/* * Copyright (c) 2009, 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 * Management of extension headers for ContikiRPL. * * \author Vincent Brillault , * Joakim Eriksson , * Niclas Finne , * Nicolas Tsiftes . */ /** * \addtogroup uip6 * @{ */ #include "net/ip/uip.h" #include "net/ip/tcpip.h" #include "net/ipv6/uip-ds6.h" #include "net/rpl/rpl-private.h" #include "net/rpl/rpl-ns.h" #include "net/packetbuf.h" #define DEBUG DEBUG_NONE #include "net/ip/uip-debug.h" #include #include /*---------------------------------------------------------------------------*/ #define UIP_IP_BUF ((struct uip_ip_hdr *)&uip_buf[UIP_LLH_LEN]) #define UIP_EXT_BUF ((struct uip_ext_hdr *)&uip_buf[uip_l2_l3_hdr_len]) #define UIP_HBHO_BUF ((struct uip_hbho_hdr *)&uip_buf[uip_l2_l3_hdr_len]) #define UIP_HBHO_NEXT_BUF ((struct uip_ext_hdr *)&uip_buf[uip_l2_l3_hdr_len + RPL_HOP_BY_HOP_LEN]) #define UIP_RH_BUF ((struct uip_routing_hdr *)&uip_buf[uip_l2_l3_hdr_len]) #define UIP_RPL_SRH_BUF ((struct uip_rpl_srh_hdr *)&uip_buf[uip_l2_l3_hdr_len + RPL_RH_LEN]) #define UIP_EXT_HDR_OPT_BUF ((struct uip_ext_hdr_opt *)&uip_buf[uip_l2_l3_hdr_len + uip_ext_opt_offset]) #define UIP_EXT_HDR_OPT_PADN_BUF ((struct uip_ext_hdr_opt_padn *)&uip_buf[uip_l2_l3_hdr_len + uip_ext_opt_offset]) #define UIP_EXT_HDR_OPT_RPL_BUF ((struct uip_ext_hdr_opt_rpl *)&uip_buf[uip_l2_l3_hdr_len + uip_ext_opt_offset]) /*---------------------------------------------------------------------------*/ int rpl_verify_hbh_header(int uip_ext_opt_offset) { rpl_instance_t *instance; int down; uint16_t sender_rank; uint8_t sender_closer; uip_ds6_route_t *route; rpl_parent_t *sender = NULL; if(UIP_HBHO_BUF->len != ((RPL_HOP_BY_HOP_LEN - 8) / 8)) { PRINTF("RPL: Hop-by-hop extension header has wrong size\n"); return 1; } if(UIP_EXT_HDR_OPT_RPL_BUF->opt_type != UIP_EXT_HDR_OPT_RPL) { PRINTF("RPL: Non RPL Hop-by-hop option\n"); return 1; } if(UIP_EXT_HDR_OPT_RPL_BUF->opt_len != RPL_HDR_OPT_LEN) { PRINTF("RPL: Bad header option! (wrong length)\n"); return 1; } instance = rpl_get_instance(UIP_EXT_HDR_OPT_RPL_BUF->instance); if(instance == NULL) { PRINTF("RPL: Unknown instance: %u\n", UIP_EXT_HDR_OPT_RPL_BUF->instance); return 1; } if(UIP_EXT_HDR_OPT_RPL_BUF->flags & RPL_HDR_OPT_FWD_ERR) { PRINTF("RPL: Forward error!\n"); /* We should try to repair it by removing the neighbor that caused the packet to be forwareded in the first place. We drop any routes that go through the neighbor that sent the packet to us. */ if(RPL_IS_STORING(instance)) { route = uip_ds6_route_lookup(&UIP_IP_BUF->destipaddr); if(route != NULL) { uip_ds6_route_rm(route); } } RPL_STAT(rpl_stats.forward_errors++); /* Trigger DAO retransmission */ rpl_reset_dio_timer(instance); /* drop the packet as it is not routable */ return 1; } if(!instance->current_dag->joined) { PRINTF("RPL: No DAG in the instance\n"); return 1; } down = 0; if(UIP_EXT_HDR_OPT_RPL_BUF->flags & RPL_HDR_OPT_DOWN) { down = 1; } sender_rank = UIP_HTONS(UIP_EXT_HDR_OPT_RPL_BUF->senderrank); sender = nbr_table_get_from_lladdr(rpl_parents, packetbuf_addr(PACKETBUF_ADDR_SENDER)); if(sender != NULL && (UIP_EXT_HDR_OPT_RPL_BUF->flags & RPL_HDR_OPT_RANK_ERR)) { /* A rank error was signalled, attempt to repair it by updating * the sender's rank from ext header */ sender->rank = sender_rank; if(RPL_IS_NON_STORING(instance)) { /* Select DAG and preferred parent only in non-storing mode. In storing mode, * a parent switch would result in an immediate No-path DAO transmission, dropping * current incoming packet. */ rpl_select_dag(instance, sender); } } sender_closer = sender_rank < instance->current_dag->rank; PRINTF("RPL: Packet going %s, sender closer %d (%d < %d)\n", down == 1 ? "down" : "up", sender_closer, sender_rank, instance->current_dag->rank ); if((down && !sender_closer) || (!down && sender_closer)) { PRINTF("RPL: Loop detected - senderrank: %d my-rank: %d sender_closer: %d\n", sender_rank, instance->current_dag->rank, sender_closer); /* Attempt to repair the loop by sending a unicast DIO back to the sender * so that it gets a fresh update of our rank. */ if(sender != NULL) { instance->unicast_dio_target = sender; rpl_schedule_unicast_dio_immediately(instance); } if(UIP_EXT_HDR_OPT_RPL_BUF->flags & RPL_HDR_OPT_RANK_ERR) { RPL_STAT(rpl_stats.loop_errors++); PRINTF("RPL: Rank error signalled in RPL option!\n"); /* Packet must be dropped and dio trickle timer reset, see RFC6550 - 11.2.2.2 */ rpl_reset_dio_timer(instance); return 1; } PRINTF("RPL: Single error tolerated\n"); RPL_STAT(rpl_stats.loop_warnings++); UIP_EXT_HDR_OPT_RPL_BUF->flags |= RPL_HDR_OPT_RANK_ERR; return 0; } PRINTF("RPL: Rank OK\n"); return 0; } /*---------------------------------------------------------------------------*/ #if RPL_WITH_NON_STORING int rpl_srh_get_next_hop(uip_ipaddr_t *ipaddr) { uint8_t *uip_next_hdr; int last_uip_ext_len = uip_ext_len; rpl_dag_t *dag; rpl_ns_node_t *dest_node; rpl_ns_node_t *root_node; uip_ext_len = 0; uip_next_hdr = &UIP_IP_BUF->proto; /* Look for routing header */ while(uip_next_hdr != NULL && *uip_next_hdr != UIP_PROTO_ROUTING) { switch(*uip_next_hdr) { case UIP_PROTO_HBHO: case UIP_PROTO_DESTO: /* * As per RFC 2460, only the Hop-by-Hop Options header and * Destination Options header can appear before the Routing * header. */ /* Move to next header */ uip_next_hdr = &UIP_EXT_BUF->next; uip_ext_len += (UIP_EXT_BUF->len << 3) + 8; break; default: uip_next_hdr = NULL; break; } } dag = rpl_get_dag(&UIP_IP_BUF->destipaddr); root_node = rpl_ns_get_node(dag, &dag->dag_id); dest_node = rpl_ns_get_node(dag, &UIP_IP_BUF->destipaddr); if((uip_next_hdr != NULL && *uip_next_hdr == UIP_PROTO_ROUTING && UIP_RH_BUF->routing_type == RPL_RH_TYPE_SRH) || (dest_node != NULL && root_node != NULL && dest_node->parent == root_node)) { /* Routing header found or the packet destined for a direct child of the root. * The next hop should be already copied as the IPv6 destination * address, via rpl_process_srh_header. We turn this address into a link-local to enable * forwarding to next hop */ uip_ipaddr_copy(ipaddr, &UIP_IP_BUF->destipaddr); uip_create_linklocal_prefix(ipaddr); uip_ext_len = last_uip_ext_len; return 1; } uip_ext_len = last_uip_ext_len; return 0; } /*---------------------------------------------------------------------------*/ int rpl_process_srh_header(void) { uint8_t *uip_next_hdr; int last_uip_ext_len = uip_ext_len; uip_ext_len = 0; uip_next_hdr = &UIP_IP_BUF->proto; /* Look for routing header */ while(uip_next_hdr != NULL && *uip_next_hdr != UIP_PROTO_ROUTING) { switch(*uip_next_hdr) { case UIP_PROTO_HBHO: case UIP_PROTO_DESTO: /* * As per RFC 2460, only the Hop-by-Hop Options header and * Destination Options header can appear before the Routing * header. */ /* Move to next header */ uip_next_hdr = &UIP_EXT_BUF->next; uip_ext_len += (UIP_EXT_BUF->len << 3) + 8; break; default: uip_next_hdr = NULL; break; } } if(uip_next_hdr != NULL && *uip_next_hdr == UIP_PROTO_ROUTING && UIP_RH_BUF->routing_type == RPL_RH_TYPE_SRH) { /* SRH found, now look for next hop */ uint8_t cmpri, cmpre; uint8_t ext_len; uint8_t padding; uint8_t path_len; uint8_t segments_left; uip_ipaddr_t current_dest_addr; segments_left = UIP_RH_BUF->seg_left; ext_len = (UIP_RH_BUF->len * 8) + 8; cmpri = UIP_RPL_SRH_BUF->cmpr >> 4; cmpre = UIP_RPL_SRH_BUF->cmpr & 0x0f; padding = UIP_RPL_SRH_BUF->pad >> 4; path_len = ((ext_len - padding - RPL_RH_LEN - RPL_SRH_LEN - (16 - cmpre)) / (16 - cmpri)) + 1; (void)path_len; PRINTF("RPL: read SRH, path len %u, segments left %u, Cmpri %u, Cmpre %u, ext len %u (padding %u)\n", path_len, segments_left, cmpri, cmpre, ext_len, padding); if(segments_left == 0) { /* We are the final destination, do nothing */ } else { uint8_t i = path_len - segments_left; /* The index of the next address to be visited */ uint8_t *addr_ptr = ((uint8_t *)UIP_RH_BUF) + RPL_RH_LEN + RPL_SRH_LEN + (i * (16 - cmpri)); uint8_t cmpr = segments_left == 1 ? cmpre : cmpri; /* As per RFC6554: swap the IPv6 destination address and address[i] */ /* First, copy the current IPv6 destination address */ uip_ipaddr_copy(¤t_dest_addr, &UIP_IP_BUF->destipaddr); /* Second, update the IPv6 destination address with addresses[i] */ memcpy(((uint8_t *)&UIP_IP_BUF->destipaddr) + cmpr, addr_ptr, 16 - cmpr); /* Third, write current_dest_addr to addresses[i] */ memcpy(addr_ptr, ((uint8_t *)¤t_dest_addr) + cmpr, 16 - cmpr); /* Update segments left field */ UIP_RH_BUF->seg_left--; PRINTF("RPL: SRH next hop "); PRINT6ADDR(&UIP_IP_BUF->destipaddr); PRINTF("\n"); } uip_ext_len = last_uip_ext_len; return 1; } uip_ext_len = last_uip_ext_len; return 0; } /*---------------------------------------------------------------------------*/ static int count_matching_bytes(const void *p1, const void *p2, size_t n) { int i = 0; for(i = 0; i < n; i++) { if(((uint8_t *)p1)[i] != ((uint8_t *)p2)[i]) { return i; } } return n; } /*---------------------------------------------------------------------------*/ static int insert_srh_header(void) { /* Implementation of RFC6554 */ uint8_t temp_len; uint8_t path_len; uint8_t ext_len; uint8_t cmpri, cmpre; /* ComprI and ComprE fields of the RPL Source Routing Header */ uint8_t *hop_ptr; uint8_t padding; rpl_ns_node_t *dest_node; rpl_ns_node_t *root_node; rpl_ns_node_t *node; rpl_dag_t *dag; uip_ipaddr_t node_addr; PRINTF("RPL: SRH creating source routing header with destination "); PRINT6ADDR(&UIP_IP_BUF->destipaddr); PRINTF(" \n"); /* Construct source route. We do not do this recursively to keep the runtime stack usage constant. */ /* Get link of the destination and root */ dag = rpl_get_dag(&UIP_IP_BUF->destipaddr); if(dag == NULL) { PRINTF("RPL: SRH DAG not found\n"); return 0; } dest_node = rpl_ns_get_node(dag, &UIP_IP_BUF->destipaddr); if(dest_node == NULL) { /* The destination is not found, skip SRH insertion */ return 1; } root_node = rpl_ns_get_node(dag, &dag->dag_id); if(root_node == NULL) { PRINTF("RPL: SRH root node not found\n"); return 0; } if(!rpl_ns_is_node_reachable(dag, &UIP_IP_BUF->destipaddr)) { PRINTF("RPL: SRH no path found to destination\n"); return 0; } /* Compute path length and compression factors (we use cmpri == cmpre) */ path_len = 0; node = dest_node->parent; /* For simplicity, we use cmpri = cmpre */ cmpri = 15; cmpre = 15; if(node == root_node) { PRINTF("RPL: SRH no need to insert SRH\n"); return 0; } while(node != NULL && node != root_node) { rpl_ns_get_node_global_addr(&node_addr, node); /* How many bytes in common between all nodes in the path? */ cmpri = MIN(cmpri, count_matching_bytes(&node_addr, &UIP_IP_BUF->destipaddr, 16)); cmpre = cmpri; PRINTF("RPL: SRH Hop "); PRINT6ADDR(&node_addr); PRINTF("\n"); node = node->parent; path_len++; } /* Extension header length: fixed headers + (n-1) * (16-ComprI) + (16-ComprE)*/ ext_len = RPL_RH_LEN + RPL_SRH_LEN + (path_len - 1) * (16 - cmpre) + (16 - cmpri); padding = ext_len % 8 == 0 ? 0 : (8 - (ext_len % 8)); ext_len += padding; PRINTF("RPL: SRH Path len: %u, ComprI %u, ComprE %u, ext len %u (padding %u)\n", path_len, cmpri, cmpre, ext_len, padding); /* Check if there is enough space to store the extension header */ if(uip_len + ext_len > UIP_BUFSIZE) { PRINTF("RPL: Packet too long: impossible to add source routing header (%u bytes)\n", ext_len); return 1; } /* Move existing ext headers and payload uip_ext_len further */ memmove(uip_buf + uip_l2_l3_hdr_len + ext_len, uip_buf + uip_l2_l3_hdr_len, uip_len - UIP_IPH_LEN); memset(uip_buf + uip_l2_l3_hdr_len, 0, ext_len); /* Insert source routing header */ UIP_RH_BUF->next = UIP_IP_BUF->proto; UIP_IP_BUF->proto = UIP_PROTO_ROUTING; /* Initialize IPv6 Routing Header */ UIP_RH_BUF->len = (ext_len - 8) / 8; UIP_RH_BUF->routing_type = RPL_RH_TYPE_SRH; UIP_RH_BUF->seg_left = path_len; /* Initialize RPL Source Routing Header */ UIP_RPL_SRH_BUF->cmpr = (cmpri << 4) + cmpre; UIP_RPL_SRH_BUF->pad = padding << 4; /* Initialize addresses field (the actual source route). * From last to first. */ node = dest_node; hop_ptr = ((uint8_t *)UIP_RH_BUF) + ext_len - padding; /* Pointer where to write the next hop compressed address */ while(node != NULL && node->parent != root_node) { rpl_ns_get_node_global_addr(&node_addr, node); hop_ptr -= (16 - cmpri); memcpy(hop_ptr, ((uint8_t*)&node_addr) + cmpri, 16 - cmpri); node = node->parent; } /* The next hop (i.e. node whose parent is the root) is placed as the current IPv6 destination */ rpl_ns_get_node_global_addr(&node_addr, node); uip_ipaddr_copy(&UIP_IP_BUF->destipaddr, &node_addr); /* In-place update of IPv6 length field */ temp_len = UIP_IP_BUF->len[1]; UIP_IP_BUF->len[1] += ext_len; if(UIP_IP_BUF->len[1] < temp_len) { UIP_IP_BUF->len[0]++; } uip_ext_len += ext_len; uip_len += ext_len; return 1; } #else /* RPL_WITH_NON_STORING */ int insert_srh_header(void); #endif /* RPL_WITH_NON_STORING */ /*---------------------------------------------------------------------------*/ static int update_hbh_header(void) { rpl_instance_t *instance; int uip_ext_opt_offset; int last_uip_ext_len; rpl_parent_t *parent; last_uip_ext_len = uip_ext_len; uip_ext_len = 0; uip_ext_opt_offset = 2; PRINTF("RPL: Verifying the presence of the RPL header option\n"); switch(UIP_IP_BUF->proto) { case UIP_PROTO_HBHO: if(UIP_HBHO_BUF->len != ((RPL_HOP_BY_HOP_LEN - 8) / 8)) { PRINTF("RPL: Hop-by-hop extension header has wrong size\n"); uip_ext_len = last_uip_ext_len; return 1; } if(UIP_EXT_HDR_OPT_RPL_BUF->opt_type != UIP_EXT_HDR_OPT_RPL) { PRINTF("RPL: Non RPL Hop-by-hop option support not implemented\n"); uip_ext_len = last_uip_ext_len; return 1; } if(UIP_EXT_HDR_OPT_RPL_BUF->opt_len != RPL_HDR_OPT_LEN) { PRINTF("RPL: RPL Hop-by-hop option has wrong length\n"); uip_ext_len = last_uip_ext_len; return 1; } instance = rpl_get_instance(UIP_EXT_HDR_OPT_RPL_BUF->instance); if(instance == NULL || !instance->used || !instance->current_dag->joined) { PRINTF("RPL: Unable to add hop-by-hop extension header: incorrect instance\n"); return 1; } break; default: PRINTF("RPL: No hop-by-hop option found\n"); return 1; } switch(UIP_EXT_HDR_OPT_BUF->type) { case UIP_EXT_HDR_OPT_RPL: PRINTF("RPL: Updating RPL option\n"); UIP_EXT_HDR_OPT_RPL_BUF->senderrank = UIP_HTONS(instance->current_dag->rank); if(RPL_IS_STORING(instance)) { /* In non-storing mode, downwards traffic does not have the HBH option */ /* Check the direction of the down flag, as per Section 11.2.2.3, which states that if a packet is going down it should in general not go back up again. If this happens, a RPL_HDR_OPT_FWD_ERR should be flagged. */ if((UIP_EXT_HDR_OPT_RPL_BUF->flags & RPL_HDR_OPT_DOWN)) { if(uip_ds6_route_lookup(&UIP_IP_BUF->destipaddr) == NULL) { UIP_EXT_HDR_OPT_RPL_BUF->flags |= RPL_HDR_OPT_FWD_ERR; PRINTF("RPL forwarding error\n"); /* We should send back the packet to the originating parent, but it is not feasible yet, so we send a No-Path DAO instead */ PRINTF("RPL generate No-Path DAO\n"); parent = rpl_get_parent((uip_lladdr_t *)packetbuf_addr(PACKETBUF_ADDR_SENDER)); if(parent != NULL) { dao_output_target(parent, &UIP_IP_BUF->destipaddr, RPL_ZERO_LIFETIME); } /* Drop packet */ return 0; } } else { /* Set the down extension flag correctly as described in Section 11.2 of RFC6550. If the packet progresses along a DAO route, the down flag should be set. */ if(uip_ds6_route_lookup(&UIP_IP_BUF->destipaddr) == NULL) { /* No route was found, so this packet will go towards the RPL root. If so, we should not set the down flag. */ UIP_EXT_HDR_OPT_RPL_BUF->flags &= ~RPL_HDR_OPT_DOWN; PRINTF("RPL option going up\n"); } else { /* A DAO route was found so we set the down flag. */ UIP_EXT_HDR_OPT_RPL_BUF->flags |= RPL_HDR_OPT_DOWN; PRINTF("RPL option going down\n"); } } } uip_ext_len = last_uip_ext_len; return 1; default: PRINTF("RPL: Multi Hop-by-hop options not implemented\n"); uip_ext_len = last_uip_ext_len; return 1; } } /*---------------------------------------------------------------------------*/ static int insert_hbh_header(void) { int uip_ext_opt_offset; int last_uip_ext_len; uint8_t temp_len; last_uip_ext_len = uip_ext_len; uip_ext_len = 0; uip_ext_opt_offset = 2; /* Insert hop-by-hop header */ PRINTF("RPL: Creating hop-by-hop option\n"); if(uip_len + RPL_HOP_BY_HOP_LEN > UIP_BUFSIZE) { PRINTF("RPL: Packet too long: impossible to add hop-by-hop option\n"); uip_ext_len = last_uip_ext_len; return 0; } /* Move existing ext headers and payload UIP_EXT_BUF further */ memmove(UIP_HBHO_NEXT_BUF, UIP_EXT_BUF, uip_len - UIP_IPH_LEN); memset(UIP_HBHO_BUF, 0, RPL_HOP_BY_HOP_LEN); /* Update IP and HBH protocol and fields */ UIP_HBHO_BUF->next = UIP_IP_BUF->proto; UIP_IP_BUF->proto = UIP_PROTO_HBHO; /* Initialize HBH option */ UIP_HBHO_BUF->len = (RPL_HOP_BY_HOP_LEN - 8) / 8; UIP_EXT_HDR_OPT_RPL_BUF->opt_type = UIP_EXT_HDR_OPT_RPL; UIP_EXT_HDR_OPT_RPL_BUF->opt_len = RPL_HDR_OPT_LEN; UIP_EXT_HDR_OPT_RPL_BUF->flags = 0; UIP_EXT_HDR_OPT_RPL_BUF->instance = 0; UIP_EXT_HDR_OPT_RPL_BUF->senderrank = 0; uip_len += RPL_HOP_BY_HOP_LEN; temp_len = UIP_IP_BUF->len[1]; UIP_IP_BUF->len[1] += RPL_HOP_BY_HOP_LEN; if(UIP_IP_BUF->len[1] < temp_len) { UIP_IP_BUF->len[0]++; } uip_ext_len = last_uip_ext_len + RPL_HOP_BY_HOP_LEN; return 1; } /*---------------------------------------------------------------------------*/ int rpl_finalize_header(uip_ipaddr_t *addr) { rpl_parent_t *parent; int uip_ext_opt_offset; int last_uip_ext_len; last_uip_ext_len = uip_ext_len; uip_ext_len = 0; uip_ext_opt_offset = 2; if(UIP_IP_BUF->proto == UIP_PROTO_HBHO) { if(UIP_HBHO_BUF->len != ((RPL_HOP_BY_HOP_LEN - 8) / 8)) { PRINTF("RPL: Non RPL Hop-by-hop options support not implemented\n"); uip_ext_len = last_uip_ext_len; return 1; } if(UIP_EXT_HDR_OPT_BUF->type == UIP_EXT_HDR_OPT_RPL) { if(UIP_EXT_HDR_OPT_RPL_BUF->senderrank == 0) { PRINTF("RPL: Updating RPL option\n"); if(default_instance == NULL || !default_instance->used || !default_instance->current_dag->joined) { PRINTF("RPL: Unable to add hop-by-hop extension header: incorrect default instance\n"); return 0; } parent = rpl_find_parent(default_instance->current_dag, addr); if(parent == NULL || parent != parent->dag->preferred_parent) { UIP_EXT_HDR_OPT_RPL_BUF->flags = RPL_HDR_OPT_DOWN; } UIP_EXT_HDR_OPT_RPL_BUF->instance = default_instance->instance_id; UIP_EXT_HDR_OPT_RPL_BUF->senderrank = UIP_HTONS(default_instance->current_dag->rank); } } } return 1; } /*---------------------------------------------------------------------------*/ void rpl_remove_header(void) { uint8_t temp_len; uint8_t rpl_ext_hdr_len; uint8_t *uip_next_hdr; uip_ext_len = 0; uip_next_hdr = &UIP_IP_BUF->proto; PRINTF("RPL: Verifying the presence of RPL extension headers\n"); /* Look for hop-by-hop and routing headers */ while(uip_next_hdr != NULL) { switch(*uip_next_hdr) { case UIP_PROTO_HBHO: case UIP_PROTO_ROUTING: /* Remove hop-by-hop and routing headers */ *uip_next_hdr = UIP_EXT_BUF->next; rpl_ext_hdr_len = (UIP_EXT_BUF->len * 8) + 8; temp_len = UIP_IP_BUF->len[1]; uip_len -= rpl_ext_hdr_len; UIP_IP_BUF->len[1] -= rpl_ext_hdr_len; if(UIP_IP_BUF->len[1] > temp_len) { UIP_IP_BUF->len[0]--; } PRINTF("RPL: Removing RPL extension header (type %u, len %u)\n", *uip_next_hdr, rpl_ext_hdr_len); memmove(UIP_EXT_BUF, ((uint8_t *)UIP_EXT_BUF) + rpl_ext_hdr_len, uip_len - UIP_IPH_LEN); break; case UIP_PROTO_DESTO: /* * As per RFC 2460, any header other than the Destination * Options header does not appear between the Hop-by-Hop * Options header and the Routing header. * * We're moving to the next header only if uip_next_hdr has * UIP_PROTO_DESTO. Otherwise, we'll return. */ /* Move to next header */ uip_next_hdr = &UIP_EXT_BUF->next; uip_ext_len += (UIP_EXT_BUF->len << 3) + 8; default: return; } } } /*---------------------------------------------------------------------------*/ void rpl_insert_header(void) { if(default_instance == NULL || default_instance->current_dag == NULL || uip_is_addr_linklocal(&UIP_IP_BUF->destipaddr) || uip_is_addr_mcast(&UIP_IP_BUF->destipaddr)) { return; } if(RPL_IS_STORING(default_instance)) { insert_hbh_header(); } if(RPL_IS_NON_STORING(default_instance)) { if(default_instance->current_dag != NULL) { if(default_instance->current_dag->rank == ROOT_RANK(default_instance)) { insert_srh_header(); } else { insert_hbh_header(); } } } } /*---------------------------------------------------------------------------*/ int rpl_update_header(void) { if(default_instance == NULL) { return 0; } if(default_instance->current_dag != NULL) { if(default_instance->current_dag->rank == ROOT_RANK(default_instance)) { /* At the root, remove headers if any, and insert SRH or HBH * (SRH is inserted only if the destination is in the DODAG) */ rpl_remove_header(); if(RPL_IS_NON_STORING(default_instance)) { return insert_srh_header(); } else { return insert_hbh_header(); } } else { return update_hbh_header(); } } else { return 0; } } /** @}*/