/* * 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/icmpv6.h" #include "net/ipv6.h" #include "net/gnrc/ipv6/netif.h" #include "net/gnrc.h" #include "mutex.h" #include "net/gnrc/rpl.h" #ifdef MODULE_GNRC_RPL_P2P #include "net/gnrc/rpl/p2p.h" #include "net/gnrc/rpl/p2p_dodag.h" #endif #define ENABLE_DEBUG (0) #include "debug.h" static char _stack[GNRC_RPL_STACK_SIZE]; kernel_pid_t gnrc_rpl_pid = KERNEL_PID_UNDEF; const ipv6_addr_t ipv6_addr_all_rpl_nodes = GNRC_RPL_ALL_NODES_ADDR; static uint32_t _lt_time = GNRC_RPL_LIFETIME_UPDATE_STEP * US_PER_SEC; static xtimer_t _lt_timer; static msg_t _lt_msg = { .type = GNRC_RPL_MSG_TYPE_LIFETIME_UPDATE }; static msg_t _msg_q[GNRC_RPL_MSG_QUEUE_SIZE]; static gnrc_netreg_entry_t _me_reg; static mutex_t _inst_id_mutex = MUTEX_INIT; static uint8_t _instance_id; gnrc_rpl_instance_t gnrc_rpl_instances[GNRC_RPL_INSTANCES_NUMOF]; gnrc_rpl_parent_t gnrc_rpl_parents[GNRC_RPL_PARENTS_NUMOF]; #ifdef MODULE_NETSTATS_RPL netstats_rpl_t gnrc_rpl_netstats; #endif static void _update_lifetime(void); static void _dao_handle_send(gnrc_rpl_dodag_t *dodag); static void _receive(gnrc_pktsnip_t *pkt); static void *_event_loop(void *args); kernel_pid_t gnrc_rpl_init(kernel_pid_t if_pid) { /* check if RPL was initialized before */ if (gnrc_rpl_pid == KERNEL_PID_UNDEF) { _instance_id = 0; /* start the event loop */ gnrc_rpl_pid = thread_create(_stack, sizeof(_stack), GNRC_RPL_PRIO, THREAD_CREATE_STACKTEST, _event_loop, NULL, "RPL"); if (gnrc_rpl_pid == KERNEL_PID_UNDEF) { DEBUG("RPL: could not start the event loop\n"); return KERNEL_PID_UNDEF; } _me_reg.demux_ctx = ICMPV6_RPL_CTRL; _me_reg.target.pid = gnrc_rpl_pid; /* register interest in all ICMPv6 packets */ gnrc_netreg_register(GNRC_NETTYPE_ICMPV6, &_me_reg); gnrc_rpl_of_manager_init(); xtimer_set_msg(&_lt_timer, _lt_time, &_lt_msg, gnrc_rpl_pid); #ifdef MODULE_NETSTATS_RPL memset(&gnrc_rpl_netstats, 0, sizeof(gnrc_rpl_netstats)); #endif } /* register all_RPL_nodes multicast address */ gnrc_ipv6_netif_add_addr(if_pid, &ipv6_addr_all_rpl_nodes, IPV6_ADDR_BIT_LEN, 0); gnrc_rpl_send_DIS(NULL, (ipv6_addr_t *) &ipv6_addr_all_rpl_nodes); return gnrc_rpl_pid; } gnrc_rpl_instance_t *gnrc_rpl_root_init(uint8_t instance_id, ipv6_addr_t *dodag_id, bool gen_inst_id, bool local_inst_id) { if (gen_inst_id) { instance_id = gnrc_rpl_gen_instance_id(local_inst_id); } gnrc_rpl_dodag_t *dodag = NULL; gnrc_rpl_instance_t *inst = gnrc_rpl_root_instance_init(instance_id, dodag_id, GNRC_RPL_DEFAULT_MOP); if (!inst) { return NULL; } dodag = &inst->dodag; dodag->dtsn = 1; dodag->prf = 0; dodag->dio_interval_doubl = GNRC_RPL_DEFAULT_DIO_INTERVAL_DOUBLINGS; dodag->dio_min = GNRC_RPL_DEFAULT_DIO_INTERVAL_MIN; dodag->dio_redun = GNRC_RPL_DEFAULT_DIO_REDUNDANCY_CONSTANT; dodag->default_lifetime = GNRC_RPL_DEFAULT_LIFETIME; dodag->lifetime_unit = GNRC_RPL_LIFETIME_UNIT; dodag->version = GNRC_RPL_COUNTER_INIT; dodag->grounded = GNRC_RPL_GROUNDED; dodag->node_status = GNRC_RPL_ROOT_NODE; dodag->my_rank = GNRC_RPL_ROOT_RANK; dodag->dio_opts |= GNRC_RPL_REQ_DIO_OPT_DODAG_CONF; #ifndef GNRC_RPL_WITHOUT_PIO dodag->dio_opts |= GNRC_RPL_REQ_DIO_OPT_PREFIX_INFO; #endif trickle_start(gnrc_rpl_pid, &dodag->trickle, GNRC_RPL_MSG_TYPE_TRICKLE_MSG, (1 << dodag->dio_min), dodag->dio_interval_doubl, dodag->dio_redun); return inst; } static void _receive(gnrc_pktsnip_t *icmpv6) { gnrc_pktsnip_t *ipv6, *netif; ipv6_hdr_t *ipv6_hdr; icmpv6_hdr_t *icmpv6_hdr; kernel_pid_t iface = KERNEL_PID_UNDEF; assert(icmpv6 != NULL); ipv6 = gnrc_pktsnip_search_type(icmpv6, GNRC_NETTYPE_IPV6); netif = gnrc_pktsnip_search_type(icmpv6, GNRC_NETTYPE_NETIF); assert(ipv6 != NULL); if (netif) { iface = ((gnrc_netif_hdr_t *)netif->data)->if_pid; } ipv6_hdr = (ipv6_hdr_t *)ipv6->data; icmpv6_hdr = (icmpv6_hdr_t *)icmpv6->data; switch (icmpv6_hdr->code) { case GNRC_RPL_ICMPV6_CODE_DIS: DEBUG("RPL: DIS received\n"); gnrc_rpl_recv_DIS((gnrc_rpl_dis_t *)(icmpv6_hdr + 1), iface, &ipv6_hdr->src, &ipv6_hdr->dst, byteorder_ntohs(ipv6_hdr->len)); break; case GNRC_RPL_ICMPV6_CODE_DIO: DEBUG("RPL: DIO received\n"); /*******************************************************************/ //ADDED BY PFE15 2018 gnrc_netif_hdr_t* header=(gnrc_netif_hdr_t*)netif->data; gnrc_rpl_dio_t * dio_msg=(gnrc_rpl_dio_t *)(icmpv6_hdr + 1); dio_msg->mc.rssi=header->rssi; dio_msg->mc.lqi=header->lqi; //\ADDED BY PFE15 2018 /*******************************************************************/ gnrc_rpl_recv_DIO((gnrc_rpl_dio_t *)(icmpv6_hdr + 1), iface, &ipv6_hdr->src, &ipv6_hdr->dst, byteorder_ntohs(ipv6_hdr->len)); break; case GNRC_RPL_ICMPV6_CODE_DAO: DEBUG("RPL: DAO received\n"); gnrc_rpl_recv_DAO((gnrc_rpl_dao_t *)(icmpv6_hdr + 1), iface, &ipv6_hdr->src, &ipv6_hdr->dst, byteorder_ntohs(ipv6_hdr->len)); break; case GNRC_RPL_ICMPV6_CODE_DAO_ACK: DEBUG("RPL: DAO-ACK received\n"); gnrc_rpl_recv_DAO_ACK((gnrc_rpl_dao_ack_t *)(icmpv6_hdr + 1), iface, &ipv6_hdr->src, &ipv6_hdr->dst, byteorder_ntohs(ipv6_hdr->len)); break; #ifdef MODULE_GNRC_RPL_P2P case GNRC_RPL_P2P_ICMPV6_CODE_DRO: DEBUG("RPL: P2P DRO received\n"); gnrc_pktsnip_t *icmpv6_snip = gnrc_pktbuf_add(NULL, NULL, icmpv6->size, GNRC_NETTYPE_ICMPV6); if (icmpv6_snip == NULL) { DEBUG("RPL-P2P: cannot copy ICMPv6 packet\n"); break; } memcpy(icmpv6_snip->data, icmpv6->data, icmpv6->size); gnrc_rpl_p2p_recv_DRO(icmpv6_snip, &ipv6_hdr->src); break; case GNRC_RPL_P2P_ICMPV6_CODE_DRO_ACK: DEBUG("RPL: P2P DRO-ACK received\n"); break; #endif default: DEBUG("RPL: Unknown ICMPV6 code received\n"); break; } gnrc_pktbuf_release(icmpv6); } static void *_event_loop(void *args) { msg_t msg, reply; (void)args; msg_init_queue(_msg_q, GNRC_RPL_MSG_QUEUE_SIZE); /* preinitialize ACK */ reply.type = GNRC_NETAPI_MSG_TYPE_ACK; trickle_t *trickle; /* start event loop */ while (1) { DEBUG("RPL: waiting for incoming message.\n"); msg_receive(&msg); switch (msg.type) { case GNRC_RPL_MSG_TYPE_LIFETIME_UPDATE: DEBUG("RPL: GNRC_RPL_MSG_TYPE_LIFETIME_UPDATE received\n"); _update_lifetime(); break; case GNRC_RPL_MSG_TYPE_TRICKLE_MSG: DEBUG("RPL: GNRC_RPL_MSG_TYPE_TRICKLE_MSG received\n"); trickle = msg.content.ptr; if (trickle && (trickle->callback.func != NULL)) { trickle_callback(trickle); } break; case GNRC_NETAPI_MSG_TYPE_RCV: DEBUG("RPL: GNRC_NETAPI_MSG_TYPE_RCV received\n"); _receive(msg.content.ptr); break; case GNRC_NETAPI_MSG_TYPE_SND: break; case GNRC_NETAPI_MSG_TYPE_GET: case GNRC_NETAPI_MSG_TYPE_SET: DEBUG("RPL: reply to unsupported get/set\n"); reply.content.value = -ENOTSUP; msg_reply(&msg, &reply); break; default: break; } } return NULL; } void _update_lifetime(void) { gnrc_rpl_parent_t *parent; gnrc_rpl_instance_t *inst; for (uint8_t i = 0; i < GNRC_RPL_PARENTS_NUMOF; ++i) { parent = &gnrc_rpl_parents[i]; if (parent->state != 0) { if (parent->lifetime > GNRC_RPL_LIFETIME_UPDATE_STEP) { if (parent->lifetime <= (2 * GNRC_RPL_LIFETIME_UPDATE_STEP)) { gnrc_rpl_send_DIS(parent->dodag->instance, &parent->addr); } parent->lifetime -= GNRC_RPL_LIFETIME_UPDATE_STEP; } else { gnrc_rpl_dodag_t *dodag = parent->dodag; gnrc_rpl_parent_remove(parent); gnrc_rpl_parent_update(dodag, NULL); } } } for (int i = 0; i < GNRC_RPL_INSTANCES_NUMOF; ++i) { inst = &gnrc_rpl_instances[i]; if (inst->state != 0) { /*******************************************************************/ //ADDED BY PFE15 2018 if((inst->dodag.my_rank >= GNRC_RPL_INFINITE_RANK) || (inst-> dodag.my_rank<=0)){ LED3_OFF; } else{ LED3_ON; } //\ADDED BY PFE15 2018 /*******************************************************************/ if ((inst->cleanup > 0) && (inst->dodag.parents == NULL) && (inst->dodag.my_rank == GNRC_RPL_INFINITE_RANK)) { inst->cleanup -= GNRC_RPL_LIFETIME_UPDATE_STEP; if (inst->cleanup <= 0) { /* no parents - delete this instance and DODAG */ gnrc_rpl_instance_remove(inst); continue; } } if (inst->dodag.dao_time > GNRC_RPL_LIFETIME_UPDATE_STEP) { inst->dodag.dao_time -= GNRC_RPL_LIFETIME_UPDATE_STEP; } else { _dao_handle_send(&inst->dodag); } } } #ifdef MODULE_GNRC_RPL_P2P gnrc_rpl_p2p_update(); #endif xtimer_set_msg(&_lt_timer, _lt_time, &_lt_msg, gnrc_rpl_pid); } void gnrc_rpl_delay_dao(gnrc_rpl_dodag_t *dodag) { dodag->dao_time = GNRC_RPL_DEFAULT_DAO_DELAY; dodag->dao_counter = 0; dodag->dao_ack_received = false; } void gnrc_rpl_long_delay_dao(gnrc_rpl_dodag_t *dodag) { dodag->dao_time = GNRC_RPL_REGULAR_DAO_INTERVAL; dodag->dao_counter = 0; dodag->dao_ack_received = false; } void _dao_handle_send(gnrc_rpl_dodag_t *dodag) { #ifdef MODULE_GNRC_RPL_P2P if (dodag->instance->mop == GNRC_RPL_P2P_MOP) { return; } #endif if ((dodag->dao_ack_received == false) && (dodag->dao_counter < GNRC_RPL_DAO_SEND_RETRIES)) { dodag->dao_counter++; gnrc_rpl_send_DAO(dodag->instance, NULL, dodag->default_lifetime); dodag->dao_time = GNRC_RPL_DEFAULT_WAIT_FOR_DAO_ACK; } else if (dodag->dao_ack_received == false) { gnrc_rpl_long_delay_dao(dodag); } } uint8_t gnrc_rpl_gen_instance_id(bool local) { mutex_lock(&_inst_id_mutex); uint8_t instance_id = GNRC_RPL_DEFAULT_INSTANCE; if (local) { instance_id = ((_instance_id++) | GNRC_RPL_INSTANCE_ID_MSB); mutex_unlock(&_inst_id_mutex); return instance_id; } instance_id = ((_instance_id++) & GNRC_RPL_GLOBAL_INSTANCE_MASK); mutex_unlock(&_inst_id_mutex); return instance_id; } /** * @} */