instance->mc.type != RPL_DAG_MC_NONE) { instance->of->update_metric_container(instance); buffer[pos++] = RPL_OPTION_DAG_METRIC_CONTAINER; buffer[pos++] = 6; buffer[pos++] = instance->mc.type; buffer[pos++] = instance->mc.flags >> 1; buffer[pos] = (instance->mc.flags & 1) << 7; buffer[pos++] |= (instance->mc.aggr << 4) | instance->mc.prec; if(instance->mc.type == RPL_DAG_MC_ETX) { buffer[pos++] = 2; set16(buffer, pos, instance->mc.obj.etx); pos += 2; } else if(instance->mc.type == RPL_DAG_MC_ENERGY) { buffer[pos++] = 2; buffer[pos++] = instance->mc.obj.energy.flags; buffer[pos++] = instance->mc.obj.energy.energy_est; } else { PRINTF("RPL: Unable to send DIO because of unhandled DAG MC type %u\n", (unsigned)instance->mc.type); return; } } #endif /* !RPL_LEAF_ONLY */ /* Always add a DAG configuration option. */ buffer[pos++] = RPL_OPTION_DAG_CONF; buffer[pos++] = 14; buffer[pos++] = 0; /* No Auth, PCS = 0 */ buffer[pos++] = instance->dio_intdoubl; buffer[pos++] = instance->dio_intmin; buffer[pos++] = instance->dio_redundancy; set16(buffer, pos, instance->max_rankinc); pos += 2; set16(buffer, pos, instance->min_hoprankinc); pos += 2; /* OCP is in the DAG_CONF option */ set16(buffer, pos, instance->of->ocp); pos += 2; buffer[pos++] = 0; /* reserved */ buffer[pos++] = instance->default_lifetime; set16(buffer, pos, instance->lifetime_unit); pos += 2; /* Check if we have a prefix to send also. */ if(dag->prefix_info.length > 0) { buffer[pos++] = RPL_OPTION_PREFIX_INFO; buffer[pos++] = 30; /* always 30 bytes + 2 long */ buffer[pos++] = dag->prefix_info.length; buffer[pos++] = dag->prefix_info.flags; set32(buffer, pos, dag->prefix_info.lifetime); pos += 4; set32(buffer, pos, dag->prefix_info.lifetime); pos += 4; memset(&buffer[pos], 0, 4); pos += 4; memcpy(&buffer[pos], &dag->prefix_info.prefix, 16); pos += 16; PRINTF("RPL: Sending prefix info in DIO for "); PRINT6ADDR(&dag->prefix_info.prefix); PRINTF("\n"); } else { PRINTF("RPL: No prefix to announce (len %d)\n", dag->prefix_info.length); } #if RPL_LEAF_ONLY #if (DEBUG) & DEBUG_PRINT if(uc_addr == NULL) { PRINTF("RPL: LEAF ONLY sending unicast-DIO from multicast-DIO\n"); } #endif /* DEBUG_PRINT */ PRINTF("RPL: Sending unicast-DIO with rank %u to ", (unsigned)dag->rank); PRINT6ADDR(uc_addr); PRINTF("\n"); uip_icmp6_send(uc_addr, ICMP6_RPL, RPL_CODE_DIO, pos); #else /* RPL_LEAF_ONLY */ /* Unicast requests get unicast replies! */ if(uc_addr == NULL) { PRINTF("RPL: Sending a multicast-DIO with rank %u\n", (unsigned)instance->current_dag->rank); uip_create_linklocal_rplnodes_mcast(&addr); uip_icmp6_send(&addr, ICMP6_RPL, RPL_CODE_DIO, pos); } else { PRINTF("RPL: Sending unicast-DIO with rank %u to ", (unsigned)instance->current_dag->rank); PRINT6ADDR(uc_addr); PRINTF("\n"); uip_icmp6_send(uc_addr, ICMP6_RPL, RPL_CODE_DIO, pos); } #endif /* RPL_LEAF_ONLY */ } /*---------------------------------------------------------------------------*/ static void dao_input(void) { uip_ipaddr_t dao_sender_addr; rpl_dag_t *dag; rpl_instance_t *instance; unsigned char *buffer; uint16_t sequence; uint8_t instance_id; uint8_t lifetime; uint8_t prefixlen; uint8_t flags; uint8_t subopt_type; /* uint8_t pathcontrol; uint8_t pathsequence; */ uip_ipaddr_t prefix; uip_ds6_route_t *rep; uint8_t buffer_length; int pos; int len; int i; int learned_from; rpl_parent_t *parent; uip_ds6_nbr_t *nbr; prefixlen = 0; parent = NULL; uip_ipaddr_copy(&dao_sender_addr, &UIP_IP_BUF->srcipaddr); /* Destination Advertisement Object */ PRINTF("RPL: Received a DAO from "); PRINT6ADDR(&dao_sender_addr); PRINTF("\n"); buffer = UIP_ICMP_PAYLOAD; buffer_length = uip_len - uip_l3_icmp_hdr_len; pos = 0; instance_id = buffer[pos++]; instance = rpl_get_instance(instance_id); if(instance == NULL) { PRINTF("RPL: Ignoring a DAO for an unknown RPL instance(%u)\n", instance_id); return; } lifetime = instance->default_lifetime; flags = buffer[pos++]; /* reserved */ pos++; sequence = buffer[pos++]; dag = instance->current_dag; /* Is the DAG ID present? */ if(flags & RPL_DAO_D_FLAG) { if(memcmp(&dag->dag_id, &buffer[pos], sizeof(dag->dag_id))) { PRINTF("RPL: Ignoring a DAO for a DAG different from ours\n"); return; } pos += 16; } learned_from = uip_is_addr_mcast(&dao_sender_addr) ? RPL_ROUTE_FROM_MULTICAST_DAO : RPL_ROUTE_FROM_UNICAST_DAO; PRINTF("RPL: DAO from %s\n", learned_from == RPL_ROUTE_FROM_UNICAST_DAO? "unicast": "multicast"); if(learned_from == RPL_ROUTE_FROM_UNICAST_DAO) { /* Check whether this is a DAO forwarding loop. */ parent = rpl_find_parent(dag, &dao_sender_addr); /* check if this is a new DAO registration with an "illegal" rank */ /* if we already route to this node it is likely */ if(parent != NULL && DAG_RANK(parent->rank, instance) < DAG_RANK(dag->rank, instance)) { PRINTF("RPL: Loop detected when receiving a unicast DAO from a node with a lower rank! (%u < %u)\n", DAG_RANK(parent->rank, instance), DAG_RANK(dag->rank, instance)); parent->rank = INFINITE_RANK; parent->updated = 1; return; } /* If we get the DAO from our parent, we also have a loop. */ if(parent != NULL && parent == dag->preferred_parent) { PRINTF("RPL: Loop detected when receiving a unicast DAO from our parent\n"); parent->rank = INFINITE_RANK; parent->updated = 1; return; } } /* Check if there are any RPL options present. */ for(i = pos; i < buffer_length; i += len) { subopt_type = buffer[i]; if(subopt_type == RPL_OPTION_PAD1) { len = 1; } else { /* The option consists of a two-byte header and a payload. */ len = 2 + buffer[i + 1]; } switch(subopt_type) { case RPL_OPTION_TARGET: /* Handle the target option. */ prefixlen = buffer[i + 3]; memset(&prefix, 0, sizeof(prefix)); memcpy(&prefix, buffer + i + 4, (prefixlen + 7) / CHAR_BIT); break; case RPL_OPTION_TRANSIT: /* The path sequence and control are ignored. */ /* pathcontrol = buffer[i + 3]; pathsequence = buffer[i + 4];*/ lifetime = buffer[i + 5]; /* The parent address is also ignored. */ break; } } PRINTF("RPL: DAO lifetime: %u, prefix length: %u prefix: ", (unsigned)lifetime, (unsigned)prefixlen); PRINT6ADDR(&prefix); PRINTF("\n"); #if RPL_CONF_MULTICAST if(uip_is_addr_mcast_global(&prefix)) { mcast_group = uip_mcast6_route_add(&prefix); if(mcast_group) { mcast_group->dag = dag; mcast_group->lifetime = RPL_LIFETIME(instance, lifetime); } goto fwd_dao; } #endif rep = uip_ds6_route_lookup(&prefix); if(lifetime == RPL_ZERO_LIFETIME) { PRINTF("RPL: No-Path DAO received\n"); /* No-Path DAO received; invoke the route purging routine. */ if(rep != NULL && rep->state.nopath_received == 0 && rep->length == prefixlen && uip_ds6_route_nexthop(rep) != NULL && uip_ipaddr_cmp(uip_ds6_route_nexthop(rep), &dao_sender_addr)) { PRINTF("RPL: Setting expiration timer for prefix "); PRINT6ADDR(&prefix); PRINTF("\n"); rep->state.nopath_received = 1; rep->state.lifetime = DAO_EXPIRATION_TIMEOUT; /* We forward the incoming no-path DAO to our parent, if we have one. */ if(dag->preferred_parent != NULL && rpl_get_parent_ipaddr(dag->preferred_parent) != NULL) { PRINTF("RPL: Forwarding no-path DAO to parent "); PRINT6ADDR(rpl_get_parent_ipaddr(dag->preferred_parent)); PRINTF("\n"); uip_icmp6_send(rpl_get_parent_ipaddr(dag->preferred_parent), ICMP6_RPL, RPL_CODE_DAO, buffer_length); } if(flags & RPL_DAO_K_FLAG) { dao_ack_output(instance, &dao_sender_addr, sequence); } } return; } PRINTF("RPL: adding DAO route\n"); if((nbr = uip_ds6_nbr_lookup(&dao_sender_addr)) == NULL) { if((nbr = uip_ds6_nbr_add(&dao_sender_addr, (uip_lladdr_t *)packetbuf_addr(PACKETBUF_ADDR_SENDER), 0, NBR_REACHABLE)) != NULL) { /* set reachable timer */ stimer_set(&nbr->reachable, UIP_ND6_REACHABLE_TIME / 1000); PRINTF("RPL: Neighbor added to neighbor cache "); PRINT6ADDR(&dao_sender_addr); PRINTF(", "); PRINTLLADDR((uip_lladdr_t *)packetbuf_addr(PACKETBUF_ADDR_SENDER)); PRINTF("\n"); } else { PRINTF("RPL: Out of Memory, dropping DAO from "); PRINT6ADDR(&dao_sender_addr); PRINTF(", "); PRINTLLADDR((uip_lladdr_t *)packetbuf_addr(PACKETBUF_ADDR_SENDER)); PRINTF("\n"); return; } } else { PRINTF("RPL: Neighbor already in neighbor cache\n"); } rpl_lock_parent(parent); rep = rpl_add_route(dag, &prefix, prefixlen, &dao_sender_addr); if(rep == NULL) { RPL_STAT(rpl_stats.mem_overflows++); PRINTF("RPL: Could not add a route after receiving a DAO\n"); return; } rep->state.lifetime = RPL_LIFETIME(instance, lifetime); rep->state.learned_from = learned_from; #if RPL_CONF_MULTICAST fwd_dao: #endif if(learned_from == RPL_ROUTE_FROM_UNICAST_DAO) { if(dag->preferred_parent != NULL && rpl_get_parent_ipaddr(dag->preferred_parent) != NULL) { PRINTF("RPL: Forwarding DAO to parent "); PRINT6ADDR(rpl_get_parent_ipaddr(dag->preferred_parent)); PRINTF("\n"); uip_icmp6_send(rpl_get_parent_ipaddr(dag->preferred_parent), ICMP6_RPL, RPL_CODE_DAO, buffer_length); } if(flags & RPL_DAO_K_FLAG) { dao_ack_output(instance, &dao_sender_addr, sequence); } } uip_len = 0; } /*---------------------------------------------------------------------------*/ void dao_output(rpl_parent_t *parent, uint8_t lifetime) { /* Destination Advertisement Object */ uip_ipaddr_t prefix; if(get_global_addr(&prefix) == 0) { PRINTF("RPL: No global address set for this node - suppressing DAO\n"); return; } /* Sending a DAO with own prefix as target */ dao_output_target(parent, &prefix, lifetime); } /*---------------------------------------------------------------------------*/ void dao_output_target(rpl_parent_t *parent, uip_ipaddr_t *prefix, uint8_t lifetime) { rpl_dag_t *dag; rpl_instance_t *instance; unsigned char *buffer; uint8_t prefixlen; int pos; /* Destination Advertisement Object */ /* If we are in feather mode, we should not send any DAOs */ if(rpl_get_mode() == RPL_MODE_FEATHER) { return; } if(parent == NULL) { PRINTF("RPL dao_output_target error parent NULL\n"); return; } dag = parent->dag; if(dag == NULL) { PRINTF("RPL dao_output_target error dag NULL\n"); return; } instance = dag->instance; if(instance == NULL) { PRINTF("RPL dao_output_target error instance NULL\n"); return; } if(prefix == NULL) { PRINTF("RPL dao_output_target error prefix NULL\n"); return; } #ifdef RPL_DEBUG_DAO_OUTPUT RPL_DEBUG_DAO_OUTPUT(parent); #endif buffer = UIP_ICMP_PAYLOAD; RPL_LOLLIPOP_INCREMENT(dao_sequence); pos = 0; buffer[pos++] = instance->instance_id; buffer[pos] = 0; #if RPL_DAO_SPECIFY_DAG buffer[pos] |= RPL_DAO_D_FLAG; #endif /* RPL_DAO_SPECIFY_DAG */ #if RPL_CONF_DAO_ACK buffer[pos] |= RPL_DAO_K_FLAG; #endif /* RPL_CONF_DAO_ACK */ ++pos; buffer[pos++] = 0; /* reserved */ buffer[pos++] = dao_sequence; #if RPL_DAO_SPECIFY_DAG memcpy(buffer + pos, &dag->dag_id, sizeof(dag->dag_id)); pos+=sizeof(dag->dag_id); #endif /* RPL_DAO_SPECIFY_DAG */ /* create target subopt */ prefixlen = sizeof(*prefix) * CHAR_BIT; buffer[pos++] = RPL_OPTION_TARGET; buffer[pos++] = 2 + ((prefixlen + 7) / CHAR_BIT); buffer[pos++] = 0; /* reserved */ buffer[pos++] = prefixlen; memcpy(buffer + pos, prefix, (prefixlen + 7) / CHAR_BIT); pos += ((prefixlen + 7) / CHAR_BIT); /* Create a transit information sub-option. */ buffer[pos++] = RPL_OPTION_TRANSIT; buffer[pos++] = 4; buffer[pos++] = 0; /* flags - ignored */ buffer[pos++] = 0; /* path control - ignored */ buffer[pos++] = 0; /* path seq - ignored */ buffer[pos++] = lifetime; PRINTF("RPL: Sending DAO with prefix "); PRINT6ADDR(prefix); PRINTF(" to "); PRINT6ADDR(rpl_get_parent_ipaddr(parent)); PRINTF("\n"); if(rpl_get_parent_ipaddr(parent) != NULL) { uip_icmp6_send(rpl_get_parent_ipaddr(parent), ICMP6_RPL, RPL_CODE_DAO, pos); } } /*---------------------------------------------------------------------------*/ static void dao_ack_input(void) { #if DEBUG unsigned char *buffer; uint8_t buffer_length; uint8_t instance_id; uint8_t sequence; uint8_t status; buffer = UIP_ICMP_PAYLOAD; buffer_length = uip_len - uip_l3_icmp_hdr_len; instance_id = buffer[0]; sequence = buffer[2]; status = buffer[3]; PRINTF("RPL: Received a DAO ACK with sequence number %d and status %d from ", sequence, status); PRINT6ADDR(&UIP_IP_BUF->srcipaddr); PRINTF("\n"); #endif /* DEBUG */ uip_len = 0; } /*---------------------------------------------------------------------------*/ void dao_ack_output(rpl_instance_t *instance, uip_ipaddr_t *dest, uint8_t sequence) { unsigned char *buffer; PRINTF("RPL: Sending a DAO ACK with sequence number %d to ", sequence); PRINT6ADDR(dest); PRINTF("\n"); buffer = UIP_ICMP_PAYLOAD; buffer[0] = instance->instance_id; buffer[1] = 0; buffer[2] = sequence; buffer[3] = 0; uip_icmp6_send(dest, ICMP6_RPL, RPL_CODE_DAO_ACK, 4); } /*---------------------------------------------------------------------------*/ void rpl_icmp6_register_handlers() { uip_icmp6_register_input_handler(&dis_handler); uip_icmp6_register_input_handler(&dio_handler); uip_icmp6_register_input_handler(&dao_handler); uip_icmp6_register_input_handler(&dao_ack_handler); } /*---------------------------------------------------------------------------*/ #endif /* UIP_CONF_IPV6 */ /** @}*/