1/* $NetBSD: ip_mroute.h,v 1.30 2008/08/06 15:01:23 plunky Exp $ */ 2 3#ifndef _NETINET_IP_MROUTE_H_ 4#define _NETINET_IP_MROUTE_H_ 5 6/* 7 * Definitions for IP multicast forwarding. 8 * 9 * Written by David Waitzman, BBN Labs, August 1988. 10 * Modified by Steve Deering, Stanford, February 1989. 11 * Modified by Ajit Thyagarajan, PARC, August 1993. 12 * Modified by Ajit Thyagarajan, PARC, August 1994. 13 * Modified by Ahmed Helmy, SGI, June 1996. 14 * Modified by Pavlin Radoslavov, ICSI, October 2002. 15 * 16 * MROUTING Revision: 1.2 17 * and PIM-SMv2 and PIM-DM support, advanced API support, 18 * bandwidth metering and signaling. 19 */ 20 21#include <sys/queue.h> 22#include <sys/callout.h> 23 24#ifdef _KERNEL 25struct sockopt; /* from <sys/socketvar.h> */ 26#endif 27 28/* 29 * Multicast Routing set/getsockopt commands. 30 */ 31#define MRT_INIT 100 /* initialize forwarder */ 32#define MRT_DONE 101 /* shut down forwarder */ 33#define MRT_ADD_VIF 102 /* create virtual interface */ 34#define MRT_DEL_VIF 103 /* delete virtual interface */ 35#define MRT_ADD_MFC 104 /* insert forwarding cache entry */ 36#define MRT_DEL_MFC 105 /* delete forwarding cache entry */ 37#define MRT_VERSION 106 /* get kernel version number */ 38#define MRT_ASSERT 107 /* enable assert processing */ 39#define MRT_PIM MRT_ASSERT /* enable PIM processing */ 40#define MRT_API_SUPPORT 109 /* supported MRT API */ 41#define MRT_API_CONFIG 110 /* config MRT API */ 42#define MRT_ADD_BW_UPCALL 111 /* create bandwidth monitor */ 43#define MRT_DEL_BW_UPCALL 112 /* delete bandwidth monitor */ 44 45 46/* 47 * Types and macros for handling bitmaps with one bit per virtual interface. 48 */ 49#define MAXVIFS 32 50typedef u_int32_t vifbitmap_t; 51typedef u_int16_t vifi_t; /* type of a vif index */ 52 53#define VIFM_SET(n, m) ((m) |= (1 << (n))) 54#define VIFM_CLR(n, m) ((m) &= ~(1 << (n))) 55#define VIFM_ISSET(n, m) ((m) & (1 << (n))) 56#define VIFM_SETALL(m) ((m) = 0xffffffff) 57#define VIFM_CLRALL(m) ((m) = 0x00000000) 58#define VIFM_COPY(mfrom, mto) ((mto) = (mfrom)) 59#define VIFM_SAME(m1, m2) ((m1) == (m2)) 60 61#define VIFF_TUNNEL 0x1 /* vif represents a tunnel end-point */ 62#define VIFF_SRCRT 0x2 /* tunnel uses IP src routing */ 63#define VIFF_REGISTER 0x4 /* used for PIM Register encap/decap */ 64 65/* 66 * Argument structure for MRT_ADD_VIF. 67 * (MRT_DEL_VIF takes a single vifi_t argument.) 68 */ 69struct vifctl { 70 vifi_t vifc_vifi; /* the index of the vif to be added */ 71 u_int8_t vifc_flags; /* VIFF_ flags defined below */ 72 u_int8_t vifc_threshold; /* min ttl required to forward on vif */ 73 u_int32_t vifc_rate_limit; /* max rate */ 74 struct in_addr vifc_lcl_addr;/* local interface address */ 75 struct in_addr vifc_rmt_addr;/* remote address (tunnels only) */ 76}; 77 78/* 79 * Argument structure for MRT_ADD_MFC and MRT_DEL_MFC. 80 * XXX if you change this, make sure to change struct mfcctl2 as well. 81 */ 82struct mfcctl { 83 struct in_addr mfcc_origin; /* ip origin of mcasts */ 84 struct in_addr mfcc_mcastgrp; /* multicast group associated */ 85 vifi_t mfcc_parent; /* incoming vif */ 86 u_int8_t mfcc_ttls[MAXVIFS]; /* forwarding ttls on vifs */ 87}; 88 89/* 90 * The new argument structure for MRT_ADD_MFC and MRT_DEL_MFC overlays 91 * and extends the old struct mfcctl. 92 */ 93struct mfcctl2 { 94 /* the mfcctl fields */ 95 struct in_addr mfcc_origin; /* ip origin of mcasts */ 96 struct in_addr mfcc_mcastgrp; /* multicast group associated*/ 97 vifi_t mfcc_parent; /* incoming vif */ 98 u_int8_t mfcc_ttls[MAXVIFS]; /* forwarding ttls on vifs */ 99 100 /* extension fields */ 101 u_int8_t mfcc_flags[MAXVIFS]; /* the MRT_MFC_FLAGS_* flags */ 102 struct in_addr mfcc_rp; /* the RP address */ 103}; 104/* 105 * The advanced-API flags. 106 * 107 * The MRT_MFC_FLAGS_XXX API flags are also used as flags 108 * for the mfcc_flags field. 109 */ 110#define MRT_MFC_FLAGS_DISABLE_WRONGVIF (1 << 0) /* disable WRONGVIF signals */ 111#define MRT_MFC_FLAGS_BORDER_VIF (1 << 1) /* border vif */ 112#define MRT_MFC_RP (1 << 8) /* enable RP address */ 113#define MRT_MFC_BW_UPCALL (1 << 9) /* enable bw upcalls */ 114#define MRT_MFC_FLAGS_ALL (MRT_MFC_FLAGS_DISABLE_WRONGVIF | \ 115 MRT_MFC_FLAGS_BORDER_VIF) 116#define MRT_API_FLAGS_ALL (MRT_MFC_FLAGS_ALL | \ 117 MRT_MFC_RP | \ 118 MRT_MFC_BW_UPCALL) 119 120/* 121 * Structure for installing or delivering an upcall if the 122 * measured bandwidth is above or below a threshold. 123 * 124 * User programs (e.g. daemons) may have a need to know when the 125 * bandwidth used by some data flow is above or below some threshold. 126 * This interface allows the userland to specify the threshold (in 127 * bytes and/or packets) and the measurement interval. Flows are 128 * all packet with the same source and destination IP address. 129 * At the moment the code is only used for multicast destinations 130 * but there is nothing that prevents its use for unicast. 131 * 132 * The measurement interval cannot be shorter than some Tmin (currently, 3s). 133 * The threshold is set in packets and/or bytes per_interval. 134 * 135 * Measurement works as follows: 136 * 137 * For >= measurements: 138 * The first packet marks the start of a measurement interval. 139 * During an interval we count packets and bytes, and when we 140 * pass the threshold we deliver an upcall and we are done. 141 * The first packet after the end of the interval resets the 142 * count and restarts the measurement. 143 * 144 * For <= measurement: 145 * We start a timer to fire at the end of the interval, and 146 * then for each incoming packet we count packets and bytes. 147 * When the timer fires, we compare the value with the threshold, 148 * schedule an upcall if we are below, and restart the measurement 149 * (reschedule timer and zero counters). 150 */ 151 152struct bw_data { 153 struct timeval b_time; 154 u_int64_t b_packets; 155 u_int64_t b_bytes; 156}; 157 158struct bw_upcall { 159 struct in_addr bu_src; /* source address */ 160 struct in_addr bu_dst; /* destination address */ 161 u_int32_t bu_flags; /* misc flags (see below) */ 162#define BW_UPCALL_UNIT_PACKETS (1 << 0) /* threshold (in packets) */ 163#define BW_UPCALL_UNIT_BYTES (1 << 1) /* threshold (in bytes) */ 164#define BW_UPCALL_GEQ (1 << 2) /* upcall if bw >= threshold */ 165#define BW_UPCALL_LEQ (1 << 3) /* upcall if bw <= threshold */ 166#define BW_UPCALL_DELETE_ALL (1 << 4) /* delete all upcalls for s,d*/ 167 struct bw_data bu_threshold; /* the bw threshold */ 168 struct bw_data bu_measured; /* the measured bw */ 169}; 170 171/* max. number of upcalls to deliver together */ 172#define BW_UPCALLS_MAX 128 173/* min. threshold time interval for bandwidth measurement */ 174#define BW_UPCALL_THRESHOLD_INTERVAL_MIN_SEC 3 175#define BW_UPCALL_THRESHOLD_INTERVAL_MIN_USEC 0 176 177/* 178 * Argument structure used by mrouted to get src-grp pkt counts. 179 */ 180struct sioc_sg_req { 181 struct in_addr src; 182 struct in_addr grp; 183 u_long pktcnt; 184 u_long bytecnt; 185 u_long wrong_if; 186}; 187 188/* 189 * Argument structure used by mrouted to get vif pkt counts. 190 */ 191struct sioc_vif_req { 192 vifi_t vifi; /* vif number */ 193 u_long icount; /* input packet count on vif */ 194 u_long ocount; /* output packet count on vif */ 195 u_long ibytes; /* input byte count on vif */ 196 u_long obytes; /* output byte count on vif */ 197}; 198 199 200/* 201 * The kernel's multicast routing statistics. 202 */ 203struct mrtstat { 204 u_long mrts_mfc_lookups; /* # forw. cache hash table hits */ 205 u_long mrts_mfc_misses; /* # forw. cache hash table misses */ 206 u_long mrts_upcalls; /* # calls to mrouted */ 207 u_long mrts_no_route; /* no route for packet's origin */ 208 u_long mrts_bad_tunnel; /* malformed tunnel options */ 209 u_long mrts_cant_tunnel; /* no room for tunnel options */ 210 u_long mrts_wrong_if; /* arrived on wrong interface */ 211 u_long mrts_upq_ovflw; /* upcall Q overflow */ 212 u_long mrts_cache_cleanups; /* # entries with no upcalls */ 213 u_long mrts_drop_sel; /* pkts dropped selectively */ 214 u_long mrts_q_overflow; /* pkts dropped - Q overflow */ 215 u_long mrts_pkt2large; /* pkts dropped - size > BKT SIZE */ 216 u_long mrts_upq_sockfull; /* upcalls dropped - socket full */ 217}; 218 219 220#ifdef _KERNEL 221 222/* 223 * The kernel's virtual-interface structure. 224 */ 225struct encaptab; 226struct vif { 227 struct mbuf *tbf_q, **tbf_t; /* packet queue */ 228 struct timeval tbf_last_pkt_t; /* arr. time of last pkt */ 229 u_int32_t tbf_n_tok; /* no of tokens in bucket */ 230 u_int32_t tbf_q_len; /* length of queue at this vif */ 231 u_int32_t tbf_max_q_len; /* max. queue length */ 232 233 u_int8_t v_flags; /* VIFF_ flags defined above */ 234 u_int8_t v_threshold; /* min ttl required to forward on vif */ 235 u_int32_t v_rate_limit; /* max rate */ 236 struct in_addr v_lcl_addr; /* local interface address */ 237 struct in_addr v_rmt_addr; /* remote address (tunnels only) */ 238 struct ifnet *v_ifp; /* pointer to interface */ 239 u_long v_pkt_in; /* # pkts in on interface */ 240 u_long v_pkt_out; /* # pkts out on interface */ 241 u_long v_bytes_in; /* # bytes in on interface */ 242 u_long v_bytes_out; /* # bytes out on interface */ 243 struct route v_route; /* cached route if this is a tunnel */ 244 callout_t v_repq_ch; /* for tbf_reprocess_q() */ 245#ifdef RSVP_ISI 246 int v_rsvp_on; /* # RSVP listening on this vif */ 247 struct socket *v_rsvpd; /* # RSVPD daemon */ 248#endif /* RSVP_ISI */ 249 const struct encaptab *v_encap_cookie; 250}; 251 252/* 253 * The kernel's multicast forwarding cache entry structure. 254 * (A field for the type of service (mfc_tos) is to be added 255 * at a future point.) 256 */ 257struct mfc { 258 LIST_ENTRY(mfc) mfc_hash; 259 struct in_addr mfc_origin; /* ip origin of mcasts */ 260 struct in_addr mfc_mcastgrp; /* multicast group associated */ 261 vifi_t mfc_parent; /* incoming vif */ 262 u_int8_t mfc_ttls[MAXVIFS]; /* forwarding ttls on vifs */ 263 u_long mfc_pkt_cnt; /* pkt count for src-grp */ 264 u_long mfc_byte_cnt; /* byte count for src-grp */ 265 u_long mfc_wrong_if; /* wrong if for src-grp */ 266 int mfc_expire; /* time to clean entry up */ 267 struct timeval mfc_last_assert; /* last time I sent an assert */ 268 struct rtdetq *mfc_stall; /* pkts waiting for route */ 269 u_int8_t mfc_flags[MAXVIFS]; /* the MRT_MFC_FLAGS_* flags */ 270 struct in_addr mfc_rp; /* the RP address */ 271 struct bw_meter *mfc_bw_meter; /* list of bandwidth meters */ 272}; 273 274/* 275 * Structure used to communicate from kernel to multicast router. 276 * (Note the convenient similarity to an IP packet.) 277 */ 278struct igmpmsg { 279 u_int32_t unused1; 280 u_int32_t unused2; 281 u_int8_t im_msgtype; /* what type of message */ 282#define IGMPMSG_NOCACHE 1 /* no MFC in the kernel */ 283#define IGMPMSG_WRONGVIF 2 /* packet came from wrong interface */ 284#define IGMPMSG_WHOLEPKT 3 /* PIM pkt for user level encap. */ 285#define IGMPMSG_BW_UPCALL 4 /* BW monitoring upcall */ 286 u_int8_t im_mbz; /* must be zero */ 287 u_int8_t im_vif; /* vif rec'd on */ 288 u_int8_t unused3; 289 struct in_addr im_src, im_dst; 290} __packed; 291 292/* 293 * Argument structure used for pkt info. while upcall is made. 294 */ 295struct rtdetq { 296 struct mbuf *m; /* a copy of the packet */ 297 struct ifnet *ifp; /* interface pkt came in on */ 298#ifdef UPCALL_TIMING 299 struct timeval t; /* timestamp */ 300#endif /* UPCALL_TIMING */ 301 struct rtdetq *next; 302}; 303 304#define MFCTBLSIZ 256 305#define MAX_UPQ 4 /* max. no of pkts in upcall Q */ 306 307/* 308 * Token bucket filter code 309 */ 310#define MAX_BKT_SIZE 10000 /* 10K bytes size */ 311#define MAXQSIZE 10 /* max. no of pkts in token queue */ 312 313/* 314 * Structure for measuring the bandwidth and sending an upcall if the 315 * measured bandwidth is above or below a threshold. 316 */ 317struct bw_meter { 318 struct bw_meter *bm_mfc_next; /* next bw meter (same mfc) */ 319 struct bw_meter *bm_time_next; /* next bw meter (same time) */ 320 uint32_t bm_time_hash; /* the time hash value */ 321 struct mfc *bm_mfc; /* the corresponding mfc */ 322 uint32_t bm_flags; /* misc flags (see below) */ 323#define BW_METER_UNIT_PACKETS (1 << 0) /* threshold (in packets) */ 324#define BW_METER_UNIT_BYTES (1 << 1) /* threshold (in bytes) */ 325#define BW_METER_GEQ (1 << 2) /* upcall if bw >= threshold */ 326#define BW_METER_LEQ (1 << 3) /* upcall if bw <= threshold */ 327#define BW_METER_USER_FLAGS (BW_METER_UNIT_PACKETS | \ 328 BW_METER_UNIT_BYTES | \ 329 BW_METER_GEQ | \ 330 BW_METER_LEQ) 331 332#define BW_METER_UPCALL_DELIVERED (1 << 24) /* upcall was delivered */ 333 334 struct bw_data bm_threshold; /* the upcall threshold */ 335 struct bw_data bm_measured; /* the measured bw */ 336 struct timeval bm_start_time; /* abs. time */ 337}; 338 339int ip_mrouter_set(struct socket *, struct sockopt *); 340int ip_mrouter_get(struct socket *, struct sockopt *); 341int mrt_ioctl(struct socket *, u_long, void *); 342int ip_mrouter_done(void); 343void ip_mrouter_detach(struct ifnet *); 344void reset_vif(struct vif *); 345#ifdef RSVP_ISI 346int ip_mforward(struct mbuf *, struct ifnet *, struct ip_moptions *); 347int legal_vif_num(int); 348int ip_rsvp_vif_init(struct socket *, struct mbuf *); 349int ip_rsvp_vif_done(struct socket *, struct mbuf *); 350void ip_rsvp_force_done(struct socket *); 351void rsvp_input(struct mbuf *, int, int); 352#else 353int ip_mforward(struct mbuf *, struct ifnet *); 354#endif 355 356#endif /* _KERNEL */ 357 358#endif /* !_NETINET_IP_MROUTE_H_ */ 359