/* $OpenBSD: if_bridge.h,v 1.64 2019/04/28 22:15:57 mpi Exp $ */ /* * Copyright (c) 1999, 2000 Jason L. Wright (jason@thought.net) * Copyright (c) 2006 Andrew Thompson (thompsa@FreeBSD.org) * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * * Effort sponsored in part by the Defense Advanced Research Projects * Agency (DARPA) and Air Force Research Laboratory, Air Force * Materiel Command, USAF, under agreement number F30602-01-2-0537. * */ #ifndef _NET_IF_BRIDGE_H_ #define _NET_IF_BRIDGE_H_ #include #include /* * Bridge control request: add/delete member interfaces. */ struct ifbreq { char ifbr_name[IFNAMSIZ]; /* bridge ifs name */ char ifbr_ifsname[IFNAMSIZ]; /* member ifs name */ u_int32_t ifbr_ifsflags; /* member ifs flags */ u_int32_t ifbr_portno; /* member port number */ u_int32_t ifbr_protected; /* protected domains */ u_int8_t ifbr_state; /* member stp state */ u_int8_t ifbr_priority; /* member stp priority */ u_int32_t ifbr_path_cost; /* member stp path cost */ u_int32_t ifbr_stpflags; /* member stp flags */ u_int8_t ifbr_proto; /* member stp protocol */ u_int8_t ifbr_role; /* member stp role */ u_int32_t ifbr_fwd_trans; /* member stp fwd transitions */ u_int64_t ifbr_desg_bridge; /* member stp designated bridge */ u_int32_t ifbr_desg_port; /* member stp designated port */ u_int64_t ifbr_root_bridge; /* member stp root bridge */ u_int32_t ifbr_root_cost; /* member stp root cost */ u_int32_t ifbr_root_port; /* member stp root port */ }; /* SIOCBRDGIFFLGS, SIOCBRDGIFFLGS */ #define IFBIF_LEARNING 0x0001 /* ifs can learn */ #define IFBIF_DISCOVER 0x0002 /* ifs sends packets w/unknown dest */ #define IFBIF_BLOCKNONIP 0x0004 /* ifs blocks non-IP/ARP in/out */ #define IFBIF_STP 0x0008 /* ifs participates in spanning tree */ #define IFBIF_BSTP_EDGE 0x0010 /* member stp edge port */ #define IFBIF_BSTP_AUTOEDGE 0x0020 /* member stp autoedge enabled */ #define IFBIF_BSTP_PTP 0x0040 /* member stp ptp */ #define IFBIF_BSTP_AUTOPTP 0x0080 /* member stp autoptp enabled */ #define IFBIF_SPAN 0x0100 /* ifs is a span port (ro) */ #define IFBIF_LOCAL 0x1000 /* local port in switch(4) */ #define IFBIF_RO_MASK 0x0f00 /* read only bits */ /* SIOCBRDGFLUSH */ #define IFBF_FLUSHDYN 0x0 /* flush dynamic addresses only */ #define IFBF_FLUSHALL 0x1 /* flush all addresses from cache */ /* port states */ #define BSTP_IFSTATE_DISABLED 0 #define BSTP_IFSTATE_LISTENING 1 #define BSTP_IFSTATE_LEARNING 2 #define BSTP_IFSTATE_FORWARDING 3 #define BSTP_IFSTATE_BLOCKING 4 #define BSTP_IFSTATE_DISCARDING 5 #define BSTP_TCSTATE_ACTIVE 1 #define BSTP_TCSTATE_DETECTED 2 #define BSTP_TCSTATE_INACTIVE 3 #define BSTP_TCSTATE_LEARNING 4 #define BSTP_TCSTATE_PROPAG 5 #define BSTP_TCSTATE_ACK 6 #define BSTP_TCSTATE_TC 7 #define BSTP_TCSTATE_TCN 8 #define BSTP_ROLE_DISABLED 0 #define BSTP_ROLE_ROOT 1 #define BSTP_ROLE_DESIGNATED 2 #define BSTP_ROLE_ALTERNATE 3 #define BSTP_ROLE_BACKUP 4 /* * Interface list structure */ struct ifbifconf { char ifbic_name[IFNAMSIZ]; /* bridge ifs name */ u_int32_t ifbic_len; /* buffer size */ union { caddr_t ifbicu_buf; struct ifbreq *ifbicu_req; } ifbic_ifbicu; #define ifbic_buf ifbic_ifbicu.ifbicu_buf #define ifbic_req ifbic_ifbicu.ifbicu_req }; /* * Bridge address request */ struct ifbareq { char ifba_name[IFNAMSIZ]; /* bridge name */ char ifba_ifsname[IFNAMSIZ]; /* destination ifs */ u_int8_t ifba_age; /* address age */ u_int8_t ifba_flags; /* address flags */ struct ether_addr ifba_dst; /* destination addr */ struct sockaddr_storage ifba_dstsa; /* tunnel endpoint */ }; #define IFBAF_TYPEMASK 0x03 /* address type mask */ #define IFBAF_DYNAMIC 0x00 /* dynamically learned */ #define IFBAF_STATIC 0x01 /* static address */ struct ifbaconf { char ifbac_name[IFNAMSIZ]; /* bridge ifs name */ u_int32_t ifbac_len; /* buffer size */ union { caddr_t ifbacu_buf; /* buffer */ struct ifbareq *ifbacu_req; /* request pointer */ } ifbac_ifbacu; #define ifbac_buf ifbac_ifbacu.ifbacu_buf #define ifbac_req ifbac_ifbacu.ifbacu_req }; struct ifbrparam { char ifbrp_name[IFNAMSIZ]; union { u_int32_t ifbrpu_csize; /* cache size */ int ifbrpu_ctime; /* cache time (sec) */ u_int16_t ifbrpu_prio; /* bridge priority */ u_int8_t ifbrpu_hellotime; /* hello time (sec) */ u_int8_t ifbrpu_fwddelay; /* fwd delay (sec) */ u_int8_t ifbrpu_maxage; /* max age (sec) */ u_int8_t ifbrpu_proto; /* bridge protocol */ u_int8_t ifbrpu_txhc; /* bpdu tx holdcount */ u_int64_t ifbrpu_datapath; /* datapath-id */ u_int32_t ifbrpu_maxgroup; /* group size */ } ifbrp_ifbrpu; }; #define ifbrp_csize ifbrp_ifbrpu.ifbrpu_csize #define ifbrp_ctime ifbrp_ifbrpu.ifbrpu_ctime #define ifbrp_prio ifbrp_ifbrpu.ifbrpu_prio #define ifbrp_proto ifbrp_ifbrpu.ifbrpu_proto #define ifbrp_txhc ifbrp_ifbrpu.ifbrpu_txhc #define ifbrp_hellotime ifbrp_ifbrpu.ifbrpu_hellotime #define ifbrp_fwddelay ifbrp_ifbrpu.ifbrpu_fwddelay #define ifbrp_maxage ifbrp_ifbrpu.ifbrpu_maxage #define ifbrp_datapath ifbrp_ifbrpu.ifbrpu_datapath #define ifbrp_maxflow ifbrp_ifbrpu.ifbrpu_csize #define ifbrp_maxgroup ifbrp_ifbrpu.ifbrpu_maxgroup /* Protocol versions */ #define BSTP_PROTO_ID 0x00 #define BSTP_PROTO_STP 0x00 #define BSTP_PROTO_RSTP 0x02 #define BSTP_PROTO_MAX BSTP_PROTO_RSTP /* * Bridge current operational parameters structure. */ struct ifbropreq { char ifbop_name[IFNAMSIZ]; u_int8_t ifbop_holdcount; u_int8_t ifbop_maxage; u_int8_t ifbop_hellotime; u_int8_t ifbop_fwddelay; u_int8_t ifbop_protocol; u_int16_t ifbop_priority; u_int64_t ifbop_root_bridge; u_int16_t ifbop_root_port; u_int32_t ifbop_root_path_cost; u_int64_t ifbop_desg_bridge; struct timeval ifbop_last_tc_time; }; /* * Bridge mac rules */ struct ifbrarpf { u_int16_t brla_flags; u_int16_t brla_op; struct ether_addr brla_sha; struct in_addr brla_spa; struct ether_addr brla_tha; struct in_addr brla_tpa; }; #define BRLA_ARP 0x01 #define BRLA_RARP 0x02 #define BRLA_SHA 0x10 #define BRLA_SPA 0x20 #define BRLA_THA 0x40 #define BRLA_TPA 0x80 struct ifbrlreq { char ifbr_name[IFNAMSIZ]; /* bridge ifs name */ char ifbr_ifsname[IFNAMSIZ]; /* member ifs name */ u_int8_t ifbr_action; /* disposition */ u_int8_t ifbr_flags; /* flags */ struct ether_addr ifbr_src; /* source mac */ struct ether_addr ifbr_dst; /* destination mac */ char ifbr_tagname[PF_TAG_NAME_SIZE]; /* pf tagname */ struct ifbrarpf ifbr_arpf; /* arp filter */ }; #define BRL_ACTION_BLOCK 0x01 /* block frame */ #define BRL_ACTION_PASS 0x02 /* pass frame */ #define BRL_FLAG_IN 0x08 /* input rule */ #define BRL_FLAG_OUT 0x04 /* output rule */ #define BRL_FLAG_SRCVALID 0x02 /* src valid */ #define BRL_FLAG_DSTVALID 0x01 /* dst valid */ struct ifbrlconf { char ifbrl_name[IFNAMSIZ]; /* bridge ifs name */ char ifbrl_ifsname[IFNAMSIZ];/* member ifs name */ u_int32_t ifbrl_len; /* buffer size */ union { caddr_t ifbrlu_buf; struct ifbrlreq *ifbrlu_req; } ifbrl_ifbrlu; #define ifbrl_buf ifbrl_ifbrlu.ifbrlu_buf #define ifbrl_req ifbrl_ifbrlu.ifbrlu_req }; #ifdef _KERNEL #include /* STP port flags */ #define BSTP_PORT_CANMIGRATE 0x0001 #define BSTP_PORT_NEWINFO 0x0002 #define BSTP_PORT_DISPUTED 0x0004 #define BSTP_PORT_ADMCOST 0x0008 #define BSTP_PORT_AUTOEDGE 0x0010 #define BSTP_PORT_AUTOPTP 0x0020 /* BPDU priority */ #define BSTP_PDU_SUPERIOR 1 #define BSTP_PDU_REPEATED 2 #define BSTP_PDU_INFERIOR 3 #define BSTP_PDU_INFERIORALT 4 #define BSTP_PDU_OTHER 5 /* BPDU flags */ #define BSTP_PDU_PRMASK 0x0c /* Port Role */ #define BSTP_PDU_PRSHIFT 2 /* Port Role offset */ #define BSTP_PDU_F_UNKN 0x00 /* Unknown port (00) */ #define BSTP_PDU_F_ALT 0x01 /* Alt/Backup port (01) */ #define BSTP_PDU_F_ROOT 0x02 /* Root port (10) */ #define BSTP_PDU_F_DESG 0x03 /* Designated port (11) */ #define BSTP_PDU_STPMASK 0x81 /* strip unused STP flags */ #define BSTP_PDU_RSTPMASK 0x7f /* strip unused RSTP flags */ #define BSTP_PDU_F_TC 0x01 /* Topology change */ #define BSTP_PDU_F_P 0x02 /* Proposal flag */ #define BSTP_PDU_F_L 0x10 /* Learning flag */ #define BSTP_PDU_F_F 0x20 /* Forwarding flag */ #define BSTP_PDU_F_A 0x40 /* Agreement flag */ #define BSTP_PDU_F_TCA 0x80 /* Topology change ack */ /* * Bridge filtering rules */ SIMPLEQ_HEAD(brl_head, brl_node); struct brl_node { SIMPLEQ_ENTRY(brl_node) brl_next; /* next rule */ struct ether_addr brl_src; /* source mac address */ struct ether_addr brl_dst; /* destination mac address */ u_int16_t brl_tag; /* pf tag ID */ u_int8_t brl_action; /* what to do with match */ u_int8_t brl_flags; /* comparision flags */ struct ifbrarpf brl_arpf; /* arp filter */ }; struct bstp_timer { u_int16_t active; u_int16_t value; u_int32_t latched; }; struct bstp_pri_vector { u_int64_t pv_root_id; u_int32_t pv_cost; u_int64_t pv_dbridge_id; u_int16_t pv_dport_id; u_int16_t pv_port_id; }; struct bstp_config_unit { struct bstp_pri_vector cu_pv; u_int16_t cu_message_age; u_int16_t cu_max_age; u_int16_t cu_forward_delay; u_int16_t cu_hello_time; u_int8_t cu_message_type; u_int8_t cu_topology_change_ack; u_int8_t cu_topology_change; u_int8_t cu_proposal; u_int8_t cu_agree; u_int8_t cu_learning; u_int8_t cu_forwarding; u_int8_t cu_role; }; struct bstp_tcn_unit { u_int8_t tu_message_type; }; struct bstp_port { LIST_ENTRY(bstp_port) bp_next; struct ifnet *bp_ifp; /* parent if */ struct bstp_state *bp_bs; void *bp_lhcookie; /* if linkstate hook */ u_int8_t bp_active; u_int8_t bp_protover; u_int32_t bp_flags; u_int32_t bp_path_cost; u_int16_t bp_port_msg_age; u_int16_t bp_port_max_age; u_int16_t bp_port_fdelay; u_int16_t bp_port_htime; u_int16_t bp_desg_msg_age; u_int16_t bp_desg_max_age; u_int16_t bp_desg_fdelay; u_int16_t bp_desg_htime; struct bstp_timer bp_edge_delay_timer; struct bstp_timer bp_forward_delay_timer; struct bstp_timer bp_hello_timer; struct bstp_timer bp_message_age_timer; struct bstp_timer bp_migrate_delay_timer; struct bstp_timer bp_recent_backup_timer; struct bstp_timer bp_recent_root_timer; struct bstp_timer bp_tc_timer; struct bstp_config_unit bp_msg_cu; struct bstp_pri_vector bp_desg_pv; struct bstp_pri_vector bp_port_pv; u_int16_t bp_port_id; u_int8_t bp_state; u_int8_t bp_tcstate; u_int8_t bp_role; u_int8_t bp_infois; u_int8_t bp_tc_ack; u_int8_t bp_tc_prop; u_int8_t bp_fdbflush; u_int8_t bp_priority; u_int8_t bp_ptp_link; u_int8_t bp_agree; u_int8_t bp_agreed; u_int8_t bp_sync; u_int8_t bp_synced; u_int8_t bp_proposing; u_int8_t bp_proposed; u_int8_t bp_operedge; u_int8_t bp_reroot; u_int8_t bp_rcvdtc; u_int8_t bp_rcvdtca; u_int8_t bp_rcvdtcn; u_int32_t bp_forward_transitions; u_int8_t bp_txcount; }; /* * Software state for each bridge STP. */ struct bstp_state { struct ifnet *bs_ifp; struct bstp_pri_vector bs_bridge_pv; struct bstp_pri_vector bs_root_pv; struct bstp_port *bs_root_port; u_int8_t bs_protover; u_int16_t bs_migration_delay; u_int16_t bs_edge_delay; u_int16_t bs_bridge_max_age; u_int16_t bs_bridge_fdelay; u_int16_t bs_bridge_htime; u_int16_t bs_root_msg_age; u_int16_t bs_root_max_age; u_int16_t bs_root_fdelay; u_int16_t bs_root_htime; u_int16_t bs_hold_time; u_int16_t bs_bridge_priority; u_int8_t bs_txholdcount; u_int8_t bs_allsynced; struct timeout bs_bstptimeout; /* stp timeout */ struct bstp_timer bs_link_timer; struct timeval bs_last_tc_time; LIST_HEAD(, bstp_port) bs_bplist; }; #define bs_ifflags bs_ifp->if_flags /* * Bridge interface list */ struct bridge_iflist { SLIST_ENTRY(bridge_iflist) bif_next; /* next in list */ struct bridge_softc *bridge_sc; struct bstp_port *bif_stp; /* STP port state */ struct brl_head bif_brlin; /* input rules */ struct brl_head bif_brlout; /* output rules */ struct ifnet *ifp; /* member interface */ u_int32_t bif_flags; /* member flags */ u_int32_t bif_protected; /* protected domains */ void *bif_dhcookie; }; #define bif_state bif_stp->bp_state /* * XXX ip_ipsp.h's sockaddr_union should be converted to sockaddr * * passing with correct sa_len, then a good approach for cleaning this * will become more clear. */ union brsockaddr_union { struct sockaddr sa; struct sockaddr_in sin; struct sockaddr_in6 sin6; }; /* * Bridge tunnel tagging */ struct bridge_tunneltag { union brsockaddr_union brtag_peer; union brsockaddr_union brtag_local; u_int32_t brtag_id; }; /* * Bridge route node */ struct bridge_rtnode { LIST_ENTRY(bridge_rtnode) brt_next; /* next in list */ unsigned int brt_ifidx; /* destination ifs */ u_int8_t brt_flags; /* address flags */ u_int8_t brt_age; /* age counter */ struct ether_addr brt_addr; /* dst addr */ struct bridge_tunneltag brt_tunnel; /* tunnel endpoint */ }; #define brt_family brt_tunnel.brtag_peer.sa.sa_family #ifndef BRIDGE_RTABLE_SIZE #define BRIDGE_RTABLE_SIZE 1024 #endif #define BRIDGE_RTABLE_MASK (BRIDGE_RTABLE_SIZE - 1) /* * Locks used to protect struct members in this file: * I immutable after creation * m per-softc mutex * k kernel lock */ /* * Software state for each bridge */ struct bridge_softc { struct ifnet sc_if; /* the interface */ uint32_t sc_brtmax; /* [m] max # addresses */ uint32_t sc_brtcnt; /* [m] current # addrs */ int sc_brttimeout; /* timeout ticks */ uint64_t sc_hashkey[2]; /* [I] siphash key */ struct timeout sc_brtimeout; /* timeout state */ struct bstp_state *sc_stp; /* stp state */ SLIST_HEAD(, bridge_iflist) sc_iflist; /* [k] interface list */ SLIST_HEAD(, bridge_iflist) sc_spanlist; /* [k] span ports */ struct mutex sc_mtx; /* mutex */ LIST_HEAD(, bridge_rtnode) sc_rts[BRIDGE_RTABLE_SIZE]; /* [m] hash table */ }; extern const u_int8_t bstp_etheraddr[]; struct llc; int bridge_enqueue(struct ifnet *, struct mbuf *); void bridge_update(struct ifnet *, struct ether_addr *, int); void bridge_rtdelete(struct bridge_softc *, struct ifnet *, int); void bridge_rtagenode(struct ifnet *, int); struct bridge_tunneltag *bridge_tunnel(struct mbuf *); struct bridge_tunneltag *bridge_tunneltag(struct mbuf *); void bridge_tunneluntag(struct mbuf *); void bridge_copyaddr(struct sockaddr *, struct sockaddr *); void bridge_copytag(struct bridge_tunneltag *, struct bridge_tunneltag *); struct bstp_state *bstp_create(struct ifnet *); void bstp_destroy(struct bstp_state *); void bstp_initialization(struct bstp_state *); void bstp_stop(struct bstp_state *); int bstp_ioctl(struct ifnet *, u_long, caddr_t); struct bstp_port *bstp_add(struct bstp_state *, struct ifnet *); void bstp_delete(struct bstp_port *); struct mbuf *bstp_input(struct bstp_state *, struct bstp_port *, struct ether_header *, struct mbuf *); void bstp_ifstate(void *); u_int8_t bstp_getstate(struct bstp_state *, struct bstp_port *); void bstp_ifsflags(struct bstp_port *, u_int); int bridgectl_ioctl(struct ifnet *, u_long, caddr_t); int bridge_rtupdate(struct bridge_softc *, struct ether_addr *, struct ifnet *, int, u_int8_t, struct mbuf *); unsigned int bridge_rtlookup(struct ifnet *, struct ether_addr *, struct mbuf *); void bridge_rtflush(struct bridge_softc *, int); void bridge_rtage(void *); u_int8_t bridge_filterrule(struct brl_head *, struct ether_header *, struct mbuf *); void bridge_flushrule(struct bridge_iflist *); void bridge_fragment(struct ifnet *, struct ifnet *, struct ether_header *, struct mbuf *); struct bridge_iflist *bridge_getbif(struct ifnet *); #endif /* _KERNEL */ #endif /* _NET_IF_BRIDGE_H_ */