/* Ethernet-VPN Packet and vty Processing File * Copyright (C) 2016 6WIND * Copyright (C) 2017 Cumulus Networks, Inc. * * This file is part of FRR. * * FRRouting is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2, or (at your option) any * later version. * * FRRouting is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; see the file COPYING; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include "command.h" #include "filter.h" #include "prefix.h" #include "log.h" #include "memory.h" #include "stream.h" #include "hash.h" #include "jhash.h" #include "zclient.h" #include "bgpd/bgp_attr_evpn.h" #include "bgpd/bgpd.h" #include "bgpd/bgp_table.h" #include "bgpd/bgp_route.h" #include "bgpd/bgp_attr.h" #include "bgpd/bgp_mplsvpn.h" #include "bgpd/bgp_label.h" #include "bgpd/bgp_evpn.h" #include "bgpd/bgp_evpn_private.h" #include "bgpd/bgp_ecommunity.h" #include "bgpd/bgp_encap_types.h" #include "bgpd/bgp_debug.h" #include "bgpd/bgp_errors.h" #include "bgpd/bgp_aspath.h" #include "bgpd/bgp_zebra.h" #include "bgpd/bgp_nexthop.h" /* * Definitions and external declarations. */ extern struct zclient *zclient; DEFINE_QOBJ_TYPE(bgpevpn) DEFINE_QOBJ_TYPE(evpnes) /* * Static function declarations */ static void delete_evpn_route_entry(struct bgp *bgp, afi_t afi, safi_t safi, struct bgp_node *rn, struct bgp_path_info **pi); static int delete_all_vni_routes(struct bgp *bgp, struct bgpevpn *vpn); /* * Private functions. */ /* compare two IPV4 VTEP IPs */ static int evpn_vtep_ip_cmp(void *p1, void *p2) { const struct in_addr *ip1 = p1; const struct in_addr *ip2 = p2; return ip1->s_addr - ip2->s_addr; } /* * Make hash key for ESI. */ static unsigned int esi_hash_keymake(void *p) { struct evpnes *pes = p; const void *pnt = (void *)pes->esi.val; return jhash(pnt, ESI_BYTES, 0xa5a5a55a); } /* * Compare two ESIs. */ static bool esi_cmp(const void *p1, const void *p2) { const struct evpnes *pes1 = p1; const struct evpnes *pes2 = p2; if (pes1 == NULL && pes2 == NULL) return true; if (pes1 == NULL || pes2 == NULL) return false; return (memcmp(pes1->esi.val, pes2->esi.val, ESI_BYTES) == 0); } /* * Make vni hash key. */ static unsigned int vni_hash_key_make(void *p) { struct bgpevpn *vpn = p; return (jhash_1word(vpn->vni, 0)); } /* * Comparison function for vni hash */ static bool vni_hash_cmp(const void *p1, const void *p2) { const struct bgpevpn *vpn1 = p1; const struct bgpevpn *vpn2 = p2; if (!vpn1 && !vpn2) return true; if (!vpn1 || !vpn2) return false; return (vpn1->vni == vpn2->vni); } static int vni_list_cmp(void *p1, void *p2) { const struct bgpevpn *vpn1 = p1; const struct bgpevpn *vpn2 = p2; return vpn1->vni - vpn2->vni; } /* * Make vrf import route target hash key. */ static unsigned int vrf_import_rt_hash_key_make(void *p) { struct vrf_irt_node *irt = p; char *pnt = irt->rt.val; return jhash(pnt, 8, 0x5abc1234); } /* * Comparison function for vrf import rt hash */ static bool vrf_import_rt_hash_cmp(const void *p1, const void *p2) { const struct vrf_irt_node *irt1 = p1; const struct vrf_irt_node *irt2 = p2; if (irt1 == NULL && irt2 == NULL) return true; if (irt1 == NULL || irt2 == NULL) return false; return (memcmp(irt1->rt.val, irt2->rt.val, ECOMMUNITY_SIZE) == 0); } /* * Create a new vrf import_rt in default instance */ static struct vrf_irt_node *vrf_import_rt_new(struct ecommunity_val *rt) { struct bgp *bgp_def = NULL; struct vrf_irt_node *irt; bgp_def = bgp_get_default(); if (!bgp_def) { flog_err(EC_BGP_NO_DFLT, "vrf import rt new - def instance not created yet"); return NULL; } irt = XCALLOC(MTYPE_BGP_EVPN_VRF_IMPORT_RT, sizeof(struct vrf_irt_node)); if (!irt) return NULL; irt->rt = *rt; irt->vrfs = list_new(); /* Add to hash */ if (!hash_get(bgp_def->vrf_import_rt_hash, irt, hash_alloc_intern)) { XFREE(MTYPE_BGP_EVPN_VRF_IMPORT_RT, irt); return NULL; } return irt; } /* * Free the vrf import rt node */ static void vrf_import_rt_free(struct vrf_irt_node *irt) { struct bgp *bgp_def = NULL; bgp_def = bgp_get_default(); if (!bgp_def) { flog_err(EC_BGP_NO_DFLT, "vrf import rt free - def instance not created yet"); return; } hash_release(bgp_def->vrf_import_rt_hash, irt); list_delete(&irt->vrfs); XFREE(MTYPE_BGP_EVPN_VRF_IMPORT_RT, irt); } /* * Function to lookup Import RT node - used to map a RT to set of * VNIs importing routes with that RT. */ static struct vrf_irt_node *lookup_vrf_import_rt(struct ecommunity_val *rt) { struct bgp *bgp_def = NULL; struct vrf_irt_node *irt; struct vrf_irt_node tmp; bgp_def = bgp_get_default(); if (!bgp_def) { flog_err(EC_BGP_NO_DFLT, "vrf import rt lookup - def instance not created yet"); return NULL; } memset(&tmp, 0, sizeof(struct vrf_irt_node)); memcpy(&tmp.rt, rt, ECOMMUNITY_SIZE); irt = hash_lookup(bgp_def->vrf_import_rt_hash, &tmp); return irt; } /* * Is specified VRF present on the RT's list of "importing" VRFs? */ static int is_vrf_present_in_irt_vrfs(struct list *vrfs, struct bgp *bgp_vrf) { struct listnode *node = NULL, *nnode = NULL; struct bgp *tmp_bgp_vrf = NULL; for (ALL_LIST_ELEMENTS(vrfs, node, nnode, tmp_bgp_vrf)) { if (tmp_bgp_vrf == bgp_vrf) return 1; } return 0; } /* * Make import route target hash key. */ static unsigned int import_rt_hash_key_make(void *p) { struct irt_node *irt = p; char *pnt = irt->rt.val; return jhash(pnt, 8, 0xdeadbeef); } /* * Comparison function for import rt hash */ static bool import_rt_hash_cmp(const void *p1, const void *p2) { const struct irt_node *irt1 = p1; const struct irt_node *irt2 = p2; if (irt1 == NULL && irt2 == NULL) return true; if (irt1 == NULL || irt2 == NULL) return false; return (memcmp(irt1->rt.val, irt2->rt.val, ECOMMUNITY_SIZE) == 0); } /* * Create a new import_rt */ static struct irt_node *import_rt_new(struct bgp *bgp, struct ecommunity_val *rt) { struct irt_node *irt; if (!bgp) return NULL; irt = XCALLOC(MTYPE_BGP_EVPN_IMPORT_RT, sizeof(struct irt_node)); if (!irt) return NULL; irt->rt = *rt; irt->vnis = list_new(); /* Add to hash */ if (!hash_get(bgp->import_rt_hash, irt, hash_alloc_intern)) { XFREE(MTYPE_BGP_EVPN_IMPORT_RT, irt); return NULL; } return irt; } /* * Free the import rt node */ static void import_rt_free(struct bgp *bgp, struct irt_node *irt) { hash_release(bgp->import_rt_hash, irt); list_delete(&irt->vnis); XFREE(MTYPE_BGP_EVPN_IMPORT_RT, irt); } /* * Function to lookup Import RT node - used to map a RT to set of * VNIs importing routes with that RT. */ static struct irt_node *lookup_import_rt(struct bgp *bgp, struct ecommunity_val *rt) { struct irt_node *irt; struct irt_node tmp; memset(&tmp, 0, sizeof(struct irt_node)); memcpy(&tmp.rt, rt, ECOMMUNITY_SIZE); irt = hash_lookup(bgp->import_rt_hash, &tmp); return irt; } /* * Is specified VNI present on the RT's list of "importing" VNIs? */ static int is_vni_present_in_irt_vnis(struct list *vnis, struct bgpevpn *vpn) { struct listnode *node, *nnode; struct bgpevpn *tmp_vpn; for (ALL_LIST_ELEMENTS(vnis, node, nnode, tmp_vpn)) { if (tmp_vpn == vpn) return 1; } return 0; } /* * Compare Route Targets. */ static int evpn_route_target_cmp(struct ecommunity *ecom1, struct ecommunity *ecom2) { if (ecom1 && !ecom2) return -1; if (!ecom1 && ecom2) return 1; if (!ecom1 && !ecom2) return 0; if (ecom1->str && !ecom2->str) return -1; if (!ecom1->str && ecom2->str) return 1; if (!ecom1->str && !ecom2->str) return 0; return strcmp(ecom1->str, ecom2->str); } static void evpn_xxport_delete_ecomm(void *val) { struct ecommunity *ecomm = val; ecommunity_free(&ecomm); } /* * Mask off global-admin field of specified extended community (RT), * just retain the local-admin field. */ static inline void mask_ecom_global_admin(struct ecommunity_val *dst, struct ecommunity_val *src) { uint8_t type; type = src->val[0]; dst->val[0] = 0; if (type == ECOMMUNITY_ENCODE_AS) { dst->val[2] = dst->val[3] = 0; } else if (type == ECOMMUNITY_ENCODE_AS4 || type == ECOMMUNITY_ENCODE_IP) { dst->val[2] = dst->val[3] = 0; dst->val[4] = dst->val[5] = 0; } } /* * Map one RT to specified VRF. * bgp_vrf = BGP vrf instance */ static void map_vrf_to_rt(struct bgp *bgp_vrf, struct ecommunity_val *eval) { struct vrf_irt_node *irt = NULL; struct ecommunity_val eval_tmp; /* If using "automatic" RT, * we only care about the local-admin sub-field. * This is to facilitate using L3VNI(VRF-VNI) * as the RT for EBGP peering too. */ memcpy(&eval_tmp, eval, ECOMMUNITY_SIZE); if (!CHECK_FLAG(bgp_vrf->vrf_flags, BGP_VRF_IMPORT_RT_CFGD)) mask_ecom_global_admin(&eval_tmp, eval); irt = lookup_vrf_import_rt(&eval_tmp); if (irt && is_vrf_present_in_irt_vrfs(irt->vrfs, bgp_vrf)) /* Already mapped. */ return; if (!irt) irt = vrf_import_rt_new(&eval_tmp); /* Add VRF to the list for this RT. */ listnode_add(irt->vrfs, bgp_vrf); } /* * Unmap specified VRF from specified RT. If there are no other * VRFs for this RT, then the RT hash is deleted. * bgp_vrf: BGP VRF specific instance */ static void unmap_vrf_from_rt(struct bgp *bgp_vrf, struct vrf_irt_node *irt) { /* Delete VRF from list for this RT. */ listnode_delete(irt->vrfs, bgp_vrf); if (!listnode_head(irt->vrfs)) { vrf_import_rt_free(irt); } } /* * Map one RT to specified VNI. */ static void map_vni_to_rt(struct bgp *bgp, struct bgpevpn *vpn, struct ecommunity_val *eval) { struct irt_node *irt; struct ecommunity_val eval_tmp; /* If using "automatic" RT, we only care about the local-admin * sub-field. * This is to facilitate using VNI as the RT for EBGP peering too. */ memcpy(&eval_tmp, eval, ECOMMUNITY_SIZE); if (!is_import_rt_configured(vpn)) mask_ecom_global_admin(&eval_tmp, eval); irt = lookup_import_rt(bgp, &eval_tmp); if (irt) if (is_vni_present_in_irt_vnis(irt->vnis, vpn)) /* Already mapped. */ return; if (!irt) { irt = import_rt_new(bgp, &eval_tmp); assert(irt); } /* Add VNI to the hash list for this RT. */ listnode_add(irt->vnis, vpn); } /* * Unmap specified VNI from specified RT. If there are no other * VNIs for this RT, then the RT hash is deleted. */ static void unmap_vni_from_rt(struct bgp *bgp, struct bgpevpn *vpn, struct irt_node *irt) { /* Delete VNI from hash list for this RT. */ listnode_delete(irt->vnis, vpn); if (!listnode_head(irt->vnis)) { import_rt_free(bgp, irt); } } /* * Create RT extended community automatically from passed information: * of the form AS:VNI. * NOTE: We use only the lower 16 bits of the AS. This is sufficient as * the need is to get a RT value that will be unique across different * VNIs but the same across routers (in the same AS) for a particular * VNI. */ static void form_auto_rt(struct bgp *bgp, vni_t vni, struct list *rtl) { struct ecommunity_val eval; struct ecommunity *ecomadd; if (bgp->advertise_autort_rfc8365) vni |= EVPN_AUTORT_VXLAN; encode_route_target_as((bgp->as & 0xFFFF), vni, &eval); ecomadd = ecommunity_new(); ecommunity_add_val(ecomadd, &eval); listnode_add_sort(rtl, ecomadd); } /* * Derive RD and RT for a VNI automatically. Invoked at the time of * creation of a VNI. */ static void derive_rd_rt_for_vni(struct bgp *bgp, struct bgpevpn *vpn) { bgp_evpn_derive_auto_rd(bgp, vpn); bgp_evpn_derive_auto_rt_import(bgp, vpn); bgp_evpn_derive_auto_rt_export(bgp, vpn); } /* * Convert nexthop (remote VTEP IP) into an IPv6 address. */ static void evpn_convert_nexthop_to_ipv6(struct attr *attr) { if (BGP_ATTR_NEXTHOP_AFI_IP6(attr)) return; ipv4_to_ipv4_mapped_ipv6(&attr->mp_nexthop_global, attr->nexthop); attr->mp_nexthop_len = IPV6_MAX_BYTELEN; } /* * Add (update) or delete MACIP from zebra. */ static int bgp_zebra_send_remote_macip(struct bgp *bgp, struct bgpevpn *vpn, struct prefix_evpn *p, struct in_addr remote_vtep_ip, int add, uint8_t flags, uint32_t seq) { struct stream *s; int ipa_len; char buf1[ETHER_ADDR_STRLEN]; char buf2[INET6_ADDRSTRLEN]; char buf3[INET6_ADDRSTRLEN]; /* Check socket. */ if (!zclient || zclient->sock < 0) return 0; /* Don't try to register if Zebra doesn't know of this instance. */ if (!IS_BGP_INST_KNOWN_TO_ZEBRA(bgp)) return 0; s = zclient->obuf; stream_reset(s); zclient_create_header( s, add ? ZEBRA_REMOTE_MACIP_ADD : ZEBRA_REMOTE_MACIP_DEL, bgp->vrf_id); stream_putl(s, vpn->vni); stream_put(s, &p->prefix.macip_addr.mac.octet, ETH_ALEN); /* Mac Addr */ /* IP address length and IP address, if any. */ if (is_evpn_prefix_ipaddr_none(p)) stream_putl(s, 0); else { ipa_len = is_evpn_prefix_ipaddr_v4(p) ? IPV4_MAX_BYTELEN : IPV6_MAX_BYTELEN; stream_putl(s, ipa_len); stream_put(s, &p->prefix.macip_addr.ip.ip.addr, ipa_len); } stream_put_in_addr(s, &remote_vtep_ip); /* TX flags - MAC sticky status and/or gateway mac */ /* Also TX the sequence number of the best route. */ if (add) { stream_putc(s, flags); stream_putl(s, seq); } stream_putw_at(s, 0, stream_get_endp(s)); if (bgp_debug_zebra(NULL)) zlog_debug( "Tx %s MACIP, VNI %u MAC %s IP %s flags 0x%x seq %u remote VTEP %s", add ? "ADD" : "DEL", vpn->vni, prefix_mac2str(&p->prefix.macip_addr.mac, buf1, sizeof(buf1)), ipaddr2str(&p->prefix.macip_addr.ip, buf3, sizeof(buf3)), flags, seq, inet_ntop(AF_INET, &remote_vtep_ip, buf2, sizeof(buf2))); return zclient_send_message(zclient); } /* * Add (update) or delete remote VTEP from zebra. */ static int bgp_zebra_send_remote_vtep(struct bgp *bgp, struct bgpevpn *vpn, struct prefix_evpn *p, int add) { struct stream *s; /* Check socket. */ if (!zclient || zclient->sock < 0) return 0; /* Don't try to register if Zebra doesn't know of this instance. */ if (!IS_BGP_INST_KNOWN_TO_ZEBRA(bgp)) return 0; s = zclient->obuf; stream_reset(s); zclient_create_header( s, add ? ZEBRA_REMOTE_VTEP_ADD : ZEBRA_REMOTE_VTEP_DEL, bgp->vrf_id); stream_putl(s, vpn->vni); if (is_evpn_prefix_ipaddr_v4(p)) stream_put_in_addr(s, &p->prefix.imet_addr.ip.ipaddr_v4); else if (is_evpn_prefix_ipaddr_v6(p)) { flog_err( EC_BGP_VTEP_INVALID, "Bad remote IP when trying to %s remote VTEP for VNI %u", add ? "ADD" : "DEL", vpn->vni); return -1; } stream_putw_at(s, 0, stream_get_endp(s)); if (bgp_debug_zebra(NULL)) zlog_debug("Tx %s Remote VTEP, VNI %u remote VTEP %s", add ? "ADD" : "DEL", vpn->vni, inet_ntoa(p->prefix.imet_addr.ip.ipaddr_v4)); return zclient_send_message(zclient); } /* * Build extended community for EVPN ES (type-4) route */ static void build_evpn_type4_route_extcomm(struct evpnes *es, struct attr *attr) { struct ecommunity ecom_encap; struct ecommunity ecom_es_rt; struct ecommunity_val eval; struct ecommunity_val eval_es_rt; bgp_encap_types tnl_type; struct ethaddr mac; /* Encap */ tnl_type = BGP_ENCAP_TYPE_VXLAN; memset(&ecom_encap, 0, sizeof(ecom_encap)); encode_encap_extcomm(tnl_type, &eval); ecom_encap.size = 1; ecom_encap.val = (uint8_t *)eval.val; attr->ecommunity = ecommunity_dup(&ecom_encap); /* ES import RT */ memset(&mac, 0, sizeof(struct ethaddr)); memset(&ecom_es_rt, 0, sizeof(ecom_es_rt)); es_get_system_mac(&es->esi, &mac); encode_es_rt_extcomm(&eval_es_rt, &mac); ecom_es_rt.size = 1; ecom_es_rt.val = (uint8_t *)eval_es_rt.val; attr->ecommunity = ecommunity_merge(attr->ecommunity, &ecom_es_rt); attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_EXT_COMMUNITIES); } /* * Build extended communities for EVPN prefix route. */ static void build_evpn_type5_route_extcomm(struct bgp *bgp_vrf, struct attr *attr) { struct ecommunity ecom_encap; struct ecommunity ecom_rmac; struct ecommunity_val eval; struct ecommunity_val eval_rmac; bgp_encap_types tnl_type; struct listnode *node, *nnode; struct ecommunity *ecom; struct list *vrf_export_rtl = NULL; /* Encap */ tnl_type = BGP_ENCAP_TYPE_VXLAN; memset(&ecom_encap, 0, sizeof(ecom_encap)); encode_encap_extcomm(tnl_type, &eval); ecom_encap.size = 1; ecom_encap.val = (uint8_t *)eval.val; /* Add Encap */ attr->ecommunity = ecommunity_dup(&ecom_encap); /* Add the export RTs for L3VNI/VRF */ vrf_export_rtl = bgp_vrf->vrf_export_rtl; for (ALL_LIST_ELEMENTS(vrf_export_rtl, node, nnode, ecom)) attr->ecommunity = ecommunity_merge(attr->ecommunity, ecom); /* add the router mac extended community */ if (!is_zero_mac(&attr->rmac)) { memset(&ecom_rmac, 0, sizeof(ecom_rmac)); encode_rmac_extcomm(&eval_rmac, &attr->rmac); ecom_rmac.size = 1; ecom_rmac.val = (uint8_t *)eval_rmac.val; attr->ecommunity = ecommunity_merge(attr->ecommunity, &ecom_rmac); } attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_EXT_COMMUNITIES); } /* * Build extended communities for EVPN route. * This function is applicable for type-2 and type-3 routes. The layer-2 RT * and ENCAP extended communities are applicable for all routes. * The default gateway extended community and MAC mobility (sticky) extended * community are added as needed based on passed settings - only for type-2 * routes. Likewise, the layer-3 RT and Router MAC extended communities are * added, if present, based on passed settings - only for non-link-local * type-2 routes. */ static void build_evpn_route_extcomm(struct bgpevpn *vpn, struct attr *attr, int add_l3_ecomm) { struct ecommunity ecom_encap; struct ecommunity ecom_sticky; struct ecommunity ecom_default_gw; struct ecommunity ecom_rmac; struct ecommunity ecom_na; struct ecommunity_val eval; struct ecommunity_val eval_sticky; struct ecommunity_val eval_default_gw; struct ecommunity_val eval_rmac; struct ecommunity_val eval_na; bgp_encap_types tnl_type; struct listnode *node, *nnode; struct ecommunity *ecom; uint32_t seqnum; struct list *vrf_export_rtl = NULL; /* Encap */ tnl_type = BGP_ENCAP_TYPE_VXLAN; memset(&ecom_encap, 0, sizeof(ecom_encap)); encode_encap_extcomm(tnl_type, &eval); ecom_encap.size = 1; ecom_encap.val = (uint8_t *)eval.val; /* Add Encap */ attr->ecommunity = ecommunity_dup(&ecom_encap); /* Add the export RTs for L2VNI */ for (ALL_LIST_ELEMENTS(vpn->export_rtl, node, nnode, ecom)) attr->ecommunity = ecommunity_merge(attr->ecommunity, ecom); /* Add the export RTs for L3VNI if told to - caller determines * when this should be done. */ if (add_l3_ecomm) { vrf_export_rtl = bgpevpn_get_vrf_export_rtl(vpn); if (vrf_export_rtl && !list_isempty(vrf_export_rtl)) { for (ALL_LIST_ELEMENTS(vrf_export_rtl, node, nnode, ecom)) attr->ecommunity = ecommunity_merge( attr->ecommunity, ecom); } } /* Add MAC mobility (sticky) if needed. */ if (attr->sticky) { seqnum = 0; memset(&ecom_sticky, 0, sizeof(ecom_sticky)); encode_mac_mobility_extcomm(1, seqnum, &eval_sticky); ecom_sticky.size = 1; ecom_sticky.val = (uint8_t *)eval_sticky.val; attr->ecommunity = ecommunity_merge(attr->ecommunity, &ecom_sticky); } /* Add RMAC, if told to. */ if (add_l3_ecomm) { memset(&ecom_rmac, 0, sizeof(ecom_rmac)); encode_rmac_extcomm(&eval_rmac, &attr->rmac); ecom_rmac.size = 1; ecom_rmac.val = (uint8_t *)eval_rmac.val; attr->ecommunity = ecommunity_merge(attr->ecommunity, &ecom_rmac); } /* Add default gateway, if needed. */ if (attr->default_gw) { memset(&ecom_default_gw, 0, sizeof(ecom_default_gw)); encode_default_gw_extcomm(&eval_default_gw); ecom_default_gw.size = 1; ecom_default_gw.val = (uint8_t *)eval_default_gw.val; attr->ecommunity = ecommunity_merge(attr->ecommunity, &ecom_default_gw); } if (attr->router_flag) { memset(&ecom_na, 0, sizeof(ecom_na)); encode_na_flag_extcomm(&eval_na, attr->router_flag); ecom_na.size = 1; ecom_na.val = (uint8_t *)eval_na.val; attr->ecommunity = ecommunity_merge(attr->ecommunity, &ecom_na); } attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_EXT_COMMUNITIES); } /* * Add MAC mobility extended community to attribute. */ static void add_mac_mobility_to_attr(uint32_t seq_num, struct attr *attr) { struct ecommunity ecom_tmp; struct ecommunity_val eval; uint8_t *ecom_val_ptr; int i; uint8_t *pnt; int type = 0; int sub_type = 0; /* Build MM */ encode_mac_mobility_extcomm(0, seq_num, &eval); /* Find current MM ecommunity */ ecom_val_ptr = NULL; if (attr->ecommunity) { for (i = 0; i < attr->ecommunity->size; i++) { pnt = attr->ecommunity->val + (i * 8); type = *pnt++; sub_type = *pnt++; if (type == ECOMMUNITY_ENCODE_EVPN && sub_type == ECOMMUNITY_EVPN_SUBTYPE_MACMOBILITY) { ecom_val_ptr = (uint8_t *)(attr->ecommunity->val + (i * 8)); break; } } } /* Update the existing MM ecommunity */ if (ecom_val_ptr) { memcpy(ecom_val_ptr, eval.val, sizeof(char) * ECOMMUNITY_SIZE); } /* Add MM to existing */ else { memset(&ecom_tmp, 0, sizeof(ecom_tmp)); ecom_tmp.size = 1; ecom_tmp.val = (uint8_t *)eval.val; if (attr->ecommunity) attr->ecommunity = ecommunity_merge(attr->ecommunity, &ecom_tmp); else attr->ecommunity = ecommunity_dup(&ecom_tmp); } } /* Install EVPN route into zebra. */ static int evpn_zebra_install(struct bgp *bgp, struct bgpevpn *vpn, struct prefix_evpn *p, struct in_addr remote_vtep_ip, uint8_t flags, uint32_t seq) { int ret; if (p->prefix.route_type == BGP_EVPN_MAC_IP_ROUTE) ret = bgp_zebra_send_remote_macip(bgp, vpn, p, remote_vtep_ip, 1, flags, seq); else ret = bgp_zebra_send_remote_vtep(bgp, vpn, p, 1); return ret; } /* Uninstall EVPN route from zebra. */ static int evpn_zebra_uninstall(struct bgp *bgp, struct bgpevpn *vpn, struct prefix_evpn *p, struct in_addr remote_vtep_ip) { int ret; if (p->prefix.route_type == BGP_EVPN_MAC_IP_ROUTE) ret = bgp_zebra_send_remote_macip(bgp, vpn, p, remote_vtep_ip, 0, 0, 0); else ret = bgp_zebra_send_remote_vtep(bgp, vpn, p, 0); return ret; } /* * Due to MAC mobility, the prior "local" best route has been supplanted * by a "remote" best route. The prior route has to be deleted and withdrawn * from peers. */ static void evpn_delete_old_local_route(struct bgp *bgp, struct bgpevpn *vpn, struct bgp_node *rn, struct bgp_path_info *old_local) { struct bgp_node *global_rn; struct bgp_path_info *pi; afi_t afi = AFI_L2VPN; safi_t safi = SAFI_EVPN; /* Locate route node in the global EVPN routing table. Note that * this table is a 2-level tree (RD-level + Prefix-level) similar to * L3VPN routes. */ global_rn = bgp_afi_node_lookup(bgp->rib[afi][safi], afi, safi, (struct prefix *)&rn->p, &vpn->prd); if (global_rn) { /* Delete route entry in the global EVPN table. */ delete_evpn_route_entry(bgp, afi, safi, global_rn, &pi); /* Schedule for processing - withdraws to peers happen from * this table. */ if (pi) bgp_process(bgp, global_rn, afi, safi); bgp_unlock_node(global_rn); } /* Delete route entry in the VNI route table, caller to remove. */ bgp_path_info_delete(rn, old_local); } static struct in_addr *es_vtep_new(struct in_addr vtep) { struct in_addr *ip; ip = XCALLOC(MTYPE_BGP_EVPN_ES_VTEP, sizeof(struct in_addr)); if (!ip) return NULL; ip->s_addr = vtep.s_addr; return ip; } static void es_vtep_free(struct in_addr *ip) { XFREE(MTYPE_BGP_EVPN_ES_VTEP, ip); } /* check if VTEP is already part of the list */ static int is_vtep_present_in_list(struct list *list, struct in_addr vtep) { struct listnode *node = NULL; struct in_addr *tmp; for (ALL_LIST_ELEMENTS_RO(list, node, tmp)) { if (tmp->s_addr == vtep.s_addr) return 1; } return 0; } /* * Best path for ES route was changed, * update the list of VTEPs for this ES */ static int evpn_es_install_vtep(struct bgp *bgp, struct evpnes *es, struct prefix_evpn *p, struct in_addr rvtep) { struct in_addr *vtep_ip; if (is_vtep_present_in_list(es->vtep_list, rvtep)) return 0; vtep_ip = es_vtep_new(rvtep); if (vtep_ip) listnode_add_sort(es->vtep_list, vtep_ip); return 0; } /* * Best path for ES route was changed, * update the list of VTEPs for this ES */ static int evpn_es_uninstall_vtep(struct bgp *bgp, struct evpnes *es, struct prefix_evpn *p, struct in_addr rvtep) { struct listnode *node, *nnode, *node_to_del = NULL; struct in_addr *tmp; for (ALL_LIST_ELEMENTS(es->vtep_list, node, nnode, tmp)) { if (tmp->s_addr == rvtep.s_addr) { es_vtep_free(tmp); node_to_del = node; } } if (node_to_del) list_delete_node(es->vtep_list, node_to_del); return 0; } /* * Calculate the best path for a ES(type-4) route. */ static int evpn_es_route_select_install(struct bgp *bgp, struct evpnes *es, struct bgp_node *rn) { int ret = 0; afi_t afi = AFI_L2VPN; safi_t safi = SAFI_EVPN; struct bgp_path_info *old_select; /* old best */ struct bgp_path_info *new_select; /* new best */ struct bgp_path_info_pair old_and_new; /* Compute the best path. */ bgp_best_selection(bgp, rn, &bgp->maxpaths[afi][safi], &old_and_new, afi, safi); old_select = old_and_new.old; new_select = old_and_new.new; /* * If the best path hasn't changed - see if something needs to be * updated */ if (old_select && old_select == new_select && old_select->type == ZEBRA_ROUTE_BGP && old_select->sub_type == BGP_ROUTE_IMPORTED && !CHECK_FLAG(rn->flags, BGP_NODE_USER_CLEAR) && !CHECK_FLAG(old_select->flags, BGP_PATH_ATTR_CHANGED) && !bgp->addpath_tx_used[afi][safi]) { if (bgp_zebra_has_route_changed(rn, old_select)) { ret = evpn_es_install_vtep(bgp, es, (struct prefix_evpn *)&rn->p, old_select->attr->nexthop); } UNSET_FLAG(old_select->flags, BGP_PATH_MULTIPATH_CHG); bgp_zebra_clear_route_change_flags(rn); return ret; } /* If the user did a "clear" this flag will be set */ UNSET_FLAG(rn->flags, BGP_NODE_USER_CLEAR); /* * bestpath has changed; update relevant fields and install or uninstall * into the zebra RIB. */ if (old_select || new_select) bgp_bump_version(rn); if (old_select) bgp_path_info_unset_flag(rn, old_select, BGP_PATH_SELECTED); if (new_select) { bgp_path_info_set_flag(rn, new_select, BGP_PATH_SELECTED); bgp_path_info_unset_flag(rn, new_select, BGP_PATH_ATTR_CHANGED); UNSET_FLAG(new_select->flags, BGP_PATH_MULTIPATH_CHG); } if (new_select && new_select->type == ZEBRA_ROUTE_BGP && new_select->sub_type == BGP_ROUTE_IMPORTED) { ret = evpn_es_install_vtep(bgp, es, (struct prefix_evpn *)&rn->p, new_select->attr->nexthop); } else { if (old_select && old_select->type == ZEBRA_ROUTE_BGP && old_select->sub_type == BGP_ROUTE_IMPORTED) ret = evpn_es_uninstall_vtep( bgp, es, (struct prefix_evpn *)&rn->p, old_select->attr->nexthop); } /* Clear any route change flags. */ bgp_zebra_clear_route_change_flags(rn); /* Reap old select bgp_path_info, if it has been removed */ if (old_select && CHECK_FLAG(old_select->flags, BGP_PATH_REMOVED)) bgp_path_info_reap(rn, old_select); return ret; } /* * Calculate the best path for an EVPN route. Install/update best path in zebra, * if appropriate. */ static int evpn_route_select_install(struct bgp *bgp, struct bgpevpn *vpn, struct bgp_node *rn) { struct bgp_path_info *old_select, *new_select; struct bgp_path_info_pair old_and_new; struct prefix_evpn *evp; afi_t afi = AFI_L2VPN; safi_t safi = SAFI_EVPN; int ret = 0; uint8_t flags = 0; /* Compute the best path. */ bgp_best_selection(bgp, rn, &bgp->maxpaths[afi][safi], &old_and_new, afi, safi); old_select = old_and_new.old; new_select = old_and_new.new; evp = (struct prefix_evpn *)&rn->p; /* If the best path hasn't changed - see if there is still something to * update * to zebra RIB. */ if (old_select && old_select == new_select && old_select->type == ZEBRA_ROUTE_BGP && old_select->sub_type == BGP_ROUTE_IMPORTED && !CHECK_FLAG(rn->flags, BGP_NODE_USER_CLEAR) && !CHECK_FLAG(old_select->flags, BGP_PATH_ATTR_CHANGED) && !bgp->addpath_tx_used[afi][safi]) { if (bgp_zebra_has_route_changed(rn, old_select)) { if (old_select->attr->sticky) SET_FLAG(flags, ZEBRA_MACIP_TYPE_STICKY); if (old_select->attr->default_gw) SET_FLAG(flags, ZEBRA_MACIP_TYPE_GW); if (is_evpn_prefix_ipaddr_v6(evp) && old_select->attr->router_flag) SET_FLAG(flags, ZEBRA_MACIP_TYPE_ROUTER_FLAG); ret = evpn_zebra_install( bgp, vpn, (struct prefix_evpn *)&rn->p, old_select->attr->nexthop, flags, mac_mobility_seqnum(old_select->attr)); } UNSET_FLAG(old_select->flags, BGP_PATH_MULTIPATH_CHG); bgp_zebra_clear_route_change_flags(rn); return ret; } /* If the user did a "clear" this flag will be set */ UNSET_FLAG(rn->flags, BGP_NODE_USER_CLEAR); /* bestpath has changed; update relevant fields and install or uninstall * into the zebra RIB. */ if (old_select || new_select) bgp_bump_version(rn); if (old_select) bgp_path_info_unset_flag(rn, old_select, BGP_PATH_SELECTED); if (new_select) { bgp_path_info_set_flag(rn, new_select, BGP_PATH_SELECTED); bgp_path_info_unset_flag(rn, new_select, BGP_PATH_ATTR_CHANGED); UNSET_FLAG(new_select->flags, BGP_PATH_MULTIPATH_CHG); } if (new_select && new_select->type == ZEBRA_ROUTE_BGP && new_select->sub_type == BGP_ROUTE_IMPORTED) { flags = 0; if (new_select->attr->sticky) SET_FLAG(flags, ZEBRA_MACIP_TYPE_STICKY); if (new_select->attr->default_gw) SET_FLAG(flags, ZEBRA_MACIP_TYPE_GW); if (is_evpn_prefix_ipaddr_v6(evp) && new_select->attr->router_flag) SET_FLAG(flags, ZEBRA_MACIP_TYPE_ROUTER_FLAG); ret = evpn_zebra_install(bgp, vpn, (struct prefix_evpn *)&rn->p, new_select->attr->nexthop, flags, mac_mobility_seqnum(new_select->attr)); /* If an old best existed and it was a "local" route, the only * reason * it would be supplanted is due to MAC mobility procedures. So, * we * need to do an implicit delete and withdraw that route from * peers. */ if (old_select && old_select->peer == bgp->peer_self && old_select->type == ZEBRA_ROUTE_BGP && old_select->sub_type == BGP_ROUTE_STATIC) evpn_delete_old_local_route(bgp, vpn, rn, old_select); } else { if (old_select && old_select->type == ZEBRA_ROUTE_BGP && old_select->sub_type == BGP_ROUTE_IMPORTED) ret = evpn_zebra_uninstall(bgp, vpn, (struct prefix_evpn *)&rn->p, old_select->attr->nexthop); } /* Clear any route change flags. */ bgp_zebra_clear_route_change_flags(rn); /* Reap old select bgp_path_info, if it has been removed */ if (old_select && CHECK_FLAG(old_select->flags, BGP_PATH_REMOVED)) bgp_path_info_reap(rn, old_select); return ret; } /* * Return true if the local ri for this rn is of type gateway mac */ static int evpn_route_is_def_gw(struct bgp *bgp, struct bgp_node *rn) { struct bgp_path_info *tmp_pi = NULL; struct bgp_path_info *local_pi = NULL; local_pi = NULL; for (tmp_pi = rn->info; tmp_pi; tmp_pi = tmp_pi->next) { if (tmp_pi->peer == bgp->peer_self && tmp_pi->type == ZEBRA_ROUTE_BGP && tmp_pi->sub_type == BGP_ROUTE_STATIC) local_pi = tmp_pi; } if (!local_pi) return 0; return local_pi->attr->default_gw; } /* * Return true if the local ri for this rn has sticky set */ static int evpn_route_is_sticky(struct bgp *bgp, struct bgp_node *rn) { struct bgp_path_info *tmp_pi; struct bgp_path_info *local_pi; local_pi = NULL; for (tmp_pi = rn->info; tmp_pi; tmp_pi = tmp_pi->next) { if (tmp_pi->peer == bgp->peer_self && tmp_pi->type == ZEBRA_ROUTE_BGP && tmp_pi->sub_type == BGP_ROUTE_STATIC) local_pi = tmp_pi; } if (!local_pi) return 0; return local_pi->attr->sticky; } /* * create or update EVPN type4 route entry. * This could be in the ES table or the global table. * TODO: handle remote ES (type4) routes as well */ static int update_evpn_type4_route_entry(struct bgp *bgp, struct evpnes *es, afi_t afi, safi_t safi, struct bgp_node *rn, struct attr *attr, int add, struct bgp_path_info **ri, int *route_changed) { char buf[ESI_STR_LEN]; char buf1[INET6_ADDRSTRLEN]; struct bgp_path_info *tmp_pi = NULL; struct bgp_path_info *local_pi = NULL; /* local route entry if any */ struct bgp_path_info *remote_pi = NULL; /* remote route entry if any */ struct attr *attr_new = NULL; struct prefix_evpn *evp = NULL; *ri = NULL; *route_changed = 1; evp = (struct prefix_evpn *)&rn->p; /* locate the local and remote entries if any */ for (tmp_pi = rn->info; tmp_pi; tmp_pi = tmp_pi->next) { if (tmp_pi->peer == bgp->peer_self && tmp_pi->type == ZEBRA_ROUTE_BGP && tmp_pi->sub_type == BGP_ROUTE_STATIC) local_pi = tmp_pi; if (tmp_pi->type == ZEBRA_ROUTE_BGP && tmp_pi->sub_type == BGP_ROUTE_IMPORTED && CHECK_FLAG(tmp_pi->flags, BGP_PATH_VALID)) remote_pi = tmp_pi; } /* we don't expect to see a remote_pi at this point. * An ES route has esi + vtep_ip as the key, * We shouldn't see the same route from any other vtep. */ if (remote_pi) { flog_err( EC_BGP_ES_INVALID, "%u ERROR: local es route for ESI: %s Vtep %s also learnt from remote", bgp->vrf_id, esi_to_str(&evp->prefix.es_addr.esi, buf, sizeof(buf)), ipaddr2str(&es->originator_ip, buf1, sizeof(buf1))); return -1; } if (!local_pi && !add) return 0; /* create or update the entry */ if (!local_pi) { /* Add or update attribute to hash */ attr_new = bgp_attr_intern(attr); /* Create new route with its attribute. */ tmp_pi = info_make(ZEBRA_ROUTE_BGP, BGP_ROUTE_STATIC, 0, bgp->peer_self, attr_new, rn); SET_FLAG(tmp_pi->flags, BGP_PATH_VALID); /* add the newly created path to the route-node */ bgp_path_info_add(rn, tmp_pi); } else { tmp_pi = local_pi; if (attrhash_cmp(tmp_pi->attr, attr) && !CHECK_FLAG(tmp_pi->flags, BGP_PATH_REMOVED)) *route_changed = 0; else { /* The attribute has changed. * Add (or update) attribute to hash. */ attr_new = bgp_attr_intern(attr); bgp_path_info_set_flag(rn, tmp_pi, BGP_PATH_ATTR_CHANGED); /* Restore route, if needed. */ if (CHECK_FLAG(tmp_pi->flags, BGP_PATH_REMOVED)) bgp_path_info_restore(rn, tmp_pi); /* Unintern existing, set to new. */ bgp_attr_unintern(&tmp_pi->attr); tmp_pi->attr = attr_new; tmp_pi->uptime = bgp_clock(); } } /* Return back the route entry. */ *ri = tmp_pi; return 0; } /* update evpn es (type-4) route */ static int update_evpn_type4_route(struct bgp *bgp, struct evpnes *es, struct prefix_evpn *p) { int ret = 0; int route_changed = 0; char buf[ESI_STR_LEN]; char buf1[INET6_ADDRSTRLEN]; afi_t afi = AFI_L2VPN; safi_t safi = SAFI_EVPN; struct attr attr; struct attr *attr_new = NULL; struct bgp_node *rn = NULL; struct bgp_path_info *pi = NULL; memset(&attr, 0, sizeof(struct attr)); /* Build path-attribute for this route. */ bgp_attr_default_set(&attr, BGP_ORIGIN_IGP); attr.nexthop = es->originator_ip.ipaddr_v4; attr.mp_nexthop_global_in = es->originator_ip.ipaddr_v4; attr.mp_nexthop_len = BGP_ATTR_NHLEN_IPV4; /* Set up extended community. */ build_evpn_type4_route_extcomm(es, &attr); /* First, create (or fetch) route node within the ESI. */ /* NOTE: There is no RD here. */ rn = bgp_node_get(es->route_table, (struct prefix *)p); /* Create or update route entry. */ ret = update_evpn_type4_route_entry(bgp, es, afi, safi, rn, &attr, 1, &pi, &route_changed); if (ret != 0) { flog_err(EC_BGP_ES_INVALID, "%u ERROR: Failed to updated ES route ESI: %s VTEP %s", bgp->vrf_id, esi_to_str(&p->prefix.es_addr.esi, buf, sizeof(buf)), ipaddr2str(&es->originator_ip, buf1, sizeof(buf1))); } assert(pi); attr_new = pi->attr; /* Perform route selection; * this is just to set the flags correctly * as local route in the ES always wins. */ evpn_es_route_select_install(bgp, es, rn); bgp_unlock_node(rn); /* If this is a new route or some attribute has changed, export the * route to the global table. The route will be advertised to peers * from there. Note that this table is a 2-level tree (RD-level + * Prefix-level) similar to L3VPN routes. */ if (route_changed) { struct bgp_path_info *global_pi; rn = bgp_afi_node_get(bgp->rib[afi][safi], afi, safi, (struct prefix *)p, &es->prd); update_evpn_type4_route_entry(bgp, es, afi, safi, rn, attr_new, 1, &global_pi, &route_changed); /* Schedule for processing and unlock node. */ bgp_process(bgp, rn, afi, safi); bgp_unlock_node(rn); } /* Unintern temporary. */ aspath_unintern(&attr.aspath); return 0; } static int update_evpn_type5_route_entry(struct bgp *bgp_def, struct bgp *bgp_vrf, afi_t afi, safi_t safi, struct bgp_node *rn, struct attr *attr, int *route_changed) { struct attr *attr_new = NULL; struct bgp_path_info *pi = NULL; mpls_label_t label = MPLS_INVALID_LABEL; struct bgp_path_info *local_pi = NULL; struct bgp_path_info *tmp_pi = NULL; *route_changed = 0; /* locate the local route entry if any */ for (tmp_pi = rn->info; tmp_pi; tmp_pi = tmp_pi->next) { if (tmp_pi->peer == bgp_def->peer_self && tmp_pi->type == ZEBRA_ROUTE_BGP && tmp_pi->sub_type == BGP_ROUTE_STATIC) local_pi = tmp_pi; } /* * create a new route entry if one doesnt exist. * Otherwise see if route attr has changed */ if (!local_pi) { /* route has changed as this is the first entry */ *route_changed = 1; /* Add (or update) attribute to hash. */ attr_new = bgp_attr_intern(attr); /* create the route info from attribute */ pi = info_make(ZEBRA_ROUTE_BGP, BGP_ROUTE_STATIC, 0, bgp_def->peer_self, attr_new, rn); SET_FLAG(pi->flags, BGP_PATH_VALID); /* Type-5 routes advertise the L3-VNI */ bgp_path_info_extra_get(pi); vni2label(bgp_vrf->l3vni, &label); memcpy(&pi->extra->label, &label, sizeof(label)); pi->extra->num_labels = 1; /* add the route entry to route node*/ bgp_path_info_add(rn, pi); } else { tmp_pi = local_pi; if (!attrhash_cmp(tmp_pi->attr, attr)) { /* attribute changed */ *route_changed = 1; /* The attribute has changed. */ /* Add (or update) attribute to hash. */ attr_new = bgp_attr_intern(attr); bgp_path_info_set_flag(rn, tmp_pi, BGP_PATH_ATTR_CHANGED); /* Restore route, if needed. */ if (CHECK_FLAG(tmp_pi->flags, BGP_PATH_REMOVED)) bgp_path_info_restore(rn, tmp_pi); /* Unintern existing, set to new. */ bgp_attr_unintern(&tmp_pi->attr); tmp_pi->attr = attr_new; tmp_pi->uptime = bgp_clock(); } } return 0; } /* update evpn type-5 route entry */ static int update_evpn_type5_route(struct bgp *bgp_vrf, struct prefix_evpn *evp, struct attr *src_attr) { afi_t afi = AFI_L2VPN; safi_t safi = SAFI_EVPN; struct attr attr; struct bgp_node *rn = NULL; struct bgp *bgp_def = NULL; int route_changed = 0; bgp_def = bgp_get_default(); if (!bgp_def) return 0; /* Build path attribute for this route - use the source attr, if * present, else treat as locally originated. */ if (src_attr) bgp_attr_dup(&attr, src_attr); else { memset(&attr, 0, sizeof(struct attr)); bgp_attr_default_set(&attr, BGP_ORIGIN_IGP); } /* Set nexthop to ourselves and fill in the Router MAC. */ attr.nexthop = bgp_vrf->originator_ip; attr.mp_nexthop_global_in = bgp_vrf->originator_ip; attr.mp_nexthop_len = BGP_ATTR_NHLEN_IPV4; memcpy(&attr.rmac, &bgp_vrf->rmac, sizeof(struct ethaddr)); /* Setup RT and encap extended community */ build_evpn_type5_route_extcomm(bgp_vrf, &attr); /* get the route node in global table */ rn = bgp_afi_node_get(bgp_def->rib[afi][safi], afi, safi, (struct prefix *)evp, &bgp_vrf->vrf_prd); assert(rn); /* create or update the route entry within the route node */ update_evpn_type5_route_entry(bgp_def, bgp_vrf, afi, safi, rn, &attr, &route_changed); /* schedule for processing and unlock node */ if (route_changed) { bgp_process(bgp_def, rn, afi, safi); bgp_unlock_node(rn); } /* uninten temporary */ if (!src_attr) aspath_unintern(&attr.aspath); return 0; } /* * Create or update EVPN route entry. This could be in the VNI route table * or the global route table. */ static int update_evpn_route_entry(struct bgp *bgp, struct bgpevpn *vpn, afi_t afi, safi_t safi, struct bgp_node *rn, struct attr *attr, int add, struct bgp_path_info **pi, uint8_t flags, uint32_t seq) { struct bgp_path_info *tmp_pi; struct bgp_path_info *local_pi; struct attr *attr_new; mpls_label_t label[BGP_MAX_LABELS]; uint32_t num_labels = 1; int route_change = 1; uint8_t sticky = 0; struct prefix_evpn *evp; *pi = NULL; evp = (struct prefix_evpn *)&rn->p; memset(&label, 0, sizeof(label)); /* See if this is an update of an existing route, or a new add. */ local_pi = NULL; for (tmp_pi = rn->info; tmp_pi; tmp_pi = tmp_pi->next) { if (tmp_pi->peer == bgp->peer_self && tmp_pi->type == ZEBRA_ROUTE_BGP && tmp_pi->sub_type == BGP_ROUTE_STATIC) local_pi = tmp_pi; } /* If route doesn't exist already, create a new one, if told to. * Otherwise act based on whether the attributes of the route have * changed or not. */ if (!local_pi && !add) return 0; /* For non-GW MACs, update MAC mobility seq number, if needed. */ if (seq && !CHECK_FLAG(flags, ZEBRA_MACIP_TYPE_GW)) add_mac_mobility_to_attr(seq, attr); if (!local_pi) { /* Add (or update) attribute to hash. */ attr_new = bgp_attr_intern(attr); /* Extract MAC mobility sequence number, if any. */ attr_new->mm_seqnum = bgp_attr_mac_mobility_seqnum(attr_new, &sticky); attr_new->sticky = sticky; /* Create new route with its attribute. */ tmp_pi = info_make(ZEBRA_ROUTE_BGP, BGP_ROUTE_STATIC, 0, bgp->peer_self, attr_new, rn); SET_FLAG(tmp_pi->flags, BGP_PATH_VALID); bgp_path_info_extra_get(tmp_pi); /* The VNI goes into the 'label' field of the route */ vni2label(vpn->vni, &label[0]); /* Type-2 routes may carry a second VNI - the L3-VNI. * Only attach second label if we are advertising two labels for * type-2 routes. */ if (evp->prefix.route_type == BGP_EVPN_MAC_IP_ROUTE && CHECK_FLAG(vpn->flags, VNI_FLAG_USE_TWO_LABELS)) { vni_t l3vni; l3vni = bgpevpn_get_l3vni(vpn); if (l3vni) { vni2label(l3vni, &label[1]); num_labels++; } } memcpy(&tmp_pi->extra->label, label, sizeof(label)); tmp_pi->extra->num_labels = num_labels; bgp_path_info_add(rn, tmp_pi); } else { tmp_pi = local_pi; if (attrhash_cmp(tmp_pi->attr, attr) && !CHECK_FLAG(tmp_pi->flags, BGP_PATH_REMOVED)) route_change = 0; else { /* * The attributes have changed, type-2 routes needs to * be advertised with right labels. */ vni2label(vpn->vni, &label[0]); if (evp->prefix.route_type == BGP_EVPN_MAC_IP_ROUTE && CHECK_FLAG(vpn->flags, VNI_FLAG_USE_TWO_LABELS)) { vni_t l3vni; l3vni = bgpevpn_get_l3vni(vpn); if (l3vni) { vni2label(l3vni, &label[1]); num_labels++; } } memcpy(&tmp_pi->extra->label, label, sizeof(label)); tmp_pi->extra->num_labels = num_labels; /* The attribute has changed. */ /* Add (or update) attribute to hash. */ attr_new = bgp_attr_intern(attr); bgp_path_info_set_flag(rn, tmp_pi, BGP_PATH_ATTR_CHANGED); /* Extract MAC mobility sequence number, if any. */ attr_new->mm_seqnum = bgp_attr_mac_mobility_seqnum(attr_new, &sticky); attr_new->sticky = sticky; /* Restore route, if needed. */ if (CHECK_FLAG(tmp_pi->flags, BGP_PATH_REMOVED)) bgp_path_info_restore(rn, tmp_pi); /* Unintern existing, set to new. */ bgp_attr_unintern(&tmp_pi->attr); tmp_pi->attr = attr_new; tmp_pi->uptime = bgp_clock(); } } /* Return back the route entry. */ *pi = tmp_pi; return route_change; } /* * Create or update EVPN route (of type based on prefix) for specified VNI * and schedule for processing. */ static int update_evpn_route(struct bgp *bgp, struct bgpevpn *vpn, struct prefix_evpn *p, uint8_t flags, uint32_t seq) { struct bgp_node *rn; struct attr attr; struct attr *attr_new; int add_l3_ecomm = 0; struct bgp_path_info *pi; afi_t afi = AFI_L2VPN; safi_t safi = SAFI_EVPN; int route_change; memset(&attr, 0, sizeof(struct attr)); /* Build path-attribute for this route. */ bgp_attr_default_set(&attr, BGP_ORIGIN_IGP); attr.nexthop = vpn->originator_ip; attr.mp_nexthop_global_in = vpn->originator_ip; attr.mp_nexthop_len = BGP_ATTR_NHLEN_IPV4; attr.sticky = CHECK_FLAG(flags, ZEBRA_MACIP_TYPE_STICKY) ? 1 : 0; attr.default_gw = CHECK_FLAG(flags, ZEBRA_MACIP_TYPE_GW) ? 1 : 0; attr.router_flag = CHECK_FLAG(flags, ZEBRA_MACIP_TYPE_ROUTER_FLAG) ? 1 : 0; /* PMSI is only needed for type-3 routes */ if (p->prefix.route_type == BGP_EVPN_IMET_ROUTE) attr.flag |= ATTR_FLAG_BIT(BGP_ATTR_PMSI_TUNNEL); /* router mac is only needed for type-2 routes here. */ if (p->prefix.route_type == BGP_EVPN_MAC_IP_ROUTE) bgpevpn_get_rmac(vpn, &attr.rmac); vni2label(vpn->vni, &(attr.label)); /* Include L3 VNI related RTs and RMAC for type-2 routes, if they're * IPv4 or IPv6 global addresses and we're advertising L3VNI with * these routes. */ if (p->prefix.route_type == BGP_EVPN_MAC_IP_ROUTE && (is_evpn_prefix_ipaddr_v4(p) || !IN6_IS_ADDR_LINKLOCAL(&p->prefix.macip_addr.ip.ipaddr_v6)) && CHECK_FLAG(vpn->flags, VNI_FLAG_USE_TWO_LABELS) && bgpevpn_get_l3vni(vpn)) add_l3_ecomm = 1; /* Set up extended community. */ build_evpn_route_extcomm(vpn, &attr, add_l3_ecomm); /* First, create (or fetch) route node within the VNI. */ /* NOTE: There is no RD here. */ rn = bgp_node_get(vpn->route_table, (struct prefix *)p); /* Create or update route entry. */ route_change = update_evpn_route_entry(bgp, vpn, afi, safi, rn, &attr, 1, &pi, flags, seq); assert(pi); attr_new = pi->attr; /* Perform route selection; this is just to set the flags correctly * as local route in the VNI always wins. */ evpn_route_select_install(bgp, vpn, rn); bgp_unlock_node(rn); /* If this is a new route or some attribute has changed, export the * route to the global table. The route will be advertised to peers * from there. Note that this table is a 2-level tree (RD-level + * Prefix-level) similar to L3VPN routes. */ if (route_change) { struct bgp_path_info *global_pi; rn = bgp_afi_node_get(bgp->rib[afi][safi], afi, safi, (struct prefix *)p, &vpn->prd); update_evpn_route_entry(bgp, vpn, afi, safi, rn, attr_new, 1, &global_pi, flags, seq); /* Schedule for processing and unlock node. */ bgp_process(bgp, rn, afi, safi); bgp_unlock_node(rn); } /* Unintern temporary. */ aspath_unintern(&attr.aspath); return 0; } /* * Delete EVPN route entry. * The entry can be in ESI/VNI table or the global table. */ static void delete_evpn_route_entry(struct bgp *bgp, afi_t afi, safi_t safi, struct bgp_node *rn, struct bgp_path_info **pi) { struct bgp_path_info *tmp_pi; *pi = NULL; /* Now, find matching route. */ for (tmp_pi = rn->info; tmp_pi; tmp_pi = tmp_pi->next) if (tmp_pi->peer == bgp->peer_self && tmp_pi->type == ZEBRA_ROUTE_BGP && tmp_pi->sub_type == BGP_ROUTE_STATIC) break; *pi = tmp_pi; /* Mark route for delete. */ if (tmp_pi) bgp_path_info_delete(rn, tmp_pi); } /* Delete EVPN ES (type-4) route */ static int delete_evpn_type4_route(struct bgp *bgp, struct evpnes *es, struct prefix_evpn *p) { afi_t afi = AFI_L2VPN; safi_t safi = SAFI_EVPN; struct bgp_path_info *pi; struct bgp_node *rn = NULL; /* rn in esi table */ struct bgp_node *global_rn = NULL; /* rn in global table */ /* First, locate the route node within the ESI. * If it doesn't exist, ther is nothing to do. * Note: there is no RD here. */ rn = bgp_node_lookup(es->route_table, (struct prefix *)p); if (!rn) return 0; /* Next, locate route node in the global EVPN routing table. * Note that this table is a 2-level tree (RD-level + Prefix-level) */ global_rn = bgp_afi_node_lookup(bgp->rib[afi][safi], afi, safi, (struct prefix *)p, &es->prd); if (global_rn) { /* Delete route entry in the global EVPN table. */ delete_evpn_route_entry(bgp, afi, safi, global_rn, &pi); /* Schedule for processing - withdraws to peers happen from * this table. */ if (pi) bgp_process(bgp, global_rn, afi, safi); bgp_unlock_node(global_rn); } /* * Delete route entry in the ESI route table. * This can just be removed. */ delete_evpn_route_entry(bgp, afi, safi, rn, &pi); if (pi) bgp_path_info_reap(rn, pi); bgp_unlock_node(rn); return 0; } /* Delete EVPN type5 route */ static int delete_evpn_type5_route(struct bgp *bgp_vrf, struct prefix_evpn *evp) { afi_t afi = AFI_L2VPN; safi_t safi = SAFI_EVPN; struct bgp_node *rn = NULL; struct bgp_path_info *pi = NULL; struct bgp *bgp_def = NULL; /* default bgp instance */ bgp_def = bgp_get_default(); if (!bgp_def) return 0; /* locate the global route entry for this type-5 prefix */ rn = bgp_afi_node_lookup(bgp_def->rib[afi][safi], afi, safi, (struct prefix *)evp, &bgp_vrf->vrf_prd); if (!rn) return 0; delete_evpn_route_entry(bgp_def, afi, safi, rn, &pi); if (pi) bgp_process(bgp_def, rn, afi, safi); bgp_unlock_node(rn); return 0; } /* * Delete EVPN route (of type based on prefix) for specified VNI and * schedule for processing. */ static int delete_evpn_route(struct bgp *bgp, struct bgpevpn *vpn, struct prefix_evpn *p) { struct bgp_node *rn, *global_rn; struct bgp_path_info *pi; afi_t afi = AFI_L2VPN; safi_t safi = SAFI_EVPN; /* First, locate the route node within the VNI. If it doesn't exist, * there * is nothing further to do. */ /* NOTE: There is no RD here. */ rn = bgp_node_lookup(vpn->route_table, (struct prefix *)p); if (!rn) return 0; /* Next, locate route node in the global EVPN routing table. Note that * this table is a 2-level tree (RD-level + Prefix-level) similar to * L3VPN routes. */ global_rn = bgp_afi_node_lookup(bgp->rib[afi][safi], afi, safi, (struct prefix *)p, &vpn->prd); if (global_rn) { /* Delete route entry in the global EVPN table. */ delete_evpn_route_entry(bgp, afi, safi, global_rn, &pi); /* Schedule for processing - withdraws to peers happen from * this table. */ if (pi) bgp_process(bgp, global_rn, afi, safi); bgp_unlock_node(global_rn); } /* Delete route entry in the VNI route table. This can just be removed. */ delete_evpn_route_entry(bgp, afi, safi, rn, &pi); if (pi) bgp_path_info_reap(rn, pi); bgp_unlock_node(rn); return 0; } /* * Update all type-2 (MACIP) local routes for this VNI - these should also * be scheduled for advertise to peers. */ static int update_all_type2_routes(struct bgp *bgp, struct bgpevpn *vpn) { afi_t afi; safi_t safi; struct bgp_node *rn; struct bgp_path_info *pi, *tmp_pi; struct attr attr; struct attr *attr_new; uint32_t seq; int add_l3_ecomm = 0; afi = AFI_L2VPN; safi = SAFI_EVPN; /* Walk this VNI's route table and update local type-2 routes. For any * routes updated, update corresponding entry in the global table too. */ for (rn = bgp_table_top(vpn->route_table); rn; rn = bgp_route_next(rn)) { struct prefix_evpn *evp = (struct prefix_evpn *)&rn->p; struct bgp_node *rd_rn; struct bgp_path_info *global_pi; if (evp->prefix.route_type != BGP_EVPN_MAC_IP_ROUTE) continue; /* Identify local route. */ for (tmp_pi = rn->info; tmp_pi; tmp_pi = tmp_pi->next) { if (tmp_pi->peer == bgp->peer_self && tmp_pi->type == ZEBRA_ROUTE_BGP && tmp_pi->sub_type == BGP_ROUTE_STATIC) break; } if (!tmp_pi) continue; /* * Build attribute per local route as the MAC mobility and * some other values could differ for different routes. The * attributes will be shared in the hash table. */ bgp_attr_default_set(&attr, BGP_ORIGIN_IGP); attr.nexthop = vpn->originator_ip; attr.mp_nexthop_global_in = vpn->originator_ip; attr.mp_nexthop_len = BGP_ATTR_NHLEN_IPV4; bgpevpn_get_rmac(vpn, &attr.rmac); if (evpn_route_is_sticky(bgp, rn)) attr.sticky = 1; else if (evpn_route_is_def_gw(bgp, rn)) { attr.default_gw = 1; if (is_evpn_prefix_ipaddr_v6(evp)) attr.router_flag = 1; } /* Add L3 VNI RTs and RMAC for non IPv6 link-local if * using L3 VNI for type-2 routes also. */ if ((is_evpn_prefix_ipaddr_v4(evp) || !IN6_IS_ADDR_LINKLOCAL( &evp->prefix.macip_addr.ip.ipaddr_v6)) && CHECK_FLAG(vpn->flags, VNI_FLAG_USE_TWO_LABELS) && bgpevpn_get_l3vni(vpn)) add_l3_ecomm = 1; /* Set up extended community. */ build_evpn_route_extcomm(vpn, &attr, add_l3_ecomm); seq = mac_mobility_seqnum(tmp_pi->attr); /* Update the route entry. */ update_evpn_route_entry(bgp, vpn, afi, safi, rn, &attr, 0, &pi, 0, seq); /* Perform route selection; this is just to set the flags * correctly as local route in the VNI always wins. */ evpn_route_select_install(bgp, vpn, rn); attr_new = pi->attr; /* Update route in global routing table. */ rd_rn = bgp_afi_node_get(bgp->rib[afi][safi], afi, safi, (struct prefix *)evp, &vpn->prd); assert(rd_rn); update_evpn_route_entry(bgp, vpn, afi, safi, rd_rn, attr_new, 0, &global_pi, 0, mac_mobility_seqnum(attr_new)); /* Schedule for processing and unlock node. */ bgp_process(bgp, rd_rn, afi, safi); bgp_unlock_node(rd_rn); /* Unintern temporary. */ aspath_unintern(&attr.aspath); } return 0; } /* * Delete all type-2 (MACIP) local routes for this VNI - only from the * global routing table. These are also scheduled for withdraw from peers. */ static int delete_global_type2_routes(struct bgp *bgp, struct bgpevpn *vpn) { afi_t afi; safi_t safi; struct bgp_node *rdrn, *rn; struct bgp_table *table; struct bgp_path_info *pi; afi = AFI_L2VPN; safi = SAFI_EVPN; rdrn = bgp_node_lookup(bgp->rib[afi][safi], (struct prefix *)&vpn->prd); if (rdrn && rdrn->info) { table = (struct bgp_table *)rdrn->info; for (rn = bgp_table_top(table); rn; rn = bgp_route_next(rn)) { struct prefix_evpn *evp = (struct prefix_evpn *)&rn->p; if (evp->prefix.route_type != BGP_EVPN_MAC_IP_ROUTE) continue; delete_evpn_route_entry(bgp, afi, safi, rn, &pi); if (pi) bgp_process(bgp, rn, afi, safi); } } /* Unlock RD node. */ if (rdrn) bgp_unlock_node(rdrn); return 0; } /* * Delete all type-2 (MACIP) local routes for this VNI - from the global * table as well as the per-VNI route table. */ static int delete_all_type2_routes(struct bgp *bgp, struct bgpevpn *vpn) { afi_t afi; safi_t safi; struct bgp_node *rn; struct bgp_path_info *pi; afi = AFI_L2VPN; safi = SAFI_EVPN; /* First, walk the global route table for this VNI's type-2 local * routes. * EVPN routes are a 2-level table, first get the RD table. */ delete_global_type2_routes(bgp, vpn); /* Next, walk this VNI's route table and delete local type-2 routes. */ for (rn = bgp_table_top(vpn->route_table); rn; rn = bgp_route_next(rn)) { struct prefix_evpn *evp = (struct prefix_evpn *)&rn->p; if (evp->prefix.route_type != BGP_EVPN_MAC_IP_ROUTE) continue; delete_evpn_route_entry(bgp, afi, safi, rn, &pi); /* Route entry in local table gets deleted immediately. */ if (pi) bgp_path_info_reap(rn, pi); } return 0; } /* * Delete all routes in per ES route-table */ static int delete_all_es_routes(struct bgp *bgp, struct evpnes *es) { struct bgp_node *rn; struct bgp_path_info *pi, *nextpi; /* Walk this ES's route table and delete all routes. */ for (rn = bgp_table_top(es->route_table); rn; rn = bgp_route_next(rn)) { for (pi = rn->info; (pi != NULL) && (nextpi = pi->next, 1); pi = nextpi) { bgp_path_info_delete(rn, pi); bgp_path_info_reap(rn, pi); } } return 0; } /* * Delete all routes in the per-VNI route table. */ static int delete_all_vni_routes(struct bgp *bgp, struct bgpevpn *vpn) { struct bgp_node *rn; struct bgp_path_info *pi, *nextpi; /* Walk this VNI's route table and delete all routes. */ for (rn = bgp_table_top(vpn->route_table); rn; rn = bgp_route_next(rn)) { for (pi = rn->info; (pi != NULL) && (nextpi = pi->next, 1); pi = nextpi) { bgp_path_info_delete(rn, pi); bgp_path_info_reap(rn, pi); } } return 0; } /* * Update (and advertise) local routes for a VNI. Invoked upon the VNI * export RT getting modified or change to tunnel IP. Note that these * situations need the route in the per-VNI table as well as the global * table to be updated (as attributes change). */ static int update_routes_for_vni(struct bgp *bgp, struct bgpevpn *vpn) { int ret; struct prefix_evpn p; /* Update and advertise the type-3 route (only one) followed by the * locally learnt type-2 routes (MACIP) - for this VNI. * * RT-3 only if doing head-end replication */ if (bgp->vxlan_flood_ctrl == VXLAN_FLOOD_HEAD_END_REPL) { build_evpn_type3_prefix(&p, vpn->originator_ip); ret = update_evpn_route(bgp, vpn, &p, 0, 0); if (ret) return ret; } return update_all_type2_routes(bgp, vpn); } /* Delete (and withdraw) local routes for specified ES from global and ES table. * Also remove all other routes from the per ES table. * Invoked when ES is deleted. */ static int delete_routes_for_es(struct bgp *bgp, struct evpnes *es) { int ret; char buf[ESI_STR_LEN]; struct prefix_evpn p; /* Delete and withdraw locally learnt ES route */ build_evpn_type4_prefix(&p, &es->esi, es->originator_ip.ipaddr_v4); ret = delete_evpn_type4_route(bgp, es, &p); if (ret) { flog_err(EC_BGP_EVPN_ROUTE_DELETE, "%u failed to delete type-4 route for ESI %s", bgp->vrf_id, esi_to_str(&es->esi, buf, sizeof(buf))); } /* Delete all routes from per ES table */ return delete_all_es_routes(bgp, es); } /* * Delete (and withdraw) local routes for specified VNI from the global * table and per-VNI table. After this, remove all other routes from * the per-VNI table. Invoked upon the VNI being deleted or EVPN * (advertise-all-vni) being disabled. */ static int delete_routes_for_vni(struct bgp *bgp, struct bgpevpn *vpn) { int ret; struct prefix_evpn p; /* Delete and withdraw locally learnt type-2 routes (MACIP) * followed by type-3 routes (only one) - for this VNI. */ ret = delete_all_type2_routes(bgp, vpn); if (ret) return ret; build_evpn_type3_prefix(&p, vpn->originator_ip); ret = delete_evpn_route(bgp, vpn, &p); if (ret) return ret; /* Delete all routes from the per-VNI table. */ return delete_all_vni_routes(bgp, vpn); } /* * There is a tunnel endpoint IP address change for this VNI, delete * prior type-3 route (if needed) and update. * Note: Route re-advertisement happens elsewhere after other processing * other changes. */ static int handle_tunnel_ip_change(struct bgp *bgp, struct bgpevpn *vpn, struct in_addr originator_ip) { struct prefix_evpn p; /* If VNI is not live, we only need to update the originator ip */ if (!is_vni_live(vpn)) { vpn->originator_ip = originator_ip; return 0; } /* Update the tunnel-ip hash */ bgp_tip_del(bgp, &vpn->originator_ip); bgp_tip_add(bgp, &originator_ip); /* filter routes as martian nexthop db has changed */ bgp_filter_evpn_routes_upon_martian_nh_change(bgp); /* Need to withdraw type-3 route as the originator IP is part * of the key. */ build_evpn_type3_prefix(&p, vpn->originator_ip); delete_evpn_route(bgp, vpn, &p); /* Update the tunnel IP and re-advertise all routes for this VNI. */ vpn->originator_ip = originator_ip; return 0; } /* Install EVPN route entry in ES */ static int install_evpn_route_entry_in_es(struct bgp *bgp, struct evpnes *es, struct prefix_evpn *p, struct bgp_path_info *parent_pi) { int ret = 0; struct bgp_node *rn = NULL; struct bgp_path_info *pi = NULL; struct attr *attr_new = NULL; /* Create (or fetch) route within the VNI. * NOTE: There is no RD here. */ rn = bgp_node_get(es->route_table, (struct prefix *)p); /* Check if route entry is already present. */ for (pi = rn->info; pi; pi = pi->next) if (pi->extra && (struct bgp_path_info *)pi->extra->parent == parent_pi) break; if (!pi) { /* Add (or update) attribute to hash. */ attr_new = bgp_attr_intern(parent_pi->attr); /* Create new route with its attribute. */ pi = info_make(parent_pi->type, BGP_ROUTE_IMPORTED, 0, parent_pi->peer, attr_new, rn); SET_FLAG(pi->flags, BGP_PATH_VALID); bgp_path_info_extra_get(pi); pi->extra->parent = parent_pi; bgp_path_info_add(rn, pi); } else { if (attrhash_cmp(pi->attr, parent_pi->attr) && !CHECK_FLAG(pi->flags, BGP_PATH_REMOVED)) { bgp_unlock_node(rn); return 0; } /* The attribute has changed. */ /* Add (or update) attribute to hash. */ attr_new = bgp_attr_intern(parent_pi->attr); /* Restore route, if needed. */ if (CHECK_FLAG(pi->flags, BGP_PATH_REMOVED)) bgp_path_info_restore(rn, pi); /* Mark if nexthop has changed. */ if (!IPV4_ADDR_SAME(&pi->attr->nexthop, &attr_new->nexthop)) SET_FLAG(pi->flags, BGP_PATH_IGP_CHANGED); /* Unintern existing, set to new. */ bgp_attr_unintern(&pi->attr); pi->attr = attr_new; pi->uptime = bgp_clock(); } /* Perform route selection and update zebra, if required. */ ret = evpn_es_route_select_install(bgp, es, rn); return ret; } /* * Install route entry into the VRF routing table and invoke route selection. */ static int install_evpn_route_entry_in_vrf(struct bgp *bgp_vrf, struct prefix_evpn *evp, struct bgp_path_info *parent_pi) { struct bgp_node *rn; struct bgp_path_info *pi; struct attr attr; struct attr *attr_new; int ret = 0; struct prefix p; struct prefix *pp = &p; afi_t afi = 0; safi_t safi = 0; char buf[PREFIX_STRLEN]; char buf1[PREFIX_STRLEN]; memset(pp, 0, sizeof(struct prefix)); ip_prefix_from_evpn_prefix(evp, pp); if (bgp_debug_zebra(NULL)) { zlog_debug( "installing evpn prefix %s as ip prefix %s in vrf %s", prefix2str(evp, buf, sizeof(buf)), prefix2str(pp, buf1, sizeof(buf)), vrf_id_to_name(bgp_vrf->vrf_id)); } /* Create (or fetch) route within the VRF. */ /* NOTE: There is no RD here. */ if (is_evpn_prefix_ipaddr_v4(evp)) { afi = AFI_IP; safi = SAFI_UNICAST; rn = bgp_node_get(bgp_vrf->rib[afi][safi], pp); } else if (is_evpn_prefix_ipaddr_v6(evp)) { afi = AFI_IP6; safi = SAFI_UNICAST; rn = bgp_node_get(bgp_vrf->rib[afi][safi], pp); } else return 0; /* EVPN routes currently only support a IPv4 next hop which corresponds * to the remote VTEP. When importing into a VRF, if it is IPv6 host * or prefix route, we have to convert the next hop to an IPv4-mapped * address for the rest of the code to flow through. In the case of IPv4, * make sure to set the flag for next hop attribute. */ bgp_attr_dup(&attr, parent_pi->attr); if (afi == AFI_IP6) evpn_convert_nexthop_to_ipv6(&attr); else attr.flag |= ATTR_FLAG_BIT(BGP_ATTR_NEXT_HOP); /* Check if route entry is already present. */ for (pi = rn->info; pi; pi = pi->next) if (pi->extra && (struct bgp_path_info *)pi->extra->parent == parent_pi) break; if (!pi) { /* Add (or update) attribute to hash. */ attr_new = bgp_attr_intern(&attr); /* Create new route with its attribute. */ pi = info_make(parent_pi->type, BGP_ROUTE_IMPORTED, 0, parent_pi->peer, attr_new, rn); SET_FLAG(pi->flags, BGP_PATH_VALID); bgp_path_info_extra_get(pi); pi->extra->parent = bgp_path_info_lock(parent_pi); bgp_lock_node((struct bgp_node *)parent_pi->net); if (parent_pi->extra) { memcpy(&pi->extra->label, &parent_pi->extra->label, sizeof(pi->extra->label)); pi->extra->num_labels = parent_pi->extra->num_labels; } bgp_path_info_add(rn, pi); } else { if (attrhash_cmp(pi->attr, &attr) && !CHECK_FLAG(pi->flags, BGP_PATH_REMOVED)) { bgp_unlock_node(rn); return 0; } /* The attribute has changed. */ /* Add (or update) attribute to hash. */ attr_new = bgp_attr_intern(&attr); /* Restore route, if needed. */ if (CHECK_FLAG(pi->flags, BGP_PATH_REMOVED)) bgp_path_info_restore(rn, pi); /* Mark if nexthop has changed. */ if ((afi == AFI_IP && !IPV4_ADDR_SAME(&pi->attr->nexthop, &attr_new->nexthop)) || (afi == AFI_IP6 && !IPV6_ADDR_SAME(&pi->attr->mp_nexthop_global, &attr_new->mp_nexthop_global))) SET_FLAG(pi->flags, BGP_PATH_IGP_CHANGED); /* Unintern existing, set to new. */ bgp_attr_unintern(&pi->attr); pi->attr = attr_new; pi->uptime = bgp_clock(); } bgp_aggregate_increment(bgp_vrf, &rn->p, pi, afi, safi); /* Perform route selection and update zebra, if required. */ bgp_process(bgp_vrf, rn, afi, safi); return ret; } /* * Install route entry into the VNI routing table and invoke route selection. */ static int install_evpn_route_entry(struct bgp *bgp, struct bgpevpn *vpn, struct prefix_evpn *p, struct bgp_path_info *parent_pi) { struct bgp_node *rn; struct bgp_path_info *pi; struct attr *attr_new; int ret; /* Create (or fetch) route within the VNI. */ /* NOTE: There is no RD here. */ rn = bgp_node_get(vpn->route_table, (struct prefix *)p); /* Check if route entry is already present. */ for (pi = rn->info; pi; pi = pi->next) if (pi->extra && (struct bgp_path_info *)pi->extra->parent == parent_pi) break; if (!pi) { /* Add (or update) attribute to hash. */ attr_new = bgp_attr_intern(parent_pi->attr); /* Create new route with its attribute. */ pi = info_make(parent_pi->type, BGP_ROUTE_IMPORTED, 0, parent_pi->peer, attr_new, rn); SET_FLAG(pi->flags, BGP_PATH_VALID); bgp_path_info_extra_get(pi); pi->extra->parent = bgp_path_info_lock(parent_pi); bgp_lock_node((struct bgp_node *)parent_pi->net); if (parent_pi->extra) { memcpy(&pi->extra->label, &parent_pi->extra->label, sizeof(pi->extra->label)); pi->extra->num_labels = parent_pi->extra->num_labels; } bgp_path_info_add(rn, pi); } else { if (attrhash_cmp(pi->attr, parent_pi->attr) && !CHECK_FLAG(pi->flags, BGP_PATH_REMOVED)) { bgp_unlock_node(rn); return 0; } /* The attribute has changed. */ /* Add (or update) attribute to hash. */ attr_new = bgp_attr_intern(parent_pi->attr); /* Restore route, if needed. */ if (CHECK_FLAG(pi->flags, BGP_PATH_REMOVED)) bgp_path_info_restore(rn, pi); /* Mark if nexthop has changed. */ if (!IPV4_ADDR_SAME(&pi->attr->nexthop, &attr_new->nexthop)) SET_FLAG(pi->flags, BGP_PATH_IGP_CHANGED); /* Unintern existing, set to new. */ bgp_attr_unintern(&pi->attr); pi->attr = attr_new; pi->uptime = bgp_clock(); } /* Perform route selection and update zebra, if required. */ ret = evpn_route_select_install(bgp, vpn, rn); return ret; } /* Uninstall EVPN route entry from ES route table */ static int uninstall_evpn_route_entry_in_es(struct bgp *bgp, struct evpnes *es, struct prefix_evpn *p, struct bgp_path_info *parent_pi) { int ret; struct bgp_node *rn; struct bgp_path_info *pi; if (!es->route_table) return 0; /* Locate route within the ESI. * NOTE: There is no RD here. */ rn = bgp_node_lookup(es->route_table, (struct prefix *)p); if (!rn) return 0; /* Find matching route entry. */ for (pi = rn->info; pi; pi = pi->next) if (pi->extra && (struct bgp_path_info *)pi->extra->parent == parent_pi) break; if (!pi) return 0; /* Mark entry for deletion */ bgp_path_info_delete(rn, pi); /* Perform route selection and update zebra, if required. */ ret = evpn_es_route_select_install(bgp, es, rn); /* Unlock route node. */ bgp_unlock_node(rn); return ret; } /* * Uninstall route entry from the VRF routing table and send message * to zebra, if appropriate. */ static int uninstall_evpn_route_entry_in_vrf(struct bgp *bgp_vrf, struct prefix_evpn *evp, struct bgp_path_info *parent_pi) { struct bgp_node *rn; struct bgp_path_info *pi; int ret = 0; struct prefix p; struct prefix *pp = &p; afi_t afi = 0; safi_t safi = 0; char buf[PREFIX_STRLEN]; char buf1[PREFIX_STRLEN]; memset(pp, 0, sizeof(struct prefix)); ip_prefix_from_evpn_prefix(evp, pp); if (bgp_debug_zebra(NULL)) { zlog_debug( "uninstalling evpn prefix %s as ip prefix %s in vrf %s", prefix2str(evp, buf, sizeof(buf)), prefix2str(pp, buf1, sizeof(buf)), vrf_id_to_name(bgp_vrf->vrf_id)); } /* Locate route within the VRF. */ /* NOTE: There is no RD here. */ if (is_evpn_prefix_ipaddr_v4(evp)) { afi = AFI_IP; safi = SAFI_UNICAST; rn = bgp_node_lookup(bgp_vrf->rib[afi][safi], pp); } else { afi = AFI_IP6; safi = SAFI_UNICAST; rn = bgp_node_lookup(bgp_vrf->rib[afi][safi], pp); } if (!rn) return 0; /* Find matching route entry. */ for (pi = rn->info; pi; pi = pi->next) if (pi->extra && (struct bgp_path_info *)pi->extra->parent == parent_pi) break; if (!pi) return 0; bgp_aggregate_decrement(bgp_vrf, &rn->p, pi, afi, safi); /* Mark entry for deletion */ bgp_path_info_delete(rn, pi); /* Perform route selection and update zebra, if required. */ bgp_process(bgp_vrf, rn, afi, safi); /* Unlock route node. */ bgp_unlock_node(rn); return ret; } /* * Uninstall route entry from the VNI routing table and send message * to zebra, if appropriate. */ static int uninstall_evpn_route_entry(struct bgp *bgp, struct bgpevpn *vpn, struct prefix_evpn *p, struct bgp_path_info *parent_pi) { struct bgp_node *rn; struct bgp_path_info *pi; int ret; /* Locate route within the VNI. */ /* NOTE: There is no RD here. */ rn = bgp_node_lookup(vpn->route_table, (struct prefix *)p); if (!rn) return 0; /* Find matching route entry. */ for (pi = rn->info; pi; pi = pi->next) if (pi->extra && (struct bgp_path_info *)pi->extra->parent == parent_pi) break; if (!pi) return 0; /* Mark entry for deletion */ bgp_path_info_delete(rn, pi); /* Perform route selection and update zebra, if required. */ ret = evpn_route_select_install(bgp, vpn, rn); /* Unlock route node. */ bgp_unlock_node(rn); return ret; } /* * Given a prefix, see if it belongs to ES. */ static int is_prefix_matching_for_es(struct prefix_evpn *p, struct evpnes *es) { /* if not an ES route return false */ if (p->prefix.route_type != BGP_EVPN_ES_ROUTE) return 0; if (memcmp(&p->prefix.es_addr.esi, &es->esi, sizeof(esi_t)) == 0) return 1; return 0; } /* * Given a route entry and a VRF, see if this route entry should be * imported into the VRF i.e., RTs match. */ static int is_route_matching_for_vrf(struct bgp *bgp_vrf, struct bgp_path_info *pi) { struct attr *attr = pi->attr; struct ecommunity *ecom; int i; assert(attr); /* Route should have valid RT to be even considered. */ if (!(attr->flag & ATTR_FLAG_BIT(BGP_ATTR_EXT_COMMUNITIES))) return 0; ecom = attr->ecommunity; if (!ecom || !ecom->size) return 0; /* For each extended community RT, see if it matches this VNI. If any RT * matches, we're done. */ for (i = 0; i < ecom->size; i++) { uint8_t *pnt; uint8_t type, sub_type; struct ecommunity_val *eval; struct ecommunity_val eval_tmp; struct vrf_irt_node *irt; /* Only deal with RTs */ pnt = (ecom->val + (i * ECOMMUNITY_SIZE)); eval = (struct ecommunity_val *)(ecom->val + (i * ECOMMUNITY_SIZE)); type = *pnt++; sub_type = *pnt++; if (sub_type != ECOMMUNITY_ROUTE_TARGET) continue; /* See if this RT matches specified VNIs import RTs */ irt = lookup_vrf_import_rt(eval); if (irt) if (is_vrf_present_in_irt_vrfs(irt->vrfs, bgp_vrf)) return 1; /* Also check for non-exact match. In this, we mask out the AS * and * only check on the local-admin sub-field. This is to * facilitate using * VNI as the RT for EBGP peering too. */ irt = NULL; if (type == ECOMMUNITY_ENCODE_AS || type == ECOMMUNITY_ENCODE_AS4 || type == ECOMMUNITY_ENCODE_IP) { memcpy(&eval_tmp, eval, ECOMMUNITY_SIZE); mask_ecom_global_admin(&eval_tmp, eval); irt = lookup_vrf_import_rt(&eval_tmp); } if (irt) if (is_vrf_present_in_irt_vrfs(irt->vrfs, bgp_vrf)) return 1; } return 0; } /* * Given a route entry and a VNI, see if this route entry should be * imported into the VNI i.e., RTs match. */ static int is_route_matching_for_vni(struct bgp *bgp, struct bgpevpn *vpn, struct bgp_path_info *pi) { struct attr *attr = pi->attr; struct ecommunity *ecom; int i; assert(attr); /* Route should have valid RT to be even considered. */ if (!(attr->flag & ATTR_FLAG_BIT(BGP_ATTR_EXT_COMMUNITIES))) return 0; ecom = attr->ecommunity; if (!ecom || !ecom->size) return 0; /* For each extended community RT, see if it matches this VNI. If any RT * matches, we're done. */ for (i = 0; i < ecom->size; i++) { uint8_t *pnt; uint8_t type, sub_type; struct ecommunity_val *eval; struct ecommunity_val eval_tmp; struct irt_node *irt; /* Only deal with RTs */ pnt = (ecom->val + (i * ECOMMUNITY_SIZE)); eval = (struct ecommunity_val *)(ecom->val + (i * ECOMMUNITY_SIZE)); type = *pnt++; sub_type = *pnt++; if (sub_type != ECOMMUNITY_ROUTE_TARGET) continue; /* See if this RT matches specified VNIs import RTs */ irt = lookup_import_rt(bgp, eval); if (irt) if (is_vni_present_in_irt_vnis(irt->vnis, vpn)) return 1; /* Also check for non-exact match. In this, we mask out the AS * and * only check on the local-admin sub-field. This is to * facilitate using * VNI as the RT for EBGP peering too. */ irt = NULL; if (type == ECOMMUNITY_ENCODE_AS || type == ECOMMUNITY_ENCODE_AS4 || type == ECOMMUNITY_ENCODE_IP) { memcpy(&eval_tmp, eval, ECOMMUNITY_SIZE); mask_ecom_global_admin(&eval_tmp, eval); irt = lookup_import_rt(bgp, &eval_tmp); } if (irt) if (is_vni_present_in_irt_vnis(irt->vnis, vpn)) return 1; } return 0; } static int install_uninstall_routes_for_es(struct bgp *bgp, struct evpnes *es, int install) { int ret; afi_t afi; safi_t safi; char buf[PREFIX_STRLEN]; char buf1[ESI_STR_LEN]; struct bgp_node *rd_rn, *rn; struct bgp_table *table; struct bgp_path_info *pi; afi = AFI_L2VPN; safi = SAFI_EVPN; /* * Walk entire global routing table and evaluate routes which could be * imported into this VRF. Note that we need to loop through all global * routes to determine which route matches the import rt on vrf */ for (rd_rn = bgp_table_top(bgp->rib[afi][safi]); rd_rn; rd_rn = bgp_route_next(rd_rn)) { table = (struct bgp_table *)(rd_rn->info); if (!table) continue; for (rn = bgp_table_top(table); rn; rn = bgp_route_next(rn)) { struct prefix_evpn *evp = (struct prefix_evpn *)&rn->p; for (pi = rn->info; pi; pi = pi->next) { /* * Consider "valid" remote routes applicable for * this ES. */ if (!(CHECK_FLAG(pi->flags, BGP_PATH_VALID) && pi->type == ZEBRA_ROUTE_BGP && pi->sub_type == BGP_ROUTE_NORMAL)) continue; if (!is_prefix_matching_for_es(evp, es)) continue; if (install) ret = install_evpn_route_entry_in_es( bgp, es, evp, pi); else ret = uninstall_evpn_route_entry_in_es( bgp, es, evp, pi); if (ret) { flog_err( EC_BGP_EVPN_FAIL, "Failed to %s EVPN %s route in ESI %s", install ? "install" : "uninstall", prefix2str(evp, buf, sizeof(buf)), esi_to_str(&es->esi, buf1, sizeof(buf1))); return ret; } } } } return 0; } /* * Install or uninstall mac-ip routes are appropriate for this * particular VRF. */ static int install_uninstall_routes_for_vrf(struct bgp *bgp_vrf, int install) { afi_t afi; safi_t safi; struct bgp_node *rd_rn, *rn; struct bgp_table *table; struct bgp_path_info *pi; int ret; char buf[PREFIX_STRLEN]; struct bgp *bgp_def = NULL; afi = AFI_L2VPN; safi = SAFI_EVPN; bgp_def = bgp_get_default(); if (!bgp_def) return -1; /* Walk entire global routing table and evaluate routes which could be * imported into this VRF. Note that we need to loop through all global * routes to determine which route matches the import rt on vrf */ for (rd_rn = bgp_table_top(bgp_def->rib[afi][safi]); rd_rn; rd_rn = bgp_route_next(rd_rn)) { table = (struct bgp_table *)(rd_rn->info); if (!table) continue; for (rn = bgp_table_top(table); rn; rn = bgp_route_next(rn)) { struct prefix_evpn *evp = (struct prefix_evpn *)&rn->p; /* if not mac-ip route skip this route */ if (!(evp->prefix.route_type == BGP_EVPN_MAC_IP_ROUTE || evp->prefix.route_type == BGP_EVPN_IP_PREFIX_ROUTE)) continue; /* if not a mac+ip route skip this route */ if (!(is_evpn_prefix_ipaddr_v4(evp) || is_evpn_prefix_ipaddr_v6(evp))) continue; for (pi = rn->info; pi; pi = pi->next) { /* Consider "valid" remote routes applicable for * this VRF. */ if (!(CHECK_FLAG(pi->flags, BGP_PATH_VALID) && pi->type == ZEBRA_ROUTE_BGP && pi->sub_type == BGP_ROUTE_NORMAL)) continue; if (is_route_matching_for_vrf(bgp_vrf, pi)) { if (install) ret = install_evpn_route_entry_in_vrf( bgp_vrf, evp, pi); else ret = uninstall_evpn_route_entry_in_vrf( bgp_vrf, evp, pi); if (ret) { flog_err( EC_BGP_EVPN_FAIL, "Failed to %s EVPN %s route in VRF %s", install ? "install" : "uninstall", prefix2str(evp, buf, sizeof(buf)), vrf_id_to_name( bgp_vrf->vrf_id)); return ret; } } } } } return 0; } /* * Install or uninstall routes of specified type that are appropriate for this * particular VNI. */ static int install_uninstall_routes_for_vni(struct bgp *bgp, struct bgpevpn *vpn, bgp_evpn_route_type rtype, int install) { afi_t afi; safi_t safi; struct bgp_node *rd_rn, *rn; struct bgp_table *table; struct bgp_path_info *pi; int ret; afi = AFI_L2VPN; safi = SAFI_EVPN; /* Walk entire global routing table and evaluate routes which could be * imported into this VPN. Note that we cannot just look at the routes * for * the VNI's RD - remote routes applicable for this VNI could have any * RD. */ /* EVPN routes are a 2-level table. */ for (rd_rn = bgp_table_top(bgp->rib[afi][safi]); rd_rn; rd_rn = bgp_route_next(rd_rn)) { table = (struct bgp_table *)(rd_rn->info); if (!table) continue; for (rn = bgp_table_top(table); rn; rn = bgp_route_next(rn)) { struct prefix_evpn *evp = (struct prefix_evpn *)&rn->p; if (evp->prefix.route_type != rtype) continue; for (pi = rn->info; pi; pi = pi->next) { /* Consider "valid" remote routes applicable for * this VNI. */ if (!(CHECK_FLAG(pi->flags, BGP_PATH_VALID) && pi->type == ZEBRA_ROUTE_BGP && pi->sub_type == BGP_ROUTE_NORMAL)) continue; if (is_route_matching_for_vni(bgp, vpn, pi)) { if (install) ret = install_evpn_route_entry( bgp, vpn, evp, pi); else ret = uninstall_evpn_route_entry( bgp, vpn, evp, pi); if (ret) { flog_err( EC_BGP_EVPN_FAIL, "%u: Failed to %s EVPN %s route in VNI %u", bgp->vrf_id, install ? "install" : "uninstall", rtype == BGP_EVPN_MAC_IP_ROUTE ? "MACIP" : "IMET", vpn->vni); return ret; } } } } } return 0; } /* Install any existing remote ES routes applicable for this ES into its routing * table. This is invoked when ES comes up. */ static int install_routes_for_es(struct bgp *bgp, struct evpnes *es) { return install_uninstall_routes_for_es(bgp, es, 1); } /* Install any existing remote routes applicable for this VRF into VRF RIB. This * is invoked upon l3vni-add or l3vni import rt change */ static int install_routes_for_vrf(struct bgp *bgp_vrf) { install_uninstall_routes_for_vrf(bgp_vrf, 1); return 0; } /* * Install any existing remote routes applicable for this VNI into its * routing table. This is invoked when a VNI becomes "live" or its Import * RT is changed. */ static int install_routes_for_vni(struct bgp *bgp, struct bgpevpn *vpn) { int ret; /* Install type-3 routes followed by type-2 routes - the ones applicable * for this VNI. */ ret = install_uninstall_routes_for_vni(bgp, vpn, BGP_EVPN_IMET_ROUTE, 1); if (ret) return ret; return install_uninstall_routes_for_vni(bgp, vpn, BGP_EVPN_MAC_IP_ROUTE, 1); } /* uninstall routes from l3vni vrf. */ static int uninstall_routes_for_vrf(struct bgp *bgp_vrf) { install_uninstall_routes_for_vrf(bgp_vrf, 0); return 0; } /* * Uninstall any existing remote routes for this VNI. One scenario in which * this is invoked is upon an import RT change. */ static int uninstall_routes_for_vni(struct bgp *bgp, struct bgpevpn *vpn) { int ret; /* Uninstall type-2 routes followed by type-3 routes - the ones * applicable * for this VNI. */ ret = install_uninstall_routes_for_vni(bgp, vpn, BGP_EVPN_MAC_IP_ROUTE, 0); if (ret) return ret; return install_uninstall_routes_for_vni(bgp, vpn, BGP_EVPN_IMET_ROUTE, 0); } /* Install or unistall route in ES */ static int install_uninstall_route_in_es(struct bgp *bgp, struct evpnes *es, afi_t afi, safi_t safi, struct prefix_evpn *evp, struct bgp_path_info *pi, int install) { int ret = 0; char buf[ESI_STR_LEN]; if (install) ret = install_evpn_route_entry_in_es(bgp, es, evp, pi); else ret = uninstall_evpn_route_entry_in_es(bgp, es, evp, pi); if (ret) { flog_err( EC_BGP_EVPN_FAIL, "%u: Failed to %s EVPN %s route in ESI %s", bgp->vrf_id, install ? "install" : "uninstall", "ES", esi_to_str(&evp->prefix.es_addr.esi, buf, sizeof(buf))); return ret; } return 0; } /* * Install or uninstall route in matching VRFs (list). */ static int install_uninstall_route_in_vrfs(struct bgp *bgp_def, afi_t afi, safi_t safi, struct prefix_evpn *evp, struct bgp_path_info *pi, struct list *vrfs, int install) { char buf[PREFIX2STR_BUFFER]; struct bgp *bgp_vrf; struct listnode *node, *nnode; /* Only type-2/type-5 routes go into a VRF */ if (!(evp->prefix.route_type == BGP_EVPN_MAC_IP_ROUTE || evp->prefix.route_type == BGP_EVPN_IP_PREFIX_ROUTE)) return 0; /* if it is type-2 route and not a mac+ip route skip this route */ if ((evp->prefix.route_type == BGP_EVPN_MAC_IP_ROUTE) && !(is_evpn_prefix_ipaddr_v4(evp) || is_evpn_prefix_ipaddr_v6(evp))) return 0; for (ALL_LIST_ELEMENTS(vrfs, node, nnode, bgp_vrf)) { int ret; if (install) ret = install_evpn_route_entry_in_vrf(bgp_vrf, evp, pi); else ret = uninstall_evpn_route_entry_in_vrf(bgp_vrf, evp, pi); if (ret) { flog_err(EC_BGP_EVPN_FAIL, "%u: Failed to %s prefix %s in VRF %s", bgp_def->vrf_id, install ? "install" : "uninstall", prefix2str(evp, buf, sizeof(buf)), vrf_id_to_name(bgp_vrf->vrf_id)); return ret; } } return 0; } /* * Install or uninstall route in matching VNIs (list). */ static int install_uninstall_route_in_vnis(struct bgp *bgp, afi_t afi, safi_t safi, struct prefix_evpn *evp, struct bgp_path_info *pi, struct list *vnis, int install) { struct bgpevpn *vpn; struct listnode *node, *nnode; for (ALL_LIST_ELEMENTS(vnis, node, nnode, vpn)) { int ret; if (!is_vni_live(vpn)) continue; if (install) ret = install_evpn_route_entry(bgp, vpn, evp, pi); else ret = uninstall_evpn_route_entry(bgp, vpn, evp, pi); if (ret) { flog_err(EC_BGP_EVPN_FAIL, "%u: Failed to %s EVPN %s route in VNI %u", bgp->vrf_id, install ? "install" : "uninstall", evp->prefix.route_type == BGP_EVPN_MAC_IP_ROUTE ? "MACIP" : "IMET", vpn->vni); return ret; } } return 0; } /* * Install or uninstall route for appropriate VNIs/ESIs. */ static int install_uninstall_evpn_route(struct bgp *bgp, afi_t afi, safi_t safi, struct prefix *p, struct bgp_path_info *pi, int import) { struct prefix_evpn *evp = (struct prefix_evpn *)p; struct attr *attr = pi->attr; struct ecommunity *ecom; int i; assert(attr); /* Only type-2, type-3, type-4 and type-5 are supported currently */ if (!(evp->prefix.route_type == BGP_EVPN_MAC_IP_ROUTE || evp->prefix.route_type == BGP_EVPN_IMET_ROUTE || evp->prefix.route_type == BGP_EVPN_ES_ROUTE || evp->prefix.route_type == BGP_EVPN_IP_PREFIX_ROUTE)) return 0; /* If we don't have Route Target, nothing much to do. */ if (!(attr->flag & ATTR_FLAG_BIT(BGP_ATTR_EXT_COMMUNITIES))) return 0; ecom = attr->ecommunity; if (!ecom || !ecom->size) return -1; /* An EVPN route belongs to a VNI or a VRF or an ESI based on the RTs * attached to the route */ for (i = 0; i < ecom->size; i++) { uint8_t *pnt; uint8_t type, sub_type; struct ecommunity_val *eval; struct ecommunity_val eval_tmp; struct irt_node *irt; /* import rt for l2vni */ struct vrf_irt_node *vrf_irt; /* import rt for l3vni */ struct evpnes *es; /* Only deal with RTs */ pnt = (ecom->val + (i * ECOMMUNITY_SIZE)); eval = (struct ecommunity_val *)(ecom->val + (i * ECOMMUNITY_SIZE)); type = *pnt++; sub_type = *pnt++; if (sub_type != ECOMMUNITY_ROUTE_TARGET) continue; /* * macip routes (type-2) are imported into VNI and VRF tables. * IMET route is imported into VNI table. * prefix routes are imported into VRF table. */ if (evp->prefix.route_type == BGP_EVPN_MAC_IP_ROUTE || evp->prefix.route_type == BGP_EVPN_IMET_ROUTE || evp->prefix.route_type == BGP_EVPN_IP_PREFIX_ROUTE) { irt = lookup_import_rt(bgp, eval); if (irt) install_uninstall_route_in_vnis( bgp, afi, safi, evp, pi, irt->vnis, import); vrf_irt = lookup_vrf_import_rt(eval); if (vrf_irt) install_uninstall_route_in_vrfs( bgp, afi, safi, evp, pi, vrf_irt->vrfs, import); /* Also check for non-exact match. * In this, we mask out the AS and * only check on the local-admin sub-field. * This is to facilitate using * VNI as the RT for EBGP peering too. */ irt = NULL; vrf_irt = NULL; if (type == ECOMMUNITY_ENCODE_AS || type == ECOMMUNITY_ENCODE_AS4 || type == ECOMMUNITY_ENCODE_IP) { memcpy(&eval_tmp, eval, ECOMMUNITY_SIZE); mask_ecom_global_admin(&eval_tmp, eval); irt = lookup_import_rt(bgp, &eval_tmp); vrf_irt = lookup_vrf_import_rt(&eval_tmp); } if (irt) install_uninstall_route_in_vnis( bgp, afi, safi, evp, pi, irt->vnis, import); if (vrf_irt) install_uninstall_route_in_vrfs( bgp, afi, safi, evp, pi, vrf_irt->vrfs, import); } /* es route is imported into the es table */ if (evp->prefix.route_type == BGP_EVPN_ES_ROUTE) { /* we will match based on the entire esi to avoid * imoort of an es route for esi2 into esi1 */ es = bgp_evpn_lookup_es(bgp, &evp->prefix.es_addr.esi); if (es && is_es_local(es)) install_uninstall_route_in_es( bgp, es, afi, safi, evp, pi, import); } } return 0; } /* * delete and withdraw all ipv4 and ipv6 routes in the vrf table as type-5 * routes */ static void delete_withdraw_vrf_routes(struct bgp *bgp_vrf) { /* delete all ipv4 routes and withdraw from peers */ if (advertise_type5_routes(bgp_vrf, AFI_IP)) bgp_evpn_withdraw_type5_routes(bgp_vrf, AFI_IP, SAFI_UNICAST); /* delete all ipv6 routes and withdraw from peers */ if (advertise_type5_routes(bgp_vrf, AFI_IP6)) bgp_evpn_withdraw_type5_routes(bgp_vrf, AFI_IP6, SAFI_UNICAST); } /* * update and advertise all ipv4 and ipv6 routes in thr vrf table as type-5 * routes */ static void update_advertise_vrf_routes(struct bgp *bgp_vrf) { /* update all ipv4 routes */ if (advertise_type5_routes(bgp_vrf, AFI_IP)) bgp_evpn_advertise_type5_routes(bgp_vrf, AFI_IP, SAFI_UNICAST); /* update all ipv6 routes */ if (advertise_type5_routes(bgp_vrf, AFI_IP6)) bgp_evpn_advertise_type5_routes(bgp_vrf, AFI_IP6, SAFI_UNICAST); } /* * update and advertise local routes for a VRF as type-5 routes. * This is invoked upon RD change for a VRF. Note taht the processing is only * done in the global route table using the routes which already exist in the * VRF routing table */ static void update_router_id_vrf(struct bgp *bgp_vrf) { /* skip if the RD is configured */ if (is_vrf_rd_configured(bgp_vrf)) return; /* derive the RD for the VRF based on new router-id */ bgp_evpn_derive_auto_rd_for_vrf(bgp_vrf); /* update advertise ipv4|ipv6 routes as type-5 routes */ update_advertise_vrf_routes(bgp_vrf); } /* * Delete and withdraw all type-5 routes for the RD corresponding to VRF. * This is invoked upon VRF RD change. The processing is done only from global * table. */ static void withdraw_router_id_vrf(struct bgp *bgp_vrf) { /* skip if the RD is configured */ if (is_vrf_rd_configured(bgp_vrf)) return; /* delete/withdraw ipv4|ipv6 routes as type-5 routes */ delete_withdraw_vrf_routes(bgp_vrf); } /* * Update and advertise local routes for a VNI. Invoked upon router-id * change. Note that the processing is done only on the global route table * using routes that already exist in the per-VNI table. */ static int update_advertise_vni_routes(struct bgp *bgp, struct bgpevpn *vpn) { struct prefix_evpn p; struct bgp_node *rn, *global_rn; struct bgp_path_info *pi, *global_pi; struct attr *attr; afi_t afi = AFI_L2VPN; safi_t safi = SAFI_EVPN; /* Locate type-3 route for VNI in the per-VNI table and use its * attributes to create and advertise the type-3 route for this VNI * in the global table. * * RT-3 only if doing head-end replication */ if (bgp->vxlan_flood_ctrl == VXLAN_FLOOD_HEAD_END_REPL) { build_evpn_type3_prefix(&p, vpn->originator_ip); rn = bgp_node_lookup(vpn->route_table, (struct prefix *)&p); if (!rn) /* unexpected */ return 0; for (pi = rn->info; pi; pi = pi->next) if (pi->peer == bgp->peer_self && pi->type == ZEBRA_ROUTE_BGP && pi->sub_type == BGP_ROUTE_STATIC) break; if (!pi) /* unexpected */ return 0; attr = pi->attr; global_rn = bgp_afi_node_get(bgp->rib[afi][safi], afi, safi, (struct prefix *)&p, &vpn->prd); update_evpn_route_entry(bgp, vpn, afi, safi, global_rn, attr, 1, &pi, 0, mac_mobility_seqnum(attr)); /* Schedule for processing and unlock node. */ bgp_process(bgp, global_rn, afi, safi); bgp_unlock_node(global_rn); } /* Now, walk this VNI's route table and use the route and its attribute * to create and schedule route in global table. */ for (rn = bgp_table_top(vpn->route_table); rn; rn = bgp_route_next(rn)) { struct prefix_evpn *evp = (struct prefix_evpn *)&rn->p; /* Identify MAC-IP local routes. */ if (evp->prefix.route_type != BGP_EVPN_MAC_IP_ROUTE) continue; for (pi = rn->info; pi; pi = pi->next) if (pi->peer == bgp->peer_self && pi->type == ZEBRA_ROUTE_BGP && pi->sub_type == BGP_ROUTE_STATIC) break; if (!pi) continue; /* Create route in global routing table using this route entry's * attribute. */ attr = pi->attr; global_rn = bgp_afi_node_get(bgp->rib[afi][safi], afi, safi, (struct prefix *)evp, &vpn->prd); assert(global_rn); update_evpn_route_entry(bgp, vpn, afi, safi, global_rn, attr, 1, &global_pi, 0, mac_mobility_seqnum(attr)); /* Schedule for processing and unlock node. */ bgp_process(bgp, global_rn, afi, safi); bgp_unlock_node(global_rn); } return 0; } /* * Delete (and withdraw) local routes for a VNI - only from the global * table. Invoked upon router-id change. */ static int delete_withdraw_vni_routes(struct bgp *bgp, struct bgpevpn *vpn) { int ret; struct prefix_evpn p; struct bgp_node *global_rn; struct bgp_path_info *pi; afi_t afi = AFI_L2VPN; safi_t safi = SAFI_EVPN; /* Delete and withdraw locally learnt type-2 routes (MACIP) * for this VNI - from the global table. */ ret = delete_global_type2_routes(bgp, vpn); if (ret) return ret; /* Remove type-3 route for this VNI from global table. */ build_evpn_type3_prefix(&p, vpn->originator_ip); global_rn = bgp_afi_node_lookup(bgp->rib[afi][safi], afi, safi, (struct prefix *)&p, &vpn->prd); if (global_rn) { /* Delete route entry in the global EVPN table. */ delete_evpn_route_entry(bgp, afi, safi, global_rn, &pi); /* Schedule for processing - withdraws to peers happen from * this table. */ if (pi) bgp_process(bgp, global_rn, afi, safi); bgp_unlock_node(global_rn); } return 0; } /* * Handle router-id change. Update and advertise local routes corresponding * to this VNI from peers. Note that this is invoked after updating the * router-id. The routes in the per-VNI table are used to create routes in * the global table and schedule them. */ static void update_router_id_vni(struct hash_backet *backet, struct bgp *bgp) { struct bgpevpn *vpn = (struct bgpevpn *)backet->data; /* Skip VNIs with configured RD. */ if (is_rd_configured(vpn)) return; bgp_evpn_derive_auto_rd(bgp, vpn); update_advertise_vni_routes(bgp, vpn); } /* * Handle router-id change. Delete and withdraw local routes corresponding * to this VNI from peers. Note that this is invoked prior to updating * the router-id and is done only on the global route table, the routes * are needed in the per-VNI table to re-advertise with new router id. */ static void withdraw_router_id_vni(struct hash_backet *backet, struct bgp *bgp) { struct bgpevpn *vpn = (struct bgpevpn *)backet->data; /* Skip VNIs with configured RD. */ if (is_rd_configured(vpn)) return; delete_withdraw_vni_routes(bgp, vpn); } /* * Create RT-3 for a VNI and schedule for processing and advertisement. * This is invoked upon flooding mode changing to head-end replication. */ static void create_advertise_type3(struct hash_backet *backet, void *data) { struct bgpevpn *vpn = backet->data; struct bgp *bgp = data; struct prefix_evpn p; if (!vpn || !is_vni_live(vpn)) return; build_evpn_type3_prefix(&p, vpn->originator_ip); if (update_evpn_route(bgp, vpn, &p, 0, 0)) flog_err(EC_BGP_EVPN_ROUTE_CREATE, "Type3 route creation failure for VNI %u", vpn->vni); } /* * Delete RT-3 for a VNI and schedule for processing and withdrawal. * This is invoked upon flooding mode changing to drop BUM packets. */ static void delete_withdraw_type3(struct hash_backet *backet, void *data) { struct bgpevpn *vpn = backet->data; struct bgp *bgp = data; struct prefix_evpn p; if (!vpn || !is_vni_live(vpn)) return; build_evpn_type3_prefix(&p, vpn->originator_ip); delete_evpn_route(bgp, vpn, &p); } /* * Process received EVPN type-2 route (advertise or withdraw). */ static int process_type2_route(struct peer *peer, afi_t afi, safi_t safi, struct attr *attr, uint8_t *pfx, int psize, uint32_t addpath_id) { struct prefix_rd prd; struct prefix_evpn p; struct bgp_route_evpn evpn; uint8_t ipaddr_len; uint8_t macaddr_len; mpls_label_t label[BGP_MAX_LABELS]; /* holds the VNI(s) as in packet */ uint32_t num_labels = 0; uint32_t eth_tag; int ret; /* Type-2 route should be either 33, 37 or 49 bytes or an * additional 3 bytes if there is a second label (VNI): * RD (8), ESI (10), Eth Tag (4), MAC Addr Len (1), * MAC Addr (6), IP len (1), IP (0, 4 or 16), * MPLS Lbl1 (3), MPLS Lbl2 (0 or 3) */ if (psize != 33 && psize != 37 && psize != 49 && psize != 36 && psize != 40 && psize != 52) { flog_err(EC_BGP_EVPN_ROUTE_INVALID, "%u:%s - Rx EVPN Type-2 NLRI with invalid length %d", peer->bgp->vrf_id, peer->host, psize); return -1; } memset(&evpn, 0, sizeof(evpn)); /* Make prefix_rd */ prd.family = AF_UNSPEC; prd.prefixlen = 64; memcpy(&prd.val, pfx, 8); pfx += 8; /* Make EVPN prefix. */ memset(&p, 0, sizeof(struct prefix_evpn)); p.family = AF_EVPN; p.prefixlen = EVPN_ROUTE_PREFIXLEN; p.prefix.route_type = BGP_EVPN_MAC_IP_ROUTE; /* Copy Ethernet Seg Identifier */ memcpy(&evpn.eth_s_id.val, pfx, ESI_LEN); pfx += ESI_LEN; /* Copy Ethernet Tag */ memcpy(ð_tag, pfx, 4); p.prefix.macip_addr.eth_tag = ntohl(eth_tag); pfx += 4; /* Get the MAC Addr len */ macaddr_len = *pfx++; /* Get the MAC Addr */ if (macaddr_len == (ETH_ALEN * 8)) { memcpy(&p.prefix.macip_addr.mac.octet, pfx, ETH_ALEN); pfx += ETH_ALEN; } else { flog_err( EC_BGP_EVPN_ROUTE_INVALID, "%u:%s - Rx EVPN Type-2 NLRI with unsupported MAC address length %d", peer->bgp->vrf_id, peer->host, macaddr_len); return -1; } /* Get the IP. */ ipaddr_len = *pfx++; if (ipaddr_len != 0 && ipaddr_len != IPV4_MAX_BITLEN && ipaddr_len != IPV6_MAX_BITLEN) { flog_err( EC_BGP_EVPN_ROUTE_INVALID, "%u:%s - Rx EVPN Type-2 NLRI with unsupported IP address length %d", peer->bgp->vrf_id, peer->host, ipaddr_len); return -1; } if (ipaddr_len) { ipaddr_len /= 8; /* Convert to bytes. */ p.prefix.macip_addr.ip.ipa_type = (ipaddr_len == IPV4_MAX_BYTELEN) ? IPADDR_V4 : IPADDR_V6; memcpy(&p.prefix.macip_addr.ip.ip.addr, pfx, ipaddr_len); } pfx += ipaddr_len; /* Get the VNI(s). Stored as bytes here. */ num_labels++; memset(label, 0, sizeof(label)); memcpy(&label[0], pfx, BGP_LABEL_BYTES); pfx += BGP_LABEL_BYTES; psize -= (33 + ipaddr_len); /* Do we have a second VNI? */ if (psize) { num_labels++; memcpy(&label[1], pfx, BGP_LABEL_BYTES); /* * If in future, we are required to access additional fields, * we MUST increment pfx by BGP_LABEL_BYTES in before reading * the next field */ } /* Process the route. */ if (attr) ret = bgp_update(peer, (struct prefix *)&p, addpath_id, attr, afi, safi, ZEBRA_ROUTE_BGP, BGP_ROUTE_NORMAL, &prd, &label[0], num_labels, 0, &evpn); else ret = bgp_withdraw(peer, (struct prefix *)&p, addpath_id, attr, afi, safi, ZEBRA_ROUTE_BGP, BGP_ROUTE_NORMAL, &prd, &label[0], num_labels, &evpn); return ret; } /* * Process received EVPN type-3 route (advertise or withdraw). */ static int process_type3_route(struct peer *peer, afi_t afi, safi_t safi, struct attr *attr, uint8_t *pfx, int psize, uint32_t addpath_id) { struct prefix_rd prd; struct prefix_evpn p; uint8_t ipaddr_len; uint32_t eth_tag; int ret; /* Type-3 route should be either 17 or 29 bytes: RD (8), Eth Tag (4), * IP len (1) and IP (4 or 16). */ if (psize != 17 && psize != 29) { flog_err(EC_BGP_EVPN_ROUTE_INVALID, "%u:%s - Rx EVPN Type-3 NLRI with invalid length %d", peer->bgp->vrf_id, peer->host, psize); return -1; } /* If PMSI is present, log if it is anything other than IR. * Note: We just simply ignore the values as it is not clear if * doing anything else is better. */ if (attr && (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_PMSI_TUNNEL))) { if (attr->pmsi_tnl_type != PMSI_TNLTYPE_INGR_REPL) { flog_warn( EC_BGP_EVPN_PMSI_PRESENT, "%u:%s - Rx EVPN Type-3 NLRI with unsupported PTA %d", peer->bgp->vrf_id, peer->host, attr->pmsi_tnl_type); } } /* Make prefix_rd */ prd.family = AF_UNSPEC; prd.prefixlen = 64; memcpy(&prd.val, pfx, 8); pfx += 8; /* Make EVPN prefix. */ memset(&p, 0, sizeof(struct prefix_evpn)); p.family = AF_EVPN; p.prefixlen = EVPN_ROUTE_PREFIXLEN; p.prefix.route_type = BGP_EVPN_IMET_ROUTE; /* Copy Ethernet Tag */ memcpy(ð_tag, pfx, 4); p.prefix.imet_addr.eth_tag = ntohl(eth_tag); pfx += 4; /* Get the IP. */ ipaddr_len = *pfx++; if (ipaddr_len == IPV4_MAX_BITLEN) { p.prefix.imet_addr.ip.ipa_type = IPADDR_V4; memcpy(&p.prefix.imet_addr.ip.ip.addr, pfx, IPV4_MAX_BYTELEN); } else { flog_err( EC_BGP_EVPN_ROUTE_INVALID, "%u:%s - Rx EVPN Type-3 NLRI with unsupported IP address length %d", peer->bgp->vrf_id, peer->host, ipaddr_len); return -1; } /* Process the route. */ if (attr) ret = bgp_update(peer, (struct prefix *)&p, addpath_id, attr, afi, safi, ZEBRA_ROUTE_BGP, BGP_ROUTE_NORMAL, &prd, NULL, 0, 0, NULL); else ret = bgp_withdraw(peer, (struct prefix *)&p, addpath_id, attr, afi, safi, ZEBRA_ROUTE_BGP, BGP_ROUTE_NORMAL, &prd, NULL, 0, NULL); return ret; } /* * Process received EVPN type-4 route (advertise or withdraw). */ static int process_type4_route(struct peer *peer, afi_t afi, safi_t safi, struct attr *attr, uint8_t *pfx, int psize, uint32_t addpath_id) { int ret; esi_t esi; uint8_t ipaddr_len; struct in_addr vtep_ip; struct prefix_rd prd; struct prefix_evpn p; /* Type-4 route should be either 23 or 35 bytes * RD (8), ESI (10), ip-len (1), ip (4 or 16) */ if (psize != 23 && psize != 35) { flog_err(EC_BGP_EVPN_ROUTE_INVALID, "%u:%s - Rx EVPN Type-4 NLRI with invalid length %d", peer->bgp->vrf_id, peer->host, psize); return -1; } /* Make prefix_rd */ prd.family = AF_UNSPEC; prd.prefixlen = 64; memcpy(&prd.val, pfx, 8); pfx += 8; /* get the ESI */ memcpy(&esi, pfx, ESI_BYTES); pfx += ESI_BYTES; /* Get the IP. */ ipaddr_len = *pfx++; if (ipaddr_len == IPV4_MAX_BITLEN) { memcpy(&vtep_ip, pfx, IPV4_MAX_BYTELEN); } else { flog_err( EC_BGP_EVPN_ROUTE_INVALID, "%u:%s - Rx EVPN Type-4 NLRI with unsupported IP address length %d", peer->bgp->vrf_id, peer->host, ipaddr_len); return -1; } build_evpn_type4_prefix(&p, &esi, vtep_ip); /* Process the route. */ if (attr) { ret = bgp_update(peer, (struct prefix *)&p, addpath_id, attr, afi, safi, ZEBRA_ROUTE_BGP, BGP_ROUTE_NORMAL, &prd, NULL, 0, 0, NULL); } else { ret = bgp_withdraw(peer, (struct prefix *)&p, addpath_id, attr, afi, safi, ZEBRA_ROUTE_BGP, BGP_ROUTE_NORMAL, &prd, NULL, 0, NULL); } return ret; } /* * Process received EVPN type-5 route (advertise or withdraw). */ static int process_type5_route(struct peer *peer, afi_t afi, safi_t safi, struct attr *attr, uint8_t *pfx, int psize, uint32_t addpath_id, int withdraw) { struct prefix_rd prd; struct prefix_evpn p; struct bgp_route_evpn evpn; uint8_t ippfx_len; uint32_t eth_tag; mpls_label_t label; /* holds the VNI as in the packet */ int ret; /* Type-5 route should be 34 or 58 bytes: * RD (8), ESI (10), Eth Tag (4), IP len (1), IP (4 or 16), * GW (4 or 16) and VNI (3). * Note that the IP and GW should both be IPv4 or both IPv6. */ if (psize != 34 && psize != 58) { flog_err(EC_BGP_EVPN_ROUTE_INVALID, "%u:%s - Rx EVPN Type-5 NLRI with invalid length %d", peer->bgp->vrf_id, peer->host, psize); return -1; } /* Make prefix_rd */ prd.family = AF_UNSPEC; prd.prefixlen = 64; memcpy(&prd.val, pfx, 8); pfx += 8; /* Make EVPN prefix. */ memset(&p, 0, sizeof(struct prefix_evpn)); p.family = AF_EVPN; p.prefixlen = EVPN_ROUTE_PREFIXLEN; p.prefix.route_type = BGP_EVPN_IP_PREFIX_ROUTE; /* Additional information outside of prefix - ESI and GW IP */ memset(&evpn, 0, sizeof(evpn)); /* Fetch ESI */ memcpy(&evpn.eth_s_id.val, pfx, 10); pfx += 10; /* Fetch Ethernet Tag. */ memcpy(ð_tag, pfx, 4); p.prefix.prefix_addr.eth_tag = ntohl(eth_tag); pfx += 4; /* Fetch IP prefix length. */ ippfx_len = *pfx++; if (ippfx_len > IPV6_MAX_BITLEN) { flog_err( EC_BGP_EVPN_ROUTE_INVALID, "%u:%s - Rx EVPN Type-5 NLRI with invalid IP Prefix length %d", peer->bgp->vrf_id, peer->host, ippfx_len); return -1; } p.prefix.prefix_addr.ip_prefix_length = ippfx_len; /* Determine IPv4 or IPv6 prefix */ /* Since the address and GW are from the same family, this just becomes * a simple check on the total size. */ if (psize == 34) { SET_IPADDR_V4(&p.prefix.prefix_addr.ip); memcpy(&p.prefix.prefix_addr.ip.ipaddr_v4, pfx, 4); pfx += 4; memcpy(&evpn.gw_ip.ipv4, pfx, 4); pfx += 4; } else { SET_IPADDR_V6(&p.prefix.prefix_addr.ip); memcpy(&p.prefix.prefix_addr.ip.ipaddr_v6, pfx, 16); pfx += 16; memcpy(&evpn.gw_ip.ipv6, pfx, 16); pfx += 16; } /* Get the VNI (in MPLS label field). Stored as bytes here. */ memset(&label, 0, sizeof(label)); memcpy(&label, pfx, BGP_LABEL_BYTES); /* * If in future, we are required to access additional fields, * we MUST increment pfx by BGP_LABEL_BYTES in before reading the next * field */ /* Process the route. */ if (!withdraw) ret = bgp_update(peer, (struct prefix *)&p, addpath_id, attr, afi, safi, ZEBRA_ROUTE_BGP, BGP_ROUTE_NORMAL, &prd, &label, 1, 0, &evpn); else ret = bgp_withdraw(peer, (struct prefix *)&p, addpath_id, attr, afi, safi, ZEBRA_ROUTE_BGP, BGP_ROUTE_NORMAL, &prd, &label, 1, &evpn); return ret; } static void evpn_mpattr_encode_type5(struct stream *s, struct prefix *p, struct prefix_rd *prd, mpls_label_t *label, uint32_t num_labels, struct attr *attr) { int len; char temp[16]; struct evpn_addr *p_evpn_p; memset(&temp, 0, 16); if (p->family != AF_EVPN) return; p_evpn_p = &(p->u.prefix_evpn); /* len denites the total len of IP and GW-IP in the route IP and GW-IP have to be both ipv4 or ipv6 */ if (IS_IPADDR_V4(&p_evpn_p->prefix_addr.ip)) len = 8; /* IP and GWIP are both ipv4 */ else len = 32; /* IP and GWIP are both ipv6 */ /* Prefix contains RD, ESI, EthTag, IP length, IP, GWIP and VNI */ stream_putc(s, 8 + 10 + 4 + 1 + len + 3); stream_put(s, prd->val, 8); if (attr) stream_put(s, &(attr->evpn_overlay.eth_s_id), 10); else stream_put(s, &temp, 10); stream_putl(s, p_evpn_p->prefix_addr.eth_tag); stream_putc(s, p_evpn_p->prefix_addr.ip_prefix_length); if (IS_IPADDR_V4(&p_evpn_p->prefix_addr.ip)) stream_put_ipv4(s, p_evpn_p->prefix_addr.ip.ipaddr_v4.s_addr); else stream_put(s, &p_evpn_p->prefix_addr.ip.ipaddr_v6, 16); if (attr) { if (IS_IPADDR_V4(&p_evpn_p->prefix_addr.ip)) stream_put_ipv4(s, attr->evpn_overlay.gw_ip.ipv4.s_addr); else stream_put(s, &(attr->evpn_overlay.gw_ip.ipv6), 16); } else { if (IS_IPADDR_V4(&p_evpn_p->prefix_addr.ip)) stream_put_ipv4(s, 0); else stream_put(s, &temp, 16); } if (num_labels) stream_put(s, label, 3); else stream_put3(s, 0); } /* * Cleanup specific VNI upon EVPN (advertise-all-vni) being disabled. */ static void cleanup_vni_on_disable(struct hash_backet *backet, struct bgp *bgp) { struct bgpevpn *vpn = (struct bgpevpn *)backet->data; /* Remove EVPN routes and schedule for processing. */ delete_routes_for_vni(bgp, vpn); /* Clear "live" flag and see if hash needs to be freed. */ UNSET_FLAG(vpn->flags, VNI_FLAG_LIVE); if (!is_vni_configured(vpn)) bgp_evpn_free(bgp, vpn); } /* * Free a VNI entry; iterator function called during cleanup. */ static void free_vni_entry(struct hash_backet *backet, struct bgp *bgp) { struct bgpevpn *vpn = (struct bgpevpn *)backet->data; delete_all_vni_routes(bgp, vpn); bgp_evpn_free(bgp, vpn); } /* * Derive AUTO import RT for BGP VRF - L3VNI */ static void evpn_auto_rt_import_add_for_vrf(struct bgp *bgp_vrf) { struct bgp *bgp_def = NULL; form_auto_rt(bgp_vrf, bgp_vrf->l3vni, bgp_vrf->vrf_import_rtl); UNSET_FLAG(bgp_vrf->vrf_flags, BGP_VRF_IMPORT_RT_CFGD); /* Map RT to VRF */ bgp_def = bgp_get_default(); if (!bgp_def) return; bgp_evpn_map_vrf_to_its_rts(bgp_vrf); } /* * Delete AUTO import RT from BGP VRF - L3VNI */ static void evpn_auto_rt_import_delete_for_vrf(struct bgp *bgp_vrf) { evpn_rt_delete_auto(bgp_vrf, bgp_vrf->l3vni, bgp_vrf->vrf_import_rtl); } /* * Derive AUTO export RT for BGP VRF - L3VNI */ static void evpn_auto_rt_export_add_for_vrf(struct bgp *bgp_vrf) { UNSET_FLAG(bgp_vrf->vrf_flags, BGP_VRF_EXPORT_RT_CFGD); form_auto_rt(bgp_vrf, bgp_vrf->l3vni, bgp_vrf->vrf_export_rtl); } /* * Delete AUTO export RT from BGP VRF - L3VNI */ static void evpn_auto_rt_export_delete_for_vrf(struct bgp *bgp_vrf) { evpn_rt_delete_auto(bgp_vrf, bgp_vrf->l3vni, bgp_vrf->vrf_export_rtl); } static void bgp_evpn_handle_export_rt_change_for_vrf(struct bgp *bgp_vrf) { struct bgp *bgp_def = NULL; struct listnode *node = NULL; struct bgpevpn *vpn = NULL; bgp_def = bgp_get_default(); if (!bgp_def) return; /* update all type-5 routes */ update_advertise_vrf_routes(bgp_vrf); /* update all type-2 routes */ for (ALL_LIST_ELEMENTS_RO(bgp_vrf->l2vnis, node, vpn)) update_routes_for_vni(bgp_def, vpn); } /* * Handle autort change for a given VNI. */ static void update_autort_vni(struct hash_backet *backet, struct bgp *bgp) { struct bgpevpn *vpn = backet->data; if (!is_import_rt_configured(vpn)) { if (is_vni_live(vpn)) bgp_evpn_uninstall_routes(bgp, vpn); bgp_evpn_unmap_vni_from_its_rts(bgp, vpn); list_delete_all_node(vpn->import_rtl); bgp_evpn_derive_auto_rt_import(bgp, vpn); if (is_vni_live(vpn)) bgp_evpn_install_routes(bgp, vpn); } if (!is_export_rt_configured(vpn)) { list_delete_all_node(vpn->export_rtl); bgp_evpn_derive_auto_rt_export(bgp, vpn); if (is_vni_live(vpn)) bgp_evpn_handle_export_rt_change(bgp, vpn); } } /* * Public functions. */ /* withdraw type-5 route corresponding to ip prefix */ void bgp_evpn_withdraw_type5_route(struct bgp *bgp_vrf, struct prefix *p, afi_t afi, safi_t safi) { int ret = 0; struct prefix_evpn evp; char buf[PREFIX_STRLEN]; build_type5_prefix_from_ip_prefix(&evp, p); ret = delete_evpn_type5_route(bgp_vrf, &evp); if (ret) { flog_err( EC_BGP_EVPN_ROUTE_DELETE, "%u failed to delete type-5 route for prefix %s in vrf %s", bgp_vrf->vrf_id, prefix2str(p, buf, sizeof(buf)), vrf_id_to_name(bgp_vrf->vrf_id)); } } /* withdraw all type-5 routes for an address family */ void bgp_evpn_withdraw_type5_routes(struct bgp *bgp_vrf, afi_t afi, safi_t safi) { struct bgp_table *table = NULL; struct bgp_node *rn = NULL; struct bgp_path_info *pi; table = bgp_vrf->rib[afi][safi]; for (rn = bgp_table_top(table); rn; rn = bgp_route_next(rn)) { /* Only care about "selected" routes - non-imported. */ /* TODO: Support for AddPath for EVPN. */ for (pi = rn->info; pi; pi = pi->next) { if (CHECK_FLAG(pi->flags, BGP_PATH_SELECTED) && (!pi->extra || !pi->extra->parent)) { bgp_evpn_withdraw_type5_route(bgp_vrf, &rn->p, afi, safi); break; } } } } /* * Advertise IP prefix as type-5 route. The afi/safi and src_attr passed * to this function correspond to those of the source IP prefix (best * path in the case of the attr. In the case of a local prefix (when we * are advertising local subnets), the src_attr will be NULL. */ void bgp_evpn_advertise_type5_route(struct bgp *bgp_vrf, struct prefix *p, struct attr *src_attr, afi_t afi, safi_t safi) { int ret = 0; struct prefix_evpn evp; char buf[PREFIX_STRLEN]; build_type5_prefix_from_ip_prefix(&evp, p); ret = update_evpn_type5_route(bgp_vrf, &evp, src_attr); if (ret) flog_err(EC_BGP_EVPN_ROUTE_CREATE, "%u: Failed to create type-5 route for prefix %s", bgp_vrf->vrf_id, prefix2str(p, buf, sizeof(buf))); } /* Inject all prefixes of a particular address-family (currently, IPv4 or * IPv6 unicast) into EVPN as type-5 routes. This is invoked when the * advertisement is enabled. */ void bgp_evpn_advertise_type5_routes(struct bgp *bgp_vrf, afi_t afi, safi_t safi) { struct bgp_table *table = NULL; struct bgp_node *rn = NULL; struct bgp_path_info *pi; table = bgp_vrf->rib[afi][safi]; for (rn = bgp_table_top(table); rn; rn = bgp_route_next(rn)) { /* Need to identify the "selected" route entry to use its * attribute. Also, we only consider "non-imported" routes. * TODO: Support for AddPath for EVPN. */ for (pi = rn->info; pi; pi = pi->next) { if (CHECK_FLAG(pi->flags, BGP_PATH_SELECTED) && (!pi->extra || !pi->extra->parent)) { /* apply the route-map */ if (bgp_vrf->adv_cmd_rmap[afi][safi].map) { int ret = 0; ret = route_map_apply( bgp_vrf->adv_cmd_rmap[afi][safi] .map, &rn->p, RMAP_BGP, pi); if (ret == RMAP_DENYMATCH) continue; } bgp_evpn_advertise_type5_route( bgp_vrf, &rn->p, pi->attr, afi, safi); break; } } } } void evpn_rt_delete_auto(struct bgp *bgp, vni_t vni, struct list *rtl) { struct listnode *node, *nnode, *node_to_del; struct ecommunity *ecom, *ecom_auto; struct ecommunity_val eval; if (bgp->advertise_autort_rfc8365) vni |= EVPN_AUTORT_VXLAN; encode_route_target_as((bgp->as & 0xFFFF), vni, &eval); ecom_auto = ecommunity_new(); ecommunity_add_val(ecom_auto, &eval); node_to_del = NULL; for (ALL_LIST_ELEMENTS(rtl, node, nnode, ecom)) { if (ecommunity_match(ecom, ecom_auto)) { ecommunity_free(&ecom); node_to_del = node; } } if (node_to_del) list_delete_node(rtl, node_to_del); ecommunity_free(&ecom_auto); } void bgp_evpn_configure_import_rt_for_vrf(struct bgp *bgp_vrf, struct ecommunity *ecomadd) { /* uninstall routes from vrf */ uninstall_routes_for_vrf(bgp_vrf); /* Cleanup the RT to VRF mapping */ bgp_evpn_unmap_vrf_from_its_rts(bgp_vrf); /* Remove auto generated RT */ evpn_auto_rt_import_delete_for_vrf(bgp_vrf); /* Add the newly configured RT to RT list */ listnode_add_sort(bgp_vrf->vrf_import_rtl, ecomadd); SET_FLAG(bgp_vrf->vrf_flags, BGP_VRF_IMPORT_RT_CFGD); /* map VRF to its RTs */ bgp_evpn_map_vrf_to_its_rts(bgp_vrf); /* install routes matching the new VRF */ install_routes_for_vrf(bgp_vrf); } void bgp_evpn_unconfigure_import_rt_for_vrf(struct bgp *bgp_vrf, struct ecommunity *ecomdel) { struct listnode *node = NULL, *nnode = NULL, *node_to_del = NULL; struct ecommunity *ecom = NULL; /* uninstall routes from vrf */ uninstall_routes_for_vrf(bgp_vrf); /* Cleanup the RT to VRF mapping */ bgp_evpn_unmap_vrf_from_its_rts(bgp_vrf); /* remove the RT from the RT list */ for (ALL_LIST_ELEMENTS(bgp_vrf->vrf_import_rtl, node, nnode, ecom)) { if (ecommunity_match(ecom, ecomdel)) { ecommunity_free(&ecom); node_to_del = node; break; } } if (node_to_del) list_delete_node(bgp_vrf->vrf_import_rtl, node_to_del); assert(bgp_vrf->vrf_import_rtl); /* fallback to auto import rt, if this was the last RT */ if (bgp_vrf->vrf_import_rtl && list_isempty(bgp_vrf->vrf_import_rtl)) { UNSET_FLAG(bgp_vrf->vrf_flags, BGP_VRF_IMPORT_RT_CFGD); evpn_auto_rt_import_add_for_vrf(bgp_vrf); } /* map VRFs to its RTs */ bgp_evpn_map_vrf_to_its_rts(bgp_vrf); /* install routes matching this new RT */ install_routes_for_vrf(bgp_vrf); } void bgp_evpn_configure_export_rt_for_vrf(struct bgp *bgp_vrf, struct ecommunity *ecomadd) { /* remove auto-generated RT */ evpn_auto_rt_export_delete_for_vrf(bgp_vrf); /* Add the new RT to the RT list */ listnode_add_sort(bgp_vrf->vrf_export_rtl, ecomadd); SET_FLAG(bgp_vrf->vrf_flags, BGP_VRF_EXPORT_RT_CFGD); bgp_evpn_handle_export_rt_change_for_vrf(bgp_vrf); } void bgp_evpn_unconfigure_export_rt_for_vrf(struct bgp *bgp_vrf, struct ecommunity *ecomdel) { struct listnode *node = NULL, *nnode = NULL, *node_to_del = NULL; struct ecommunity *ecom = NULL; /* Remove the RT from the RT list */ for (ALL_LIST_ELEMENTS(bgp_vrf->vrf_export_rtl, node, nnode, ecom)) { if (ecommunity_match(ecom, ecomdel)) { ecommunity_free(&ecom); node_to_del = node; break; } } if (node_to_del) list_delete_node(bgp_vrf->vrf_export_rtl, node_to_del); /* * Temporary assert to make SA happy. * The ALL_LIST_ELEMENTS macro above has a NULL check * which means that SA is going to complain about * the list_isempty call, which doesn't NULL check. * So until we get this situation cleaned up, here * we are. */ assert(bgp_vrf->vrf_export_rtl); /* fall back to auto-generated RT if this was the last RT */ if (list_isempty(bgp_vrf->vrf_export_rtl)) { UNSET_FLAG(bgp_vrf->vrf_flags, BGP_VRF_EXPORT_RT_CFGD); evpn_auto_rt_export_add_for_vrf(bgp_vrf); } bgp_evpn_handle_export_rt_change_for_vrf(bgp_vrf); } /* * Handle change to BGP router id. This is invoked twice by the change * handler, first before the router id has been changed and then after * the router id has been changed. The first invocation will result in * local routes for all VNIs/VRF being deleted and withdrawn and the next * will result in the routes being re-advertised. */ void bgp_evpn_handle_router_id_update(struct bgp *bgp, int withdraw) { if (withdraw) { /* delete and withdraw all the type-5 routes stored in the global table for this vrf */ withdraw_router_id_vrf(bgp); /* delete all the VNI routes (type-2/type-3) routes for all the * L2-VNIs */ hash_iterate(bgp->vnihash, (void (*)(struct hash_backet *, void *))withdraw_router_id_vni, bgp); } else { /* advertise all routes in the vrf as type-5 routes with the new * RD */ update_router_id_vrf(bgp); /* advertise all the VNI routes (type-2/type-3) routes with the * new RD */ hash_iterate(bgp->vnihash, (void (*)(struct hash_backet *, void *))update_router_id_vni, bgp); } } /* * Handle change to auto-RT algorithm - update and advertise local routes. */ void bgp_evpn_handle_autort_change(struct bgp *bgp) { hash_iterate(bgp->vnihash, (void (*)(struct hash_backet *, void*))update_autort_vni, bgp); } /* * Handle change to export RT - update and advertise local routes. */ int bgp_evpn_handle_export_rt_change(struct bgp *bgp, struct bgpevpn *vpn) { return update_routes_for_vni(bgp, vpn); } void bgp_evpn_handle_vrf_rd_change(struct bgp *bgp_vrf, int withdraw) { if (withdraw) delete_withdraw_vrf_routes(bgp_vrf); else update_advertise_vrf_routes(bgp_vrf); } /* * Handle change to RD. This is invoked twice by the change handler, * first before the RD has been changed and then after the RD has * been changed. The first invocation will result in local routes * of this VNI being deleted and withdrawn and the next will result * in the routes being re-advertised. */ void bgp_evpn_handle_rd_change(struct bgp *bgp, struct bgpevpn *vpn, int withdraw) { if (withdraw) delete_withdraw_vni_routes(bgp, vpn); else update_advertise_vni_routes(bgp, vpn); } /* * Install routes for this VNI. Invoked upon change to Import RT. */ int bgp_evpn_install_routes(struct bgp *bgp, struct bgpevpn *vpn) { return install_routes_for_vni(bgp, vpn); } /* * Uninstall all routes installed for this VNI. Invoked upon change * to Import RT. */ int bgp_evpn_uninstall_routes(struct bgp *bgp, struct bgpevpn *vpn) { return uninstall_routes_for_vni(bgp, vpn); } /* * TODO: Hardcoded for a maximum of 2 VNIs right now */ char *bgp_evpn_label2str(mpls_label_t *label, uint32_t num_labels, char *buf, int len) { vni_t vni1, vni2; vni1 = label2vni(label); if (num_labels == 2) { vni2 = label2vni(label + 1); snprintf(buf, len, "%u/%u", vni1, vni2); } else snprintf(buf, len, "%u", vni1); return buf; } /* * Function to convert evpn route to json format. * NOTE: We don't use prefix2str as the output here is a bit different. */ void bgp_evpn_route2json(struct prefix_evpn *p, json_object *json) { char buf1[ETHER_ADDR_STRLEN]; char buf2[PREFIX2STR_BUFFER]; if (!json) return; if (p->prefix.route_type == BGP_EVPN_IMET_ROUTE) { json_object_int_add(json, "routeType", p->prefix.route_type); json_object_int_add(json, "ethTag", p->prefix.imet_addr.eth_tag); json_object_int_add(json, "ipLen", is_evpn_prefix_ipaddr_v4(p) ? IPV4_MAX_BITLEN : IPV6_MAX_BITLEN); json_object_string_add(json, "ip", inet_ntoa(p->prefix.imet_addr.ip.ipaddr_v4)); } else if (p->prefix.route_type == BGP_EVPN_MAC_IP_ROUTE) { if (is_evpn_prefix_ipaddr_none(p)) { json_object_int_add(json, "routeType", p->prefix.route_type); json_object_int_add(json, "ethTag", p->prefix.macip_addr.eth_tag); json_object_int_add(json, "macLen", 8 * ETH_ALEN); json_object_string_add(json, "mac", prefix_mac2str(&p->prefix.macip_addr.mac, buf1, sizeof(buf1))); } else { uint8_t family; family = is_evpn_prefix_ipaddr_v4(p) ? AF_INET : AF_INET6; json_object_int_add(json, "routeType", p->prefix.route_type); json_object_int_add(json, "ethTag", p->prefix.macip_addr.eth_tag); json_object_int_add(json, "macLen", 8 * ETH_ALEN); json_object_string_add(json, "mac", prefix_mac2str(&p->prefix.macip_addr.mac, buf1, sizeof(buf1))); json_object_int_add(json, "ipLen", is_evpn_prefix_ipaddr_v4(p) ? IPV4_MAX_BITLEN : IPV6_MAX_BITLEN); json_object_string_add( json, "ip", inet_ntop(family, &p->prefix.macip_addr.ip.ip.addr, buf2, PREFIX2STR_BUFFER)); } } else { /* Currently, this is to cater to other AF_ETHERNET code. */ } } /* * Function to convert evpn route to string. * NOTE: We don't use prefix2str as the output here is a bit different. */ char *bgp_evpn_route2str(struct prefix_evpn *p, char *buf, int len) { char buf1[ETHER_ADDR_STRLEN]; char buf2[PREFIX2STR_BUFFER]; char buf3[ESI_STR_LEN]; if (p->prefix.route_type == BGP_EVPN_IMET_ROUTE) { snprintf(buf, len, "[%d]:[%d]:[%d]:[%s]", p->prefix.route_type, p->prefix.imet_addr.eth_tag, is_evpn_prefix_ipaddr_v4(p) ? IPV4_MAX_BITLEN : IPV6_MAX_BITLEN, inet_ntoa(p->prefix.imet_addr.ip.ipaddr_v4)); } else if (p->prefix.route_type == BGP_EVPN_MAC_IP_ROUTE) { if (is_evpn_prefix_ipaddr_none(p)) snprintf(buf, len, "[%d]:[%d]:[%d]:[%s]", p->prefix.route_type, p->prefix.macip_addr.eth_tag, 8 * ETH_ALEN, prefix_mac2str(&p->prefix.macip_addr.mac, buf1, sizeof(buf1))); else { uint8_t family; family = is_evpn_prefix_ipaddr_v4(p) ? AF_INET : AF_INET6; snprintf(buf, len, "[%d]:[%d]:[%d]:[%s]:[%d]:[%s]", p->prefix.route_type, p->prefix.macip_addr.eth_tag, 8 * ETH_ALEN, prefix_mac2str(&p->prefix.macip_addr.mac, buf1, sizeof(buf1)), family == AF_INET ? IPV4_MAX_BITLEN : IPV6_MAX_BITLEN, inet_ntop(family, &p->prefix.macip_addr.ip.ip.addr, buf2, PREFIX2STR_BUFFER)); } } else if (p->prefix.route_type == BGP_EVPN_IP_PREFIX_ROUTE) { snprintf(buf, len, "[%d]:[%d]:[%d]:[%s]", p->prefix.route_type, p->prefix.prefix_addr.eth_tag, p->prefix.prefix_addr.ip_prefix_length, is_evpn_prefix_ipaddr_v4(p) ? inet_ntoa(p->prefix.prefix_addr.ip.ipaddr_v4) : inet6_ntoa(p->prefix.prefix_addr.ip.ipaddr_v6)); } else if (p->prefix.route_type == BGP_EVPN_ES_ROUTE) { snprintf(buf, len, "[%d]:[%s]:[%d]:[%s]", p->prefix.route_type, esi_to_str(&p->prefix.es_addr.esi, buf3, sizeof(buf3)), is_evpn_prefix_ipaddr_v4(p) ? IPV4_MAX_BITLEN : IPV6_MAX_BITLEN, inet_ntoa(p->prefix.es_addr.ip.ipaddr_v4)); } else { /* For EVPN route types not supported yet. */ snprintf(buf, len, "(unsupported route type %d)", p->prefix.route_type); } return (buf); } /* * Encode EVPN prefix in Update (MP_REACH) */ void bgp_evpn_encode_prefix(struct stream *s, struct prefix *p, struct prefix_rd *prd, mpls_label_t *label, uint32_t num_labels, struct attr *attr, int addpath_encode, uint32_t addpath_tx_id) { struct prefix_evpn *evp = (struct prefix_evpn *)p; int len, ipa_len = 0; if (addpath_encode) stream_putl(s, addpath_tx_id); /* Route type */ stream_putc(s, evp->prefix.route_type); switch (evp->prefix.route_type) { case BGP_EVPN_MAC_IP_ROUTE: if (is_evpn_prefix_ipaddr_v4(evp)) ipa_len = IPV4_MAX_BYTELEN; else if (is_evpn_prefix_ipaddr_v6(evp)) ipa_len = IPV6_MAX_BYTELEN; /* RD, ESI, EthTag, MAC+len, IP len, [IP], 1 VNI */ len = 8 + 10 + 4 + 1 + 6 + 1 + ipa_len + 3; if (ipa_len && num_labels > 1) /* There are 2 VNIs */ len += 3; stream_putc(s, len); stream_put(s, prd->val, 8); /* RD */ if (attr) stream_put(s, &attr->evpn_overlay.eth_s_id, ESI_LEN); else stream_put(s, 0, 10); stream_putl(s, evp->prefix.macip_addr.eth_tag); /* Ethernet Tag ID */ stream_putc(s, 8 * ETH_ALEN); /* Mac Addr Len - bits */ stream_put(s, evp->prefix.macip_addr.mac.octet, 6); /* Mac Addr */ stream_putc(s, 8 * ipa_len); /* IP address Length */ if (ipa_len) /* IP */ stream_put(s, &evp->prefix.macip_addr.ip.ip.addr, ipa_len); /* 1st label is the L2 VNI */ stream_put(s, label, BGP_LABEL_BYTES); /* Include 2nd label (L3 VNI) if advertising MAC+IP */ if (ipa_len && num_labels > 1) stream_put(s, label + 1, BGP_LABEL_BYTES); break; case BGP_EVPN_IMET_ROUTE: stream_putc(s, 17); // TODO: length - assumes IPv4 address stream_put(s, prd->val, 8); /* RD */ stream_putl(s, evp->prefix.imet_addr.eth_tag); /* Ethernet Tag ID */ stream_putc(s, IPV4_MAX_BITLEN); /* IP address Length - bits */ /* Originating Router's IP Addr */ stream_put_in_addr(s, &evp->prefix.imet_addr.ip.ipaddr_v4); break; case BGP_EVPN_ES_ROUTE: stream_putc(s, 23); /* TODO: length: assumes ipv4 VTEP */ stream_put(s, prd->val, 8); /* RD */ stream_put(s, evp->prefix.es_addr.esi.val, 10); /* ESI */ stream_putc(s, IPV4_MAX_BITLEN); /* IP address Length - bits */ /* VTEP IP */ stream_put_in_addr(s, &evp->prefix.es_addr.ip.ipaddr_v4); break; case BGP_EVPN_IP_PREFIX_ROUTE: /* TODO: AddPath support. */ evpn_mpattr_encode_type5(s, p, prd, label, num_labels, attr); break; default: break; } } int bgp_nlri_parse_evpn(struct peer *peer, struct attr *attr, struct bgp_nlri *packet, int withdraw) { uint8_t *pnt; uint8_t *lim; afi_t afi; safi_t safi; uint32_t addpath_id; int addpath_encoded; int psize = 0; uint8_t rtype; struct prefix p; /* Start processing the NLRI - there may be multiple in the MP_REACH */ pnt = packet->nlri; lim = pnt + packet->length; afi = packet->afi; safi = packet->safi; addpath_id = 0; addpath_encoded = (CHECK_FLAG(peer->af_cap[afi][safi], PEER_CAP_ADDPATH_AF_RX_ADV) && CHECK_FLAG(peer->af_cap[afi][safi], PEER_CAP_ADDPATH_AF_TX_RCV)); for (; pnt < lim; pnt += psize) { /* Clear prefix structure. */ memset(&p, 0, sizeof(struct prefix)); /* Deal with path-id if AddPath is supported. */ if (addpath_encoded) { /* When packet overflow occurs return immediately. */ if (pnt + BGP_ADDPATH_ID_LEN > lim) return -1; addpath_id = ntohl(*((uint32_t *)pnt)); pnt += BGP_ADDPATH_ID_LEN; } /* All EVPN NLRI types start with type and length. */ if (pnt + 2 > lim) return -1; rtype = *pnt++; psize = *pnt++; /* When packet overflow occur return immediately. */ if (pnt + psize > lim) return -1; switch (rtype) { case BGP_EVPN_MAC_IP_ROUTE: if (process_type2_route(peer, afi, safi, withdraw ? NULL : attr, pnt, psize, addpath_id)) { flog_err( EC_BGP_EVPN_FAIL, "%u:%s - Error in processing EVPN type-2 NLRI size %d", peer->bgp->vrf_id, peer->host, psize); return -1; } break; case BGP_EVPN_IMET_ROUTE: if (process_type3_route(peer, afi, safi, withdraw ? NULL : attr, pnt, psize, addpath_id)) { flog_err( EC_BGP_PKT_PROCESS, "%u:%s - Error in processing EVPN type-3 NLRI size %d", peer->bgp->vrf_id, peer->host, psize); return -1; } break; case BGP_EVPN_ES_ROUTE: if (process_type4_route(peer, afi, safi, withdraw ? NULL : attr, pnt, psize, addpath_id)) { flog_err( EC_BGP_PKT_PROCESS, "%u:%s - Error in processing EVPN type-4 NLRI size %d", peer->bgp->vrf_id, peer->host, psize); return -1; } break; case BGP_EVPN_IP_PREFIX_ROUTE: if (process_type5_route(peer, afi, safi, attr, pnt, psize, addpath_id, withdraw)) { flog_err( EC_BGP_PKT_PROCESS, "%u:%s - Error in processing EVPN type-5 NLRI size %d", peer->bgp->vrf_id, peer->host, psize); return -1; } break; default: break; } } /* Packet length consistency check. */ if (pnt != lim) return -1; return 0; } /* * Map the RTs (configured or automatically derived) of a VRF to the VRF. * The mapping will be used during route processing. * bgp_def: default bgp instance * bgp_vrf: specific bgp vrf instance on which RT is configured */ void bgp_evpn_map_vrf_to_its_rts(struct bgp *bgp_vrf) { int i = 0; struct ecommunity_val *eval = NULL; struct listnode *node = NULL, *nnode = NULL; struct ecommunity *ecom = NULL; for (ALL_LIST_ELEMENTS(bgp_vrf->vrf_import_rtl, node, nnode, ecom)) { for (i = 0; i < ecom->size; i++) { eval = (struct ecommunity_val *)(ecom->val + (i * ECOMMUNITY_SIZE)); map_vrf_to_rt(bgp_vrf, eval); } } } /* * Unmap the RTs (configured or automatically derived) of a VRF from the VRF. */ void bgp_evpn_unmap_vrf_from_its_rts(struct bgp *bgp_vrf) { int i; struct ecommunity_val *eval; struct listnode *node, *nnode; struct ecommunity *ecom; for (ALL_LIST_ELEMENTS(bgp_vrf->vrf_import_rtl, node, nnode, ecom)) { for (i = 0; i < ecom->size; i++) { struct vrf_irt_node *irt; struct ecommunity_val eval_tmp; eval = (struct ecommunity_val *)(ecom->val + (i * ECOMMUNITY_SIZE)); /* If using "automatic" RT, we only care about the * local-admin sub-field. * This is to facilitate using VNI as the RT for EBGP * peering too. */ memcpy(&eval_tmp, eval, ECOMMUNITY_SIZE); if (!CHECK_FLAG(bgp_vrf->vrf_flags, BGP_VRF_IMPORT_RT_CFGD)) mask_ecom_global_admin(&eval_tmp, eval); irt = lookup_vrf_import_rt(&eval_tmp); if (irt) unmap_vrf_from_rt(bgp_vrf, irt); } } } /* * Map the RTs (configured or automatically derived) of a VNI to the VNI. * The mapping will be used during route processing. */ void bgp_evpn_map_vni_to_its_rts(struct bgp *bgp, struct bgpevpn *vpn) { int i; struct ecommunity_val *eval; struct listnode *node, *nnode; struct ecommunity *ecom; for (ALL_LIST_ELEMENTS(vpn->import_rtl, node, nnode, ecom)) { for (i = 0; i < ecom->size; i++) { eval = (struct ecommunity_val *)(ecom->val + (i * ECOMMUNITY_SIZE)); map_vni_to_rt(bgp, vpn, eval); } } } /* * Unmap the RTs (configured or automatically derived) of a VNI from the VNI. */ void bgp_evpn_unmap_vni_from_its_rts(struct bgp *bgp, struct bgpevpn *vpn) { int i; struct ecommunity_val *eval; struct listnode *node, *nnode; struct ecommunity *ecom; for (ALL_LIST_ELEMENTS(vpn->import_rtl, node, nnode, ecom)) { for (i = 0; i < ecom->size; i++) { struct irt_node *irt; struct ecommunity_val eval_tmp; eval = (struct ecommunity_val *)(ecom->val + (i * ECOMMUNITY_SIZE)); /* If using "automatic" RT, we only care about the * local-admin sub-field. * This is to facilitate using VNI as the RT for EBGP * peering too. */ memcpy(&eval_tmp, eval, ECOMMUNITY_SIZE); if (!is_import_rt_configured(vpn)) mask_ecom_global_admin(&eval_tmp, eval); irt = lookup_import_rt(bgp, &eval_tmp); if (irt) unmap_vni_from_rt(bgp, vpn, irt); } } } /* * Derive Import RT automatically for VNI and map VNI to RT. * The mapping will be used during route processing. */ void bgp_evpn_derive_auto_rt_import(struct bgp *bgp, struct bgpevpn *vpn) { form_auto_rt(bgp, vpn->vni, vpn->import_rtl); UNSET_FLAG(vpn->flags, VNI_FLAG_IMPRT_CFGD); /* Map RT to VNI */ bgp_evpn_map_vni_to_its_rts(bgp, vpn); } /* * Derive Export RT automatically for VNI. */ void bgp_evpn_derive_auto_rt_export(struct bgp *bgp, struct bgpevpn *vpn) { form_auto_rt(bgp, vpn->vni, vpn->export_rtl); UNSET_FLAG(vpn->flags, VNI_FLAG_EXPRT_CFGD); } /* * Derive RD automatically for VNI using passed information - it * is of the form RouterId:unique-id-for-vni. */ void bgp_evpn_derive_auto_rd_for_vrf(struct bgp *bgp) { form_auto_rd(bgp->router_id, bgp->vrf_rd_id, &bgp->vrf_prd); } /* * Derive RD automatically for VNI using passed information - it * is of the form RouterId:unique-id-for-vni. */ void bgp_evpn_derive_auto_rd(struct bgp *bgp, struct bgpevpn *vpn) { char buf[100]; vpn->prd.family = AF_UNSPEC; vpn->prd.prefixlen = 64; sprintf(buf, "%s:%hu", inet_ntoa(bgp->router_id), vpn->rd_id); (void)str2prefix_rd(buf, &vpn->prd); UNSET_FLAG(vpn->flags, VNI_FLAG_RD_CFGD); } /* * Lookup L3-VNI */ bool bgp_evpn_lookup_l3vni_l2vni_table(vni_t vni) { struct list *inst = bm->bgp; struct listnode *node; struct bgp *bgp_vrf; for (ALL_LIST_ELEMENTS_RO(inst, node, bgp_vrf)) { if (bgp_vrf->l3vni == vni) return true; } return false; } /* * Lookup VNI. */ struct bgpevpn *bgp_evpn_lookup_vni(struct bgp *bgp, vni_t vni) { struct bgpevpn *vpn; struct bgpevpn tmp; memset(&tmp, 0, sizeof(struct bgpevpn)); tmp.vni = vni; vpn = hash_lookup(bgp->vnihash, &tmp); return vpn; } /* * Create a new vpn - invoked upon configuration or zebra notification. */ struct bgpevpn *bgp_evpn_new(struct bgp *bgp, vni_t vni, struct in_addr originator_ip, vrf_id_t tenant_vrf_id) { struct bgpevpn *vpn; if (!bgp) return NULL; vpn = XCALLOC(MTYPE_BGP_EVPN, sizeof(struct bgpevpn)); if (!vpn) return NULL; /* Set values - RD and RT set to defaults. */ vpn->vni = vni; vpn->originator_ip = originator_ip; vpn->tenant_vrf_id = tenant_vrf_id; /* Initialize route-target import and export lists */ vpn->import_rtl = list_new(); vpn->import_rtl->cmp = (int (*)(void *, void *))evpn_route_target_cmp; vpn->import_rtl->del = evpn_xxport_delete_ecomm; vpn->export_rtl = list_new(); vpn->export_rtl->cmp = (int (*)(void *, void *))evpn_route_target_cmp; vpn->export_rtl->del = evpn_xxport_delete_ecomm; bf_assign_index(bm->rd_idspace, vpn->rd_id); derive_rd_rt_for_vni(bgp, vpn); /* Initialize EVPN route table. */ vpn->route_table = bgp_table_init(bgp, AFI_L2VPN, SAFI_EVPN); /* Add to hash */ if (!hash_get(bgp->vnihash, vpn, hash_alloc_intern)) { XFREE(MTYPE_BGP_EVPN, vpn); return NULL; } /* add to l2vni list on corresponding vrf */ bgpevpn_link_to_l3vni(vpn); QOBJ_REG(vpn, bgpevpn); return vpn; } /* * Free a given VPN - called in multiple scenarios such as zebra * notification, configuration being deleted, advertise-all-vni disabled etc. * This just frees appropriate memory, caller should have taken other * needed actions. */ void bgp_evpn_free(struct bgp *bgp, struct bgpevpn *vpn) { bgpevpn_unlink_from_l3vni(vpn); bgp_table_unlock(vpn->route_table); bgp_evpn_unmap_vni_from_its_rts(bgp, vpn); list_delete(&vpn->import_rtl); list_delete(&vpn->export_rtl); bf_release_index(bm->rd_idspace, vpn->rd_id); hash_release(bgp->vnihash, vpn); QOBJ_UNREG(vpn); XFREE(MTYPE_BGP_EVPN, vpn); } /* * Lookup local ES. */ struct evpnes *bgp_evpn_lookup_es(struct bgp *bgp, esi_t *esi) { struct evpnes *es; struct evpnes tmp; memset(&tmp, 0, sizeof(struct evpnes)); memcpy(&tmp.esi, esi, sizeof(esi_t)); es = hash_lookup(bgp->esihash, &tmp); return es; } /* * Create a new local es - invoked upon zebra notification. */ struct evpnes *bgp_evpn_es_new(struct bgp *bgp, esi_t *esi, struct ipaddr *originator_ip) { char buf[100]; struct evpnes *es; if (!bgp) return NULL; es = XCALLOC(MTYPE_BGP_EVPN_ES, sizeof(struct evpnes)); if (!es) return NULL; /* set the ESI and originator_ip */ memcpy(&es->esi, esi, sizeof(esi_t)); memcpy(&es->originator_ip, originator_ip, sizeof(struct ipaddr)); /* Initialise the VTEP list */ es->vtep_list = list_new(); es->vtep_list->cmp = evpn_vtep_ip_cmp; /* auto derive RD for this es */ bf_assign_index(bm->rd_idspace, es->rd_id); es->prd.family = AF_UNSPEC; es->prd.prefixlen = 64; sprintf(buf, "%s:%hu", inet_ntoa(bgp->router_id), es->rd_id); (void)str2prefix_rd(buf, &es->prd); /* Initialize the ES route table */ es->route_table = bgp_table_init(bgp, AFI_L2VPN, SAFI_EVPN); /* Add to hash */ if (!hash_get(bgp->esihash, es, hash_alloc_intern)) { XFREE(MTYPE_BGP_EVPN_ES, es); return NULL; } QOBJ_REG(es, evpnes); return es; } /* * Free a given ES - * This just frees appropriate memory, caller should have taken other * needed actions. */ void bgp_evpn_es_free(struct bgp *bgp, struct evpnes *es) { list_delete(&es->vtep_list); bgp_table_unlock(es->route_table); bf_release_index(bm->rd_idspace, es->rd_id); hash_release(bgp->esihash, es); QOBJ_UNREG(es); XFREE(MTYPE_BGP_EVPN_ES, es); } /* * Import evpn route from global table to VNI/VRF/ESI. */ int bgp_evpn_import_route(struct bgp *bgp, afi_t afi, safi_t safi, struct prefix *p, struct bgp_path_info *pi) { return install_uninstall_evpn_route(bgp, afi, safi, p, pi, 1); } /* * Unimport evpn route from VNI/VRF/ESI. */ int bgp_evpn_unimport_route(struct bgp *bgp, afi_t afi, safi_t safi, struct prefix *p, struct bgp_path_info *pi) { return install_uninstall_evpn_route(bgp, afi, safi, p, pi, 0); } /* filter routes which have martian next hops */ int bgp_filter_evpn_routes_upon_martian_nh_change(struct bgp *bgp) { afi_t afi; safi_t safi; struct bgp_node *rd_rn, *rn; struct bgp_table *table; struct bgp_path_info *pi; afi = AFI_L2VPN; safi = SAFI_EVPN; /* Walk entire global routing table and evaluate routes which could be * imported into this VPN. Note that we cannot just look at the routes * for the VNI's RD - * remote routes applicable for this VNI could have any RD. */ /* EVPN routes are a 2-level table. */ for (rd_rn = bgp_table_top(bgp->rib[afi][safi]); rd_rn; rd_rn = bgp_route_next(rd_rn)) { table = (struct bgp_table *)(rd_rn->info); if (!table) continue; for (rn = bgp_table_top(table); rn; rn = bgp_route_next(rn)) { for (pi = rn->info; pi; pi = pi->next) { /* Consider "valid" remote routes applicable for * this VNI. */ if (!(pi->type == ZEBRA_ROUTE_BGP && pi->sub_type == BGP_ROUTE_NORMAL)) continue; if (bgp_nexthop_self(bgp, pi->attr->nexthop)) { char attr_str[BUFSIZ]; char pbuf[PREFIX_STRLEN]; bgp_dump_attr(pi->attr, attr_str, BUFSIZ); if (bgp_debug_update(pi->peer, &rn->p, NULL, 1)) zlog_debug( "%u: prefix %s with attr %s - DENIED due to martian or self nexthop", bgp->vrf_id, prefix2str( &rn->p, pbuf, sizeof(pbuf)), attr_str); bgp_evpn_unimport_route(bgp, afi, safi, &rn->p, pi); bgp_rib_remove(rn, pi, pi->peer, afi, safi); } } } } return 0; } /* * Handle del of a local MACIP. */ int bgp_evpn_local_macip_del(struct bgp *bgp, vni_t vni, struct ethaddr *mac, struct ipaddr *ip) { struct bgpevpn *vpn; struct prefix_evpn p; /* Lookup VNI hash - should exist. */ vpn = bgp_evpn_lookup_vni(bgp, vni); if (!vpn || !is_vni_live(vpn)) { flog_warn(EC_BGP_EVPN_VPN_VNI, "%u: VNI hash entry for VNI %u %s at MACIP DEL", bgp->vrf_id, vni, vpn ? "not live" : "not found"); return -1; } /* Remove EVPN type-2 route and schedule for processing. */ build_evpn_type2_prefix(&p, mac, ip); delete_evpn_route(bgp, vpn, &p); return 0; } /* * Handle add of a local MACIP. */ int bgp_evpn_local_macip_add(struct bgp *bgp, vni_t vni, struct ethaddr *mac, struct ipaddr *ip, uint8_t flags, uint32_t seq) { struct bgpevpn *vpn; struct prefix_evpn p; /* Lookup VNI hash - should exist. */ vpn = bgp_evpn_lookup_vni(bgp, vni); if (!vpn || !is_vni_live(vpn)) { flog_warn(EC_BGP_EVPN_VPN_VNI, "%u: VNI hash entry for VNI %u %s at MACIP ADD", bgp->vrf_id, vni, vpn ? "not live" : "not found"); return -1; } /* Create EVPN type-2 route and schedule for processing. */ build_evpn_type2_prefix(&p, mac, ip); if (update_evpn_route(bgp, vpn, &p, flags, seq)) { char buf[ETHER_ADDR_STRLEN]; char buf2[INET6_ADDRSTRLEN]; flog_err( EC_BGP_EVPN_ROUTE_CREATE, "%u:Failed to create Type-2 route, VNI %u %s MAC %s IP %s (flags: 0x%x)", bgp->vrf_id, vpn->vni, CHECK_FLAG(flags, ZEBRA_MACIP_TYPE_STICKY) ? "sticky gateway" : "", prefix_mac2str(mac, buf, sizeof(buf)), ipaddr2str(ip, buf2, sizeof(buf2)), flags); return -1; } return 0; } static void link_l2vni_hash_to_l3vni(struct hash_backet *backet, struct bgp *bgp_vrf) { struct bgpevpn *vpn = (struct bgpevpn *)backet->data; struct bgp *bgp_def = NULL; bgp_def = bgp_get_default(); assert(bgp_def); if (vpn->tenant_vrf_id == bgp_vrf->vrf_id) bgpevpn_link_to_l3vni(vpn); } int bgp_evpn_local_l3vni_add(vni_t l3vni, vrf_id_t vrf_id, struct ethaddr *rmac, struct in_addr originator_ip, int filter) { struct bgp *bgp_vrf = NULL; /* bgp VRF instance */ struct bgp *bgp_def = NULL; /* default bgp instance */ struct listnode *node = NULL; struct bgpevpn *vpn = NULL; as_t as = 0; /* get the default instance - required to get the AS number for VRF * auto-creatio */ bgp_def = bgp_get_default(); if (!bgp_def) { flog_err( EC_BGP_NO_DFLT, "Cannot process L3VNI %u ADD - default BGP instance not yet created", l3vni); return -1; } as = bgp_def->as; /* if the BGP vrf instance doesnt exist - create one */ bgp_vrf = bgp_lookup_by_name(vrf_id_to_name(vrf_id)); if (!bgp_vrf) { int ret = 0; ret = bgp_get(&bgp_vrf, &as, vrf_id_to_name(vrf_id), BGP_INSTANCE_TYPE_VRF); switch (ret) { case BGP_ERR_MULTIPLE_INSTANCE_NOT_SET: flog_err(EC_BGP_MULTI_INSTANCE, "'bgp multiple-instance' not present\n"); return -1; case BGP_ERR_AS_MISMATCH: flog_err(EC_BGP_EVPN_AS_MISMATCH, "BGP is already running; AS is %u\n", as); return -1; case BGP_ERR_INSTANCE_MISMATCH: flog_err(EC_BGP_EVPN_INSTANCE_MISMATCH, "BGP instance name and AS number mismatch\n"); return -1; } /* mark as auto created */ SET_FLAG(bgp_vrf->vrf_flags, BGP_VRF_AUTO); } /* associate with l3vni */ bgp_vrf->l3vni = l3vni; /* set the router mac - to be used in mac-ip routes for this vrf */ memcpy(&bgp_vrf->rmac, rmac, sizeof(struct ethaddr)); /* set the originator ip */ bgp_vrf->originator_ip = originator_ip; /* set the right filter - are we using l3vni only for prefix routes? */ if (filter) SET_FLAG(bgp_vrf->vrf_flags, BGP_VRF_L3VNI_PREFIX_ROUTES_ONLY); /* auto derive RD/RT */ if (!CHECK_FLAG(bgp_vrf->vrf_flags, BGP_VRF_IMPORT_RT_CFGD)) evpn_auto_rt_import_add_for_vrf(bgp_vrf); if (!CHECK_FLAG(bgp_vrf->vrf_flags, BGP_VRF_EXPORT_RT_CFGD)) evpn_auto_rt_export_add_for_vrf(bgp_vrf); bgp_evpn_derive_auto_rd_for_vrf(bgp_vrf); /* link all corresponding l2vnis */ hash_iterate(bgp_def->vnihash, (void (*)(struct hash_backet *, void *))link_l2vni_hash_to_l3vni, bgp_vrf); /* Only update all corresponding type-2 routes if we are advertising two * labels along with type-2 routes */ if (!filter) for (ALL_LIST_ELEMENTS_RO(bgp_vrf->l2vnis, node, vpn)) update_routes_for_vni(bgp_def, vpn); /* advertise type-5 routes if needed */ update_advertise_vrf_routes(bgp_vrf); /* install all remote routes belonging to this l3vni into correspondng * vrf */ install_routes_for_vrf(bgp_vrf); return 0; } int bgp_evpn_local_l3vni_del(vni_t l3vni, vrf_id_t vrf_id) { struct bgp *bgp_vrf = NULL; /* bgp vrf instance */ struct bgp *bgp_def = NULL; /* default bgp instance */ struct listnode *node = NULL; struct listnode *next = NULL; struct bgpevpn *vpn = NULL; bgp_vrf = bgp_lookup_by_vrf_id(vrf_id); if (!bgp_vrf) { flog_err( EC_BGP_NO_DFLT, "Cannot process L3VNI %u Del - Could not find BGP instance", l3vni); return -1; } bgp_def = bgp_get_default(); if (!bgp_def) { flog_err( EC_BGP_NO_DFLT, "Cannot process L3VNI %u Del - Could not find default BGP instance", l3vni); return -1; } /* Remove remote routes from BGT VRF even if BGP_VRF_AUTO is configured, * bgp_delete would not remove/decrement bgp_path_info of the ip_prefix * routes. This will uninstalling the routes from zebra and decremnt the * bgp info count. */ uninstall_routes_for_vrf(bgp_vrf); /* delete/withdraw all type-5 routes */ delete_withdraw_vrf_routes(bgp_vrf); /* remove the l3vni from vrf instance */ bgp_vrf->l3vni = 0; /* remove the Rmac from the BGP vrf */ memset(&bgp_vrf->rmac, 0, sizeof(struct ethaddr)); /* delete RD/RT */ if (!list_isempty(bgp_vrf->vrf_import_rtl)) { bgp_evpn_unmap_vrf_from_its_rts(bgp_vrf); list_delete_all_node(bgp_vrf->vrf_import_rtl); } if (!list_isempty(bgp_vrf->vrf_export_rtl)) { list_delete_all_node(bgp_vrf->vrf_export_rtl); } /* update all corresponding local mac-ip routes */ if (!CHECK_FLAG(bgp_vrf->vrf_flags, BGP_VRF_L3VNI_PREFIX_ROUTES_ONLY)) { for (ALL_LIST_ELEMENTS_RO(bgp_vrf->l2vnis, node, vpn)) { UNSET_FLAG(vpn->flags, VNI_FLAG_USE_TWO_LABELS); update_routes_for_vni(bgp_def, vpn); } } /* If any L2VNIs point to this instance, unlink them. */ for (ALL_LIST_ELEMENTS(bgp_vrf->l2vnis, node, next, vpn)) bgpevpn_unlink_from_l3vni(vpn); /* Delete the instance if it was autocreated */ if (CHECK_FLAG(bgp_vrf->vrf_flags, BGP_VRF_AUTO)) bgp_delete(bgp_vrf); return 0; } /* * Handle del of a local VNI. */ int bgp_evpn_local_vni_del(struct bgp *bgp, vni_t vni) { struct bgpevpn *vpn; /* Locate VNI hash */ vpn = bgp_evpn_lookup_vni(bgp, vni); if (!vpn) { if (bgp_debug_zebra(NULL)) flog_warn( EC_BGP_EVPN_VPN_VNI, "%u: VNI hash entry for VNI %u not found at DEL", bgp->vrf_id, vni); return 0; } /* Remove all local EVPN routes and schedule for processing (to * withdraw from peers). */ delete_routes_for_vni(bgp, vpn); /* * tunnel is no longer active, del tunnel ip address from tip_hash */ bgp_tip_del(bgp, &vpn->originator_ip); /* Clear "live" flag and see if hash needs to be freed. */ UNSET_FLAG(vpn->flags, VNI_FLAG_LIVE); if (!is_vni_configured(vpn)) bgp_evpn_free(bgp, vpn); return 0; } /* * Handle add (or update) of a local VNI. The VNI changes we care * about are for the local-tunnel-ip and the (tenant) VRF. */ int bgp_evpn_local_vni_add(struct bgp *bgp, vni_t vni, struct in_addr originator_ip, vrf_id_t tenant_vrf_id) { struct bgpevpn *vpn; struct prefix_evpn p; /* Lookup VNI. If present and no change, exit. */ vpn = bgp_evpn_lookup_vni(bgp, vni); if (vpn) { if (is_vni_live(vpn) && IPV4_ADDR_SAME(&vpn->originator_ip, &originator_ip) && vpn->tenant_vrf_id == tenant_vrf_id) /* Probably some other param has changed that we don't * care about. */ return 0; /* Update tenant_vrf_id if it has changed. */ if (vpn->tenant_vrf_id != tenant_vrf_id) { bgpevpn_unlink_from_l3vni(vpn); vpn->tenant_vrf_id = tenant_vrf_id; bgpevpn_link_to_l3vni(vpn); } /* If tunnel endpoint IP has changed, update (and delete prior * type-3 route, if needed.) */ if (!IPV4_ADDR_SAME(&vpn->originator_ip, &originator_ip)) handle_tunnel_ip_change(bgp, vpn, originator_ip); /* Update all routes with new endpoint IP and/or export RT * for VRFs */ if (is_vni_live(vpn)) update_routes_for_vni(bgp, vpn); } /* Create or update as appropriate. */ if (!vpn) { vpn = bgp_evpn_new(bgp, vni, originator_ip, tenant_vrf_id); if (!vpn) { flog_err( EC_BGP_VNI, "%u: Failed to allocate VNI entry for VNI %u - at Add", bgp->vrf_id, vni); return -1; } } /* if the VNI is live already, there is nothing more to do */ if (is_vni_live(vpn)) return 0; /* Mark as "live" */ SET_FLAG(vpn->flags, VNI_FLAG_LIVE); /* tunnel is now active, add tunnel-ip to db */ bgp_tip_add(bgp, &originator_ip); /* filter routes as nexthop database has changed */ bgp_filter_evpn_routes_upon_martian_nh_change(bgp); /* * Create EVPN type-3 route and schedule for processing. * * RT-3 only if doing head-end replication */ if (bgp->vxlan_flood_ctrl == VXLAN_FLOOD_HEAD_END_REPL) { build_evpn_type3_prefix(&p, vpn->originator_ip); if (update_evpn_route(bgp, vpn, &p, 0, 0)) { flog_err(EC_BGP_EVPN_ROUTE_CREATE, "%u: Type3 route creation failure for VNI %u", bgp->vrf_id, vni); return -1; } } /* If we have learnt and retained remote routes (VTEPs, MACs) for this * VNI, * install them. */ install_routes_for_vni(bgp, vpn); /* If we are advertising gateway mac-ip It needs to be conveyed again to zebra */ bgp_zebra_advertise_gw_macip(bgp, vpn->advertise_gw_macip, vpn->vni); return 0; } /* * bgp_evpn_local_es_del */ int bgp_evpn_local_es_del(struct bgp *bgp, esi_t *esi, struct ipaddr *originator_ip) { char buf[ESI_STR_LEN]; struct evpnes *es = NULL; if (!bgp->esihash) { flog_err(EC_BGP_ES_CREATE, "%u: ESI hash not yet created", bgp->vrf_id); return -1; } /* Lookup ESI hash - should exist. */ es = bgp_evpn_lookup_es(bgp, esi); if (!es) { flog_warn(EC_BGP_EVPN_ESI, "%u: ESI hash entry for ESI %s at Local ES DEL", bgp->vrf_id, esi_to_str(esi, buf, sizeof(buf))); return -1; } /* Delete all local EVPN ES routes from ESI table * and schedule for processing (to withdraw from peers)) */ delete_routes_for_es(bgp, es); /* free the hash entry */ bgp_evpn_es_free(bgp, es); return 0; } /* * bgp_evpn_local_es_add */ int bgp_evpn_local_es_add(struct bgp *bgp, esi_t *esi, struct ipaddr *originator_ip) { char buf[ESI_STR_LEN]; struct evpnes *es = NULL; struct prefix_evpn p; if (!bgp->esihash) { flog_err(EC_BGP_ES_CREATE, "%u: ESI hash not yet created", bgp->vrf_id); return -1; } /* create the new es */ es = bgp_evpn_lookup_es(bgp, esi); if (!es) { es = bgp_evpn_es_new(bgp, esi, originator_ip); if (!es) { flog_err( EC_BGP_ES_CREATE, "%u: Failed to allocate ES entry for ESI %s - at Local ES Add", bgp->vrf_id, esi_to_str(esi, buf, sizeof(buf))); return -1; } } UNSET_FLAG(es->flags, EVPNES_REMOTE); SET_FLAG(es->flags, EVPNES_LOCAL); build_evpn_type4_prefix(&p, esi, originator_ip->ipaddr_v4); if (update_evpn_type4_route(bgp, es, &p)) { flog_err(EC_BGP_EVPN_ROUTE_CREATE, "%u: Type4 route creation failure for ESI %s", bgp->vrf_id, esi_to_str(esi, buf, sizeof(buf))); return -1; } /* import all remote ES routes in th ES table */ install_routes_for_es(bgp, es); return 0; } /* * Handle change in setting for BUM handling. The supported values * are head-end replication and dropping all BUM packets. Any change * should be registered with zebra. Also, if doing head-end replication, * need to advertise local VNIs as EVPN RT-3 wheras, if BUM packets are * to be dropped, the RT-3s must be withdrawn. */ void bgp_evpn_flood_control_change(struct bgp *bgp) { zlog_info("L2VPN EVPN BUM handling is %s", bgp->vxlan_flood_ctrl == VXLAN_FLOOD_HEAD_END_REPL ? "Flooding" : "Flooding Disabled"); bgp_zebra_vxlan_flood_control(bgp, bgp->vxlan_flood_ctrl); if (bgp->vxlan_flood_ctrl == VXLAN_FLOOD_HEAD_END_REPL) hash_iterate(bgp->vnihash, create_advertise_type3, bgp); else if (bgp->vxlan_flood_ctrl == VXLAN_FLOOD_DISABLED) hash_iterate(bgp->vnihash, delete_withdraw_type3, bgp); } /* * Cleanup EVPN information on disable - Need to delete and withdraw * EVPN routes from peers. */ void bgp_evpn_cleanup_on_disable(struct bgp *bgp) { hash_iterate(bgp->vnihash, (void (*)(struct hash_backet *, void *))cleanup_vni_on_disable, bgp); } /* * Cleanup EVPN information - invoked at the time of bgpd exit or when the * BGP instance (default) is being freed. */ void bgp_evpn_cleanup(struct bgp *bgp) { hash_iterate(bgp->vnihash, (void (*)(struct hash_backet *, void *))free_vni_entry, bgp); hash_free(bgp->import_rt_hash); bgp->import_rt_hash = NULL; hash_free(bgp->vrf_import_rt_hash); bgp->vrf_import_rt_hash = NULL; hash_free(bgp->vnihash); bgp->vnihash = NULL; if (bgp->esihash) hash_free(bgp->esihash); bgp->esihash = NULL; list_delete(&bgp->vrf_import_rtl); list_delete(&bgp->vrf_export_rtl); list_delete(&bgp->l2vnis); } /* * Initialization for EVPN * Create * VNI hash table * hash for RT to VNI */ void bgp_evpn_init(struct bgp *bgp) { bgp->vnihash = hash_create(vni_hash_key_make, vni_hash_cmp, "BGP VNI Hash"); bgp->esihash = hash_create(esi_hash_keymake, esi_cmp, "BGP EVPN Local ESI Hash"); bgp->import_rt_hash = hash_create(import_rt_hash_key_make, import_rt_hash_cmp, "BGP Import RT Hash"); bgp->vrf_import_rt_hash = hash_create(vrf_import_rt_hash_key_make, vrf_import_rt_hash_cmp, "BGP VRF Import RT Hash"); bgp->vrf_import_rtl = list_new(); bgp->vrf_import_rtl->cmp = (int (*)(void *, void *))evpn_route_target_cmp; bgp->vrf_import_rtl->del = evpn_xxport_delete_ecomm; bgp->vrf_export_rtl = list_new(); bgp->vrf_export_rtl->cmp = (int (*)(void *, void *))evpn_route_target_cmp; bgp->vrf_export_rtl->del = evpn_xxport_delete_ecomm; bgp->l2vnis = list_new(); bgp->l2vnis->cmp = vni_list_cmp; /* Default BUM handling is to do head-end replication. */ bgp->vxlan_flood_ctrl = VXLAN_FLOOD_HEAD_END_REPL; } void bgp_evpn_vrf_delete(struct bgp *bgp_vrf) { bgp_evpn_unmap_vrf_from_its_rts(bgp_vrf); }