/* * Copyright (C) 1999 LSIIT Laboratory. * 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 project 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 PROJECT 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 PROJECT 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. */ /* * Copyright (C) 1998 WIDE Project. * 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 project 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 PROJECT 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 PROJECT 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. */ /* * Copyright (c) 1998 by the University of Southern California. * All rights reserved. * * Permission to use, copy, modify, and distribute this software and * its documentation in source and binary forms for lawful * purposes and without fee is hereby granted, provided * that the above copyright notice appear in all copies and that both * the copyright notice and this permission notice appear in supporting * documentation, and that any documentation, advertising materials, * and other materials related to such distribution and use acknowledge * that the software was developed by the University of Southern * California and/or Information Sciences Institute. * The name of the University of Southern California may not * be used to endorse or promote products derived from this software * without specific prior written permission. * * THE UNIVERSITY OF SOUTHERN CALIFORNIA DOES NOT MAKE ANY REPRESENTATIONS * ABOUT THE SUITABILITY OF THIS SOFTWARE FOR ANY PURPOSE. THIS SOFTWARE IS * PROVIDED "AS IS" AND WITHOUT ANY EXPRESS OR IMPLIED WARRANTIES, * INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, TITLE, AND * NON-INFRINGEMENT. * * IN NO EVENT SHALL USC, OR ANY OTHER CONTRIBUTOR BE LIABLE FOR ANY * SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES, WHETHER IN CONTRACT, * TORT, OR OTHER FORM OF ACTION, ARISING OUT OF OR IN CONNECTION WITH, * THE USE OR PERFORMANCE OF THIS SOFTWARE. * * Other copyrights might apply to parts of this software and are so * noted when applicable. */ /* * Questions concerning this software should be directed to * Mickael Hoerdt (hoerdt@clarinet.u-strasbg.fr) LSIIT Strasbourg. * */ /* * This program has been derived from pim6dd. * The pim6dd program is covered by the license in the accompanying file * named "LICENSE.pim6dd". */ /* * This program has been derived from pimd. * The pimd program is covered by the license in the accompanying file * named "LICENSE.pimd". * * $FreeBSD$ */ #include #include #include #include #include #include #include #include "mrt.h" #include "defs.h" #include "vif.h" #include "debug.h" #include "pim6.h" #include "pim6_proto.h" #include "pimd.h" #include "rp.h" #include "mld6.h" #include "timer.h" #include "route.h" #include "inet6.h" #include "kern.h" #include "routesock.h" /* * Local functions definitions. */ static int parse_pim6_hello __P((char *pktPtr , int datalen , struct sockaddr_in6 *src, u_int16 *holdtime)); static int send_pim6_register_stop __P((struct sockaddr_in6 *reg_src , struct sockaddr_in6 *reg_dst , struct sockaddr_in6 *inner_source, struct sockaddr_in6 *inner_grp)); static build_jp_message_t *get_jp6_working_buff __P((void)); static void return_jp6_working_buff __P((pim_nbr_entry_t * pim_nbr)); static void pack_jp6_message __P((pim_nbr_entry_t * pim_nbr)); static void send_jp6_message __P((pim_nbr_entry_t * pim_nbr)); static int compare_metrics __P((u_int32 local_preference, u_int32 local_metric, struct sockaddr_in6 *local_address, u_int32 remote_preference, u_int32 remote_metric, struct sockaddr_in6 *remote_address)); build_jp_message_t *build_jp_message_pool; int build_jp_message_pool_counter; struct sockaddr_in6 sockaddr6_any = {sizeof(struct sockaddr_in6) , AF_INET6 ,0,0, IN6ADDR_ANY_INIT}; struct sockaddr_in6 sockaddr6_d; struct pim6dstat pim6dstat; /************************************************************************ * PIM_HELLO ************************************************************************/ int receive_pim6_hello(src, pim_message, datalen) struct sockaddr_in6 *src; register char *pim_message; int datalen; { mifi_t mifi; struct uvif *v; register pim_nbr_entry_t *nbr, *prev_nbr, *new_nbr; u_int16 holdtime; int bsr_length; u_int8 *data_ptr; srcentry_t *srcentry_ptr; mrtentry_t *mrtentry_ptr; if ((mifi = find_vif_direct(src)) == NO_VIF) { /* * Either a local vif or somehow received PIM_HELLO from non-directly * connected router. Ignore it. */ if (local_address(src) == NO_VIF) log(LOG_INFO, 0, "Ignoring PIM_HELLO from non-neighbor router %s", inet6_fmt(&src->sin6_addr)); return (FALSE); } v = &uvifs[mifi]; v->uv_in_pim6_hello++; /* increment statistacs */ if (v->uv_flags & (VIFF_DOWN | VIFF_DISABLED | MIFF_REGISTER)) return (FALSE); /* Shoudn't come on this interface */ data_ptr = (u_int8 *) (pim_message + sizeof(struct pim)); /* Get the Holdtime (in seconds) from the message. Return if error. */ if (parse_pim6_hello(pim_message, datalen, src, &holdtime) == FALSE) return (FALSE); IF_DEBUG(DEBUG_PIM_HELLO | DEBUG_PIM_TIMER) log(LOG_DEBUG, 0, "PIM HELLO holdtime from %s is %u", inet6_fmt(&src->sin6_addr), holdtime); for (prev_nbr = (pim_nbr_entry_t *) NULL, nbr = v->uv_pim_neighbors; nbr != (pim_nbr_entry_t *) NULL; prev_nbr = nbr, nbr = nbr->next) { /* * The PIM neighbors are sorted in decreasing order of the network * addresses (note that to be able to compare them correctly we must * translate the addresses in host order. */ if (inet6_lessthan(src, &nbr->address)) continue; if (inet6_equal(src, &nbr->address)) { /* We already have an entry for this host */ if (0 == holdtime) { /* * Looks like we have a nice neighbor who is going down and * wants to inform us by sending "holdtime=0". Thanks buddy * and see you again! */ log(LOG_INFO, 0, "PIM HELLO received: neighbor %s going down", inet6_fmt(&src->sin6_addr)); delete_pim6_nbr(nbr); return (TRUE); } SET_TIMER(nbr->timer, holdtime); return (TRUE); } else /* * No entry for this neighbor. Exit the loop and create an entry * for it. */ break; } /* * This is a new neighbor. Create a new entry for it. It must be added * right after `prev_nbr` */ new_nbr = (pim_nbr_entry_t *) malloc(sizeof(pim_nbr_entry_t)); new_nbr->address = *src; new_nbr->vifi = mifi; SET_TIMER(new_nbr->timer, holdtime); new_nbr->build_jp_message = (build_jp_message_t *) NULL; new_nbr->next = nbr; new_nbr->prev = prev_nbr; if (prev_nbr != (pim_nbr_entry_t *) NULL) prev_nbr->next = new_nbr; else v->uv_pim_neighbors = new_nbr; if (new_nbr->next != (pim_nbr_entry_t *) NULL) new_nbr->next->prev = new_nbr; v->uv_flags &= ~VIFF_NONBRS; v->uv_flags |= VIFF_PIM_NBR; /* Since a new neighbour has come up, let it know your existence */ /* * XXX: TODO: not in the spec, but probably should send the message after * a short random period? */ send_pim6_hello(v, pim_hello_holdtime); if (v->uv_flags & VIFF_DR) { /* * If I am the current DR on that interface, so send an RP-Set * message to the new neighbor. */ if ((bsr_length = create_pim6_bootstrap_message(pim6_send_buf))) send_pim6(pim6_send_buf, &v->uv_linklocal->pa_addr , src , PIM_BOOTSTRAP, bsr_length); /* The router with highest network address is the elected DR */ if (inet6_lessthan(&v->uv_linklocal->pa_addr,&v->uv_pim_neighbors->address)) { /* * I was the DR, but not anymore. Remove all register_vif from * oif list for all directly connected sources (for vifi). */ /* TODO: XXX: first entry is not used! */ for (srcentry_ptr = srclist->next; srcentry_ptr != (srcentry_t *) NULL; srcentry_ptr = srcentry_ptr->next) { /* If not directly connected source for vifi */ if ((srcentry_ptr->incoming != mifi) || (srcentry_ptr->upstream != (pim_nbr_entry_t *) NULL)) continue; for (mrtentry_ptr = srcentry_ptr->mrtlink; mrtentry_ptr != (mrtentry_t *) NULL; mrtentry_ptr = mrtentry_ptr->srcnext) { if (!(mrtentry_ptr->flags & MRTF_SG)) continue; /* This is not (S,G) entry */ /* Remove the register oif */ IF_CLR(reg_vif_num, &mrtentry_ptr->joined_oifs); change_interfaces(mrtentry_ptr, mrtentry_ptr->incoming, &mrtentry_ptr->joined_oifs, &mrtentry_ptr->pruned_oifs, &mrtentry_ptr->leaves, &mrtentry_ptr->asserted_oifs, 0); } } v->uv_flags &= ~VIFF_DR; } } /* * TODO: XXX: does a new neighbor change any routing entries info? Need * to trigger joins? */ IF_DEBUG(DEBUG_PIM_HELLO) log(LOG_DEBUG,0,"I'have got a new neighbor %s on vif %s",inet6_fmt(&src->sin6_addr),v->uv_name); return (TRUE); } void delete_pim6_nbr(nbr_delete) pim_nbr_entry_t *nbr_delete; { srcentry_t *srcentry_ptr; srcentry_t *srcentry_ptr_next; mrtentry_t *mrtentry_ptr; mrtentry_t *mrtentry_srcs; grpentry_t *grpentry_ptr; pim_nbr_entry_t *new_nbr; cand_rp_t *cand_rp_ptr; rp_grp_entry_t *rp_grp_entry_ptr; rpentry_t *rpentry_ptr; struct uvif *v; v = &uvifs[nbr_delete->vifi]; /* Delete the entry from the pim_nbrs chain */ if (nbr_delete->prev != (pim_nbr_entry_t *) NULL) nbr_delete->prev->next = nbr_delete->next; else v->uv_pim_neighbors = nbr_delete->next; if (nbr_delete->next != (pim_nbr_entry_t *) NULL) nbr_delete->next->prev = nbr_delete->prev; return_jp6_working_buff(nbr_delete); if (v->uv_pim_neighbors == (pim_nbr_entry_t *) NULL) { /* This was our last neighbor. */ v->uv_flags &= ~VIFF_PIM_NBR; v->uv_flags |= (VIFF_NONBRS | VIFF_DR); } else { if (inet6_greaterthan(&v->uv_linklocal->pa_addr, &v->uv_pim_neighbors->address)) /* * The first address is the new potential remote DR address, but * the local address is the winner. */ v->uv_flags |= VIFF_DR; } /* Update the source entries */ for (srcentry_ptr = srclist; srcentry_ptr != (srcentry_t *) NULL; srcentry_ptr = srcentry_ptr_next) { srcentry_ptr_next = srcentry_ptr->next; if (srcentry_ptr->upstream != nbr_delete) continue; /* Reset the next hop (PIM) router */ if (set_incoming(srcentry_ptr, PIM_IIF_SOURCE) == FALSE) { /* * Coudn't reset it. Sorry, the hext hop router toward that * source is probably not a PIM router, or cannot find route at * all, hence I cannot handle this source and have to delete it. */ delete_srcentry(srcentry_ptr); } else if (srcentry_ptr->upstream != (pim_nbr_entry_t *) NULL) { /* Ignore the local or directly connected sources */ /* * Browse all MRT entries for this source and reset the * upstream router. Note that the upstream router is not * always toward the source: it could be toward the RP for * example. */ new_nbr = srcentry_ptr->upstream; for (mrtentry_ptr = srcentry_ptr->mrtlink; mrtentry_ptr != (mrtentry_t *) NULL; mrtentry_ptr = mrtentry_ptr->srcnext) { if (!(mrtentry_ptr->flags & MRTF_RP)) { mrtentry_ptr->upstream = srcentry_ptr->upstream; mrtentry_ptr->metric = srcentry_ptr->metric; mrtentry_ptr->preference = srcentry_ptr->preference; change_interfaces(mrtentry_ptr, srcentry_ptr->incoming, &mrtentry_ptr->joined_oifs, &mrtentry_ptr->pruned_oifs, &mrtentry_ptr->leaves, &mrtentry_ptr->asserted_oifs, 0); } } } } /* Update the RP entries */ for (cand_rp_ptr = cand_rp_list; cand_rp_ptr != (cand_rp_t *) NULL; cand_rp_ptr = cand_rp_ptr->next) { if (cand_rp_ptr->rpentry->upstream != nbr_delete) continue; rpentry_ptr = cand_rp_ptr->rpentry; /* Reset the RP entry iif */ /* TODO: check if error setting the iif! */ if (local_address(&rpentry_ptr->address) == NO_VIF) { set_incoming(rpentry_ptr, PIM_IIF_RP); } else { rpentry_ptr->incoming = reg_vif_num; rpentry_ptr->upstream = (pim_nbr_entry_t *) NULL; } mrtentry_ptr = rpentry_ptr->mrtlink; if (mrtentry_ptr != (mrtentry_t *) NULL) { mrtentry_ptr->upstream = rpentry_ptr->upstream; mrtentry_ptr->metric = rpentry_ptr->metric; mrtentry_ptr->preference = rpentry_ptr->preference; change_interfaces(mrtentry_ptr, rpentry_ptr->incoming, &mrtentry_ptr->joined_oifs, &mrtentry_ptr->pruned_oifs, &mrtentry_ptr->leaves, &mrtentry_ptr->asserted_oifs, 0); } /* Update the group entries for this RP */ for (rp_grp_entry_ptr = cand_rp_ptr->rp_grp_next; rp_grp_entry_ptr != (rp_grp_entry_t *) NULL; rp_grp_entry_ptr = rp_grp_entry_ptr->rp_grp_next) { for (grpentry_ptr = rp_grp_entry_ptr->grplink; grpentry_ptr != (grpentry_t *) NULL; grpentry_ptr = grpentry_ptr->rpnext) { mrtentry_ptr = grpentry_ptr->grp_route; if (mrtentry_ptr != (mrtentry_t *) NULL) { mrtentry_ptr->upstream = rpentry_ptr->upstream; mrtentry_ptr->metric = rpentry_ptr->metric; mrtentry_ptr->preference = rpentry_ptr->preference; change_interfaces(mrtentry_ptr, rpentry_ptr->incoming, &mrtentry_ptr->joined_oifs, &mrtentry_ptr->pruned_oifs, &mrtentry_ptr->leaves, &mrtentry_ptr->asserted_oifs, 0); } /* Update only the (S,G)RPbit entries for this group */ for (mrtentry_srcs = grpentry_ptr->mrtlink; mrtentry_srcs != (mrtentry_t *) NULL; mrtentry_srcs = mrtentry_srcs->grpnext) { if (mrtentry_srcs->flags & MRTF_RP) { mrtentry_ptr->upstream = rpentry_ptr->upstream; mrtentry_ptr->metric = rpentry_ptr->metric; mrtentry_ptr->preference = rpentry_ptr->preference; change_interfaces(mrtentry_srcs, rpentry_ptr->incoming, &mrtentry_srcs->joined_oifs, &mrtentry_srcs->pruned_oifs, &mrtentry_srcs->leaves, &mrtentry_srcs->asserted_oifs, 0); } } } } } free((char *) nbr_delete); } /* TODO: simplify it! */ static int parse_pim6_hello(pim_message, datalen, src, holdtime) char *pim_message; int datalen; struct sockaddr_in6 *src; u_int16 *holdtime; { u_int8 *pim_hello_message; u_int8 *data_ptr; u_int16 option_type; u_int16 option_length; int holdtime_received_ok = FALSE; int option_total_length; pim_hello_message = (u_int8 *) (pim_message + sizeof(struct pim)); datalen -= sizeof(struct pim); for (; datalen >= sizeof(pim_hello_t);) { /* Ignore any data if shorter than (pim_hello header) */ data_ptr = pim_hello_message; GET_HOSTSHORT(option_type, data_ptr); GET_HOSTSHORT(option_length, data_ptr); switch (option_type) { case PIM_MESSAGE_HELLO_HOLDTIME: if (PIM_MESSAGE_HELLO_HOLDTIME_LENGTH != option_length) { IF_DEBUG(DEBUG_PIM_HELLO) log(LOG_DEBUG, 0, "PIM HELLO Holdtime from %s: invalid OptionLength = %u", inet6_fmt(&src->sin6_addr), option_length); return (FALSE); } GET_HOSTSHORT(*holdtime, data_ptr); holdtime_received_ok = TRUE; break; default: /* Ignore any unknown options */ break; } /* Move to the next option */ /* * XXX: TODO: If we are padding to the end of the 32 bit boundary, * use the first method to move to the next option, otherwise simply * (sizeof(pim_hello_t) + option_length). */ #ifdef BOUNDARY_32_BIT option_total_length = (sizeof(pim_hello_t) + (option_length & ~0x3) + ((option_length & 0x3) ? 4 : 0)); #else option_total_length = (sizeof(pim_hello_t) + option_length); #endif /* BOUNDARY_32_BIT */ datalen -= option_total_length; pim_hello_message += option_total_length; } return (holdtime_received_ok); } int send_pim6_hello(v, holdtime) struct uvif *v; u_int16 holdtime; { char *buf; u_int8 *data_ptr; int datalen; buf = pim6_send_buf + sizeof(struct pim); data_ptr = (u_int8 *) buf; PUT_HOSTSHORT(PIM_MESSAGE_HELLO_HOLDTIME, data_ptr); PUT_HOSTSHORT(PIM_MESSAGE_HELLO_HOLDTIME_LENGTH, data_ptr); PUT_HOSTSHORT(holdtime, data_ptr); datalen = data_ptr - (u_int8 *) buf; send_pim6(pim6_send_buf, &v->uv_linklocal->pa_addr, &allpim6routers_group, PIM_HELLO, datalen); SET_TIMER(v->uv_pim_hello_timer, pim_hello_period); v->uv_out_pim6_hello++; return (TRUE); } /************************************************************************ * PIM_REGISTER ************************************************************************/ /* * TODO: XXX: IF THE BORDER BIT IS SET, THEN FORWARD THE WHOLE PACKET FROM * USER SPACE AND AT THE SAME TIME IGNORE ANY CACHE_MISS SIGNALS FROM THE * KERNEL. */ int receive_pim6_register(reg_src, reg_dst, pim_message, datalen) struct sockaddr_in6 *reg_src, *reg_dst; char *pim_message; int datalen; { struct sockaddr_in6 inner_src, inner_grp; pim_register_t *register_p; struct ip6_hdr *ip; u_int32 borderBit, nullRegisterBit; mrtentry_t *mrtentry_ptr; mrtentry_t *mrtentry_ptr2; if_set oifs; pim6dstat.in_pim6_register++; register_p = (pim_register_t *) (pim_message + sizeof(struct pim)); borderBit = ntohl(register_p->reg_flags) & PIM_MESSAGE_REGISTER_BORDER_BIT; nullRegisterBit = ntohl(register_p->reg_flags) & PIM_MESSAGE_REGISTER_NULL_REGISTER_BIT; /* initialize the pointer to the encapsulated packet */ ip = (struct ip6_hdr *) (register_p + 1); /* * We are keeping all addresses in network order, * so no need for byte order translation. */ inner_src.sin6_addr = ip->ip6_src; inner_grp.sin6_addr = ip->ip6_dst; /* scope validation of the inner source and destination addresses */ if (IN6_IS_ADDR_LINKLOCAL(&ip->ip6_src)) { log(LOG_WARNING, 0, "receive_pim6_register: inner source(%s) has invalid scope", inet6_fmt(&ip->ip6_src)); } #ifdef notyet if (IN6_IS_ADDR_SITELOCAL) inner_src.sin6_scope_id = addr2scopeid(&ip->ip6_src, &ip->ip6_dst, reg_src, reg_dst); else #endif inner_src.sin6_scope_id = 0; if (IN6_IS_ADDR_MC_NODELOCAL(&ip->ip6_dst) || IN6_IS_ADDR_MC_LINKLOCAL(&ip->ip6_dst)) { log(LOG_WARNING, 0, "receive_pim6_register: inner group(%s) has invalid scope", inet6_fmt(&ip->ip6_dst)); return(FALSE); /* XXX: can we discard it? */ } #ifdef notyet if (IN6_IS_ADDR_MC_SITELOCAL(&ip->ip6_dst)) inner_grp.sin6_scope_id = addr2scopeid(&ip->ip6_src, &ip->ip6_dst, reg_src, reg_dst); else inner_grp.sin6_scope_id = 0; #endif inner_grp.sin6_scope_id = 0; mrtentry_ptr = find_route(&inner_src, &inner_grp, MRTF_SG | MRTF_WC | MRTF_PMBR, DONT_CREATE); if (mrtentry_ptr == (mrtentry_t *) NULL) { /* No routing entry. Send REGISTER_STOP and return. */ IF_DEBUG(DEBUG_PIM_REGISTER) log(LOG_DEBUG, 0, "No routing entry for source %s and/or group %s", inet6_fmt(&inner_src.sin6_addr), inet6_fmt(&inner_grp.sin6_addr)); /* TODO: XXX: shouldn't be inner_src=IN6ADDR_ANY? Not in the spec. */ send_pim6_register_stop(reg_dst, reg_src, &inner_grp, &inner_src); return (TRUE); } /* XXX: not in the spec: check if I am the RP for that group */ if (!inet6_equal(&my_cand_rp_address, reg_dst) || (check_mrtentry_rp(mrtentry_ptr, &my_cand_rp_address) == FALSE)) { send_pim6_register_stop(reg_dst, reg_src, &inner_grp, &inner_src); return (TRUE); } if (mrtentry_ptr->flags & MRTF_SG) { /* (S,G) found */ /* TODO: check the timer again */ SET_TIMER(mrtentry_ptr->timer, pim_data_timeout); /* restart timer */ if (!(mrtentry_ptr->flags & MRTF_SPT)) { /* The SPT bit is not set */ if (!nullRegisterBit) { calc_oifs(mrtentry_ptr, &oifs); if (IF_ISEMPTY(&oifs) && (mrtentry_ptr->incoming == reg_vif_num)) { send_pim6_register_stop(reg_dst, reg_src, &inner_grp, &inner_src); return (TRUE); } /* * TODO: XXX: BUG!!! The data will be forwarded by the kernel * MFC!!! Need to set a special flag for this routing entry * so after a cache miss occur, the multicast packet will be * forwarded from user space and won't install entry in the * kernel MFC. The problem is that the kernel MFC doesn't * know the PMBR address and simply sets the multicast * forwarding cache to accept/forward all data coming from * the register_vif. */ if (borderBit) { if (!inet6_equal(&mrtentry_ptr->pmbr_addr,reg_src)) { send_pim6_register_stop(reg_dst, reg_src, &inner_grp, &inner_src); return (TRUE); } } return (TRUE); } /* TODO: XXX: if NULL_REGISTER and has (S,G) with SPT=0, then..? */ return (TRUE); } else { /* The SPT bit is set */ send_pim6_register_stop(reg_dst, reg_src, &inner_grp, &inner_src); return (TRUE); } } if (mrtentry_ptr->flags & (MRTF_WC | MRTF_PMBR)) { if (borderBit) { /* * Create (S,G) state. The oifs will be the copied from the * existing (*,G) or (*,*,RP) entry. */ mrtentry_ptr2 = find_route(&inner_src, &inner_grp, MRTF_SG, CREATE); if (mrtentry_ptr2 != (mrtentry_t *) NULL) { mrtentry_ptr2->pmbr_addr = *reg_src; /* Clear the SPT flag */ mrtentry_ptr2->flags &= ~(MRTF_SPT | MRTF_NEW); SET_TIMER(mrtentry_ptr2->timer, pim_data_timeout); /* TODO: explicitly call the Join/Prune send function? */ FIRE_TIMER(mrtentry_ptr2->jp_timer); /* Send the Join * immediately */ /* * TODO: explicitly call this function? * send_pim6_join_prune(mrtentry_ptr2->upstream->vifi, * mrtentry_ptr2->upstream, pim_join_prune_holdtime); */ } } } if (mrtentry_ptr->flags & MRTF_WC) { /* (*,G) entry */ calc_oifs(mrtentry_ptr, &oifs); if (IF_ISEMPTY(&oifs)) { send_pim6_register_stop(reg_dst, reg_src, &inner_grp, &sockaddr6_any); return (FALSE); } /* XXX: TODO: check with the spec again */ else { if (!nullRegisterBit) { /* Install cache entry in the kernel */ /* * TODO: XXX: probably redundant here, because the * decapsulated mcast packet in the kernel will result in * CACHE_MISS */ struct sockaddr_in6 *mfc_source = &inner_src; #ifdef KERNEL_MFC_WC_G if (!(mrtentry_ptr->flags & MRTF_MFC_CLONE_SG)) mfc_source = NULL; #endif /* KERNEL_MFC_WC_G */ add_kernel_cache(mrtentry_ptr, mfc_source, &inner_grp, 0); k_chg_mfc(mld6_socket, mfc_source, &inner_grp, mrtentry_ptr->incoming, &mrtentry_ptr->oifs, &mrtentry_ptr->group->rpaddr); return (TRUE); } } return (TRUE); } if (mrtentry_ptr->flags & MRTF_PMBR) { /* (*,*,RP) entry */ if (!nullRegisterBit) { struct sockaddr_in6 *mfc_source = &inner_src; /* * XXX: have to create either (S,G) or (*,G). The choice below is * (*,G) */ mrtentry_ptr2 = find_route(NULL, &inner_grp, MRTF_WC, CREATE); if (mrtentry_ptr2 == (mrtentry_t *) NULL) return (FALSE); if (mrtentry_ptr2->flags & MRTF_NEW) { /* TODO: something else? Have the feeling sth is missing */ mrtentry_ptr2->flags &= ~MRTF_NEW; /* TODO: XXX: copy the timer from the (*,*,RP) entry? */ COPY_TIMER(mrtentry_ptr->timer, mrtentry_ptr2->timer); } /* Install cache entry in the kernel */ #ifdef KERNEL_MFC_WC_G if (!(mrtentry_ptr->flags & MRTF_MFC_CLONE_SG)) mfc_source = NULL; #endif /* KERNEL_MFC_WC_G */ add_kernel_cache(mrtentry_ptr, mfc_source, &inner_grp, 0); k_chg_mfc(mld6_socket, mfc_source, &inner_grp, mrtentry_ptr->incoming, &mrtentry_ptr->oifs, &mrtentry_ptr2->group->rpaddr); return (TRUE); } } /* Shoudn't happen: invalid routing entry? */ /* XXX: TODO: shoudn't be inner_src=IN6ADDR_ANY? Not in the spec. */ send_pim6_register_stop(reg_dst, reg_src, &inner_grp, &inner_src); return (TRUE); } int send_pim6_register(pkt) char *pkt; { register struct ip6_hdr *ip6; static struct sockaddr_in6 source= {sizeof(source) , AF_INET6 }; static struct sockaddr_in6 group= {sizeof(group) , AF_INET6 }; mifi_t mifi; rpentry_t *rpentry_ptr; mrtentry_t *mrtentry_ptr; mrtentry_t *mrtentry_ptr2; struct sockaddr_in6 *reg_src, *reg_dst; int pktlen = 0; char *buf; ip6=(struct ip6_hdr *)pkt; group.sin6_addr = ip6->ip6_dst; source.sin6_addr = ip6->ip6_src; if ((mifi = find_vif_direct_local(&source)) == NO_VIF) return (FALSE); if (!(uvifs[mifi].uv_flags & VIFF_DR)) return (FALSE); /* I am not the DR for that subnet */ rpentry_ptr = rp_match(&group); if (rpentry_ptr == (rpentry_t *) NULL) return (FALSE); /* No RP for this group */ if (local_address(&rpentry_ptr->address) != NO_VIF) /* TODO: XXX: not sure it is working! */ return (FALSE); /* I am the RP for this group */ mrtentry_ptr = find_route(&source, &group, MRTF_SG, CREATE); if (mrtentry_ptr == (mrtentry_t *) NULL) return (FALSE); /* Cannot create (S,G) state */ if (mrtentry_ptr->flags & MRTF_NEW) { /* A new entry */ mrtentry_ptr->flags &= ~MRTF_NEW; RESET_TIMER(mrtentry_ptr->rs_timer); /* Reset the * Register-Suppression timer */ if ((mrtentry_ptr2 = mrtentry_ptr->group->grp_route) == (mrtentry_t *) NULL) mrtentry_ptr2 = mrtentry_ptr->group->active_rp_grp->rp->rpentry->mrtlink; if (mrtentry_ptr2 != (mrtentry_t *) NULL) { FIRE_TIMER(mrtentry_ptr2->jp_timer); /* Timeout the * Join/Prune timer */ /* * TODO: explicitly call this function? * send_pim6_join_prune(mrtentry_ptr2->upstream->vifi, * mrtentry_ptr2->upstream, pim_join_prune_holdtime); */ } } /* Restart the (S,G) Entry-timer */ SET_TIMER(mrtentry_ptr->timer, pim_data_timeout); IF_TIMER_NOT_SET(mrtentry_ptr->rs_timer) { /* * The Register-Suppression Timer is not running. Encapsulate the * data and send to the RP. */ buf = pim6_send_buf + sizeof(struct pim); bzero(buf, sizeof(pim_register_t)); /* No flags set */ buf += sizeof(pim_register_t); /* Copy the data packet at the back of the register packet */ /* TODO: check pktlen. ntohs? */ pktlen = ntohs(ip6->ip6_plen); pktlen +=sizeof(struct ip6_hdr); /* XXX */ bcopy((char *) ip6, buf, pktlen); pktlen += sizeof(pim_register_t); reg_src = max_global_address(); reg_dst = &mrtentry_ptr->group->rpaddr; send_pim6(pim6_send_buf, reg_src , reg_dst , PIM_REGISTER, pktlen); pim6dstat.out_pim6_register++; return (TRUE); } return (TRUE); } int send_pim6_null_register(mrtentry_ptr) mrtentry_t *mrtentry_ptr; { struct ip6_hdr *ip; pim_register_t *pim_register; int pktlen = 0; mifi_t mifi; struct sockaddr_in6 *reg_source, *dest; /* No directly connected source; no local address */ if ((mifi = find_vif_direct_local(&mrtentry_ptr->source->address)) == NO_VIF) return (FALSE); pim_register = (pim_register_t *) (pim6_send_buf + sizeof(struct pim)); bzero((char *) pim_register, sizeof(pim_register_t)); pim_register->reg_flags = htonl(pim_register->reg_flags | PIM_MESSAGE_REGISTER_NULL_REGISTER_BIT); /* include the dummy ip header */ ip = (struct ip6_hdr *) (pim_register +1); ip->ip6_plen= 0; ip->ip6_flow=0; ip->ip6_vfc = 0x60; ip->ip6_hlim = MINHLIM; ip->ip6_nxt = IPPROTO_NONE; ip->ip6_src = mrtentry_ptr->source->address.sin6_addr; ip->ip6_dst = mrtentry_ptr->group->group.sin6_addr; pktlen = sizeof(pim_register_t) + sizeof(struct ip6_hdr); dest = &mrtentry_ptr->group->rpaddr; reg_source = max_global_address(); send_pim6(pim6_send_buf, reg_source , dest, PIM_REGISTER, pktlen); pim6dstat.out_pim6_register++; /* should be counted separately? */ return (TRUE); } /************************************************************************ * PIM_REGISTER_STOP ************************************************************************/ int receive_pim6_register_stop(reg_src, reg_dst, pim_message, datalen) struct sockaddr_in6 *reg_src, *reg_dst; char *pim_message; register int datalen; { pim_register_stop_t *pim_regstop_p; pim6_encod_grp_addr_t encod_grp; pim6_encod_uni_addr_t encod_unisrc; struct sockaddr_in6 source, group; u_int8 *data_ptr; mrtentry_t *mrtentry_ptr; if_set pruned_oifs; mifi_t mifi; struct uvif *v; pim6dstat.in_pim6_register_stop++; pim_regstop_p = (pim_register_stop_t *) (pim_message + sizeof(struct pim)); data_ptr = (u_int8 *) & pim_regstop_p->encod_grp; GET_EGADDR6(&encod_grp, data_ptr); GET_EUADDR6(&encod_unisrc, data_ptr); group.sin6_addr = encod_grp.mcast_addr; /* scope validation of the inner source and destination addresses */ #ifdef notyet if (IN6_IS_ADDR_MC_SITELOCAL(&ip->ip6_dst)) group.sin6_scope_id = addr2scopeid(&ip->ip6_src, &ip->ip6_dst, reg_src, reg_dst); else #endif group.sin6_scope_id = 0; source.sin6_addr = encod_unisrc.unicast_addr; /* the source address must be global...but is it always true? */ #ifdef notyet if (IN6_IS_ADDR_SITELOCAL) source.sin6_scope_id = addr2scopeid(&ip->ip6_src, &ip->ip6_dst, reg_src, reg_dst); else #endif source.sin6_scope_id = 0; if((mifi= find_vif_direct_local(&source))==NO_VIF) { IF_DEBUG(DEBUG_PIM_REGISTER) { log(LOG_WARNING,0, "Received PIM_REGISTER_STOP from RP %s for a non " "direct-connect source %s", inet6_fmt(®_src->sin6_addr), inet6_fmt(&encod_unisrc.unicast_addr)); } return FALSE; } v=&uvifs[mifi]; group.sin6_scope_id = inet6_uvif2scopeid(&group, v); source.sin6_scope_id = inet6_uvif2scopeid(&source, v); IF_DEBUG(DEBUG_PIM_REGISTER) { log(LOG_DEBUG, 0, "Received PIM_REGISTER_STOP from RP %s to %s " "source : %s group : %s", inet6_fmt(®_src->sin6_addr), inet6_fmt(®_dst->sin6_addr), inet6_fmt(&encod_unisrc.unicast_addr), inet6_fmt(&encod_grp.mcast_addr)); } /* TODO: apply the group mask and do register_stop for all grp addresses */ /* TODO: check for SourceAddress == 0 */ mrtentry_ptr = find_route(&source, &group, MRTF_SG, DONT_CREATE); if (mrtentry_ptr == (mrtentry_t *) NULL) { return (FALSE); } /* * XXX: not in the spec: check if the PIM_REGISTER_STOP originator is * really the RP */ if (check_mrtentry_rp(mrtentry_ptr, reg_src) == FALSE) { return (FALSE); } /* restart the Register-Suppression timer */ SET_TIMER(mrtentry_ptr->rs_timer, (0.5 * pim_register_suppression_timeout) + (RANDOM() % (pim_register_suppression_timeout + 1))); /* Prune the register_vif from the outgoing list */ IF_COPY(&mrtentry_ptr->pruned_oifs, &pruned_oifs); IF_SET(reg_vif_num, &pruned_oifs); change_interfaces(mrtentry_ptr, mrtentry_ptr->incoming, &mrtentry_ptr->joined_oifs, &pruned_oifs, &mrtentry_ptr->leaves, &mrtentry_ptr->asserted_oifs, 0); return (TRUE); } /* TODO: optional rate limiting is not implemented yet */ /* Unicasts a REGISTER_STOP message to the DR */ static int send_pim6_register_stop(reg_src, reg_dst, inner_grp, inner_src) struct sockaddr_in6 *reg_src, *reg_dst, *inner_grp, *inner_src; { char *buf; u_int8 *data_ptr; buf = pim6_send_buf + sizeof(struct pim); data_ptr = (u_int8 *) buf; PUT_EGADDR6(inner_grp->sin6_addr, SINGLE_GRP_MSK6LEN, 0, data_ptr); PUT_EUADDR6(inner_src->sin6_addr, data_ptr); send_pim6(pim6_send_buf, reg_src , reg_dst , PIM_REGISTER_STOP, data_ptr-(u_int8 *) buf); pim6dstat.out_pim6_register_stop++; return (TRUE); } /************************************************************************ * PIM_JOIN_PRUNE ************************************************************************/ int join_or_prune(mrtentry_ptr, upstream_router) mrtentry_t *mrtentry_ptr; pim_nbr_entry_t *upstream_router; { if_set entry_oifs; mrtentry_t *mrtentry_grp; if ((mrtentry_ptr == (mrtentry_t *) NULL)) { IF_DEBUG(DEBUG_PIM_JOIN_PRUNE) log(LOG_DEBUG,0,"Join_or_prune : mrtentry_ptr is null"); return (PIM_ACTION_NOTHING); } if( upstream_router == (pim_nbr_entry_t *) NULL) { IF_DEBUG(DEBUG_PIM_JOIN_PRUNE) log(LOG_DEBUG,0,"Join_or_prune : upstream_router is null"); return (PIM_ACTION_NOTHING); } calc_oifs(mrtentry_ptr, &entry_oifs); if (mrtentry_ptr->flags & (MRTF_PMBR | MRTF_WC)) { /* (*,*,RP) or (*,G) entry */ /* The (*,*,RP) or (*,G) J/P messages are sent only toward the RP */ if (upstream_router != mrtentry_ptr->upstream) return (PIM_ACTION_NOTHING); /* TODO: XXX: Can we have (*,*,RP) prune? */ if (IF_ISEMPTY(&entry_oifs)) { /* NULL oifs */ if (!(uvifs[mrtentry_ptr->incoming].uv_flags & VIFF_DR)) { /* I am not the DR for that subnet. */ return (PIM_ACTION_PRUNE); } if (IF_ISSET(mrtentry_ptr->incoming, &mrtentry_ptr->leaves)) /* I am the DR and have local leaves */ return (PIM_ACTION_JOIN); /* Probably the last local member hast timeout */ return (PIM_ACTION_PRUNE); } return (PIM_ACTION_JOIN); } if (mrtentry_ptr->flags & MRTF_SG) { /* (S,G) entry */ /* TODO: check again */ if (mrtentry_ptr->upstream == upstream_router) { if (!(mrtentry_ptr->flags & MRTF_RP)) { /* Upstream router toward S */ if (IF_ISEMPTY(&entry_oifs)) { if (mrtentry_ptr->group->active_rp_grp != (rp_grp_entry_t *)NULL && inet6_equal(&mrtentry_ptr->group->rpaddr, &my_cand_rp_address)) { /* * (S,G) at the RP. Don't send Join/Prune (see the * end of Section 3.3.2) */ return (PIM_ACTION_NOTHING); } return (PIM_ACTION_PRUNE); } else return (PIM_ACTION_JOIN); } else { /* Upstream router toward RP */ if (IF_ISEMPTY(&entry_oifs)) return (PIM_ACTION_PRUNE); } } /* * Looks like the case when the upstream router toward S is different * from the upstream router toward RP */ if (mrtentry_ptr->group->active_rp_grp == (rp_grp_entry_t *) NULL) return (PIM_ACTION_NOTHING); mrtentry_grp = mrtentry_ptr->group->grp_route; if (mrtentry_grp == (mrtentry_t *) NULL) mrtentry_grp = mrtentry_ptr->group->active_rp_grp->rp->rpentry->mrtlink; if (mrtentry_grp == (mrtentry_t *) NULL) return (PIM_ACTION_NOTHING); if (mrtentry_grp->upstream != upstream_router) return (PIM_ACTION_NOTHING); /* XXX: shoudn't happen */ if ((!(mrtentry_ptr->flags & MRTF_RP)) && (mrtentry_ptr->flags & MRTF_SPT)) { return (PIM_ACTION_PRUNE); } } return (PIM_ACTION_NOTHING); } /* TODO: too long, simplify it! */ #define PIM6_JOIN_PRUNE_MINLEN (4 + PIM6_ENCODE_UNI_ADDR_LEN + 4) int receive_pim6_join_prune(src, dst, pim_message, datalen) struct sockaddr_in6 *src, *dst; char *pim_message; register int datalen; { mifi_t mifi; struct uvif *v; pim6_encod_uni_addr_t uni_target_addr; pim6_encod_grp_addr_t encod_group; pim6_encod_src_addr_t encod_src; u_int8 *data_ptr; u_int8 *data_ptr_start; u_int8 num_groups; u_int8 num_groups_tmp; int star_star_rp_found; u_int16 holdtime; u_int16 num_j_srcs; u_int16 num_j_srcs_tmp; u_int16 num_p_srcs; struct sockaddr_in6 source; struct sockaddr_in6 group; struct sockaddr_in6 target; struct in6_addr s_mask; struct in6_addr g_mask; u_int8 s_flags; u_int8 reserved; rpentry_t *rpentry_ptr; mrtentry_t *mrtentry_ptr; mrtentry_t *mrtentry_srcs; mrtentry_t *mrtentry_rp; grpentry_t *grpentry_ptr; u_int16 jp_value; pim_nbr_entry_t *upstream_router; int my_action; int ignore_group; rp_grp_entry_t *rp_grp_entry_ptr; u_int8 *data_ptr_group_j_start; u_int8 *data_ptr_group_p_start; if ((mifi = find_vif_direct(src)) == NO_VIF) { /* * Either a local vif or somehow received PIM_JOIN_PRUNE from * non-directly connected router. Ignore it. */ if (local_address(src) == NO_VIF) log(LOG_INFO, 0, "Ignoring PIM_JOIN_PRUNE from non-neighbor router %s", inet6_fmt(&src->sin6_addr)); return (FALSE); } v = &uvifs[mifi]; v->uv_in_pim6_join_prune++; if (uvifs[mifi].uv_flags & (VIFF_DOWN | VIFF_DISABLED | VIFF_NONBRS | MIFF_REGISTER)) { return (FALSE); /* Shoudn't come on this interface */ } /* sanity check for the minimum length */ if (datalen < PIM6_JOIN_PRUNE_MINLEN) { log(LOG_NOTICE, 0, "receive_pim6_join_prune: Join/Prune message size(%u) is" " too short from %s on %s", datalen, inet6_fmt(&src->sin6_addr), v->uv_name); return(FALSE); } datalen -= PIM6_JOIN_PRUNE_MINLEN; data_ptr = (u_int8 *) (pim_message + sizeof(struct pim)); /* Get the target address */ GET_EUADDR6(&uni_target_addr, data_ptr); GET_BYTE(reserved, data_ptr); GET_BYTE(num_groups, data_ptr); if (num_groups == 0) return (FALSE); /* No indication for groups in the message */ GET_HOSTSHORT(holdtime, data_ptr); target.sin6_len = sizeof(target); target.sin6_family = AF_INET6; target.sin6_addr = uni_target_addr.unicast_addr; target.sin6_scope_id = inet6_uvif2scopeid(&target, v); /* Sanity check for the message length through all the groups */ num_groups_tmp = num_groups; data_ptr_start = data_ptr; while (num_groups_tmp--) { int srclen; /* group addr + #join + #src */ if (datalen < PIM6_ENCODE_GRP_ADDR_LEN + sizeof(u_int32_t)) { log(LOG_NOTICE, 0, "receive_pim6_join_prune: Join/Prune message from %s on %s is" " too short to contain enough data", inet6_fmt(&src->sin6_addr), v->uv_name); return(FALSE); } datalen -= (PIM6_ENCODE_GRP_ADDR_LEN + sizeof(u_int32_t)); data_ptr += PIM6_ENCODE_GRP_ADDR_LEN; /* joined source addresses and pruned source addresses */ GET_HOSTSHORT(num_j_srcs, data_ptr); GET_HOSTSHORT(num_p_srcs, data_ptr); srclen = (num_j_srcs + num_p_srcs) * PIM6_ENCODE_SRC_ADDR_LEN; if (datalen < srclen) { log(LOG_NOTICE, 0, "receive_pim6_join_prune: Join/Prune message from %s on %s is" " too short to contain enough data", inet6_fmt(&src->sin6_addr), v->uv_name); return(FALSE); } datalen -= srclen; data_ptr += srclen; } data_ptr = data_ptr_start; num_groups_tmp = num_groups; if (!inet6_localif_address(&target, v) && !IN6_IS_ADDR_UNSPECIFIED(&uni_target_addr.unicast_addr)) { /* if I am not the targer of the join message */ /* * Join/Prune suppression code. This either modifies the J/P timers * or triggers an overriding Join. */ /* * Note that if we have (S,G) prune and (*,G) Join, we must send them * in the same message. We don't bother to modify both timers here. * The Join/Prune sending function will take care of that. */ upstream_router = find_pim6_nbr(&target); if (upstream_router == (pim_nbr_entry_t *) NULL) return (FALSE); /* I have no such neighbor */ group.sin6_len = sizeof(group); group.sin6_family = AF_INET6; source.sin6_len = sizeof(source); source.sin6_family = AF_INET6; while (num_groups--) { GET_EGADDR6(&encod_group, data_ptr); GET_HOSTSHORT(num_j_srcs, data_ptr); GET_HOSTSHORT(num_p_srcs, data_ptr); if (encod_group.masklen > (sizeof(struct in6_addr) << 3)) continue; MASKLEN_TO_MASK6(encod_group.masklen, g_mask); group.sin6_addr = encod_group.mcast_addr; group.sin6_scope_id = inet6_uvif2scopeid(&group, v); if (!IN6_IS_ADDR_MULTICAST(&group.sin6_addr)) { data_ptr += (num_j_srcs + num_p_srcs) * sizeof(pim6_encod_src_addr_t); continue; /* Ignore this group and jump to the next */ } if (inet6_equal(&group,&sockaddr6_d) && (encod_src.masklen == STAR_STAR_RP_MSK6LEN)) { /* (*,*,RP) Join suppression */ while (num_j_srcs--) { GET_ESADDR6(&encod_src, data_ptr); source.sin6_addr = encod_src.src_addr; source.sin6_scope_id = inet6_uvif2scopeid(&source, v); /* sanity checks */ if (!inet6_valid_host(&source)) continue; if (encod_src.masklen > (sizeof(struct in6_addr) << 3)) continue; s_flags = encod_src.flags; MASKLEN_TO_MASK6(encod_src.masklen, s_mask); if ((s_flags & USADDR_RP_BIT) && (s_flags & USADDR_WC_BIT)) { /* This is the RP address. */ rpentry_ptr = rp_find(&source); if (rpentry_ptr == (rpentry_t *) NULL) continue; /* Don't have such RP. Ignore */ mrtentry_rp = rpentry_ptr->mrtlink; my_action = join_or_prune(mrtentry_rp, upstream_router); if (my_action != PIM_ACTION_JOIN) continue; /* Check the holdtime */ /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_rp->jp_timer > holdtime) continue; if ((mrtentry_rp->jp_timer == holdtime) && (inet6_greaterthan(src, &v->uv_linklocal->pa_addr))) continue; /* * Set the Join/Prune suppression timer for this * routing entry by increasing the current Join/Prune * timer. */ jp_value = pim_join_prune_period + 0.5 * (RANDOM() % pim_join_prune_period); /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_rp->jp_timer < jp_value) SET_TIMER(mrtentry_rp->jp_timer, jp_value); } } /* num_j_srcs */ while (num_p_srcs--) { /* * TODO: XXX: Can we have (*,*,RP) prune message? Not in * the spec, but anyway, the code below can handle them: * either suppress the local (*,*,RP) prunes or override * the prunes by sending (*,*,RP) and/or (*,G) and/or * (S,G) Join. */ GET_ESADDR6(&encod_src, data_ptr); source.sin6_addr = encod_src.src_addr; source.sin6_scope_id = inet6_uvif2scopeid(&source, v); if (!inet6_valid_host(&source)) continue; if (encod_src.masklen > (sizeof(struct in6_addr) << 3)) continue; s_flags = encod_src.flags; MASKLEN_TO_MASK6(encod_src.masklen, s_mask); if ((s_flags & USADDR_RP_BIT) && (s_flags & USADDR_WC_BIT)) { /* This is the RP address. */ rpentry_ptr = rp_find(&source); if (rpentry_ptr == (rpentry_t *) NULL) continue; /* Don't have such RP. Ignore */ mrtentry_rp = rpentry_ptr->mrtlink; my_action = join_or_prune(mrtentry_rp, upstream_router); if (my_action == PIM_ACTION_PRUNE) { /* TODO: XXX: TIMER implem. dependency! */ if ((mrtentry_rp->jp_timer < holdtime) || ((mrtentry_rp->jp_timer == holdtime) && (inet6_greaterthan(src, &v->uv_linklocal->pa_addr)))) { /* Suppress the Prune */ jp_value = pim_join_prune_period+ 0.5 * (RANDOM() % pim_join_prune_period); if (mrtentry_rp->jp_timer < jp_value) SET_TIMER(mrtentry_rp->jp_timer, jp_value); } } else if (my_action == PIM_ACTION_JOIN) { /* Override the Prune by scheduling a Join */ jp_value = (RANDOM() % 11) / (10 * PIM_RANDOM_DELAY_JOIN_TIMEOUT); /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_rp->jp_timer > jp_value) SET_TIMER(mrtentry_rp->jp_timer, jp_value); } /* * Check all (*,G) and (S,G) matching to this RP. If * my_action == JOIN, then send a Join and override * the (*,*,RP) Prune. */ for (grpentry_ptr = rpentry_ptr->cand_rp->rp_grp_next->grplink; grpentry_ptr != (grpentry_t *) NULL; grpentry_ptr = grpentry_ptr->rpnext) { my_action = join_or_prune(grpentry_ptr->grp_route, upstream_router); if (my_action == PIM_ACTION_JOIN) { jp_value = (RANDOM() % 11) / (10 * PIM_RANDOM_DELAY_JOIN_TIMEOUT); /* TODO: XXX: TIMER implem. dependency! */ if (grpentry_ptr->grp_route->jp_timer > jp_value) SET_TIMER(grpentry_ptr->grp_route->jp_timer, jp_value); } for (mrtentry_srcs = grpentry_ptr->mrtlink; mrtentry_srcs != (mrtentry_t *) NULL; mrtentry_srcs = mrtentry_srcs->grpnext) { my_action = join_or_prune(mrtentry_srcs, upstream_router); if (my_action == PIM_ACTION_JOIN) { jp_value = (RANDOM() % 11) / (10 * PIM_RANDOM_DELAY_JOIN_TIMEOUT); /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_srcs->jp_timer > jp_value) SET_TIMER(mrtentry_srcs->jp_timer, jp_value); } } /* For all (S,G) */ } /* For all (*,G) */ } } /* num_p_srcs */ continue; /* This was (*,*,RP) suppression */ } /* (*,G) or (S,G) suppression */ /* * TODO: XXX: currently, accumulated groups (i.e. group_masklen < * group_address_lengt) are not implemented. Just need to create * a loop and apply the procedure below for all groups matching * the prefix. */ while (num_j_srcs--) { GET_ESADDR6(&encod_src, data_ptr); source.sin6_addr = encod_src.src_addr; source.sin6_scope_id = inet6_uvif2scopeid(&source,v); if (!inet6_valid_host(&source)) continue; if (encod_src.masklen > (sizeof(struct in6_addr) << 3)) continue; s_flags = encod_src.flags; MASKLEN_TO_MASK6(encod_src.masklen, s_mask); if ((s_flags & USADDR_RP_BIT) && (s_flags & USADDR_WC_BIT)) { /* (*,G) JOIN_REQUEST (toward the RP) */ mrtentry_ptr = find_route(&sockaddr6_any , &group, MRTF_WC, DONT_CREATE); my_action = join_or_prune(mrtentry_ptr, upstream_router); if (my_action != PIM_ACTION_JOIN) continue; /* (*,G) Join suppresion */ if (!inet6_equal(&source,&mrtentry_ptr->group->active_rp_grp->rp->rpentry->address)) continue; /* The RP address doesn't match. * Ignore. */ /* Check the holdtime */ /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_ptr->jp_timer > holdtime) continue; if ((mrtentry_ptr->jp_timer == holdtime) && (inet6_greaterthan(src, &v->uv_linklocal->pa_addr))) continue; jp_value = pim_join_prune_period + 0.5 * (RANDOM() % pim_join_prune_period); if (mrtentry_ptr->jp_timer < jp_value) SET_TIMER(mrtentry_ptr->jp_timer, jp_value); continue; } /* End of (*,G) Join suppression */ /* (S,G) Join suppresion */ mrtentry_ptr = find_route(&source, &group, MRTF_SG, DONT_CREATE); my_action = join_or_prune(mrtentry_ptr, upstream_router); if (my_action != PIM_ACTION_JOIN) continue; /* Check the holdtime */ /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_ptr->jp_timer > holdtime) continue; if ((mrtentry_ptr->jp_timer == holdtime) && (inet6_greaterthan(src, &v->uv_linklocal->pa_addr))) continue; jp_value = pim_join_prune_period + 0.5 * (RANDOM() % pim_join_prune_period); if (mrtentry_ptr->jp_timer < jp_value) SET_TIMER(mrtentry_ptr->jp_timer, jp_value); continue; } /* Prunes suppression */ while (num_p_srcs--) { GET_ESADDR6(&encod_src, data_ptr); source.sin6_addr = encod_src.src_addr; source.sin6_scope_id = inet6_uvif2scopeid(&source, v); if (encod_src.masklen > (sizeof(struct in6_addr) << 3)) continue; if (!inet6_valid_host(&source)) continue; s_flags = encod_src.flags; MASKLEN_TO_MASK6(encod_src.masklen, s_mask); if ((s_flags & USADDR_RP_BIT) && (s_flags & USADDR_WC_BIT)) { /* (*,G) prune suppression */ rpentry_ptr = rp_match(&source); if ((rpentry_ptr == (rpentry_t *) NULL) || (!inet6_equal(&rpentry_ptr->address , &source))) continue; /* No such RP or it is different. * Ignore */ mrtentry_ptr = find_route(&sockaddr6_any, &group, MRTF_WC, DONT_CREATE); my_action = join_or_prune(mrtentry_ptr, upstream_router); if (my_action == PIM_ACTION_PRUNE) { /* TODO: XXX: TIMER implem. dependency! */ if ((mrtentry_ptr->jp_timer < holdtime) || ((mrtentry_ptr->jp_timer == holdtime) && (inet6_greaterthan(src, &v->uv_linklocal->pa_addr)))) { /* Suppress the Prune */ jp_value = pim_join_prune_period + 0.5 * (RANDOM() % pim_join_prune_period); if (mrtentry_ptr->jp_timer < jp_value) SET_TIMER(mrtentry_ptr->jp_timer, jp_value); } } else if (my_action == PIM_ACTION_JOIN) { /* Override the Prune by scheduling a Join */ jp_value = (RANDOM() % 11) / (10 * PIM_RANDOM_DELAY_JOIN_TIMEOUT); /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_ptr->jp_timer > jp_value) SET_TIMER(mrtentry_ptr->jp_timer, jp_value); } /* * Check all (S,G) entries for this group. If my_action * == JOIN, then send the Join and override the (*,G) * Prune. */ for (mrtentry_srcs = mrtentry_ptr->group->mrtlink; mrtentry_srcs != (mrtentry_t *) NULL; mrtentry_srcs = mrtentry_srcs->grpnext) { my_action = join_or_prune(mrtentry_srcs, upstream_router); if (my_action == PIM_ACTION_JOIN) { jp_value = (RANDOM() % 11) / (10 * PIM_RANDOM_DELAY_JOIN_TIMEOUT); /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_ptr->jp_timer > jp_value) SET_TIMER(mrtentry_ptr->jp_timer, jp_value); } } /* For all (S,G) */ continue; /* End of (*,G) prune suppression */ } /* (S,G) prune suppression */ mrtentry_ptr = find_route(&source, &group, MRTF_SG, DONT_CREATE); my_action = join_or_prune(mrtentry_ptr, upstream_router); if (my_action == PIM_ACTION_PRUNE) { /* Suppress the (S,G) Prune */ /* TODO: XXX: TIMER implem. dependency! */ if ((mrtentry_ptr->jp_timer < holdtime) || ((mrtentry_ptr->jp_timer == holdtime) && (inet6_greaterthan(src, &v->uv_linklocal->pa_addr)))) { jp_value = pim_join_prune_period + 0.5 * (RANDOM() % pim_join_prune_period); if (mrtentry_ptr->jp_timer < jp_value) SET_TIMER(mrtentry_ptr->jp_timer, jp_value); } } else if (my_action == PIM_ACTION_JOIN) { /* Override the Prune by scheduling a Join */ jp_value = (RANDOM() % 11) / (10 * PIM_RANDOM_DELAY_JOIN_TIMEOUT); /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_ptr->jp_timer > jp_value) SET_TIMER(mrtentry_ptr->jp_timer, jp_value); } } /* while (num_p_srcs--) */ } /* while (num_groups--) */ return (TRUE); } /* End of Join/Prune suppression code */ /* I am the target of this join, so process the message */ /* * The spec says that if there is (*,G) Join, it has priority over old * existing ~(S,G) prunes in the routing table. However, if the (*,G) * Join and the ~(S,G) prune are in the same message, ~(S,G) has the * priority. The spec doesn't say it, but I think the same is true for * (*,*,RP) and ~(S,G) prunes. * * The code below do: (1) Check the whole message for (*,*,RP) Joins. (1.1) * If found, clean all pruned_oifs for all (*,G) and all (S,G) for each * RP in the list, but do not update the kernel cache. Then go back to * the beginning of the message and start processing for each group: (2) * Check for Prunes. If no prunes, process the Joins. (3) If there are * Prunes: (3.1) Scan the Join part for existing (*,G) Join. (3.1.1) If * there is (*,G) Join, clear join interface from the pruned_oifs for all * (S,G), but DO NOT flush the change to the kernel (by using * change_interfaces() for example) (3.2) After the pruned_oifs are * eventually cleared in (3.1.1), process the Prune part of the message * normally (setting the prune_oifs and flashing the changes to the * (kernel). (3.3) After the Prune part is processed, process the Join * part normally (by applying any changes to the kernel) (4) If there * were (*,*,RP) Join/Prune, process them. * * If the Join/Prune list is too long, it may result in long processing * overhead. The idea above is not to place any wrong info in the kernel, * because it may result in short-time existing traffic forwarding on * wrong interface. Hopefully, in the future will find a better way to * implement it. */ IF_DEBUG(DEBUG_PIM_JOIN_PRUNE) log(LOG_DEBUG,0,"I'm the target of the JOIN/PRUNE message"); num_groups_tmp = num_groups; data_ptr_start = data_ptr; star_star_rp_found = FALSE; /* Indicating whether we have (*,*,RP) join */ IF_DEBUG(DEBUG_PIM_JOIN_PRUNE) log(LOG_DEBUG,0,"Number of groups to process : %d",num_groups_tmp); while (num_groups_tmp--) { /* Search for (*,*,RP) Join */ GET_EGADDR6(&encod_group, data_ptr); GET_HOSTSHORT(num_j_srcs, data_ptr); GET_HOSTSHORT(num_p_srcs, data_ptr); group.sin6_addr = encod_group.mcast_addr; group.sin6_scope_id = inet6_uvif2scopeid(&group, v); IF_DEBUG(DEBUG_PIM_JOIN_PRUNE) { log(LOG_DEBUG, 0, "Group to process : %s",inet6_fmt(&encod_group.mcast_addr)); log(LOG_DEBUG, 0, "Number of join : %d",num_j_srcs ); log(LOG_DEBUG, 0, "Number of prune : %d",num_p_srcs ); } if (!(inet6_equal(&group,&sockaddr6_d)) || (encod_src.masklen != STAR_STAR_RP_MSK6LEN)) { /* This is not (*,*,RP). Jump to the next group. */ data_ptr += (num_j_srcs + num_p_srcs) * sizeof(pim6_encod_src_addr_t); IF_DEBUG(DEBUG_PIM_JOIN_PRUNE) { log(LOG_DEBUG, 0, "I'm looking for the (*,*,RP) entry , skip to next entry"); } continue; } /* * (*,*,RP) found. For each RP and each (*,G) and each (S,G) clear * the pruned oif, but do not update the kernel. */ star_star_rp_found = TRUE; while (num_j_srcs--) { GET_ESADDR6(&encod_src, data_ptr); source.sin6_addr = encod_src.src_addr; rpentry_ptr = rp_find(&source); if (rpentry_ptr == (rpentry_t *) NULL) continue; for (rp_grp_entry_ptr = rpentry_ptr->cand_rp->rp_grp_next; rp_grp_entry_ptr != (rp_grp_entry_t *) NULL; rp_grp_entry_ptr = rp_grp_entry_ptr->rp_grp_next) { for (grpentry_ptr = rp_grp_entry_ptr->grplink; grpentry_ptr != (grpentry_t *) NULL; grpentry_ptr = grpentry_ptr->rpnext) { if (grpentry_ptr->grp_route != (mrtentry_t *) NULL) IF_CLR(mifi, &grpentry_ptr->grp_route->pruned_oifs); for (mrtentry_ptr = grpentry_ptr->mrtlink; mrtentry_ptr != (mrtentry_t *) NULL; mrtentry_ptr = mrtentry_ptr->grpnext) IF_CLR(mifi, &mrtentry_ptr->pruned_oifs); } } } data_ptr += (num_p_srcs) * sizeof(pim6_encod_src_addr_t); } /* * Start processing the groups. If this is (*,*,RP), skip it, but process * it at the end.don't forget to reinit data_ptr! */ data_ptr = data_ptr_start; num_groups_tmp = num_groups; while (num_groups_tmp--) { GET_EGADDR6(&encod_group, data_ptr); GET_HOSTSHORT(num_j_srcs, data_ptr); GET_HOSTSHORT(num_p_srcs, data_ptr); group.sin6_addr = encod_group.mcast_addr; group.sin6_scope_id = inet6_uvif2scopeid(&group, v); IF_DEBUG(DEBUG_PIM_JOIN_PRUNE) { log(LOG_DEBUG,0,"Group to process : %s",inet6_fmt(&encod_group.mcast_addr)); log(LOG_DEBUG,0,"Number of join : %d",num_j_srcs ); log(LOG_DEBUG,0,"Number of prune : %d",num_p_srcs ); } if (!IN6_IS_ADDR_MULTICAST(&group.sin6_addr)) { data_ptr += (num_j_srcs + num_p_srcs) * sizeof(pim6_encod_src_addr_t); continue; /* Ignore this group and jump to the next one */ } if (inet6_equal(&group, &sockaddr6_d) && (encod_group.masklen == STAR_STAR_RP_MSK6LEN)) { /* This is (*,*,RP). Jump to the next group. */ IF_DEBUG(DEBUG_PIM_JOIN_PRUNE) { log(LOG_DEBUG, 0, "This is (*,*,RP). Jump to next."); } data_ptr += (num_j_srcs + num_p_srcs) * sizeof(pim6_encod_src_addr_t); continue; } rpentry_ptr = rp_match(&group); if (rpentry_ptr == (rpentry_t *) NULL) continue; IF_DEBUG(DEBUG_PIM_JOIN_PRUNE) log(LOG_DEBUG,0,"The rp for this JOIN/PRUNE is %s",inet6_fmt(&rpentry_ptr->address.sin6_addr)); data_ptr_group_j_start = data_ptr; data_ptr_group_p_start = data_ptr + num_j_srcs * sizeof(pim6_encod_src_addr_t); /* * Scan the Join part for (*,G) Join and then clear the particular * interface from pruned_oifs for all (S,G). If the RP address in the * Join message is different from the local match, ignore the whole * group. */ num_j_srcs_tmp = num_j_srcs; ignore_group = FALSE; while (num_j_srcs_tmp--) { GET_ESADDR6(&encod_src, data_ptr); source.sin6_addr=encod_src.src_addr; source.sin6_scope_id = inet6_uvif2scopeid(&source,v); if ((encod_src.flags & USADDR_RP_BIT) && (encod_src.flags & USADDR_WC_BIT)) { /* * This is the RP address, i.e. (*,G) Join. Check if the * RP-mapping is consistent and if "yes", then Reset the * pruned_oifs for all (S,G) entries. */ if(!inet6_equal(&rpentry_ptr->address, &source)) { ignore_group = TRUE; IF_DEBUG(DEBUG_PIM_JOIN_PRUNE) log(LOG_DEBUG,0,"And I'm not the RP for this address"); break; } mrtentry_ptr = find_route(&sockaddr6_any, &group, MRTF_WC, DONT_CREATE); if (mrtentry_ptr != (mrtentry_t *) NULL) { for (mrtentry_srcs = mrtentry_ptr->group->mrtlink; mrtentry_srcs != (mrtentry_t *) NULL; mrtentry_srcs = mrtentry_srcs->grpnext) IF_CLR(mifi, &mrtentry_srcs->pruned_oifs); } break; } } if (ignore_group == TRUE) continue; data_ptr = data_ptr_group_p_start; /* Process the Prune part first */ while (num_p_srcs--) { GET_ESADDR6(&encod_src, data_ptr); source.sin6_addr = encod_src.src_addr; source.sin6_scope_id = inet6_uvif2scopeid(&source, v); if (!inet6_valid_host(&source)) continue; s_flags = encod_src.flags; if (!(s_flags & (USADDR_WC_BIT | USADDR_RP_BIT))) { /* (S,G) prune sent toward S */ mrtentry_ptr = find_route(&source, &group, MRTF_SG, DONT_CREATE); if (mrtentry_ptr == (mrtentry_t *) NULL) continue; /* I don't have (S,G) to prune. Ignore. */ /* * If the link is point-to-point, timeout the oif * immediately, otherwise decrease the timer to allow other * downstream routers to override the prune. */ /* TODO: XXX: increase the entry timer? */ if (v->uv_flags & VIFF_POINT_TO_POINT) { FIRE_TIMER(mrtentry_ptr->vif_timers[mifi]); } else { /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_ptr->vif_timers[mifi] > mrtentry_ptr->vif_deletion_delay[mifi]) SET_TIMER(mrtentry_ptr->vif_timers[mifi], mrtentry_ptr->vif_deletion_delay[mifi]); } IF_TIMER_NOT_SET(mrtentry_ptr->vif_timers[mifi]) { IF_CLR(mifi, &mrtentry_ptr->joined_oifs); IF_SET(mifi, &mrtentry_ptr->pruned_oifs); change_interfaces(mrtentry_ptr, mrtentry_ptr->incoming, &mrtentry_ptr->joined_oifs, &mrtentry_ptr->pruned_oifs, &mrtentry_ptr->leaves, &mrtentry_ptr->asserted_oifs, 0); } continue; } if ((s_flags & USADDR_RP_BIT) && (!(s_flags & USADDR_WC_BIT))) { /* ~(S,G)RPbit prune sent toward the RP */ mrtentry_ptr = find_route(&source, &group, MRTF_SG, DONT_CREATE); if (mrtentry_ptr != (mrtentry_t *) NULL) { SET_TIMER(mrtentry_ptr->timer, holdtime); if (v->uv_flags & VIFF_POINT_TO_POINT) { FIRE_TIMER(mrtentry_ptr->vif_timers[mifi]); } else { /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_ptr->vif_timers[mifi] > mrtentry_ptr->vif_deletion_delay[mifi]) SET_TIMER(mrtentry_ptr->vif_timers[mifi], mrtentry_ptr->vif_deletion_delay[mifi]); } IF_TIMER_NOT_SET(mrtentry_ptr->vif_timers[mifi]) { IF_CLR(mifi, &mrtentry_ptr->joined_oifs); IF_SET(mifi, &mrtentry_ptr->pruned_oifs); change_interfaces(mrtentry_ptr, mrtentry_ptr->incoming, &mrtentry_ptr->joined_oifs, &mrtentry_ptr->pruned_oifs, &mrtentry_ptr->leaves, &mrtentry_ptr->asserted_oifs, 0); } continue; } /* There is no (S,G) entry. Check for (*,G) or (*,*,RP) */ mrtentry_ptr = find_route(NULL, &group, MRTF_WC | MRTF_PMBR, DONT_CREATE); if (mrtentry_ptr != (mrtentry_t *) NULL) { mrtentry_ptr = find_route(&source, &group, MRTF_SG | MRTF_RP, CREATE); if (mrtentry_ptr == (mrtentry_t *) NULL) continue; mrtentry_ptr->flags &= ~MRTF_NEW; RESET_TIMER(mrtentry_ptr->vif_timers[mifi]); /* * TODO: XXX: The spec doens't say what value to use for * the entry time. Use the J/P holdtime. */ SET_TIMER(mrtentry_ptr->timer, holdtime); /* * TODO: XXX: The spec says to delete the oif. However, * its timer only should be lowered, so the prune can be * overwritten on multiaccess LAN. Spec BUG. */ IF_CLR(mifi, &mrtentry_ptr->joined_oifs); IF_SET(mifi, &mrtentry_ptr->pruned_oifs); change_interfaces(mrtentry_ptr, mrtentry_ptr->incoming, &mrtentry_ptr->joined_oifs, &mrtentry_ptr->pruned_oifs, &mrtentry_ptr->leaves, &mrtentry_ptr->asserted_oifs, 0); } continue; } if ((s_flags & USADDR_RP_BIT) && (s_flags & USADDR_WC_BIT)) { /* (*,G) Prune */ mrtentry_ptr = find_route(NULL, &group, MRTF_WC | MRTF_PMBR, DONT_CREATE); if (mrtentry_ptr != (mrtentry_t *) NULL) { if (mrtentry_ptr->flags & MRTF_WC) { /* * TODO: XXX: Should check the whole Prune list in * advance for (*,G) prune and if the RP address does * not match the local RP-map, then ignore the whole * group, not only this particular (*,G) prune. */ if (!inet6_equal(&mrtentry_ptr->group->active_rp_grp->rp->rpentry->address, &source )) continue; /* The RP address doesn't match. */ if (v->uv_flags & VIFF_POINT_TO_POINT) { FIRE_TIMER(mrtentry_ptr->vif_timers[mifi]); } else { /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_ptr->vif_timers[mifi] > mrtentry_ptr->vif_deletion_delay[mifi]) SET_TIMER(mrtentry_ptr->vif_timers[mifi], mrtentry_ptr->vif_deletion_delay[mifi]); } IF_TIMER_NOT_SET(mrtentry_ptr->vif_timers[mifi]) { IF_CLR(mifi, &mrtentry_ptr->joined_oifs); IF_SET(mifi, &mrtentry_ptr->pruned_oifs); change_interfaces(mrtentry_ptr, mrtentry_ptr->incoming, &mrtentry_ptr->joined_oifs, &mrtentry_ptr->pruned_oifs, &mrtentry_ptr->leaves, &mrtentry_ptr->asserted_oifs, 0); } continue; } /* No (*,G) entry, but found (*,*,RP). Create (*,G) */ if (!inet6_equal(&mrtentry_ptr->source->address, &source)) continue; /* The RP address doesn't match. */ mrtentry_ptr = find_route(NULL, &group, MRTF_WC, CREATE); if (mrtentry_ptr == (mrtentry_t *) NULL) continue; mrtentry_ptr->flags &= ~MRTF_NEW; RESET_TIMER(mrtentry_ptr->vif_timers[mifi]); /* * TODO: XXX: should only lower the oif timer, so it can * be overwritten on multiaccess LAN. Spec bug. */ IF_CLR(mifi, &mrtentry_ptr->joined_oifs); IF_SET(mifi, &mrtentry_ptr->pruned_oifs); change_interfaces(mrtentry_ptr, mrtentry_ptr->incoming, &mrtentry_ptr->joined_oifs, &mrtentry_ptr->pruned_oifs, &mrtentry_ptr->leaves, &mrtentry_ptr->asserted_oifs, 0); } /* (*,G) or (*,*,RP) found */ } /* (*,G) prune */ } /* while(num_p_srcs--) */ /* End of (S,G) and (*,G) Prune handling */ /* Jump back to the Join part and process it */ data_ptr = data_ptr_group_j_start; while (num_j_srcs--) { GET_ESADDR6(&encod_src, data_ptr); source.sin6_addr = encod_src.src_addr; source.sin6_scope_id = inet6_uvif2scopeid(&source, v); if (!inet6_valid_host(&source)) continue; s_flags = encod_src.flags; MASKLEN_TO_MASK6(encod_src.masklen, s_mask); if ((s_flags & USADDR_WC_BIT) && (s_flags & USADDR_RP_BIT)) { /* (*,G) Join toward RP */ /* * It has been checked already that this RP address is the * same as the local RP-maping. */ mrtentry_ptr = find_route(NULL, &group, MRTF_WC, CREATE); if (mrtentry_ptr == (mrtentry_t *) NULL) continue; IF_SET(mifi, &mrtentry_ptr->joined_oifs); IF_CLR(mifi, &mrtentry_ptr->pruned_oifs); IF_CLR(mifi, &mrtentry_ptr->asserted_oifs); /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_ptr->vif_timers[mifi] < holdtime) { SET_TIMER(mrtentry_ptr->vif_timers[mifi], holdtime); mrtentry_ptr->vif_deletion_delay[mifi] = holdtime / 3; } if (mrtentry_ptr->timer < holdtime) SET_TIMER(mrtentry_ptr->timer, holdtime); mrtentry_ptr->flags &= ~MRTF_NEW; change_interfaces(mrtentry_ptr, mrtentry_ptr->incoming, &mrtentry_ptr->joined_oifs, &mrtentry_ptr->pruned_oifs, &mrtentry_ptr->leaves, &mrtentry_ptr->asserted_oifs, 0); /* * Need to update the (S,G) entries, because of the previous * cleaning of the pruned_oifs. The reason is that if the * oifs for (*,G) weren't changed, the (S,G) entries won't be * updated by change_interfaces() */ for (mrtentry_srcs = mrtentry_ptr->group->mrtlink; mrtentry_srcs != (mrtentry_t *) NULL; mrtentry_srcs = mrtentry_srcs->grpnext) change_interfaces(mrtentry_srcs, mrtentry_srcs->incoming, &mrtentry_srcs->joined_oifs, &mrtentry_srcs->pruned_oifs, &mrtentry_srcs->leaves, &mrtentry_srcs->asserted_oifs, 0); continue; } if (!(s_flags & (USADDR_WC_BIT | USADDR_RP_BIT))) { /* (S,G) Join toward S */ if (mifi == get_iif(&source)) continue; /* Ignore this (S,G) Join */ mrtentry_ptr = find_route(&source, &group, MRTF_SG, CREATE); if (mrtentry_ptr == (mrtentry_t *) NULL) continue; IF_SET(mifi, &mrtentry_ptr->joined_oifs); IF_CLR(mifi, &mrtentry_ptr->pruned_oifs); IF_CLR(mifi, &mrtentry_ptr->asserted_oifs); /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_ptr->vif_timers[mifi] < holdtime) { SET_TIMER(mrtentry_ptr->vif_timers[mifi], holdtime); mrtentry_ptr->vif_deletion_delay[mifi] = holdtime / 3; } if (mrtentry_ptr->timer < holdtime) SET_TIMER(mrtentry_ptr->timer, holdtime); /* * TODO: if this is a new entry, send immediately the Join * message toward S. The Join/Prune timer for new entries is * 0, but it does not means the message will be sent * immediately. */ mrtentry_ptr->flags &= ~MRTF_NEW; /* * Note that we must create (S,G) without the RPbit set. If * we already had such entry, change_interfaces() will reset * the RPbit propertly. */ change_interfaces(mrtentry_ptr, mrtentry_ptr->source->incoming, &mrtentry_ptr->joined_oifs, &mrtentry_ptr->pruned_oifs, &mrtentry_ptr->leaves, &mrtentry_ptr->asserted_oifs, 0); continue; } } /* while(num_j_srcs--) */ } /* for all groups */ /* Now process the (*,*,RP) Join/Prune */ if (star_star_rp_found == TRUE) return (TRUE); data_ptr = data_ptr_start; while (num_groups--) { /* * The conservative approach is to scan again the whole message, just * in case if we have more than one (*,*,RP) requests. */ GET_EGADDR6(&encod_group, data_ptr); GET_HOSTSHORT(num_j_srcs, data_ptr); GET_HOSTSHORT(num_p_srcs, data_ptr); group.sin6_addr = encod_group.mcast_addr; group.sin6_scope_id = inet6_uvif2scopeid(&group, v); if (!inet6_equal(&group,&sockaddr6_d) || (encod_group.masklen != STAR_STAR_RP_MSK6LEN)) { /* This is not (*,*,RP). Jump to the next group. */ data_ptr += (num_j_srcs + num_p_srcs) * sizeof(pim6_encod_src_addr_t); continue; } /* (*,*,RP) found */ while (num_j_srcs--) { /* TODO: XXX: check that the iif is different from the Join oifs */ GET_ESADDR6(&encod_src, data_ptr); source.sin6_addr = encod_src.src_addr; source.sin6_scope_id = inet6_uvif2scopeid(&source, v); if (!inet6_valid_host(&source)) continue; s_flags = encod_src.flags; MASKLEN_TO_MASK6(encod_src.masklen, s_mask); mrtentry_ptr = find_route(&source, NULL, MRTF_PMBR, CREATE); if (mrtentry_ptr == (mrtentry_t *) NULL) continue; IF_SET(mifi, &mrtentry_ptr->joined_oifs); IF_CLR(mifi, &mrtentry_ptr->pruned_oifs); IF_CLR(mifi, &mrtentry_ptr->asserted_oifs); /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_ptr->vif_timers[mifi] < holdtime) { SET_TIMER(mrtentry_ptr->vif_timers[mifi], holdtime); mrtentry_ptr->vif_deletion_delay[mifi] = holdtime / 3; } if (mrtentry_ptr->timer < holdtime) SET_TIMER(mrtentry_ptr->timer, holdtime); mrtentry_ptr->flags &= ~MRTF_NEW; change_interfaces(mrtentry_ptr, mrtentry_ptr->incoming, &mrtentry_ptr->joined_oifs, &mrtentry_ptr->pruned_oifs, &mrtentry_ptr->leaves, &mrtentry_ptr->asserted_oifs, 0); /* * Need to update the (S,G) and (*,G) entries, because of the * previous cleaning of the pruned_oifs. The reason is that if * the oifs for (*,*,RP) weren't changed, the (*,G) and (S,G) * entries won't be updated by change_interfaces() */ for (rp_grp_entry_ptr = mrtentry_ptr->source->cand_rp->rp_grp_next; rp_grp_entry_ptr != (rp_grp_entry_t *) NULL; rp_grp_entry_ptr = rp_grp_entry_ptr->rp_grp_next) for (grpentry_ptr = rp_grp_entry_ptr->grplink; grpentry_ptr != (grpentry_t *) NULL; grpentry_ptr = grpentry_ptr->rpnext) { /* Update the (*,G) entry */ change_interfaces(grpentry_ptr->grp_route, grpentry_ptr->grp_route->incoming, &grpentry_ptr->grp_route->joined_oifs, &grpentry_ptr->grp_route->pruned_oifs, &grpentry_ptr->grp_route->leaves, &grpentry_ptr->grp_route->asserted_oifs, 0); /* Update the (S,G) entries */ for (mrtentry_srcs = grpentry_ptr->mrtlink; mrtentry_srcs != (mrtentry_t *) NULL; mrtentry_srcs = mrtentry_srcs->grpnext) change_interfaces(mrtentry_srcs, mrtentry_srcs->incoming, &mrtentry_srcs->joined_oifs, &mrtentry_srcs->pruned_oifs, &mrtentry_srcs->leaves, &mrtentry_srcs->asserted_oifs, 0); } continue; } while (num_p_srcs--) { /* TODO: XXX: can we have (*,*,RP) Prune? */ GET_ESADDR6(&encod_src, data_ptr); source.sin6_addr = encod_src.src_addr; source.sin6_scope_id = inet6_uvif2scopeid(&source, v); if (!inet6_valid_host(&source)) continue; s_flags = encod_src.flags; MASKLEN_TO_MASK6(encod_src.masklen, s_mask); mrtentry_ptr = find_route(&source, NULL , MRTF_PMBR, DONT_CREATE); if (mrtentry_ptr == (mrtentry_t *) NULL) continue; /* * If the link is point-to-point, timeout the oif immediately, * otherwise decrease the timer to allow other downstream routers * to override the prune. */ /* TODO: XXX: increase the entry timer? */ if (v->uv_flags & VIFF_POINT_TO_POINT) { FIRE_TIMER(mrtentry_ptr->vif_timers[mifi]); } else { /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_ptr->vif_timers[mifi] > mrtentry_ptr->vif_deletion_delay[mifi]) SET_TIMER(mrtentry_ptr->vif_timers[mifi], mrtentry_ptr->vif_deletion_delay[mifi]); } IF_TIMER_NOT_SET(mrtentry_ptr->vif_timers[mifi]) { IF_CLR(mifi, &mrtentry_ptr->joined_oifs); IF_SET(mifi, &mrtentry_ptr->pruned_oifs); IF_SET(mifi, &mrtentry_ptr->asserted_oifs); change_interfaces(mrtentry_ptr, mrtentry_ptr->incoming, &mrtentry_ptr->joined_oifs, &mrtentry_ptr->pruned_oifs, &mrtentry_ptr->leaves, &mrtentry_ptr->asserted_oifs, 0); } } } /* For all groups processing (*,*,R) */ return (TRUE); } /* * TODO: NOT USED, probably buggy, but may need it in the future. */ /* * TODO: create two functions: periodic which timeout the timers and * non-periodic which only check but don't timeout the timers. */ /* * Create and send Join/Prune messages per interface. Only the entries which * have the Join/Prune timer expired are included. In the special case when * we have ~(S,G)RPbit Prune entry, we must include any (*,G) or (*,*,RP) * Currently the whole table is scanned. In the future will have all routing * entries linked in a chain with the corresponding upstream pim_nbr_entry. * * If pim_nbr is not NULL, then send to only this particular PIM neighbor, */ int send_periodic_pim6_join_prune(mifi, pim_nbr, holdtime) mifi_t mifi; pim_nbr_entry_t *pim_nbr; u_int16 holdtime; { grpentry_t *grpentry_ptr; mrtentry_t *mrtentry_ptr; rpentry_t *rpentry_ptr; struct sockaddr_in6 src_addr; struct uvif *v; pim_nbr_entry_t *pim_nbr_ptr; cand_rp_t *cand_rp_ptr; /* * Walk through all routing entries. The iif must match to include the * entry. Check first the (*,G) entry and then all associated (S,G). At * the end of the message will add any (*,*,RP) entries. TODO: check * other PIM-SM implementations and decide the more appropriate place to * put the (*,*,RP) entries: in the beginning of the message or at the * end. */ v = &uvifs[mifi]; /* Check the (*,G) and (S,G) entries */ for (grpentry_ptr = grplist; grpentry_ptr != (grpentry_t *) NULL; grpentry_ptr = grpentry_ptr->next) { mrtentry_ptr = grpentry_ptr->grp_route; /* TODO: XXX: TIMER implem. dependency! */ if ((mrtentry_ptr != (mrtentry_t *) NULL) && (mrtentry_ptr->incoming == mifi) && (mrtentry_ptr->jp_timer <= timer_interval)) { /* If join/prune to a particular neighbor only was specified */ if ((pim_nbr != (pim_nbr_entry_t *) NULL) && (mrtentry_ptr->upstream != pim_nbr)) continue; /* TODO: XXX: The J/P suppression timer is not in the spec! */ if (!IF_ISEMPTY(&mrtentry_ptr->joined_oifs) || (v->uv_flags & VIFF_DR)) { add_jp_entry(mrtentry_ptr->upstream, holdtime, &grpentry_ptr->group, SINGLE_GRP_MSK6LEN, &grpentry_ptr->rpaddr, SINGLE_SRC_MSK6LEN, 0, PIM_ACTION_JOIN); } /* TODO: XXX: TIMER implem. dependency! */ if (IF_ISEMPTY(&mrtentry_ptr->joined_oifs) && (!(v->uv_flags & VIFF_DR)) && (mrtentry_ptr->jp_timer <= timer_interval)) { add_jp_entry(mrtentry_ptr->upstream, holdtime, &grpentry_ptr->group, SINGLE_GRP_MSK6LEN, &grpentry_ptr->rpaddr, SINGLE_SRC_MSK6LEN, 0, PIM_ACTION_PRUNE); } } /* Check the (S,G) entries */ for (mrtentry_ptr = grpentry_ptr->mrtlink; mrtentry_ptr != (mrtentry_t *) NULL; mrtentry_ptr = mrtentry_ptr->grpnext) { /* If join/prune to a particular neighbor only was specified */ if ((pim_nbr != (pim_nbr_entry_t *) NULL) && (mrtentry_ptr->upstream != pim_nbr)) continue; if (mrtentry_ptr->flags & MRTF_RP) { /* RPbit set */ src_addr = mrtentry_ptr->source->address; if (IF_ISEMPTY(&mrtentry_ptr->joined_oifs) || ((find_vif_direct_local(&src_addr) != NO_VIF) && grpentry_ptr->grp_route != (mrtentry_t *) NULL)) /* TODO: XXX: TIMER implem. dependency! */ if ((grpentry_ptr->grp_route->incoming == mifi) && (grpentry_ptr->grp_route->jp_timer <= timer_interval)) /* S is directly connected. Send toward RP */ add_jp_entry(grpentry_ptr->grp_route->upstream, holdtime, &grpentry_ptr->group, SINGLE_GRP_MSK6LEN, &src_addr, SINGLE_SRC_MSK6LEN, MRTF_RP, PIM_ACTION_PRUNE); } else { /* RPbit cleared */ if (IF_ISEMPTY(&mrtentry_ptr->joined_oifs)) { /* TODO: XXX: TIMER implem. dependency! */ if ((mrtentry_ptr->incoming == mifi) && (mrtentry_ptr->jp_timer <= timer_interval)) add_jp_entry(mrtentry_ptr->upstream, holdtime, &grpentry_ptr->group, SINGLE_GRP_MSK6LEN, &mrtentry_ptr->source->address, SINGLE_SRC_MSK6LEN, 0, PIM_ACTION_PRUNE); } else { /* TODO: XXX: TIMER implem. dependency! */ if ((mrtentry_ptr->incoming == mifi) && (mrtentry_ptr->jp_timer <= timer_interval)) add_jp_entry(mrtentry_ptr->upstream, holdtime, &grpentry_ptr->group, SINGLE_GRP_MSK6LEN, &mrtentry_ptr->source->address, SINGLE_SRC_MSK6LEN, 0, PIM_ACTION_JOIN); } /* TODO: XXX: TIMER implem. dependency! */ if ((mrtentry_ptr->flags & MRTF_SPT) && (grpentry_ptr->grp_route != (mrtentry_t *) NULL) && (mrtentry_ptr->incoming != grpentry_ptr->grp_route->incoming) && (grpentry_ptr->grp_route->incoming == mifi) && (grpentry_ptr->grp_route->jp_timer <= timer_interval)) add_jp_entry(grpentry_ptr->grp_route->upstream, holdtime, &grpentry_ptr->group, SINGLE_GRP_MSK6LEN, &mrtentry_ptr->source->address, SINGLE_SRC_MSK6LEN, MRTF_RP, PIM_ACTION_PRUNE); } } } /* Check the (*,*,RP) entries */ for (cand_rp_ptr = cand_rp_list; cand_rp_ptr != (cand_rp_t *) NULL; cand_rp_ptr = cand_rp_ptr->next) { rpentry_ptr = cand_rp_ptr->rpentry; /* If join/prune to a particular neighbor only was specified */ if ((pim_nbr != (pim_nbr_entry_t *) NULL) && (rpentry_ptr->upstream != pim_nbr)) continue; /* TODO: XXX: TIMER implem. dependency! */ if ((rpentry_ptr->mrtlink != (mrtentry_t *) NULL) && (rpentry_ptr->incoming == mifi) && (rpentry_ptr->mrtlink->jp_timer <= timer_interval)) { add_jp_entry(rpentry_ptr->upstream, holdtime, &sockaddr6_d, STAR_STAR_RP_MSK6LEN, &rpentry_ptr->address, SINGLE_SRC_MSK6LEN, MRTF_RP | MRTF_WC, PIM_ACTION_JOIN); } } /* Send all pending Join/Prune messages */ for (pim_nbr_ptr = v->uv_pim_neighbors; pim_nbr_ptr != (pim_nbr_entry_t *) NULL; pim_nbr_ptr = pim_nbr->next) { /* If join/prune to a particular neighbor only was specified */ if ((pim_nbr != (pim_nbr_entry_t *) NULL) && (pim_nbr_ptr != pim_nbr)) continue; pack_and_send_jp6_message(pim_nbr_ptr); } return (TRUE); } int add_jp_entry(pim_nbr, holdtime, group, grp_msklen, source, src_msklen, addr_flags, join_prune) pim_nbr_entry_t *pim_nbr; u_int16 holdtime; struct sockaddr_in6 *group; u_int8 grp_msklen; struct sockaddr_in6 *source; u_int8 src_msklen; u_int16 addr_flags; u_int8 join_prune; { build_jp_message_t *bjpm; u_int8 *data_ptr; u_int8 flags = 0; int rp_flag; bjpm = pim_nbr->build_jp_message; if (bjpm != (build_jp_message_t *) NULL) { if ((bjpm->jp_message_size + bjpm->join_list_size + bjpm->prune_list_size + bjpm->rp_list_join_size + bjpm->rp_list_prune_size >= MAX_JP_MESSAGE_SIZE) || (bjpm->join_list_size >= MAX_JOIN_LIST_SIZE) || (bjpm->prune_list_size >= MAX_PRUNE_LIST_SIZE) || (bjpm->rp_list_join_size >= MAX_JOIN_LIST_SIZE) || (bjpm->rp_list_prune_size >= MAX_PRUNE_LIST_SIZE)) { /* * TODO: XXX: BUG: If the list is getting too large, must be * careful with the fragmentation. */ pack_and_send_jp6_message(pim_nbr); bjpm = pim_nbr->build_jp_message; /* The buffer will be freed */ } } if (bjpm != (build_jp_message_t *) NULL) { if ((!inet6_equal(&bjpm->curr_group, group) || (bjpm->curr_group_msklen != grp_msklen) || (bjpm->holdtime != holdtime))) { pack_jp6_message(pim_nbr); } } if (bjpm == (build_jp_message_t *) NULL) { bjpm = get_jp6_working_buff(); pim_nbr->build_jp_message = bjpm; data_ptr = bjpm->jp_message; PUT_EUADDR6(pim_nbr->address.sin6_addr, data_ptr); PUT_BYTE(0, data_ptr); /* Reserved */ bjpm->num_groups_ptr = data_ptr++; /* The pointer for numgroups */ *(bjpm->num_groups_ptr) = 0; /* Zero groups */ PUT_HOSTSHORT(holdtime, data_ptr); bjpm->holdtime = holdtime; bjpm->jp_message_size = data_ptr - bjpm->jp_message; } /* TODO: move somewhere else, only when it is a new group */ bjpm->curr_group = *group; bjpm->curr_group_msklen = grp_msklen; if (inet6_equal(group, &sockaddr6_d) && (grp_msklen == STAR_STAR_RP_MSK6LEN)) rp_flag = TRUE; else rp_flag = FALSE; switch (join_prune) { case PIM_ACTION_JOIN: if (rp_flag == TRUE) data_ptr = bjpm->rp_list_join + bjpm->rp_list_join_size; else data_ptr = bjpm->join_list + bjpm->join_list_size; break; case PIM_ACTION_PRUNE: if (rp_flag == TRUE) data_ptr = bjpm->rp_list_join + bjpm->rp_list_join_size; else data_ptr = bjpm->prune_list + bjpm->prune_list_size; break; default: return (FALSE); } flags |= USADDR_S_BIT; /* Mandatory for PIMv2 */ if (addr_flags & MRTF_RP) flags |= USADDR_RP_BIT; if (addr_flags & MRTF_WC) flags |= USADDR_WC_BIT; PUT_ESADDR6(source->sin6_addr, src_msklen, flags, data_ptr); switch (join_prune) { case PIM_ACTION_JOIN: if (rp_flag == TRUE) { bjpm->rp_list_join_size = data_ptr - bjpm->rp_list_join; bjpm->rp_list_join_number++; } else { bjpm->join_list_size = data_ptr - bjpm->join_list; bjpm->join_addr_number++; } break; case PIM_ACTION_PRUNE: if (rp_flag == TRUE) { bjpm->rp_list_prune_size = data_ptr - bjpm->rp_list_prune; bjpm->rp_list_prune_number++; } else { bjpm->prune_list_size = data_ptr - bjpm->prune_list; bjpm->prune_addr_number++; } break; default: return (FALSE); } return (TRUE); } /* TODO: check again the size of the buffers */ static build_jp_message_t * get_jp6_working_buff() { build_jp_message_t *bjpm_ptr; if (build_jp_message_pool_counter == 0) { bjpm_ptr = (build_jp_message_t *) malloc(sizeof(build_jp_message_t)); bjpm_ptr->next = (build_jp_message_t *) NULL; bjpm_ptr->jp_message = (u_int8 *) malloc(MAX_JP_MESSAGE_SIZE + sizeof(pim_jp_encod_grp_t) + 2 * sizeof(pim6_encod_src_addr_t)); bjpm_ptr->jp_message_size = 0; bjpm_ptr->join_list_size = 0; bjpm_ptr->join_addr_number = 0; bjpm_ptr->join_list = (u_int8 *) malloc(MAX_JOIN_LIST_SIZE + sizeof(pim6_encod_src_addr_t)); bjpm_ptr->prune_list_size = 0; bjpm_ptr->prune_addr_number = 0; bjpm_ptr->prune_list = (u_int8 *) malloc(MAX_PRUNE_LIST_SIZE + sizeof(pim6_encod_src_addr_t)); bjpm_ptr->rp_list_join_size = 0; bjpm_ptr->rp_list_join_number = 0; bjpm_ptr->rp_list_join = (u_int8 *) malloc(MAX_JOIN_LIST_SIZE + sizeof(pim6_encod_src_addr_t)); bjpm_ptr->rp_list_prune_size = 0; bjpm_ptr->rp_list_prune_number = 0; bjpm_ptr->rp_list_prune = (u_int8 *) malloc(MAX_PRUNE_LIST_SIZE + sizeof(pim6_encod_src_addr_t)); bjpm_ptr->curr_group = sockaddr6_any; bjpm_ptr->curr_group_msklen = 0; bjpm_ptr->holdtime = 0; return bjpm_ptr; } else { bjpm_ptr = build_jp_message_pool; build_jp_message_pool = build_jp_message_pool->next; build_jp_message_pool_counter--; bjpm_ptr->jp_message_size = 0; bjpm_ptr->join_list_size = 0; bjpm_ptr->join_addr_number = 0; bjpm_ptr->prune_list_size = 0; bjpm_ptr->prune_addr_number = 0; bjpm_ptr->curr_group = sockaddr6_any; bjpm_ptr->curr_group_msklen = 0; return (bjpm_ptr); } } static void return_jp6_working_buff(pim_nbr) pim_nbr_entry_t *pim_nbr; { build_jp_message_t *bjpm_ptr = pim_nbr->build_jp_message; if (bjpm_ptr == (build_jp_message_t *) NULL) return; /* Don't waste memory by keeping too many free buffers */ /* TODO: check/modify the definitions for POOL_NUMBER and size */ if (build_jp_message_pool_counter >= MAX_JP_MESSAGE_POOL_NUMBER) { free((void *) bjpm_ptr->jp_message); free((void *) bjpm_ptr->join_list); free((void *) bjpm_ptr->prune_list); free((void *) bjpm_ptr->rp_list_join); free((void *) bjpm_ptr->rp_list_prune); free((void *) bjpm_ptr); } else { bjpm_ptr->next = build_jp_message_pool; build_jp_message_pool = bjpm_ptr; build_jp_message_pool_counter++; } pim_nbr->build_jp_message = (build_jp_message_t *) NULL; } /* * TODO: XXX: Currently, the (*,*,RP) stuff goes at the end of the Join/Prune * message. However, this particular implementation of PIM processes the * Join/Prune messages faster if (*,*,RP) is at the beginning. Modify some of * the functions below such that the outgoing messages place (*,*,RP) at the * beginning, not at the end. */ static void pack_jp6_message(pim_nbr) pim_nbr_entry_t *pim_nbr; { build_jp_message_t *bjpm; u_int8 *data_ptr; bjpm = pim_nbr->build_jp_message; if ((bjpm == (build_jp_message_t *) NULL) || (inet6_equal(&bjpm->curr_group,&sockaddr6_any))) return; data_ptr = bjpm->jp_message + bjpm->jp_message_size; PUT_EGADDR6(bjpm->curr_group.sin6_addr, bjpm->curr_group_msklen, 0, data_ptr); PUT_HOSTSHORT(bjpm->join_addr_number, data_ptr); PUT_HOSTSHORT(bjpm->prune_addr_number, data_ptr); bcopy(bjpm->join_list, data_ptr, bjpm->join_list_size); data_ptr += bjpm->join_list_size; bcopy(bjpm->prune_list, data_ptr, bjpm->prune_list_size); data_ptr += bjpm->prune_list_size; bjpm->jp_message_size = (data_ptr - bjpm->jp_message); bjpm->join_list_size = 0; bjpm->join_addr_number = 0; #if 0 /* isn't this necessary? */ bjpm->rp_list_join_size = 0; bjpm->rp_list_join_number = 0; #endif bjpm->prune_list_size = 0; bjpm->prune_addr_number = 0; #if 0 /* isn't this necessary? */ bjpm->rp_list_prune_size = 0; bjpm->rp_list_prune_number = 0; #endif (*bjpm->num_groups_ptr)++; bjpm->curr_group = sockaddr6_any; bjpm->curr_group_msklen = 0; if (*bjpm->num_groups_ptr == ((u_int8) ~ 0 - 1)) { if (bjpm->rp_list_join_number + bjpm->rp_list_prune_number) { /* Add the (*,*,RP) at the end */ data_ptr = bjpm->jp_message + bjpm->jp_message_size; PUT_EGADDR6(sockaddr6_d.sin6_addr, STAR_STAR_RP_MSK6LEN, 0, data_ptr); PUT_HOSTSHORT(bjpm->rp_list_join_number, data_ptr); PUT_HOSTSHORT(bjpm->rp_list_prune_number, data_ptr); bcopy(bjpm->rp_list_join, data_ptr, bjpm->rp_list_join_size); data_ptr += bjpm->rp_list_join_size; bcopy(bjpm->rp_list_prune, data_ptr, bjpm->rp_list_prune_size); data_ptr += bjpm->rp_list_prune_size; bjpm->jp_message_size = (data_ptr - bjpm->jp_message); bjpm->rp_list_join_size = 0; bjpm->rp_list_join_number = 0; bjpm->rp_list_prune_size = 0; bjpm->rp_list_prune_number = 0; (*bjpm->num_groups_ptr)++; } send_jp6_message(pim_nbr); } } void pack_and_send_jp6_message(pim_nbr) pim_nbr_entry_t *pim_nbr; { u_int8 *data_ptr; build_jp_message_t *bjpm; if ((pim_nbr == (pim_nbr_entry_t *) NULL) || ((bjpm = pim_nbr->build_jp_message) == (build_jp_message_t *) NULL)) { return; } pack_jp6_message(pim_nbr); if (bjpm->rp_list_join_number + bjpm->rp_list_prune_number) { /* Add the (*,*,RP) at the end */ data_ptr = bjpm->jp_message + bjpm->jp_message_size; PUT_EGADDR6(sockaddr6_d.sin6_addr, STAR_STAR_RP_MSK6LEN, 0, data_ptr); PUT_HOSTSHORT(bjpm->rp_list_join_number, data_ptr); PUT_HOSTSHORT(bjpm->rp_list_prune_number, data_ptr); bcopy(bjpm->rp_list_join, data_ptr, bjpm->rp_list_join_size); data_ptr += bjpm->rp_list_join_size; bcopy(bjpm->rp_list_prune, data_ptr, bjpm->rp_list_prune_size); data_ptr += bjpm->rp_list_prune_size; bjpm->jp_message_size = (data_ptr - bjpm->jp_message); bjpm->rp_list_join_size = 0; bjpm->rp_list_join_number = 0; bjpm->rp_list_prune_size = 0; bjpm->rp_list_prune_number = 0; (*bjpm->num_groups_ptr)++; } send_jp6_message(pim_nbr); } static void send_jp6_message(pim_nbr) pim_nbr_entry_t *pim_nbr; { u_int16 datalen; mifi_t mifi; datalen = pim_nbr->build_jp_message->jp_message_size; mifi = pim_nbr->vifi; bcopy(pim_nbr->build_jp_message->jp_message, pim6_send_buf+sizeof(struct pim), datalen); send_pim6(pim6_send_buf, &uvifs[mifi].uv_linklocal->pa_addr, &allpim6routers_group , PIM_JOIN_PRUNE, datalen); uvifs[mifi].uv_out_pim6_join_prune++; return_jp6_working_buff(pim_nbr); } /************************************************************************ * PIM_ASSERT ************************************************************************/ int receive_pim6_assert(src, dst, pim_message, datalen) struct sockaddr_in6 *src, *dst; register char *pim_message; int datalen; { mifi_t mifi; pim6_encod_uni_addr_t eusaddr; pim6_encod_grp_addr_t egaddr; struct sockaddr_in6 source, group; mrtentry_t *mrtentry_ptr, *mrtentry_ptr2; u_int8 *data_ptr; struct uvif *v; u_int32 assert_preference; u_int32 assert_metric; u_int32 assert_rptbit; u_int32 local_metric; u_int32 local_preference; u_int8 local_rptbit; u_int8 local_wins; pim_nbr_entry_t *original_upstream_router; if ((mifi = find_vif_direct(src)) == NO_VIF) { /* * Either a local vif or somehow received PIM_ASSERT from * non-directly connected router. Ignore it. */ if (local_address(src) == NO_VIF) log(LOG_INFO, 0, "Ignoring PIM_ASSERT from non-neighbor router %s", inet6_fmt(&src->sin6_addr)); return (FALSE); } v = &uvifs[mifi]; v->uv_in_pim6_assert++; if (uvifs[mifi].uv_flags & (VIFF_DOWN | VIFF_DISABLED | VIFF_NONBRS | MIFF_REGISTER)) return (FALSE); /* Shoudn't come on this interface */ data_ptr = (u_int8 *) (pim_message + sizeof(struct pim)); /* Get the group and source addresses */ GET_EGADDR6(&egaddr, data_ptr); GET_EUADDR6(&eusaddr, data_ptr); /* Get the metric related info */ GET_HOSTLONG(assert_preference, data_ptr); GET_HOSTLONG(assert_metric, data_ptr); assert_rptbit = assert_preference & PIM_ASSERT_RPT_BIT; source.sin6_addr = eusaddr.unicast_addr; source.sin6_scope_id = inet6_uvif2scopeid(&source, v); group.sin6_addr = egaddr.mcast_addr; group.sin6_scope_id = inet6_uvif2scopeid(&group, v); /* Find the longest "active" entry, i.e. the one with a kernel mirror */ if (assert_rptbit) { mrtentry_ptr = find_route(NULL, &group, MRTF_WC | MRTF_PMBR, DONT_CREATE); if (mrtentry_ptr != (mrtentry_t *) NULL) if (!(mrtentry_ptr->flags & MRTF_KERNEL_CACHE)) if (mrtentry_ptr->flags & MRTF_WC) { mrtentry_ptr = mrtentry_ptr->group->active_rp_grp->rp->rpentry->mrtlink; } } else { mrtentry_ptr = find_route(&source, &group, MRTF_SG | MRTF_WC | MRTF_PMBR, DONT_CREATE); if ((mrtentry_ptr != (mrtentry_t *) NULL)) if (!(mrtentry_ptr->flags & MRTF_KERNEL_CACHE)) { if (mrtentry_ptr->flags & MRTF_SG) { mrtentry_ptr2 = mrtentry_ptr->group->grp_route; if ((mrtentry_ptr2 != (mrtentry_t *) NULL) && (mrtentry_ptr2->flags & MRTF_KERNEL_CACHE)) mrtentry_ptr = mrtentry_ptr2; else mrtentry_ptr = mrtentry_ptr->group->active_rp_grp->rp->rpentry->mrtlink; } else if (mrtentry_ptr->flags & MRTF_WC) mrtentry_ptr = mrtentry_ptr->group->active_rp_grp->rp->rpentry->mrtlink; } } if ((mrtentry_ptr == (mrtentry_t *) NULL) || (!(mrtentry_ptr->flags & MRTF_KERNEL_CACHE))) /* No routing entry or not "active" entry. Ignore the assert */ return (FALSE); /* Prepare the local preference and metric */ if ((mrtentry_ptr->flags & MRTF_PMBR) || ((mrtentry_ptr->flags & MRTF_SG) && (!(mrtentry_ptr->flags & MRTF_RP)))) { /* Either (S,G) (toward S) or (*,*,RP). */ /* TODO: XXX: get the info from mrtentry, or source or from kernel ? */ /* * local_metric = mrtentry_ptr->source->metric; local_preference = * mrtentry_ptr->source->preference; */ local_metric = mrtentry_ptr->metric; local_preference = mrtentry_ptr->preference; } else { /* * Should be (*,G) or (S,G)RPbit entry. Get what we need from the RP * info. */ /* TODO: get the info from mrtentry, RP-entry or kernel? */ /* * local_metric = * mrtentry_ptr->group->active_rp_grp->rp->rpentry->metric; * local_preference = * mrtentry_ptr->group->active_rp_grp->rp->rpentry->preference; */ local_metric = mrtentry_ptr->metric; local_preference = mrtentry_ptr->preference; } local_rptbit = (mrtentry_ptr->flags & MRTF_RP); if (local_rptbit) /* Make the RPT bit the most significant one */ local_preference |= PIM_ASSERT_RPT_BIT; if (IF_ISSET(mifi, &mrtentry_ptr->oifs)) { /* The ASSERT has arrived on oif */ /* * TODO: XXX: here the processing order is different from the spec. * The spec requires first eventually to create a routing entry (see * 3.5.2.1(1) and then compare the metrics. Here we compare first the * metrics with the existing longest match entry and if we lose then * create a new entry and compare again. This saves us the * unnecessary creating of a routing entry if we anyway are going to * lose: for example the local (*,*,RP) vs the remote (*,*,RP) or * (*,G) */ local_wins = compare_metrics(local_preference, local_metric, &v->uv_linklocal->pa_addr, assert_preference, assert_metric, src); if (local_wins == TRUE) { /* TODO: verify the parameters */ send_pim6_assert(&source, &group, mifi, mrtentry_ptr); return (TRUE); } /* Create a "better" routing entry and try again */ if ((assert_rptbit) && (mrtentry_ptr->flags & MRTF_PMBR)) { /* The matching entry was (*,*,RP). Create (*,G) */ mrtentry_ptr2 = find_route(NULL, &group, MRTF_WC, CREATE); } else if ((!assert_rptbit) && (mrtentry_ptr->flags & (MRTF_WC | MRTF_PMBR))) { /* create (S,G) */ mrtentry_ptr2 = find_route(&source, &group, MRTF_SG, CREATE); } else { /* We have no chance to win. Give up and prune the oif */ mrtentry_ptr2 = (mrtentry_t *) NULL; } if (mrtentry_ptr2 != (mrtentry_t *) NULL) { mrtentry_ptr2->flags &= ~MRTF_NEW; /* * TODO: XXX: The spec doesn't say what entry timer value to use * when the routing entry is created because of asserts. */ SET_TIMER(mrtentry_ptr2->timer, pim_data_timeout); if (mrtentry_ptr2->flags & MRTF_RP) { /* * Either (*,G) or (S,G)RPbit entry. Get what we need from * the RP info. */ /* TODO: where to get the metric+preference from? */ /* * local_metric = * mrtentry_ptr->group->active_rp_grp->rp->rpentry->metric; * local_preference = * mrtentry_ptr->group->active_rp_grp->rp->rpentry->preference * ; */ local_metric = mrtentry_ptr->metric; local_preference = mrtentry_ptr->preference; local_preference |= PIM_ASSERT_RPT_BIT; } else { /* (S,G) toward the source */ /* TODO: where to get the metric from ? */ /* * local_metric = mrtentry_ptr->source->metric; * local_preference = mrtentry_ptr->source->preference; */ local_metric = mrtentry_ptr->metric; local_preference = mrtentry_ptr->preference; } local_wins = compare_metrics(local_preference, local_metric, &v->uv_linklocal->pa_addr, assert_preference, assert_metric, src); if (local_wins == TRUE) { /* TODO: verify the parameters */ send_pim6_assert(&source, &group, mifi, mrtentry_ptr); return (TRUE); } /* We lost, but have created the entry which has to be pruned */ mrtentry_ptr = mrtentry_ptr2; } /* Have to remove that outgoing vifi from mrtentry_ptr */ IF_SET(mifi, &mrtentry_ptr->asserted_oifs); /* TODO: XXX: TIMER implem. dependency! */ if (mrtentry_ptr->timer < pim_assert_timeout) SET_TIMER(mrtentry_ptr->timer, pim_assert_timeout); /* * TODO: XXX: check that the timer of all affected routing entries * has been restarted. */ change_interfaces(mrtentry_ptr, mrtentry_ptr->incoming, &mrtentry_ptr->joined_oifs, &mrtentry_ptr->pruned_oifs, &mrtentry_ptr->leaves, &mrtentry_ptr->asserted_oifs, 0); return (FALSE); /* Doesn't matter the return value */ } /* End of assert received on oif */ if (mrtentry_ptr->incoming == mifi) { /* Assert received on iif */ if (assert_rptbit) { if (!(mrtentry_ptr->flags & MRTF_RP)) return (TRUE); /* The locally used upstream router will win * the assert, so don't change it. */ } /* * TODO: where to get the local metric and preference from? system * call or mrtentry is fine? */ local_metric = mrtentry_ptr->metric; local_preference = mrtentry_ptr->preference; if (mrtentry_ptr->flags & MRTF_RP) local_preference |= PIM_ASSERT_RPT_BIT; local_wins = compare_metrics(local_preference, local_metric, &mrtentry_ptr->upstream->address, assert_preference, assert_metric, src); if (local_wins == TRUE) return (TRUE); /* return whatever */ /* The upstream must be changed to the winner */ mrtentry_ptr->preference = assert_preference; mrtentry_ptr->metric = assert_metric; mrtentry_ptr->upstream = find_pim6_nbr(src); /* Check if the upstream router is different from the original one */ if (mrtentry_ptr->flags & MRTF_PMBR) original_upstream_router = mrtentry_ptr->source->upstream; else if (mrtentry_ptr->flags & MRTF_RP) original_upstream_router = mrtentry_ptr->group->active_rp_grp->rp->rpentry->upstream; else original_upstream_router = mrtentry_ptr->source->upstream; if (mrtentry_ptr->upstream != original_upstream_router) { mrtentry_ptr->flags |= MRTF_ASSERTED; SET_TIMER(mrtentry_ptr->assert_timer, pim_assert_timeout); } else mrtentry_ptr->flags &= ~MRTF_ASSERTED; } return (TRUE); } int send_pim6_assert(source, group, mifi, mrtentry_ptr) struct sockaddr_in6 *source; struct sockaddr_in6 *group; mifi_t mifi; mrtentry_t *mrtentry_ptr; { u_int8 *data_ptr; u_int8 *data_start_ptr; u_int32 local_preference; u_int32 local_metric; srcentry_t *srcentry_ptr; /* Don't send assert if the outgoing interface a tunnel or register vif */ if (uvifs[mifi].uv_flags & (MIFF_REGISTER | VIFF_TUNNEL)) return (FALSE); data_ptr = (u_int8 *) (pim6_send_buf + sizeof(struct pim)); data_start_ptr = data_ptr; PUT_EGADDR6(group->sin6_addr, SINGLE_GRP_MSK6LEN, 0, data_ptr); PUT_EUADDR6(source->sin6_addr, data_ptr); /* * TODO: XXX: where to get the metric from: srcentry_ptr or mrtentry_ptr * or from the kernel? */ if (mrtentry_ptr->flags & MRTF_PMBR) { /* (*,*,RP) */ srcentry_ptr = mrtentry_ptr->source; /* * TODO: set_incoming(srcentry_ptr, PIM_IIF_RP); */ } else if (mrtentry_ptr->flags & MRTF_RP) { /* (*,G) or (S,G)RPbit (iif toward RP) */ srcentry_ptr = mrtentry_ptr->group->active_rp_grp->rp->rpentry; /* * TODO: set_incoming(srcentry_ptr, PIM_IIF_RP); */ } else { /* (S,G) toward S */ srcentry_ptr = mrtentry_ptr->source; /* * TODO: set_incoming(srcentry_ptr, PIM_IIF_SOURCE); */ } /* * TODO: check again! local_metric = srcentry_ptr->metric; * local_preference = srcentry_ptr->preference; */ local_metric = mrtentry_ptr->metric; local_preference = mrtentry_ptr->preference; if (mrtentry_ptr->flags & MRTF_RP) local_preference |= PIM_ASSERT_RPT_BIT; PUT_HOSTLONG(local_preference, data_ptr); PUT_HOSTLONG(local_metric, data_ptr); send_pim6(pim6_send_buf, &uvifs[mifi].uv_linklocal->pa_addr, &allpim6routers_group, PIM_ASSERT, data_ptr - data_start_ptr); uvifs[mifi].uv_out_pim6_assert++; return (TRUE); } /* Return TRUE if the local win, otherwise FALSE */ static int compare_metrics(local_preference, local_metric, local_address, remote_preference, remote_metric, remote_address) u_int32 local_preference; u_int32 local_metric; struct sockaddr_in6 *local_address; u_int32 remote_preference; u_int32 remote_metric; struct sockaddr_in6 *remote_address; { /* Now lets see who has a smaller gun (aka "asserts war") */ /* * FYI, the smaller gun...err metric wins, but if the same caliber, then * the bigger network address wins. The order of threatment is: * preference, metric, address. */ /* * The RPT bits are already included as the most significant bits of the * preferences. */ if (remote_preference > local_preference) return TRUE; if (remote_preference < local_preference) return FALSE; if (remote_metric > local_metric) return TRUE; if (remote_metric < local_metric) return FALSE; if (inet6_greaterthan(local_address, remote_address)) return TRUE; return FALSE; } /************************************************************************ * PIM_BOOTSTRAP ************************************************************************/ #define PIM6_BOOTSTRAP_MINLEN (PIM_MINLEN + PIM6_ENCODE_UNI_ADDR_LEN) int receive_pim6_bootstrap(src, dst, pim_message, datalen) struct sockaddr_in6 *src, *dst; char *pim_message; int datalen; { u_int8 *data_ptr; u_int8 *max_data_ptr; u_int16 new_bsr_fragment_tag; u_int8 new_bsr_hash_masklen; u_int8 new_bsr_priority; pim6_encod_uni_addr_t new_bsr_uni_addr; struct sockaddr_in6 new_bsr_address; struct rpfctl rpfc; pim_nbr_entry_t *n, *rpf_neighbor; struct sockaddr_in6 neighbor_addr; mifi_t mifi, incoming = NO_VIF; int min_datalen; pim6_encod_grp_addr_t curr_group_addr; pim6_encod_uni_addr_t curr_rp_addr; u_int8 curr_rp_count; u_int8 curr_frag_rp_count; u_int16 reserved_short; u_int16 curr_rp_holdtime; u_int8 curr_rp_priority; u_int8 reserved_byte; struct in6_addr curr_group_mask; grp_mask_t *grp_mask_ptr; grp_mask_t *grp_mask_next; rp_grp_entry_t *grp_rp_entry_ptr; rp_grp_entry_t *grp_rp_entry_next; struct sockaddr_in6 prefix_h, prefix_h2, group_, rpp_; int i; struct uvif *v; if ((mifi=find_vif_direct(src)) == NO_VIF) { /* * Either a local vif or somehow received PIM_BOOTSTRAP from * non-directly connected router. Ignore it. */ if (local_address(src) == NO_VIF) log(LOG_INFO, 0, "Ignoring PIM_BOOTSTRAP from non-neighbor router %s", inet6_fmt(&src->sin6_addr)); return (FALSE); } /* sanity check for the minimum length */ if (datalen < PIM6_BOOTSTRAP_MINLEN) { log(LOG_NOTICE, 0, "receive_pim6_bootstrap: Bootstrap message size(%u) is" " too short from %s", datalen, inet6_fmt(&src->sin6_addr)); return(FALSE); } v = &uvifs[mifi]; v->uv_in_pim6_bootsrap++; data_ptr = (u_int8 *) (pim_message + sizeof(struct pim)); /* Parse the PIM_BOOTSTRAP message */ GET_HOSTSHORT(new_bsr_fragment_tag, data_ptr); GET_BYTE(new_bsr_hash_masklen, data_ptr); GET_BYTE(new_bsr_priority, data_ptr); GET_EUADDR6(&new_bsr_uni_addr, data_ptr); /* * BSR address must be a global unicast address. * [draft-ietf-pim-ipv6-01.txt sec 4.5] */ if (IN6_IS_ADDR_MULTICAST(&new_bsr_uni_addr.unicast_addr) || IN6_IS_ADDR_LINKLOCAL(&new_bsr_uni_addr.unicast_addr) || IN6_IS_ADDR_SITELOCAL(&new_bsr_uni_addr.unicast_addr)) { log(LOG_WARNING, 0, "receive_pim6_bootstrap: invalid BSR address: %s", inet6_fmt(&new_bsr_uni_addr.unicast_addr)); return(FALSE); } new_bsr_address.sin6_addr = new_bsr_uni_addr.unicast_addr; new_bsr_address.sin6_len = sizeof(new_bsr_address); new_bsr_address.sin6_family = AF_INET6; new_bsr_address.sin6_scope_id = inet6_uvif2scopeid(&new_bsr_address, v); if (local_address(&new_bsr_address) != NO_VIF) { IF_DEBUG(DEBUG_RPF | DEBUG_PIM_BOOTSTRAP) log(LOG_DEBUG, 0, "receive_pim6_bootstrap: Bootstrap from myself(%s), ignored.", inet6_fmt(&new_bsr_address.sin6_addr)); return (FALSE); /* The new BSR is one of my local addresses */ } /* * Compare the current BSR priority with the priority of the BSR included * in the message. */ /* * TODO: if I am just starting and will become the BSR, I should accept * the message coming from the current BSR and get the current * Cand-RP-Set. */ if ((curr_bsr_priority > new_bsr_priority) || ((curr_bsr_priority == new_bsr_priority) && (inet6_greaterthan(&curr_bsr_address, &new_bsr_address)))) { /* The message's BSR is less preferred than the current BSR */ log(LOG_DEBUG, 0, "receive_pim6_bootstrap: BSR(%s, prio=%d) is less preferred" " than the current BSR(%s, prio=%d)", inet6_fmt(&new_bsr_address.sin6_addr), new_bsr_priority, inet6_fmt(&curr_bsr_address.sin6_addr), curr_bsr_priority); return (FALSE); /* Ignore the received BSR message */ } /* Check the iif, if this was PIM-ROUTERS multicast */ if (IN6_ARE_ADDR_EQUAL(&dst->sin6_addr, &allpim6routers_group.sin6_addr)) { k_req_incoming(&new_bsr_address, &rpfc); if ((rpfc.iif == NO_VIF) || IN6_IS_ADDR_UNSPECIFIED(&rpfc.rpfneighbor.sin6_addr)) { /* coudn't find a route to the BSR */ log(LOG_NOTICE, 0, "receive_pim6_bootstrap: can't find a route to the BSR(%s)", inet6_fmt(&new_bsr_address.sin6_addr)); return (FALSE); } neighbor_addr = *src; incoming = rpfc.iif; if (uvifs[incoming].uv_flags & (VIFF_DISABLED | VIFF_DOWN | MIFF_REGISTER)) { log(LOG_NOTICE, 0, "receive_pim6_bootstrap: Bootstrap from an invalid interface(%s)", uvifs[incoming].uv_name); return (FALSE); /* Shoudn't arrive on that interface */ } /* Find the upstream router */ for (n = uvifs[incoming].uv_pim_neighbors; n != NULL; n = n->next) { if (inet6_lessthan(&neighbor_addr, &n->address)) continue; if (inet6_equal(&neighbor_addr, &n->address)) { rpf_neighbor = n; break; } log(LOG_NOTICE, 0, "receive_pim6_bootstrap: Bootstrap from an unrecognized " "neighbor(%s) on %s", inet6_fmt(&neighbor_addr.sin6_addr), uvifs[incoming].uv_name); return (FALSE); /* No neighbor toward BSR found */ } /* redundant checks? */ if ((n == (pim_nbr_entry_t *) NULL )) { return (FALSE); /* Sender of this message is not the RPF*/ } /* neighbor */ if(!(inet6_equal(&n->address, src))) { return (FALSE); } } else { if (local_address(dst) == NO_VIF) /* * TODO: XXX: this situation should be handled earlier: The * destination is neither ALL_PIM_ROUTERS nor me */ log(LOG_NOTICE, 0, "receive_pim6_bootstrap: Bootstrap with an invalid dst(%s)", inet6_fmt(&dst->sin6_addr)); return (FALSE); /* Probably unicasted from the current DR */ if (cand_rp_list != (cand_rp_t *) NULL) { /* * Hmmm, I do have a Cand-RP-list, but some neighbor has a * different opinion and is unicasting it to me. Ignore this guy. */ log(LOG_INFO, 0, "receive_pim6_bootstrap: Bootstrap received but we already " "have RPs. ignored."); return (FALSE); } for (mifi = 0; mifi < numvifs; mifi++) { if (uvifs[mifi].uv_flags & (VIFF_DISABLED | VIFF_DOWN | MIFF_REGISTER)) continue; if (inet6_equal(&uvifs[mifi].uv_linklocal->pa_addr,dst)) { incoming = mifi; break; } } if (incoming == NO_VIF) { /* Cannot find the receiving iif toward that DR */ IF_DEBUG(DEBUG_RPF | DEBUG_PIM_BOOTSTRAP) log(LOG_DEBUG, 0, "Unicast boostrap message from %s to %s ignored: " "cannot find iif", inet6_fmt(&src->sin6_addr), inet6_fmt(&dst->sin6_addr)); return (FALSE); } /* * TODO: check the sender is directly connected and I am really the * DR. */ } if (cand_rp_flag == TRUE) { /* If change in the BSR address, send immediately Cand-RP-Adv */ /* TODO: use some random delay? */ if (!inet6_equal(&new_bsr_address , &curr_bsr_address)) { send_pim6_cand_rp_adv(); SET_TIMER(pim_cand_rp_adv_timer, my_cand_rp_adv_period); } } /* Forward the BSR Message first and then update the RP-set list */ /* XXX: should we do sanity checks before forwarding?? */ /* TODO: if the message was unicasted to me, resend? */ for (mifi = 0; mifi < numvifs; mifi++) { if (mifi == incoming) continue; if (uvifs[mifi].uv_flags & (VIFF_DISABLED | VIFF_DOWN | MIFF_REGISTER | VIFF_TUNNEL | VIFF_NONBRS)) continue; bcopy(pim_message, (char *)(pim6_send_buf), datalen); send_pim6(pim6_send_buf, &uvifs[mifi].uv_linklocal->pa_addr, &allpim6routers_group, PIM_BOOTSTRAP, datalen - sizeof(struct pim)); } max_data_ptr = (u_int8 *) pim_message + datalen; /* * TODO: XXX: this 24 is HARDCODING!!! Do a bunch of definitions and make * it stylish! * 24 = Encoded-Group Address(20) + RP-cound(1) + Frag-RP(1) + Reserved(2) */ min_datalen = 24; if ((new_bsr_fragment_tag != curr_bsr_fragment_tag) || (inet6_equal(&new_bsr_address, &curr_bsr_address))) { /* Throw away the old segment */ delete_rp_list(&segmented_cand_rp_list, &segmented_grp_mask_list); } curr_bsr_address = new_bsr_address; curr_bsr_priority = new_bsr_priority; curr_bsr_fragment_tag = new_bsr_fragment_tag; MASKLEN_TO_MASK6(new_bsr_hash_masklen, curr_bsr_hash_mask); SET_TIMER(pim_bootstrap_timer, PIM_BOOTSTRAP_TIMEOUT); while (data_ptr + min_datalen <= max_data_ptr) { GET_EGADDR6(&curr_group_addr, data_ptr); GET_BYTE(curr_rp_count, data_ptr); GET_BYTE(curr_frag_rp_count, data_ptr); GET_HOSTSHORT(reserved_short, data_ptr); MASKLEN_TO_MASK6(curr_group_addr.masklen, curr_group_mask); if (IN6_IS_ADDR_MC_NODELOCAL(&curr_group_addr.mcast_addr) || IN6_IS_ADDR_MC_LINKLOCAL(&curr_group_addr.mcast_addr)) { log(LOG_WARNING, 0, "receive_pim6_bootstrap: " "group prefix has a narraw scope: %s (ignored)", inet6_fmt(&curr_group_addr.mcast_addr)); continue; } if (curr_rp_count == 0) { group_.sin6_addr = curr_group_addr.mcast_addr; delete_grp_mask(&cand_rp_list, &grp_mask_list, &group_, curr_group_mask); continue; } if (curr_rp_count == curr_frag_rp_count) { /* Add all RPs */ while (curr_frag_rp_count--) { /* * Sanity for the data length; the data packet must contain * Encoded-Unicast-RP-Address(18) + RP-Holdtime(2) + * RP-Priority(1) + Reserved(1). */ if (data_ptr + PIM6_ENCODE_UNI_ADDR_LEN + sizeof(u_int32_t) > max_data_ptr) { log(LOG_NOTICE, 0, "receive_pim6_bootstrap: Bootstrap from %s on %s " "does not have enough length to contatin RP information", inet6_fmt(&src->sin6_addr), v->uv_name); /* * Ignore the rest of the message. * XXX: should we discard the entire message? */ goto garbage_collect; } GET_EUADDR6(&curr_rp_addr, data_ptr); GET_HOSTSHORT(curr_rp_holdtime, data_ptr); GET_BYTE(curr_rp_priority, data_ptr); GET_BYTE(reserved_byte, data_ptr); MASKLEN_TO_MASK6(curr_group_addr.masklen, curr_group_mask); rpp_.sin6_addr = curr_rp_addr.unicast_addr; rpp_.sin6_len = sizeof(rpp_); rpp_.sin6_family = AF_INET6; /* * The cand_rp address scope should be global. * XXX: however, is a site-local RP sometimes useful? * we currently discard such RP... */ if (IN6_IS_ADDR_LINKLOCAL(&rpp_.sin6_addr) || IN6_IS_ADDR_SITELOCAL(&rpp_.sin6_addr)) { log(LOG_WARNING, 0, "receive_pim6_bootstrap: invalid RP address: %s", inet6_fmt(&rpp_.sin6_addr)); continue; } rpp_.sin6_scope_id = 0; group_.sin6_addr = curr_group_addr.mcast_addr; group_.sin6_len = sizeof(group_); group_.sin6_family = AF_INET6; group_.sin6_scope_id = inet6_uvif2scopeid(&group_,v); add_rp_grp_entry(&cand_rp_list, &grp_mask_list, &rpp_, curr_rp_priority, curr_rp_holdtime, &group_, curr_group_mask, curr_bsr_hash_mask, curr_bsr_fragment_tag); } continue; } /* * This is a partial list of the RPs for this group prefix. Save * until all segments arrive. */ for (i = 0; i < sizeof(struct in6_addr); i++) { prefix_h.sin6_addr.s6_addr[i] = curr_group_addr.mcast_addr.s6_addr[i] & curr_group_mask.s6_addr[i]; } for (grp_mask_ptr = segmented_grp_mask_list; grp_mask_ptr != (grp_mask_t *) NULL; grp_mask_ptr = grp_mask_ptr->next) { for (i = 0; i < sizeof(struct in6_addr); i++) { prefix_h2.sin6_addr.s6_addr[i] = grp_mask_ptr->group_addr.sin6_addr.s6_addr[i] & grp_mask_ptr->group_mask.s6_addr[i]; } if (inet6_greaterthan(&prefix_h2, &prefix_h)) continue; else break; } if ((grp_mask_ptr != (grp_mask_t *) NULL) && (IN6_ARE_ADDR_EQUAL(&grp_mask_ptr->group_addr.sin6_addr, &curr_group_addr.mcast_addr)) && (IN6_ARE_ADDR_EQUAL(&grp_mask_ptr->group_mask, &curr_group_mask)) && (grp_mask_ptr->group_rp_number + curr_frag_rp_count == curr_rp_count)) { /* All missing PRs have arrived. Add all RP entries */ while (curr_frag_rp_count--) { GET_EUADDR6(&curr_rp_addr, data_ptr); GET_HOSTSHORT(curr_rp_holdtime, data_ptr); GET_BYTE(curr_rp_priority, data_ptr); GET_BYTE(reserved_byte, data_ptr); MASKLEN_TO_MASK6(curr_group_addr.masklen, curr_group_mask); rpp_.sin6_addr = curr_rp_addr.unicast_addr; rpp_.sin6_scope_id=0; group_.sin6_addr = curr_group_addr.mcast_addr; group_.sin6_scope_id = inet6_uvif2scopeid(&group_,v); add_rp_grp_entry(&cand_rp_list, &grp_mask_list, &rpp_, curr_rp_priority, curr_rp_holdtime, &group_, curr_group_mask, curr_bsr_hash_mask, curr_bsr_fragment_tag); } /* Add the rest from the previously saved segments */ for (grp_rp_entry_ptr = grp_mask_ptr->grp_rp_next; grp_rp_entry_ptr != (rp_grp_entry_t *) NULL; grp_rp_entry_ptr = grp_rp_entry_ptr->grp_rp_next) { group_.sin6_addr = curr_group_addr.mcast_addr; group_.sin6_scope_id = inet6_uvif2scopeid(&group_,v); add_rp_grp_entry(&cand_rp_list, &grp_mask_list, &grp_rp_entry_ptr->rp->rpentry->address, grp_rp_entry_ptr->priority, grp_rp_entry_ptr->holdtime, &group_, curr_group_mask, curr_bsr_hash_mask, curr_bsr_fragment_tag); } group_.sin6_addr = curr_group_addr.mcast_addr; group_.sin6_scope_id = inet6_uvif2scopeid(&group_,v); delete_grp_mask(&segmented_cand_rp_list, &segmented_grp_mask_list, &group_, curr_group_mask); } else { /* Add the partially received RP-list to the group of pending RPs */ while (curr_frag_rp_count--) { GET_EUADDR6(&curr_rp_addr, data_ptr); GET_HOSTSHORT(curr_rp_holdtime, data_ptr); GET_BYTE(curr_rp_priority, data_ptr); GET_BYTE(reserved_byte, data_ptr); MASKLEN_TO_MASK6(curr_group_addr.masklen, curr_group_mask); rpp_.sin6_addr = curr_rp_addr.unicast_addr; group_.sin6_addr = curr_group_addr.mcast_addr; group_.sin6_scope_id = inet6_uvif2scopeid(&group_,v); add_rp_grp_entry(&segmented_cand_rp_list, &segmented_grp_mask_list, &rpp_, curr_rp_priority, curr_rp_holdtime, &group_, curr_group_mask, curr_bsr_hash_mask, curr_bsr_fragment_tag); } } } garbage_collect: /* * Garbage collection. Check all group prefixes and if the fragment_tag * for a group_prefix is the same as curr_bsr_fragment_tag, then remove * all RPs for this group_prefix which have different fragment tag. */ for (grp_mask_ptr = grp_mask_list; grp_mask_ptr != (grp_mask_t *) NULL; grp_mask_ptr = grp_mask_next) { grp_mask_next = grp_mask_ptr->next; if (grp_mask_ptr->fragment_tag == curr_bsr_fragment_tag) { for (grp_rp_entry_ptr = grp_mask_ptr->grp_rp_next; grp_rp_entry_ptr != (rp_grp_entry_t *) NULL; grp_rp_entry_ptr = grp_rp_entry_next) { grp_rp_entry_next = grp_rp_entry_ptr->grp_rp_next; if (grp_rp_entry_ptr->fragment_tag != curr_bsr_fragment_tag) delete_rp_grp_entry(&cand_rp_list, &grp_mask_list, grp_rp_entry_ptr); } } } /* Cleanup also the list used by incompleted segments */ for (grp_mask_ptr = segmented_grp_mask_list; grp_mask_ptr != (grp_mask_t *) NULL; grp_mask_ptr = grp_mask_next) { grp_mask_next = grp_mask_ptr->next; if (grp_mask_ptr->fragment_tag == curr_bsr_fragment_tag) { for (grp_rp_entry_ptr = grp_mask_ptr->grp_rp_next; grp_rp_entry_ptr != (rp_grp_entry_t *) NULL; grp_rp_entry_ptr = grp_rp_entry_next) { grp_rp_entry_next = grp_rp_entry_ptr->grp_rp_next; if (grp_rp_entry_ptr->fragment_tag != curr_bsr_fragment_tag) delete_rp_grp_entry(&segmented_cand_rp_list, &segmented_grp_mask_list, grp_rp_entry_ptr); } } } return (TRUE); } void send_pim6_bootstrap() { int datalen; mifi_t mifi; if ((datalen = create_pim6_bootstrap_message(pim6_send_buf))) { for (mifi = 0; mifi < numvifs; mifi++) { if (uvifs[mifi].uv_flags & (VIFF_DISABLED | VIFF_DOWN | MIFF_REGISTER | VIFF_TUNNEL)) continue; send_pim6(pim6_send_buf, &uvifs[mifi].uv_linklocal->pa_addr, &allpim6routers_group, PIM_BOOTSTRAP, datalen); uvifs[mifi].uv_out_pim6_bootsrap++; } } } /************************************************************************ * PIM_CAND_RP_ADV ************************************************************************/ /* * minimum length of a cand. RP adv. message; * length of PIM header + prefix-cnt(1) + priority(1) + holdtime(2) + * encoded unicast RP addr(18) */ #define PIM6_CAND_RP_ADV_MINLEN (PIM_MINLEN + PIM6_ENCODE_UNI_ADDR_LEN) /* * If I am the Bootstrap router, process the advertisement, otherwise ignore * it. */ int receive_pim6_cand_rp_adv(src, dst, pim_message, datalen) struct sockaddr_in6 *src, *dst; char *pim_message; register int datalen; { u_int8 prefix_cnt; u_int8 priority; u_int16 holdtime; pim6_encod_uni_addr_t cand_rp_addr; pim6_encod_grp_addr_t encod_grp_addr; u_int8 *data_ptr; struct in6_addr grp_mask; struct sockaddr_in6 group_, rpp_; pim6dstat.in_pim6_cand_rp++; /* if I am not the bootstrap RP, then do not accept the message */ if ((cand_bsr_flag != FALSE) && !inet6_equal(&curr_bsr_address, &my_bsr_address)) { log(LOG_NOTICE, 0, "receive_pim6_cand_rp_adv: receive cand_RP from %s " "but I'm not the BSR", inet6_fmt(&src->sin6_addr)); return (FALSE); } /* sanity check for the minimum length */ if (datalen < PIM6_CAND_RP_ADV_MINLEN) { log(LOG_NOTICE, 0, "receive_pim6_cand_rp_adv: cand_RP message size(%u) is" " too short from %s", datalen, inet6_fmt(&src->sin6_addr)); return(FALSE); } datalen -= PIM6_CAND_RP_ADV_MINLEN; data_ptr = (u_int8 *) (pim_message + sizeof(struct pim)); /* Parse the CAND_RP_ADV message */ GET_BYTE(prefix_cnt, data_ptr); GET_BYTE(priority, data_ptr); GET_HOSTSHORT(holdtime, data_ptr); GET_EUADDR6(&cand_rp_addr, data_ptr); /* * The RP Address field is set to the globally reachable IPv6 address * [draft-ietf-pim-ipv6]. */ if (IN6_IS_ADDR_LINKLOCAL(&cand_rp_addr.unicast_addr)) { /* XXX: prohibit a site-local address as well? */ log(LOG_WARNING, 0, "receive_pim6_cand_rp_adv: non global address(%s) as RP", inet6_fmt(&cand_rp_addr.unicast_addr)); return(FALSE); } memset(&rpp_, 0, sizeof(rpp_)); if (prefix_cnt == 0) { /* The default ff:: and masklen of 8 */ MASKLEN_TO_MASK6(ALL_MCAST_GROUPS_LENGTH, grp_mask); rpp_.sin6_addr = cand_rp_addr.unicast_addr; /* * note that we don't have to take care of scope id, since * the address should be global(see above). */ add_rp_grp_entry(&cand_rp_list, &grp_mask_list, &rpp_, priority, holdtime, &sockaddr6_d, grp_mask, my_bsr_hash_mask, curr_bsr_fragment_tag); return (TRUE); } while (prefix_cnt--) { /* * Sanity check for the message length. * XXX: do we have to do the check at an earlier stage and * discard the whole message (instead of adopting a part of it) * if it's bogus? */ if (datalen < PIM6_ENCODE_GRP_ADDR_LEN) { log(LOG_NOTICE, 0, "receive_pim6_cand_rp_adv: cand_RP message from %s is" " too short to contain enough groups", inet6_fmt(&src->sin6_addr)); return(FALSE); } datalen -= PIM6_ENCODE_GRP_ADDR_LEN; GET_EGADDR6(&encod_grp_addr, data_ptr); MASKLEN_TO_MASK6(encod_grp_addr.masklen, grp_mask); group_.sin6_addr = encod_grp_addr.mcast_addr; group_.sin6_scope_id = 0; /* XXX: what if for scoped multicast addr? */ rpp_.sin6_addr = cand_rp_addr.unicast_addr; /* see above note on scope id */ add_rp_grp_entry(&cand_rp_list, &grp_mask_list, &rpp_, priority, holdtime, &group_, grp_mask, my_bsr_hash_mask, curr_bsr_fragment_tag); } return (TRUE); } int send_pim6_cand_rp_adv() { u_int8 prefix_cnt; struct in6_addr grp_mask; pim6_encod_grp_addr_t encod_grp_addr; u_int8 *data_ptr; struct sockaddr_in6 group_; if (!inet6_valid_host(&curr_bsr_address)) return (FALSE); /* No BSR yet */ if( inet6_equal(&curr_bsr_address, &my_bsr_address)) { /* I am the BSR and have to include my own group_prefix stuff */ prefix_cnt = *cand_rp_adv_message.prefix_cnt_ptr; if (prefix_cnt == 0) { /* The default ff00:: and masklen of 8 */ MASKLEN_TO_MASK6(ALL_MCAST_GROUPS_LENGTH, grp_mask); add_rp_grp_entry(&cand_rp_list, &grp_mask_list, &my_cand_rp_address, my_cand_rp_priority, my_cand_rp_holdtime, &sockaddr6_d, grp_mask, my_bsr_hash_mask, curr_bsr_fragment_tag); return (TRUE); } /* TODO: hardcoding!! */ /* 18 = sizeof(pim6_encod_uni_addr_t) without padding */ data_ptr = cand_rp_adv_message.buffer + (4 + 18); while (prefix_cnt--) { GET_EGADDR6(&encod_grp_addr, data_ptr); MASKLEN_TO_MASK6(encod_grp_addr.masklen, grp_mask); group_.sin6_addr = encod_grp_addr.mcast_addr; group_.sin6_scope_id = 0; /*XXX */ add_rp_grp_entry(&cand_rp_list, &grp_mask_list, &my_cand_rp_address, my_cand_rp_priority, my_cand_rp_holdtime, &group_, grp_mask, my_bsr_hash_mask, curr_bsr_fragment_tag); } return (TRUE); } data_ptr = (u_int8 *) (pim6_send_buf + sizeof(struct pim)); bcopy((char *)cand_rp_adv_message.buffer, (char *) data_ptr, cand_rp_adv_message.message_size); send_pim6(pim6_send_buf, &my_cand_rp_address, &curr_bsr_address , PIM_CAND_RP_ADV, cand_rp_adv_message.message_size); pim6dstat.out_pim6_cand_rp++; return TRUE; }