if.h revision 1.258.2.1
1 1.258.2.1 pgoyette /* $NetBSD: if.h,v 1.258.2.1 2018/03/06 23:19:20 pgoyette Exp $ */ 2 1.44 thorpej 3 1.44 thorpej /*- 4 1.70 thorpej * Copyright (c) 1999, 2000, 2001 The NetBSD Foundation, Inc. 5 1.44 thorpej * All rights reserved. 6 1.44 thorpej * 7 1.44 thorpej * This code is derived from software contributed to The NetBSD Foundation 8 1.106 agc * by William Studenmund and Jason R. Thorpe. 9 1.44 thorpej * 10 1.44 thorpej * Redistribution and use in source and binary forms, with or without 11 1.44 thorpej * modification, are permitted provided that the following conditions 12 1.44 thorpej * are met: 13 1.44 thorpej * 1. Redistributions of source code must retain the above copyright 14 1.44 thorpej * notice, this list of conditions and the following disclaimer. 15 1.44 thorpej * 2. Redistributions in binary form must reproduce the above copyright 16 1.44 thorpej * notice, this list of conditions and the following disclaimer in the 17 1.44 thorpej * documentation and/or other materials provided with the distribution. 18 1.44 thorpej * 19 1.44 thorpej * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.44 thorpej * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.44 thorpej * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.44 thorpej * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.44 thorpej * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.44 thorpej * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.44 thorpej * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.44 thorpej * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.44 thorpej * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.44 thorpej * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.44 thorpej * POSSIBILITY OF SUCH DAMAGE. 30 1.44 thorpej */ 31 1.10 cgd 32 1.1 cgd /* 33 1.9 mycroft * Copyright (c) 1982, 1986, 1989, 1993 34 1.9 mycroft * The Regents of the University of California. All rights reserved. 35 1.1 cgd * 36 1.1 cgd * Redistribution and use in source and binary forms, with or without 37 1.1 cgd * modification, are permitted provided that the following conditions 38 1.1 cgd * are met: 39 1.1 cgd * 1. Redistributions of source code must retain the above copyright 40 1.1 cgd * notice, this list of conditions and the following disclaimer. 41 1.1 cgd * 2. Redistributions in binary form must reproduce the above copyright 42 1.1 cgd * notice, this list of conditions and the following disclaimer in the 43 1.1 cgd * documentation and/or other materials provided with the distribution. 44 1.92 agc * 3. Neither the name of the University nor the names of its contributors 45 1.1 cgd * may be used to endorse or promote products derived from this software 46 1.1 cgd * without specific prior written permission. 47 1.1 cgd * 48 1.1 cgd * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 49 1.1 cgd * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 50 1.1 cgd * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 51 1.1 cgd * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 52 1.1 cgd * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 53 1.1 cgd * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 54 1.1 cgd * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 55 1.1 cgd * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 56 1.1 cgd * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 57 1.1 cgd * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 58 1.1 cgd * SUCH DAMAGE. 59 1.1 cgd * 60 1.30 fvdl * @(#)if.h 8.3 (Berkeley) 2/9/95 61 1.1 cgd */ 62 1.1 cgd 63 1.28 chuck #ifndef _NET_IF_H_ 64 1.28 chuck #define _NET_IF_H_ 65 1.28 chuck 66 1.152 dyoung #if !defined(_KERNEL) && !defined(_STANDALONE) 67 1.152 dyoung #include <stdbool.h> 68 1.152 dyoung #endif 69 1.152 dyoung 70 1.87 bjh21 #include <sys/featuretest.h> 71 1.88 bjh21 72 1.88 bjh21 /* 73 1.88 bjh21 * Length of interface external name, including terminating '\0'. 74 1.88 bjh21 * Note: this is the same size as a generic device's external name. 75 1.88 bjh21 */ 76 1.88 bjh21 #define IF_NAMESIZE 16 77 1.88 bjh21 78 1.87 bjh21 #if defined(_NETBSD_SOURCE) 79 1.38 kleink 80 1.81 soren #include <sys/socket.h> 81 1.17 mycroft #include <sys/queue.h> 82 1.170 ozaki #include <sys/mutex.h> 83 1.166 ozaki 84 1.60 thorpej #include <net/dlt.h> 85 1.67 thorpej #include <net/pfil.h> 86 1.167 ozaki #ifdef _KERNEL 87 1.166 ozaki #include <net/pktqueue.h> 88 1.204 ozaki #include <sys/pslist.h> 89 1.204 ozaki #include <sys/pserialize.h> 90 1.204 ozaki #include <sys/psref.h> 91 1.167 ozaki #endif 92 1.17 mycroft 93 1.1 cgd /* 94 1.58 thorpej * Always include ALTQ glue here -- we use the ALTQ interface queue 95 1.58 thorpej * structure even when ALTQ is not configured into the kernel so that 96 1.58 thorpej * the size of struct ifnet does not changed based on the option. The 97 1.58 thorpej * ALTQ queue structure is API-compatible with the legacy ifqueue. 98 1.58 thorpej */ 99 1.58 thorpej #include <altq/if_altq.h> 100 1.58 thorpej 101 1.58 thorpej /* 102 1.1 cgd * Structures defining a network interface, providing a packet 103 1.1 cgd * transport mechanism (ala level 0 of the PUP protocols). 104 1.1 cgd * 105 1.1 cgd * Each interface accepts output datagrams of a specified maximum 106 1.1 cgd * length, and provides higher level routines with input datagrams 107 1.1 cgd * received from its medium. 108 1.1 cgd * 109 1.9 mycroft * Output occurs when the routine if_output is called, with four parameters: 110 1.9 mycroft * (*ifp->if_output)(ifp, m, dst, rt) 111 1.1 cgd * Here m is the mbuf chain to be sent and dst is the destination address. 112 1.1 cgd * The output routine encapsulates the supplied datagram if necessary, 113 1.1 cgd * and then transmits it on its medium. 114 1.1 cgd * 115 1.1 cgd * On input, each interface unwraps the data received by it, and either 116 1.1 cgd * places it on the input queue of a internetwork datagram routine 117 1.1 cgd * and posts the associated software interrupt, or passes the datagram to a raw 118 1.1 cgd * packet input routine. 119 1.1 cgd * 120 1.1 cgd * Routines exist for locating interfaces by their addresses 121 1.1 cgd * or for locating a interface on a certain network, as well as more general 122 1.1 cgd * routing and gateway routines maintaining information used to locate 123 1.1 cgd * interfaces. These routines live in the files if.c and route.c 124 1.1 cgd */ 125 1.1 cgd #include <sys/time.h> 126 1.1 cgd 127 1.69 mrg #if defined(_KERNEL_OPT) 128 1.42 bouyer #include "opt_compat_netbsd.h" 129 1.192 ozaki #include "opt_gateway.h" 130 1.42 bouyer #endif 131 1.42 bouyer 132 1.9 mycroft struct mbuf; 133 1.9 mycroft struct proc; 134 1.9 mycroft struct rtentry; 135 1.9 mycroft struct socket; 136 1.9 mycroft struct ether_header; 137 1.120 dyoung struct ifaddr; 138 1.51 thorpej struct ifnet; 139 1.65 itojun struct rt_addrinfo; 140 1.51 thorpej 141 1.88 bjh21 #define IFNAMSIZ IF_NAMESIZE 142 1.53 thorpej 143 1.53 thorpej /* 144 1.51 thorpej * Structure describing a `cloning' interface. 145 1.51 thorpej */ 146 1.51 thorpej struct if_clone { 147 1.51 thorpej LIST_ENTRY(if_clone) ifc_list; /* on list of cloners */ 148 1.51 thorpej const char *ifc_name; /* name of device, e.g. `gif' */ 149 1.51 thorpej size_t ifc_namelen; /* length of name */ 150 1.51 thorpej 151 1.51 thorpej int (*ifc_create)(struct if_clone *, int); 152 1.98 peter int (*ifc_destroy)(struct ifnet *); 153 1.51 thorpej }; 154 1.51 thorpej 155 1.51 thorpej #define IF_CLONE_INITIALIZER(name, create, destroy) \ 156 1.119 christos { { NULL, NULL }, name, sizeof(name) - 1, create, destroy } 157 1.9 mycroft 158 1.1 cgd /* 159 1.53 thorpej * Structure used to query names of interface cloners. 160 1.53 thorpej */ 161 1.53 thorpej struct if_clonereq { 162 1.53 thorpej int ifcr_total; /* total cloners (out) */ 163 1.53 thorpej int ifcr_count; /* room for this many in user buffer */ 164 1.53 thorpej char *ifcr_buffer; /* buffer for cloner names */ 165 1.53 thorpej }; 166 1.53 thorpej 167 1.53 thorpej /* 168 1.12 cgd * Structure defining statistics and other data kept regarding a network 169 1.12 cgd * interface. 170 1.12 cgd */ 171 1.46 thorpej struct if_data { 172 1.12 cgd /* generic interface information */ 173 1.12 cgd u_char ifi_type; /* ethernet, tokenring, etc. */ 174 1.12 cgd u_char ifi_addrlen; /* media address length */ 175 1.12 cgd u_char ifi_hdrlen; /* media header length */ 176 1.46 thorpej int ifi_link_state; /* current link state */ 177 1.145 dyoung uint64_t ifi_mtu; /* maximum transmission unit */ 178 1.145 dyoung uint64_t ifi_metric; /* routing metric (external only) */ 179 1.145 dyoung uint64_t ifi_baudrate; /* linespeed */ 180 1.42 bouyer /* volatile statistics */ 181 1.145 dyoung uint64_t ifi_ipackets; /* packets received on interface */ 182 1.145 dyoung uint64_t ifi_ierrors; /* input errors on interface */ 183 1.145 dyoung uint64_t ifi_opackets; /* packets sent on interface */ 184 1.145 dyoung uint64_t ifi_oerrors; /* output errors on interface */ 185 1.145 dyoung uint64_t ifi_collisions; /* collisions on csma interfaces */ 186 1.145 dyoung uint64_t ifi_ibytes; /* total number of octets received */ 187 1.145 dyoung uint64_t ifi_obytes; /* total number of octets sent */ 188 1.145 dyoung uint64_t ifi_imcasts; /* packets received via multicast */ 189 1.145 dyoung uint64_t ifi_omcasts; /* packets sent via multicast */ 190 1.145 dyoung uint64_t ifi_iqdrops; /* dropped on input, this interface */ 191 1.145 dyoung uint64_t ifi_noproto; /* destined for unsupported protocol */ 192 1.142 christos struct timespec ifi_lastchange;/* last operational state change */ 193 1.42 bouyer }; 194 1.42 bouyer 195 1.46 thorpej /* 196 1.46 thorpej * Values for if_link_state. 197 1.46 thorpej */ 198 1.46 thorpej #define LINK_STATE_UNKNOWN 0 /* link invalid/unknown */ 199 1.46 thorpej #define LINK_STATE_DOWN 1 /* link is down */ 200 1.46 thorpej #define LINK_STATE_UP 2 /* link is up */ 201 1.46 thorpej 202 1.12 cgd /* 203 1.1 cgd * Structure defining a queue for a network interface. 204 1.55 thorpej */ 205 1.55 thorpej struct ifqueue { 206 1.169 ozaki struct mbuf *ifq_head; 207 1.169 ozaki struct mbuf *ifq_tail; 208 1.169 ozaki int ifq_len; 209 1.169 ozaki int ifq_maxlen; 210 1.169 ozaki int ifq_drops; 211 1.169 ozaki kmutex_t *ifq_lock; 212 1.55 thorpej }; 213 1.55 thorpej 214 1.153 dyoung #ifdef _KERNEL 215 1.153 dyoung #include <sys/percpu.h> 216 1.178 ozaki #include <sys/callout.h> 217 1.191 ozaki #include <sys/rwlock.h> 218 1.153 dyoung 219 1.153 dyoung #endif /* _KERNEL */ 220 1.153 dyoung 221 1.55 thorpej /* 222 1.55 thorpej * Structure defining a queue for a network interface. 223 1.1 cgd * 224 1.1 cgd * (Would like to call this struct ``if'', but C isn't PL/1.) 225 1.1 cgd */ 226 1.19 cgd TAILQ_HEAD(ifnet_head, ifnet); /* the actual queue head */ 227 1.23 thorpej 228 1.172 ozaki struct bridge_softc; 229 1.172 ozaki struct bridge_iflist; 230 1.179 ozaki struct callout; 231 1.191 ozaki struct krwlock; 232 1.195 ozaki struct if_percpuq; 233 1.230 ozaki struct if_deferred_start; 234 1.235 ozaki struct in6_multi; 235 1.172 ozaki 236 1.212 ozaki typedef unsigned short if_index_t; 237 1.212 ozaki 238 1.255 ozaki /* 239 1.255 ozaki * Interface. Field markings and the corresponding locks: 240 1.255 ozaki * 241 1.255 ozaki * i: IFNET_LOCK (a.k.a., if_ioctl_lock) 242 1.255 ozaki * q: ifq_lock (struct ifaltq) 243 1.255 ozaki * a: if_afdata_lock 244 1.255 ozaki * 6: in6_multilock (global lock) 245 1.255 ozaki * :: unlocked, stable 246 1.255 ozaki * ?: unkown, maybe unsafe 247 1.255 ozaki * 248 1.255 ozaki * Lock order: IFNET_LOCK => in6_multilock => if_afdata_lock => ifq_lock 249 1.255 ozaki * Note that currently if_afdata_lock and ifq_lock aren't held 250 1.255 ozaki * at the same time, but define the order anyway. 251 1.255 ozaki * 252 1.255 ozaki * Lock order of IFNET_LOCK with other locks: 253 1.255 ozaki * softnet_lock => solock => IFNET_LOCK => ND6_LOCK, in_multilock 254 1.255 ozaki */ 255 1.149 rmind typedef struct ifnet { 256 1.255 ozaki void *if_softc; /* :: lower-level data for this if */ 257 1.204 ozaki /* DEPRECATED. Keep it to avoid breaking kvm(3) users */ 258 1.255 ozaki TAILQ_ENTRY(ifnet) 259 1.255 ozaki if_list; /* i: all struct ifnets are chained */ 260 1.255 ozaki TAILQ_HEAD(, ifaddr) 261 1.255 ozaki if_addrlist; /* i: linked list of addresses per if */ 262 1.255 ozaki char if_xname[IFNAMSIZ]; 263 1.255 ozaki /* :: external name (name + unit) */ 264 1.255 ozaki int if_pcount; /* i: number of promiscuous listeners */ 265 1.255 ozaki struct bpf_if *if_bpf; /* :: packet filter structure */ 266 1.255 ozaki if_index_t if_index; /* :: numeric abbreviation for this if */ 267 1.255 ozaki short if_timer; /* ?: time 'til if_slowtimo called */ 268 1.255 ozaki unsigned short if_flags; /* i: up/down, broadcast, etc. */ 269 1.255 ozaki short if_extflags; /* :: if_output MP-safe, etc. */ 270 1.255 ozaki struct if_data if_data; /* ?: statistics and other data about if */ 271 1.44 thorpej /* 272 1.44 thorpej * Procedure handles. If you add more of these, don't forget the 273 1.44 thorpej * corresponding NULL stub in if.c. 274 1.44 thorpej */ 275 1.255 ozaki int (*if_output) /* :: output routine (enqueue) */ 276 1.255 ozaki (struct ifnet *, struct mbuf *, const struct sockaddr *, 277 1.255 ozaki const struct rtentry *); 278 1.255 ozaki void (*_if_input) /* :: input routine (from h/w driver) */ 279 1.255 ozaki (struct ifnet *, struct mbuf *); 280 1.255 ozaki void (*if_start) /* :: initiate output routine */ 281 1.255 ozaki (struct ifnet *); 282 1.255 ozaki int (*if_transmit) /* :: output routine, must be MP-safe */ 283 1.255 ozaki (struct ifnet *, struct mbuf *); 284 1.255 ozaki int (*if_ioctl) /* :: ioctl routine */ 285 1.255 ozaki (struct ifnet *, u_long, void *); 286 1.255 ozaki int (*if_init) /* :: init routine */ 287 1.255 ozaki (struct ifnet *); 288 1.255 ozaki void (*if_stop) /* :: stop routine */ 289 1.255 ozaki (struct ifnet *, int); 290 1.255 ozaki void (*if_slowtimo) /* :: timer routine */ 291 1.255 ozaki (struct ifnet *); 292 1.177 ozaki #define if_watchdog if_slowtimo 293 1.255 ozaki void (*if_drain) /* :: routine to release resources */ 294 1.255 ozaki (struct ifnet *); 295 1.255 ozaki struct ifaltq if_snd; /* q: output queue (includes altq) */ 296 1.255 ozaki struct ifaddr *if_dl; /* i: identity of this interface. */ 297 1.255 ozaki const struct sockaddr_dl 298 1.255 ozaki *if_sadl; /* i: pointer to sockaddr_dl of if_dl */ 299 1.255 ozaki /* 300 1.141 dyoung * May be NULL. If not NULL, it is the address assigned 301 1.141 dyoung * to the interface by the manufacturer, so it very likely 302 1.141 dyoung * to be unique. It MUST NOT be deleted. It is highly 303 1.141 dyoung * suitable for deriving the EUI64 for the interface. 304 1.141 dyoung */ 305 1.255 ozaki struct ifaddr *if_hwdl; /* i: h/w identity */ 306 1.255 ozaki const uint8_t *if_broadcastaddr; 307 1.255 ozaki /* :: linklevel broadcast bytestring */ 308 1.255 ozaki struct bridge_softc 309 1.255 ozaki *if_bridge; /* i: bridge glue */ 310 1.255 ozaki struct bridge_iflist 311 1.255 ozaki *if_bridgeif; /* i: shortcut to interface list entry */ 312 1.255 ozaki int if_dlt; /* :: data link type (<net/dlt.h>) */ 313 1.255 ozaki pfil_head_t * if_pfil; /* :: filtering point */ 314 1.255 ozaki uint64_t if_capabilities; 315 1.255 ozaki /* i: interface capabilities */ 316 1.255 ozaki uint64_t if_capenable; /* i: capabilities enabled */ 317 1.116 liamjfoy union { 318 1.123 christos void * carp_s; /* carp structure (used by !carp ifs) */ 319 1.116 liamjfoy struct ifnet *carp_d;/* ptr to carpdev (used by carp ifs) */ 320 1.255 ozaki } if_carp_ptr; /* ?: */ 321 1.116 liamjfoy #define if_carp if_carp_ptr.carp_s 322 1.116 liamjfoy #define if_carpdev if_carp_ptr.carp_d 323 1.70 thorpej /* 324 1.70 thorpej * These are pre-computed based on an interfaces enabled 325 1.70 thorpej * capabilities, for speed elsewhere. 326 1.70 thorpej */ 327 1.255 ozaki int if_csum_flags_tx; 328 1.255 ozaki /* i: M_CSUM_* flags for Tx */ 329 1.255 ozaki int if_csum_flags_rx; 330 1.255 ozaki /* i: M_CSUM_* flags for Rx */ 331 1.255 ozaki 332 1.255 ozaki void *if_afdata[AF_MAX]; 333 1.255 ozaki /* a: */ 334 1.255 ozaki struct mowner *if_mowner; /* ?: who owns mbufs for this interface */ 335 1.104 yamt 336 1.255 ozaki void *if_agrprivate; /* ?: used only when #if NAGR > 0 */ 337 1.139 yamt 338 1.139 yamt /* 339 1.139 yamt * pf specific data, used only when #if NPF > 0. 340 1.139 yamt */ 341 1.255 ozaki void *if_pf_kif; /* ?: pf interface abstraction */ 342 1.255 ozaki void *if_pf_groups; /* ?: pf interface groups */ 343 1.143 dyoung /* 344 1.143 dyoung * During an ifnet's lifetime, it has only one if_index, but 345 1.143 dyoung * and if_index is not sufficient to identify an ifnet 346 1.143 dyoung * because during the lifetime of the system, many ifnets may occupy a 347 1.143 dyoung * given if_index. Let us tell different ifnets at the same 348 1.143 dyoung * if_index apart by their if_index_gen, a unique number that each ifnet 349 1.143 dyoung * is assigned when it if_attach()s. Now, the kernel can use the 350 1.143 dyoung * pair (if_index, if_index_gen) as a weak reference to an ifnet. 351 1.143 dyoung */ 352 1.255 ozaki uint64_t if_index_gen; /* :: generation number for the ifnet 353 1.143 dyoung * at if_index: if two ifnets' index 354 1.143 dyoung * and generation number are both the 355 1.143 dyoung * same, they are the same ifnet. 356 1.143 dyoung */ 357 1.255 ozaki struct sysctllog 358 1.255 ozaki *if_sysctl_log; /* :: */ 359 1.255 ozaki int (*if_initaddr) /* :: */ 360 1.255 ozaki (struct ifnet *, struct ifaddr *, bool); 361 1.255 ozaki int (*if_mcastop) /* :: */ 362 1.255 ozaki (struct ifnet *, const unsigned long, 363 1.255 ozaki const struct sockaddr *); 364 1.255 ozaki int (*if_setflags) /* :: */ 365 1.255 ozaki (struct ifnet *, const short); 366 1.255 ozaki kmutex_t *if_ioctl_lock; /* :: */ 367 1.178 ozaki #ifdef _KERNEL /* XXX kvm(3) */ 368 1.255 ozaki struct callout *if_slowtimo_ch;/* :: */ 369 1.255 ozaki struct krwlock *if_afdata_lock;/* :: */ 370 1.255 ozaki struct if_percpuq 371 1.255 ozaki *if_percpuq; /* :: we should remove it in the future */ 372 1.255 ozaki void *if_link_si; /* :: softint to handle link state changes */ 373 1.255 ozaki uint16_t if_link_queue; /* q: masked link state change queue */ 374 1.255 ozaki struct pslist_entry 375 1.255 ozaki if_pslist_entry;/* i: */ 376 1.255 ozaki struct psref_target 377 1.255 ozaki if_psref; /* :: */ 378 1.255 ozaki struct pslist_head 379 1.255 ozaki if_addr_pslist; /* i: */ 380 1.255 ozaki struct if_deferred_start 381 1.255 ozaki *if_deferred_start; 382 1.255 ozaki /* :: */ 383 1.235 ozaki /* XXX should be protocol independent */ 384 1.255 ozaki LIST_HEAD(, in6_multi) 385 1.255 ozaki if_multiaddrs; /* 6: */ 386 1.195 ozaki #endif 387 1.149 rmind } ifnet_t; 388 1.153 dyoung 389 1.9 mycroft #define if_mtu if_data.ifi_mtu 390 1.9 mycroft #define if_type if_data.ifi_type 391 1.9 mycroft #define if_addrlen if_data.ifi_addrlen 392 1.9 mycroft #define if_hdrlen if_data.ifi_hdrlen 393 1.9 mycroft #define if_metric if_data.ifi_metric 394 1.46 thorpej #define if_link_state if_data.ifi_link_state 395 1.9 mycroft #define if_baudrate if_data.ifi_baudrate 396 1.9 mycroft #define if_ipackets if_data.ifi_ipackets 397 1.9 mycroft #define if_ierrors if_data.ifi_ierrors 398 1.9 mycroft #define if_opackets if_data.ifi_opackets 399 1.9 mycroft #define if_oerrors if_data.ifi_oerrors 400 1.9 mycroft #define if_collisions if_data.ifi_collisions 401 1.9 mycroft #define if_ibytes if_data.ifi_ibytes 402 1.9 mycroft #define if_obytes if_data.ifi_obytes 403 1.9 mycroft #define if_imcasts if_data.ifi_imcasts 404 1.9 mycroft #define if_omcasts if_data.ifi_omcasts 405 1.9 mycroft #define if_iqdrops if_data.ifi_iqdrops 406 1.9 mycroft #define if_noproto if_data.ifi_noproto 407 1.9 mycroft #define if_lastchange if_data.ifi_lastchange 408 1.1 cgd 409 1.70 thorpej #define IFF_UP 0x0001 /* interface is up */ 410 1.70 thorpej #define IFF_BROADCAST 0x0002 /* broadcast address valid */ 411 1.70 thorpej #define IFF_DEBUG 0x0004 /* turn on debugging */ 412 1.70 thorpej #define IFF_LOOPBACK 0x0008 /* is a loopback net */ 413 1.70 thorpej #define IFF_POINTOPOINT 0x0010 /* interface is point-to-point link */ 414 1.70 thorpej #define IFF_NOTRAILERS 0x0020 /* avoid use of trailers */ 415 1.70 thorpej #define IFF_RUNNING 0x0040 /* resources allocated */ 416 1.70 thorpej #define IFF_NOARP 0x0080 /* no address resolution protocol */ 417 1.70 thorpej #define IFF_PROMISC 0x0100 /* receive all packets */ 418 1.70 thorpej #define IFF_ALLMULTI 0x0200 /* receive all multicast packets */ 419 1.70 thorpej #define IFF_OACTIVE 0x0400 /* transmission in progress */ 420 1.70 thorpej #define IFF_SIMPLEX 0x0800 /* can't hear own transmissions */ 421 1.5 cgd #define IFF_LINK0 0x1000 /* per link layer defined bit */ 422 1.6 cgd #define IFF_LINK1 0x2000 /* per link layer defined bit */ 423 1.6 cgd #define IFF_LINK2 0x4000 /* per link layer defined bit */ 424 1.9 mycroft #define IFF_MULTICAST 0x8000 /* supports multicast */ 425 1.4 hpeyerl 426 1.242 ozaki #define IFEF_MPSAFE __BIT(0) /* handlers can run in parallel (see below) */ 427 1.242 ozaki #define IFEF_NO_LINK_STATE_CHANGE __BIT(1) /* doesn't use link state interrupts */ 428 1.242 ozaki 429 1.242 ozaki /* 430 1.256 ozaki * The guidelines for converting an interface to IFEF_MPSAFE are as follows 431 1.256 ozaki * 432 1.256 ozaki * Enabling IFEF_MPSAFE on an interface suppresses taking KERNEL_LOCK when 433 1.256 ozaki * calling the following handlers: 434 1.256 ozaki * - if_start 435 1.256 ozaki * - Note that if_transmit is always called without KERNEL_LOCK 436 1.256 ozaki * - if_output 437 1.256 ozaki * - if_ioctl 438 1.256 ozaki * - if_init 439 1.256 ozaki * - if_stop 440 1.256 ozaki * 441 1.256 ozaki * This means that an interface with IFEF_MPSAFE must make the above handlers 442 1.256 ozaki * MP-safe or take KERNEL_LOCK by itself inside handlers that aren't MP-safe 443 1.256 ozaki * yet. 444 1.256 ozaki * 445 1.256 ozaki * There are some additional restrictions to access member variables of struct 446 1.256 ozaki * ifnet: 447 1.256 ozaki * - if_flags 448 1.256 ozaki * - Must be updated with holding IFNET_LOCK 449 1.256 ozaki * - You cannot use the flag in Tx/Rx paths anymore because there is no 450 1.256 ozaki * synchronization on the flag except for IFNET_LOCK 451 1.257 ozaki * - Note that IFNET_LOCK can't be taken in softint because it's known 452 1.257 ozaki * that it causes a deadlock 453 1.257 ozaki * - Some synchronization mechanisms such as pserialize_perform are called 454 1.257 ozaki * with IFNET_LOCK and also require context switches on every CPUs 455 1.257 ozaki * that mean softints finish so trying to take IFNET_LOCK in softint 456 1.257 ozaki * might block on IFNET_LOCK and prevent such synchronization mechanisms 457 1.257 ozaki * from being completed 458 1.257 ozaki * - Currently the deadlock occurs only if NET_MPSAFE is enabled, however, 459 1.257 ozaki * we should deal with the restriction because NET_MPSAFE will be enabled 460 1.257 ozaki * by default in the future 461 1.256 ozaki * - if_watchdog and if_timer 462 1.256 ozaki * - The watchdog framework works only for non-IFEF_MPSAFE interfaces 463 1.256 ozaki * that rely on KERNEL_LOCK 464 1.256 ozaki * - Interfaces with IFEF_MPSAFE have to provide its own watchdog mechanism 465 1.256 ozaki * if needed 466 1.256 ozaki * - Keep if_watchdog NULL when calling if_attach 467 1.242 ozaki */ 468 1.208 knakahar 469 1.210 knakahar #ifdef _KERNEL 470 1.209 knakahar static inline bool 471 1.242 ozaki if_is_mpsafe(struct ifnet *ifp) 472 1.209 knakahar { 473 1.209 knakahar 474 1.242 ozaki return ((ifp->if_extflags & IFEF_MPSAFE) != 0); 475 1.209 knakahar } 476 1.209 knakahar 477 1.209 knakahar static inline int 478 1.209 knakahar if_output_lock(struct ifnet *cifp, struct ifnet *ifp, struct mbuf *m, 479 1.209 knakahar const struct sockaddr *dst, const struct rtentry *rt) 480 1.209 knakahar { 481 1.209 knakahar 482 1.242 ozaki if (if_is_mpsafe(cifp)) { 483 1.209 knakahar return (*cifp->if_output)(ifp, m, dst, rt); 484 1.209 knakahar } else { 485 1.209 knakahar int ret; 486 1.209 knakahar 487 1.209 knakahar KERNEL_LOCK(1, NULL); 488 1.209 knakahar ret = (*cifp->if_output)(ifp, m, dst, rt); 489 1.209 knakahar KERNEL_UNLOCK_ONE(NULL); 490 1.209 knakahar return ret; 491 1.209 knakahar } 492 1.209 knakahar } 493 1.211 knakahar 494 1.211 knakahar static inline void 495 1.211 knakahar if_start_lock(struct ifnet *ifp) 496 1.211 knakahar { 497 1.211 knakahar 498 1.242 ozaki if (if_is_mpsafe(ifp)) { 499 1.211 knakahar (*ifp->if_start)(ifp); 500 1.211 knakahar } else { 501 1.211 knakahar KERNEL_LOCK(1, NULL); 502 1.211 knakahar (*ifp->if_start)(ifp); 503 1.211 knakahar KERNEL_UNLOCK_ONE(NULL); 504 1.211 knakahar } 505 1.211 knakahar } 506 1.216 knakahar 507 1.216 knakahar static inline bool 508 1.217 knakahar if_is_link_state_changeable(struct ifnet *ifp) 509 1.216 knakahar { 510 1.216 knakahar 511 1.216 knakahar return ((ifp->if_extflags & IFEF_NO_LINK_STATE_CHANGE) == 0); 512 1.216 knakahar } 513 1.243 ozaki 514 1.244 ozaki #define KERNEL_LOCK_IF_IFP_MPSAFE(ifp) \ 515 1.244 ozaki do { if (if_is_mpsafe(ifp)) { KERNEL_LOCK(1, NULL); } } while (0) 516 1.244 ozaki #define KERNEL_UNLOCK_IF_IFP_MPSAFE(ifp) \ 517 1.244 ozaki do { if (if_is_mpsafe(ifp)) { KERNEL_UNLOCK_ONE(NULL); } } while (0) 518 1.244 ozaki 519 1.244 ozaki #define KERNEL_LOCK_UNLESS_IFP_MPSAFE(ifp) \ 520 1.244 ozaki do { if (!if_is_mpsafe(ifp)) { KERNEL_LOCK(1, NULL); } } while (0) 521 1.244 ozaki #define KERNEL_UNLOCK_UNLESS_IFP_MPSAFE(ifp) \ 522 1.244 ozaki do { if (!if_is_mpsafe(ifp)) { KERNEL_UNLOCK_ONE(NULL); } } while (0) 523 1.244 ozaki 524 1.243 ozaki #ifdef _KERNEL_OPT 525 1.243 ozaki #include "opt_net_mpsafe.h" 526 1.243 ozaki #endif 527 1.243 ozaki 528 1.243 ozaki /* XXX explore a better place to define */ 529 1.243 ozaki #ifdef NET_MPSAFE 530 1.243 ozaki 531 1.243 ozaki #define KERNEL_LOCK_UNLESS_NET_MPSAFE() do { } while (0) 532 1.243 ozaki #define KERNEL_UNLOCK_UNLESS_NET_MPSAFE() do { } while (0) 533 1.243 ozaki 534 1.243 ozaki #define SOFTNET_LOCK_UNLESS_NET_MPSAFE() do { } while (0) 535 1.243 ozaki #define SOFTNET_UNLOCK_UNLESS_NET_MPSAFE() do { } while (0) 536 1.243 ozaki 537 1.243 ozaki #else /* NET_MPSAFE */ 538 1.243 ozaki 539 1.243 ozaki #define KERNEL_LOCK_UNLESS_NET_MPSAFE() \ 540 1.243 ozaki do { KERNEL_LOCK(1, NULL); } while (0) 541 1.243 ozaki #define KERNEL_UNLOCK_UNLESS_NET_MPSAFE() \ 542 1.243 ozaki do { KERNEL_UNLOCK_ONE(NULL); } while (0) 543 1.243 ozaki 544 1.243 ozaki #define SOFTNET_LOCK_UNLESS_NET_MPSAFE() \ 545 1.243 ozaki do { mutex_enter(softnet_lock); } while (0) 546 1.243 ozaki #define SOFTNET_UNLOCK_UNLESS_NET_MPSAFE() \ 547 1.243 ozaki do { mutex_exit(softnet_lock); } while (0) 548 1.243 ozaki 549 1.243 ozaki #endif /* NET_MPSAFE */ 550 1.243 ozaki 551 1.243 ozaki #define SOFTNET_KERNEL_LOCK_UNLESS_NET_MPSAFE() \ 552 1.243 ozaki do { \ 553 1.243 ozaki SOFTNET_LOCK_UNLESS_NET_MPSAFE(); \ 554 1.243 ozaki KERNEL_LOCK_UNLESS_NET_MPSAFE(); \ 555 1.243 ozaki } while (0) 556 1.243 ozaki 557 1.243 ozaki #define SOFTNET_KERNEL_UNLOCK_UNLESS_NET_MPSAFE() \ 558 1.243 ozaki do { \ 559 1.243 ozaki KERNEL_UNLOCK_UNLESS_NET_MPSAFE(); \ 560 1.243 ozaki SOFTNET_UNLOCK_UNLESS_NET_MPSAFE(); \ 561 1.243 ozaki } while (0) 562 1.243 ozaki 563 1.210 knakahar #endif /* _KERNEL */ 564 1.209 knakahar 565 1.105 thorpej #define IFFBITS \ 566 1.105 thorpej "\020\1UP\2BROADCAST\3DEBUG\4LOOPBACK\5POINTOPOINT\6NOTRAILERS" \ 567 1.105 thorpej "\7RUNNING\10NOARP\11PROMISC\12ALLMULTI\13OACTIVE\14SIMPLEX" \ 568 1.105 thorpej "\15LINK0\16LINK1\17LINK2\20MULTICAST" 569 1.105 thorpej 570 1.1 cgd /* flags set internally only: */ 571 1.9 mycroft #define IFF_CANTCHANGE \ 572 1.9 mycroft (IFF_BROADCAST|IFF_POINTOPOINT|IFF_RUNNING|IFF_OACTIVE|\ 573 1.52 thorpej IFF_SIMPLEX|IFF_MULTICAST|IFF_ALLMULTI|IFF_PROMISC) 574 1.1 cgd 575 1.1 cgd /* 576 1.46 thorpej * Some convenience macros used for setting ifi_baudrate. 577 1.46 thorpej */ 578 1.186 msaitoh #define IF_Kbps(x) ((x) * 1000ULL) /* kilobits/sec. */ 579 1.186 msaitoh #define IF_Mbps(x) (IF_Kbps((x) * 1000ULL)) /* megabits/sec. */ 580 1.186 msaitoh #define IF_Gbps(x) (IF_Mbps((x) * 1000ULL)) /* gigabits/sec. */ 581 1.46 thorpej 582 1.70 thorpej /* Capabilities that interfaces can advertise. */ 583 1.161 pooka /* 0x01 .. 0x40 were previously used */ 584 1.108 yamt #define IFCAP_TSOv4 0x00080 /* can do TCPv4 segmentation offload */ 585 1.108 yamt #define IFCAP_CSUM_IPv4_Rx 0x00100 /* can do IPv4 header checksums (Rx) */ 586 1.108 yamt #define IFCAP_CSUM_IPv4_Tx 0x00200 /* can do IPv4 header checksums (Tx) */ 587 1.108 yamt #define IFCAP_CSUM_TCPv4_Rx 0x00400 /* can do IPv4/TCP checksums (Rx) */ 588 1.108 yamt #define IFCAP_CSUM_TCPv4_Tx 0x00800 /* can do IPv4/TCP checksums (Tx) */ 589 1.108 yamt #define IFCAP_CSUM_UDPv4_Rx 0x01000 /* can do IPv4/UDP checksums (Rx) */ 590 1.108 yamt #define IFCAP_CSUM_UDPv4_Tx 0x02000 /* can do IPv4/UDP checksums (Tx) */ 591 1.108 yamt #define IFCAP_CSUM_TCPv6_Rx 0x04000 /* can do IPv6/TCP checksums (Rx) */ 592 1.108 yamt #define IFCAP_CSUM_TCPv6_Tx 0x08000 /* can do IPv6/TCP checksums (Tx) */ 593 1.108 yamt #define IFCAP_CSUM_UDPv6_Rx 0x10000 /* can do IPv6/UDP checksums (Rx) */ 594 1.108 yamt #define IFCAP_CSUM_UDPv6_Tx 0x20000 /* can do IPv6/UDP checksums (Tx) */ 595 1.121 yamt #define IFCAP_TSOv6 0x40000 /* can do TCPv6 segmentation offload */ 596 1.162 christos #define IFCAP_LRO 0x80000 /* can do Large Receive Offload */ 597 1.162 christos #define IFCAP_MASK 0xfff80 /* currently valid capabilities */ 598 1.108 yamt 599 1.108 yamt #define IFCAPBITS \ 600 1.108 yamt "\020" \ 601 1.108 yamt "\10TSO4" \ 602 1.108 yamt "\11IP4CSUM_Rx" \ 603 1.108 yamt "\12IP4CSUM_Tx" \ 604 1.108 yamt "\13TCP4CSUM_Rx" \ 605 1.108 yamt "\14TCP4CSUM_Tx" \ 606 1.108 yamt "\15UDP4CSUM_Rx" \ 607 1.108 yamt "\16UDP4CSUM_Tx" \ 608 1.108 yamt "\17TCP6CSUM_Rx" \ 609 1.108 yamt "\20TCP6CSUM_Tx" \ 610 1.108 yamt "\21UDP6CSUM_Rx" \ 611 1.121 yamt "\22UDP6CSUM_Tx" \ 612 1.162 christos "\23TSO6" \ 613 1.162 christos "\24LRO" \ 614 1.105 thorpej 615 1.191 ozaki #define IF_AFDATA_LOCK_INIT(ifp) \ 616 1.191 ozaki do {(ifp)->if_afdata_lock = rw_obj_alloc();} while (0) 617 1.191 ozaki 618 1.194 ozaki #define IF_AFDATA_LOCK_DESTROY(ifp) rw_obj_free((ifp)->if_afdata_lock) 619 1.194 ozaki 620 1.191 ozaki #define IF_AFDATA_WLOCK(ifp) rw_enter((ifp)->if_afdata_lock, RW_WRITER) 621 1.191 ozaki #define IF_AFDATA_RLOCK(ifp) rw_enter((ifp)->if_afdata_lock, RW_READER) 622 1.191 ozaki #define IF_AFDATA_WUNLOCK(ifp) rw_exit((ifp)->if_afdata_lock) 623 1.191 ozaki #define IF_AFDATA_RUNLOCK(ifp) rw_exit((ifp)->if_afdata_lock) 624 1.191 ozaki #define IF_AFDATA_LOCK(ifp) IF_AFDATA_WLOCK(ifp) 625 1.191 ozaki #define IF_AFDATA_UNLOCK(ifp) IF_AFDATA_WUNLOCK(ifp) 626 1.191 ozaki #define IF_AFDATA_TRYLOCK(ifp) rw_tryenter((ifp)->if_afdata_lock, RW_WRITER) 627 1.191 ozaki 628 1.191 ozaki #define IF_AFDATA_LOCK_ASSERT(ifp) \ 629 1.191 ozaki KASSERT(rw_lock_held((ifp)->if_afdata_lock)) 630 1.191 ozaki #define IF_AFDATA_RLOCK_ASSERT(ifp) \ 631 1.191 ozaki KASSERT(rw_read_held((ifp)->if_afdata_lock)) 632 1.191 ozaki #define IF_AFDATA_WLOCK_ASSERT(ifp) \ 633 1.191 ozaki KASSERT(rw_write_held((ifp)->if_afdata_lock)) 634 1.191 ozaki 635 1.46 thorpej /* 636 1.1 cgd * Output queues (ifp->if_snd) and internetwork datagram level (pup level 1) 637 1.1 cgd * input routines have queues of messages stored on ifqueue structures 638 1.1 cgd * (defined above). Entries are added to and deleted from these structures 639 1.79 pooka * by these macros, which should be called with ipl raised to splnet(). 640 1.1 cgd */ 641 1.1 cgd #define IF_QFULL(ifq) ((ifq)->ifq_len >= (ifq)->ifq_maxlen) 642 1.1 cgd #define IF_DROP(ifq) ((ifq)->ifq_drops++) 643 1.112 christos #define IF_ENQUEUE(ifq, m) do { \ 644 1.1 cgd (m)->m_nextpkt = 0; \ 645 1.1 cgd if ((ifq)->ifq_tail == 0) \ 646 1.1 cgd (ifq)->ifq_head = m; \ 647 1.1 cgd else \ 648 1.1 cgd (ifq)->ifq_tail->m_nextpkt = m; \ 649 1.1 cgd (ifq)->ifq_tail = m; \ 650 1.1 cgd (ifq)->ifq_len++; \ 651 1.112 christos } while (/*CONSTCOND*/0) 652 1.112 christos #define IF_PREPEND(ifq, m) do { \ 653 1.1 cgd (m)->m_nextpkt = (ifq)->ifq_head; \ 654 1.1 cgd if ((ifq)->ifq_tail == 0) \ 655 1.1 cgd (ifq)->ifq_tail = (m); \ 656 1.1 cgd (ifq)->ifq_head = (m); \ 657 1.1 cgd (ifq)->ifq_len++; \ 658 1.112 christos } while (/*CONSTCOND*/0) 659 1.112 christos #define IF_DEQUEUE(ifq, m) do { \ 660 1.1 cgd (m) = (ifq)->ifq_head; \ 661 1.1 cgd if (m) { \ 662 1.1 cgd if (((ifq)->ifq_head = (m)->m_nextpkt) == 0) \ 663 1.1 cgd (ifq)->ifq_tail = 0; \ 664 1.1 cgd (m)->m_nextpkt = 0; \ 665 1.1 cgd (ifq)->ifq_len--; \ 666 1.1 cgd } \ 667 1.112 christos } while (/*CONSTCOND*/0) 668 1.55 thorpej #define IF_POLL(ifq, m) ((m) = (ifq)->ifq_head) 669 1.55 thorpej #define IF_PURGE(ifq) \ 670 1.55 thorpej do { \ 671 1.55 thorpej struct mbuf *__m0; \ 672 1.57 thorpej \ 673 1.57 thorpej for (;;) { \ 674 1.57 thorpej IF_DEQUEUE((ifq), __m0); \ 675 1.57 thorpej if (__m0 == NULL) \ 676 1.57 thorpej break; \ 677 1.57 thorpej else \ 678 1.57 thorpej m_freem(__m0); \ 679 1.57 thorpej } \ 680 1.83 perry } while (/*CONSTCOND*/ 0) 681 1.55 thorpej #define IF_IS_EMPTY(ifq) ((ifq)->ifq_len == 0) 682 1.1 cgd 683 1.91 ragge #ifndef IFQ_MAXLEN 684 1.102 jonathan #define IFQ_MAXLEN 256 685 1.91 ragge #endif 686 1.1 cgd #define IFNET_SLOWHZ 1 /* granularity is 1 second */ 687 1.1 cgd 688 1.1 cgd /* 689 1.35 aidan * Structure defining statistics and other data kept regarding an address 690 1.35 aidan * on a network interface. 691 1.35 aidan */ 692 1.35 aidan struct ifaddr_data { 693 1.35 aidan int64_t ifad_inbytes; 694 1.35 aidan int64_t ifad_outbytes; 695 1.35 aidan }; 696 1.35 aidan 697 1.35 aidan /* 698 1.1 cgd * The ifaddr structure contains information about one address 699 1.1 cgd * of an interface. They are maintained by the different address families, 700 1.1 cgd * are allocated and attached when an address is set, and are linked 701 1.1 cgd * together so all addresses for an interface can be located. 702 1.1 cgd */ 703 1.1 cgd struct ifaddr { 704 1.1 cgd struct sockaddr *ifa_addr; /* address of interface */ 705 1.1 cgd struct sockaddr *ifa_dstaddr; /* other end of p-to-p link */ 706 1.1 cgd #define ifa_broadaddr ifa_dstaddr /* broadcast address interface */ 707 1.1 cgd struct sockaddr *ifa_netmask; /* used to determine subnet */ 708 1.1 cgd struct ifnet *ifa_ifp; /* back-pointer to interface */ 709 1.17 mycroft TAILQ_ENTRY(ifaddr) ifa_list; /* list of addresses for interface */ 710 1.35 aidan struct ifaddr_data ifa_data; /* statistics on the address */ 711 1.20 christos void (*ifa_rtrequest) /* check or clean routes (+ or -)'d */ 712 1.140 dyoung (int, struct rtentry *, const struct rt_addrinfo *); 713 1.41 wrstuden u_int ifa_flags; /* mostly rt_flags for cloning */ 714 1.41 wrstuden int ifa_refcnt; /* count of references */ 715 1.9 mycroft int ifa_metric; /* cost of going out this interface */ 716 1.120 dyoung struct ifaddr *(*ifa_getifa)(struct ifaddr *, 717 1.120 dyoung const struct sockaddr *); 718 1.120 dyoung uint32_t *ifa_seqno; 719 1.120 dyoung int16_t ifa_preference; /* preference level for this address */ 720 1.223 ozaki #ifdef _KERNEL 721 1.223 ozaki struct pslist_entry ifa_pslist_entry; 722 1.224 ozaki struct psref_target ifa_psref; 723 1.223 ozaki #endif 724 1.1 cgd }; 725 1.136 dyoung #define IFA_ROUTE RTF_UP /* (0x01) route installed */ 726 1.231 ozaki #define IFA_DESTROYING 0x2 727 1.37 itojun 728 1.37 itojun /* 729 1.150 matt * Message format for use in obtaining information about interfaces from 730 1.150 matt * sysctl and the routing socket. We need to force 64-bit alignment if we 731 1.150 matt * aren't using compatiblity definitons. 732 1.9 mycroft */ 733 1.150 matt #if !defined(_KERNEL) || !defined(COMPAT_RTSOCK) 734 1.150 matt #define __align64 __aligned(sizeof(uint64_t)) 735 1.150 matt #else 736 1.150 matt #define __align64 737 1.150 matt #endif 738 1.9 mycroft struct if_msghdr { 739 1.150 matt u_short ifm_msglen __align64; 740 1.150 matt /* to skip over non-understood messages */ 741 1.71 wiz u_char ifm_version; /* future binary compatibility */ 742 1.9 mycroft u_char ifm_type; /* message type */ 743 1.9 mycroft int ifm_addrs; /* like rtm_addrs */ 744 1.9 mycroft int ifm_flags; /* value of if_flags */ 745 1.9 mycroft u_short ifm_index; /* index for associated ifp */ 746 1.150 matt struct if_data ifm_data __align64; 747 1.150 matt /* statistics and other data about if */ 748 1.9 mycroft }; 749 1.42 bouyer 750 1.9 mycroft /* 751 1.9 mycroft * Message format for use in obtaining information about interface addresses 752 1.9 mycroft * from sysctl and the routing socket. 753 1.9 mycroft */ 754 1.9 mycroft struct ifa_msghdr { 755 1.150 matt u_short ifam_msglen __align64; 756 1.150 matt /* to skip over non-understood messages */ 757 1.71 wiz u_char ifam_version; /* future binary compatibility */ 758 1.9 mycroft u_char ifam_type; /* message type */ 759 1.226 roy u_short ifam_index; /* index for associated ifp */ 760 1.226 roy int ifam_flags; /* value of ifa_flags */ 761 1.9 mycroft int ifam_addrs; /* like rtm_addrs */ 762 1.226 roy pid_t ifam_pid; /* identify sender */ 763 1.226 roy int ifam_addrflags; /* family specific address flags */ 764 1.150 matt int ifam_metric; /* value of ifa_metric */ 765 1.9 mycroft }; 766 1.46 thorpej 767 1.46 thorpej /* 768 1.46 thorpej * Message format announcing the arrival or departure of a network interface. 769 1.46 thorpej */ 770 1.46 thorpej struct if_announcemsghdr { 771 1.150 matt u_short ifan_msglen __align64; 772 1.150 matt /* to skip over non-understood messages */ 773 1.46 thorpej u_char ifan_version; /* future binary compatibility */ 774 1.46 thorpej u_char ifan_type; /* message type */ 775 1.46 thorpej u_short ifan_index; /* index for associated ifp */ 776 1.46 thorpej char ifan_name[IFNAMSIZ]; /* if name, e.g. "en0" */ 777 1.46 thorpej u_short ifan_what; /* what type of announcement */ 778 1.46 thorpej }; 779 1.46 thorpej 780 1.46 thorpej #define IFAN_ARRIVAL 0 /* interface arrival */ 781 1.46 thorpej #define IFAN_DEPARTURE 1 /* interface departure */ 782 1.9 mycroft 783 1.150 matt #undef __align64 784 1.150 matt 785 1.1 cgd /* 786 1.1 cgd * Interface request structure used for socket 787 1.1 cgd * ioctl's. All interface ioctl's must have parameter 788 1.1 cgd * definitions which begin with ifr_name. The 789 1.1 cgd * remainder may be interface specific. 790 1.1 cgd */ 791 1.1 cgd struct ifreq { 792 1.1 cgd char ifr_name[IFNAMSIZ]; /* if name, e.g. "en0" */ 793 1.1 cgd union { 794 1.1 cgd struct sockaddr ifru_addr; 795 1.1 cgd struct sockaddr ifru_dstaddr; 796 1.1 cgd struct sockaddr ifru_broadaddr; 797 1.124 christos struct sockaddr_storage ifru_space; 798 1.1 cgd short ifru_flags; 799 1.189 roy int ifru_addrflags; 800 1.1 cgd int ifru_metric; 801 1.24 cgd int ifru_mtu; 802 1.61 thorpej int ifru_dlt; 803 1.39 matt u_int ifru_value; 804 1.123 christos void * ifru_data; 805 1.111 dyoung struct { 806 1.111 dyoung uint32_t b_buflen; 807 1.111 dyoung void *b_buf; 808 1.111 dyoung } ifru_b; 809 1.1 cgd } ifr_ifru; 810 1.1 cgd #define ifr_addr ifr_ifru.ifru_addr /* address */ 811 1.1 cgd #define ifr_dstaddr ifr_ifru.ifru_dstaddr /* other end of p-to-p link */ 812 1.1 cgd #define ifr_broadaddr ifr_ifru.ifru_broadaddr /* broadcast address */ 813 1.127 gdt #define ifr_space ifr_ifru.ifru_space /* sockaddr_storage */ 814 1.1 cgd #define ifr_flags ifr_ifru.ifru_flags /* flags */ 815 1.189 roy #define ifr_addrflags ifr_ifru.ifru_addrflags /* addr flags */ 816 1.1 cgd #define ifr_metric ifr_ifru.ifru_metric /* metric */ 817 1.24 cgd #define ifr_mtu ifr_ifru.ifru_mtu /* mtu */ 818 1.61 thorpej #define ifr_dlt ifr_ifru.ifru_dlt /* data link type (DLT_*) */ 819 1.39 matt #define ifr_value ifr_ifru.ifru_value /* generic value */ 820 1.27 thorpej #define ifr_media ifr_ifru.ifru_metric /* media options (overload) */ 821 1.111 dyoung #define ifr_data ifr_ifru.ifru_data /* for use by interface 822 1.111 dyoung * XXX deprecated 823 1.111 dyoung */ 824 1.111 dyoung #define ifr_buf ifr_ifru.ifru_b.b_buf /* new interface ioctls */ 825 1.111 dyoung #define ifr_buflen ifr_ifru.ifru_b.b_buflen 826 1.159 christos #define ifr_index ifr_ifru.ifru_value /* interface index, BSD */ 827 1.159 christos #define ifr_ifindex ifr_index /* interface index, linux */ 828 1.70 thorpej }; 829 1.70 thorpej 830 1.126 dyoung #ifdef _KERNEL 831 1.125 dyoung #define ifreq_setdstaddr ifreq_setaddr 832 1.125 dyoung #define ifreq_setbroadaddr ifreq_setaddr 833 1.125 dyoung #define ifreq_getdstaddr ifreq_getaddr 834 1.125 dyoung #define ifreq_getbroadaddr ifreq_getaddr 835 1.125 dyoung 836 1.125 dyoung static inline const struct sockaddr * 837 1.160 christos /*ARGSUSED*/ 838 1.125 dyoung ifreq_getaddr(u_long cmd, const struct ifreq *ifr) 839 1.125 dyoung { 840 1.125 dyoung return &ifr->ifr_addr; 841 1.125 dyoung } 842 1.126 dyoung #endif /* _KERNEL */ 843 1.125 dyoung 844 1.70 thorpej struct ifcapreq { 845 1.70 thorpej char ifcr_name[IFNAMSIZ]; /* if name, e.g. "en0" */ 846 1.70 thorpej uint64_t ifcr_capabilities; /* supported capabiliites */ 847 1.70 thorpej uint64_t ifcr_capenable; /* capabilities enabled */ 848 1.50 itojun }; 849 1.1 cgd 850 1.1 cgd struct ifaliasreq { 851 1.1 cgd char ifra_name[IFNAMSIZ]; /* if name, e.g. "en0" */ 852 1.1 cgd struct sockaddr ifra_addr; 853 1.21 pk struct sockaddr ifra_dstaddr; 854 1.21 pk #define ifra_broadaddr ifra_dstaddr 855 1.1 cgd struct sockaddr ifra_mask; 856 1.76 matt }; 857 1.76 matt 858 1.76 matt struct ifdatareq { 859 1.76 matt char ifdr_name[IFNAMSIZ]; /* if name, e.g. "en0" */ 860 1.76 matt struct if_data ifdr_data; 861 1.27 thorpej }; 862 1.27 thorpej 863 1.27 thorpej struct ifmediareq { 864 1.27 thorpej char ifm_name[IFNAMSIZ]; /* if name, e.g. "en0" */ 865 1.27 thorpej int ifm_current; /* current media options */ 866 1.27 thorpej int ifm_mask; /* don't care mask */ 867 1.27 thorpej int ifm_status; /* media status */ 868 1.27 thorpej int ifm_active; /* active options */ 869 1.27 thorpej int ifm_count; /* # entries in ifm_ulist 870 1.27 thorpej array */ 871 1.27 thorpej int *ifm_ulist; /* media words */ 872 1.1 cgd }; 873 1.31 kml 874 1.101 perry 875 1.31 kml struct ifdrv { 876 1.31 kml char ifd_name[IFNAMSIZ]; /* if name, e.g. "en0" */ 877 1.31 kml unsigned long ifd_cmd; 878 1.31 kml size_t ifd_len; 879 1.31 kml void *ifd_data; 880 1.101 perry }; 881 1.148 pooka #define IFLINKSTR_QUERYLEN 0x01 882 1.148 pooka #define IFLINKSTR_UNSET 0x02 883 1.1 cgd 884 1.1 cgd /* 885 1.1 cgd * Structure used in SIOCGIFCONF request. 886 1.1 cgd * Used to retrieve interface configuration 887 1.1 cgd * for machine (useful for programs which 888 1.1 cgd * must know all networks accessible). 889 1.1 cgd */ 890 1.1 cgd struct ifconf { 891 1.1 cgd int ifc_len; /* size of associated buffer */ 892 1.1 cgd union { 893 1.123 christos void * ifcu_buf; 894 1.1 cgd struct ifreq *ifcu_req; 895 1.1 cgd } ifc_ifcu; 896 1.1 cgd #define ifc_buf ifc_ifcu.ifcu_buf /* buffer address */ 897 1.1 cgd #define ifc_req ifc_ifcu.ifcu_req /* array of structures returned */ 898 1.1 cgd }; 899 1.1 cgd 900 1.37 itojun /* 901 1.37 itojun * Structure for SIOC[AGD]LIFADDR 902 1.37 itojun */ 903 1.37 itojun struct if_laddrreq { 904 1.37 itojun char iflr_name[IFNAMSIZ]; 905 1.37 itojun unsigned int flags; 906 1.37 itojun #define IFLR_PREFIX 0x8000 /* in: prefix given out: kernel fills id */ 907 1.136 dyoung #define IFLR_ACTIVE 0x4000 /* in/out: link-layer address activation */ 908 1.141 dyoung #define IFLR_FACTORY 0x2000 /* in/out: factory link-layer address */ 909 1.37 itojun unsigned int prefixlen; /* in/out */ 910 1.37 itojun struct sockaddr_storage addr; /* in/out */ 911 1.37 itojun struct sockaddr_storage dstaddr; /* out */ 912 1.37 itojun }; 913 1.37 itojun 914 1.120 dyoung /* 915 1.120 dyoung * Structure for SIOC[SG]IFADDRPREF 916 1.120 dyoung */ 917 1.120 dyoung struct if_addrprefreq { 918 1.120 dyoung char ifap_name[IFNAMSIZ]; 919 1.120 dyoung int16_t ifap_preference; /* in/out */ 920 1.120 dyoung struct sockaddr_storage ifap_addr; /* in/out */ 921 1.120 dyoung }; 922 1.120 dyoung 923 1.9 mycroft #include <net/if_arp.h> 924 1.9 mycroft 925 1.87 bjh21 #endif /* _NETBSD_SOURCE */ 926 1.38 kleink 927 1.15 jtc #ifdef _KERNEL 928 1.55 thorpej #ifdef ALTQ 929 1.201 knakahar #define IFQ_ENQUEUE(ifq, m, err) \ 930 1.55 thorpej do { \ 931 1.222 knakahar mutex_enter((ifq)->ifq_lock); \ 932 1.200 knakahar if (ALTQ_IS_ENABLED((ifq))) \ 933 1.200 knakahar ALTQ_ENQUEUE((ifq), (m), (err)); \ 934 1.200 knakahar else { \ 935 1.55 thorpej if (IF_QFULL((ifq))) { \ 936 1.55 thorpej m_freem((m)); \ 937 1.55 thorpej (err) = ENOBUFS; \ 938 1.55 thorpej } else { \ 939 1.55 thorpej IF_ENQUEUE((ifq), (m)); \ 940 1.55 thorpej (err) = 0; \ 941 1.55 thorpej } \ 942 1.55 thorpej } \ 943 1.55 thorpej if ((err)) \ 944 1.55 thorpej (ifq)->ifq_drops++; \ 945 1.222 knakahar mutex_exit((ifq)->ifq_lock); \ 946 1.83 perry } while (/*CONSTCOND*/ 0) 947 1.55 thorpej 948 1.55 thorpej #define IFQ_DEQUEUE(ifq, m) \ 949 1.55 thorpej do { \ 950 1.222 knakahar mutex_enter((ifq)->ifq_lock); \ 951 1.55 thorpej if (TBR_IS_ENABLED((ifq))) \ 952 1.55 thorpej (m) = tbr_dequeue((ifq), ALTDQ_REMOVE); \ 953 1.55 thorpej else if (ALTQ_IS_ENABLED((ifq))) \ 954 1.55 thorpej ALTQ_DEQUEUE((ifq), (m)); \ 955 1.56 thorpej else \ 956 1.62 thorpej IF_DEQUEUE((ifq), (m)); \ 957 1.222 knakahar mutex_exit((ifq)->ifq_lock); \ 958 1.83 perry } while (/*CONSTCOND*/ 0) 959 1.56 thorpej 960 1.56 thorpej #define IFQ_POLL(ifq, m) \ 961 1.56 thorpej do { \ 962 1.222 knakahar mutex_enter((ifq)->ifq_lock); \ 963 1.56 thorpej if (TBR_IS_ENABLED((ifq))) \ 964 1.56 thorpej (m) = tbr_dequeue((ifq), ALTDQ_POLL); \ 965 1.56 thorpej else if (ALTQ_IS_ENABLED((ifq))) \ 966 1.56 thorpej ALTQ_POLL((ifq), (m)); \ 967 1.55 thorpej else \ 968 1.55 thorpej IF_POLL((ifq), (m)); \ 969 1.222 knakahar mutex_exit((ifq)->ifq_lock); \ 970 1.83 perry } while (/*CONSTCOND*/ 0) 971 1.55 thorpej 972 1.55 thorpej #define IFQ_PURGE(ifq) \ 973 1.55 thorpej do { \ 974 1.222 knakahar mutex_enter((ifq)->ifq_lock); \ 975 1.55 thorpej if (ALTQ_IS_ENABLED((ifq))) \ 976 1.55 thorpej ALTQ_PURGE((ifq)); \ 977 1.55 thorpej else \ 978 1.55 thorpej IF_PURGE((ifq)); \ 979 1.222 knakahar mutex_exit((ifq)->ifq_lock); \ 980 1.83 perry } while (/*CONSTCOND*/ 0) 981 1.55 thorpej 982 1.55 thorpej #define IFQ_SET_READY(ifq) \ 983 1.55 thorpej do { \ 984 1.55 thorpej (ifq)->altq_flags |= ALTQF_READY; \ 985 1.83 perry } while (/*CONSTCOND*/ 0) 986 1.55 thorpej 987 1.201 knakahar #define IFQ_CLASSIFY(ifq, m, af) \ 988 1.55 thorpej do { \ 989 1.258 maxv KASSERT((m->m_flags & M_PKTHDR) != 0); \ 990 1.222 knakahar mutex_enter((ifq)->ifq_lock); \ 991 1.55 thorpej if (ALTQ_IS_ENABLED((ifq))) { \ 992 1.55 thorpej if (ALTQ_NEEDS_CLASSIFY((ifq))) \ 993 1.199 knakahar m->m_pkthdr.pattr_class = (*(ifq)->altq_classify) \ 994 1.55 thorpej ((ifq)->altq_clfier, (m), (af)); \ 995 1.199 knakahar m->m_pkthdr.pattr_af = (af); \ 996 1.199 knakahar m->m_pkthdr.pattr_hdr = mtod((m), void *); \ 997 1.55 thorpej } \ 998 1.222 knakahar mutex_exit((ifq)->ifq_lock); \ 999 1.83 perry } while (/*CONSTCOND*/ 0) 1000 1.55 thorpej #else /* ! ALTQ */ 1001 1.201 knakahar #define IFQ_ENQUEUE(ifq, m, err) \ 1002 1.55 thorpej do { \ 1003 1.222 knakahar mutex_enter((ifq)->ifq_lock); \ 1004 1.55 thorpej if (IF_QFULL((ifq))) { \ 1005 1.55 thorpej m_freem((m)); \ 1006 1.55 thorpej (err) = ENOBUFS; \ 1007 1.55 thorpej } else { \ 1008 1.55 thorpej IF_ENQUEUE((ifq), (m)); \ 1009 1.55 thorpej (err) = 0; \ 1010 1.55 thorpej } \ 1011 1.55 thorpej if ((err)) \ 1012 1.55 thorpej (ifq)->ifq_drops++; \ 1013 1.222 knakahar mutex_exit((ifq)->ifq_lock); \ 1014 1.83 perry } while (/*CONSTCOND*/ 0) 1015 1.55 thorpej 1016 1.169 ozaki #define IFQ_DEQUEUE(ifq, m) \ 1017 1.169 ozaki do { \ 1018 1.222 knakahar mutex_enter((ifq)->ifq_lock); \ 1019 1.169 ozaki IF_DEQUEUE((ifq), (m)); \ 1020 1.222 knakahar mutex_exit((ifq)->ifq_lock); \ 1021 1.169 ozaki } while (/*CONSTCOND*/ 0) 1022 1.55 thorpej 1023 1.169 ozaki #define IFQ_POLL(ifq, m) \ 1024 1.169 ozaki do { \ 1025 1.222 knakahar mutex_enter((ifq)->ifq_lock); \ 1026 1.169 ozaki IF_POLL((ifq), (m)); \ 1027 1.222 knakahar mutex_exit((ifq)->ifq_lock); \ 1028 1.169 ozaki } while (/*CONSTCOND*/ 0) 1029 1.55 thorpej 1030 1.169 ozaki #define IFQ_PURGE(ifq) \ 1031 1.169 ozaki do { \ 1032 1.222 knakahar mutex_enter((ifq)->ifq_lock); \ 1033 1.169 ozaki IF_PURGE((ifq)); \ 1034 1.222 knakahar mutex_exit((ifq)->ifq_lock); \ 1035 1.169 ozaki } while (/*CONSTCOND*/ 0) 1036 1.55 thorpej 1037 1.55 thorpej #define IFQ_SET_READY(ifq) /* nothing */ 1038 1.55 thorpej 1039 1.201 knakahar #define IFQ_CLASSIFY(ifq, m, af) /* nothing */ 1040 1.55 thorpej 1041 1.55 thorpej #endif /* ALTQ */ 1042 1.55 thorpej 1043 1.227 ozaki #define IFQ_LOCK_INIT(ifq) (ifq)->ifq_lock = \ 1044 1.227 ozaki mutex_obj_alloc(MUTEX_DEFAULT, IPL_NET) 1045 1.241 msaitoh #define IFQ_LOCK_DESTROY(ifq) mutex_obj_free((ifq)->ifq_lock) 1046 1.227 ozaki #define IFQ_LOCK(ifq) mutex_enter((ifq)->ifq_lock) 1047 1.227 ozaki #define IFQ_UNLOCK(ifq) mutex_exit((ifq)->ifq_lock) 1048 1.227 ozaki 1049 1.55 thorpej #define IFQ_IS_EMPTY(ifq) IF_IS_EMPTY((ifq)) 1050 1.55 thorpej #define IFQ_INC_LEN(ifq) ((ifq)->ifq_len++) 1051 1.55 thorpej #define IFQ_DEC_LEN(ifq) (--(ifq)->ifq_len) 1052 1.55 thorpej #define IFQ_INC_DROPS(ifq) ((ifq)->ifq_drops++) 1053 1.55 thorpej #define IFQ_SET_MAXLEN(ifq, len) ((ifq)->ifq_maxlen = (len)) 1054 1.84 thorpej 1055 1.84 thorpej #include <sys/mallocvar.h> 1056 1.84 thorpej MALLOC_DECLARE(M_IFADDR); 1057 1.84 thorpej MALLOC_DECLARE(M_IFMADDR); 1058 1.100 matt 1059 1.125 dyoung int ifreq_setaddr(u_long, struct ifreq *, const struct sockaddr *); 1060 1.125 dyoung 1061 1.138 christos struct ifnet *if_alloc(u_char); 1062 1.151 dyoung void if_free(struct ifnet *); 1063 1.138 christos void if_initname(struct ifnet *, const char *, int); 1064 1.133 dyoung struct ifaddr *if_dl_create(const struct ifnet *, const struct sockaddr_dl **); 1065 1.137 dyoung void if_activate_sadl(struct ifnet *, struct ifaddr *, 1066 1.137 dyoung const struct sockaddr_dl *); 1067 1.141 dyoung void if_set_sadl(struct ifnet *, const void *, u_char, bool); 1068 1.114 thorpej void if_alloc_sadl(struct ifnet *); 1069 1.241 msaitoh int if_initialize(struct ifnet *); 1070 1.184 ozaki void if_register(struct ifnet *); 1071 1.241 msaitoh int if_attach(struct ifnet *); /* Deprecated. Use if_initialize and if_register */ 1072 1.114 thorpej void if_attachdomain(void); 1073 1.114 thorpej void if_deactivate(struct ifnet *); 1074 1.232 ozaki bool if_is_deactivated(const struct ifnet *); 1075 1.129 dyoung void if_purgeaddrs(struct ifnet *, int, void (*)(struct ifaddr *)); 1076 1.114 thorpej void if_detach(struct ifnet *); 1077 1.114 thorpej void if_down(struct ifnet *); 1078 1.247 ozaki void if_down_locked(struct ifnet *); 1079 1.110 dyoung void if_link_state_change(struct ifnet *, int); 1080 1.239 ozaki void if_link_state_change_softint(struct ifnet *, int); 1081 1.114 thorpej void if_up(struct ifnet *); 1082 1.114 thorpej void ifinit(void); 1083 1.139 yamt void ifinit1(void); 1084 1.168 rtr int ifaddrpref_ioctl(struct socket *, u_long, void *, struct ifnet *); 1085 1.163 pooka extern int (*ifioctl)(struct socket *, u_long, void *, struct lwp *); 1086 1.134 dyoung int ifioctl_common(struct ifnet *, u_long, void *); 1087 1.114 thorpej int ifpromisc(struct ifnet *, int); 1088 1.246 ozaki int ifpromisc_locked(struct ifnet *, int); 1089 1.207 ozaki int if_addr_init(ifnet_t *, struct ifaddr *, bool); 1090 1.207 ozaki int if_do_dad(struct ifnet *); 1091 1.207 ozaki int if_mcast_op(ifnet_t *, const unsigned long, const struct sockaddr *); 1092 1.207 ozaki int if_flags_set(struct ifnet *, const short); 1093 1.207 ozaki int if_clone_list(int, char *, int *); 1094 1.207 ozaki 1095 1.114 thorpej struct ifnet *ifunit(const char *); 1096 1.205 ozaki struct ifnet *if_get(const char *, struct psref *); 1097 1.205 ozaki ifnet_t *if_byindex(u_int); 1098 1.254 ozaki ifnet_t *_if_byindex(u_int); 1099 1.205 ozaki ifnet_t *if_get_byindex(u_int, struct psref *); 1100 1.240 roy ifnet_t *if_get_bylla(const void *, unsigned char, struct psref *); 1101 1.205 ozaki void if_put(const struct ifnet *, struct psref *); 1102 1.234 ozaki void if_acquire(struct ifnet *, struct psref *); 1103 1.236 ozaki #define if_release if_put 1104 1.207 ozaki 1105 1.248 knakahar int if_tunnel_check_nesting(struct ifnet *, struct mbuf *, int); 1106 1.248 knakahar 1107 1.213 ozaki static inline if_index_t 1108 1.213 ozaki if_get_index(const struct ifnet *ifp) 1109 1.213 ozaki { 1110 1.213 ozaki 1111 1.213 ozaki return ifp != NULL ? ifp->if_index : 0; 1112 1.213 ozaki } 1113 1.213 ozaki 1114 1.207 ozaki bool if_held(struct ifnet *); 1115 1.114 thorpej 1116 1.195 ozaki void if_input(struct ifnet *, struct mbuf *); 1117 1.195 ozaki 1118 1.195 ozaki struct if_percpuq * 1119 1.195 ozaki if_percpuq_create(struct ifnet *); 1120 1.195 ozaki void if_percpuq_destroy(struct if_percpuq *); 1121 1.195 ozaki void 1122 1.195 ozaki if_percpuq_enqueue(struct if_percpuq *, struct mbuf *); 1123 1.195 ozaki 1124 1.230 ozaki void if_deferred_start_init(struct ifnet *, void (*)(struct ifnet *)); 1125 1.230 ozaki void if_schedule_deferred_start(struct ifnet *); 1126 1.230 ozaki 1127 1.130 dyoung void ifa_insert(struct ifnet *, struct ifaddr *); 1128 1.130 dyoung void ifa_remove(struct ifnet *, struct ifaddr *); 1129 1.130 dyoung 1130 1.224 ozaki void ifa_psref_init(struct ifaddr *); 1131 1.224 ozaki void ifa_acquire(struct ifaddr *, struct psref *); 1132 1.224 ozaki void ifa_release(struct ifaddr *, struct psref *); 1133 1.224 ozaki bool ifa_held(struct ifaddr *); 1134 1.231 ozaki bool ifa_is_destroying(struct ifaddr *); 1135 1.224 ozaki 1136 1.175 rmind void ifaref(struct ifaddr *); 1137 1.175 rmind void ifafree(struct ifaddr *); 1138 1.175 rmind 1139 1.114 thorpej struct ifaddr *ifa_ifwithaddr(const struct sockaddr *); 1140 1.224 ozaki struct ifaddr *ifa_ifwithaddr_psref(const struct sockaddr *, struct psref *); 1141 1.114 thorpej struct ifaddr *ifa_ifwithaf(int); 1142 1.114 thorpej struct ifaddr *ifa_ifwithdstaddr(const struct sockaddr *); 1143 1.224 ozaki struct ifaddr *ifa_ifwithdstaddr_psref(const struct sockaddr *, 1144 1.224 ozaki struct psref *); 1145 1.114 thorpej struct ifaddr *ifa_ifwithnet(const struct sockaddr *); 1146 1.224 ozaki struct ifaddr *ifa_ifwithnet_psref(const struct sockaddr *, struct psref *); 1147 1.114 thorpej struct ifaddr *ifa_ifwithladdr(const struct sockaddr *); 1148 1.224 ozaki struct ifaddr *ifa_ifwithladdr_psref(const struct sockaddr *, struct psref *); 1149 1.224 ozaki struct ifaddr *ifa_ifwithroute_psref(int, const struct sockaddr *, 1150 1.224 ozaki const struct sockaddr *, struct psref *); 1151 1.114 thorpej struct ifaddr *ifaof_ifpforaddr(const struct sockaddr *, struct ifnet *); 1152 1.224 ozaki struct ifaddr *ifaof_ifpforaddr_psref(const struct sockaddr *, struct ifnet *, 1153 1.224 ozaki struct psref *); 1154 1.140 dyoung void link_rtrequest(int, struct rtentry *, const struct rt_addrinfo *); 1155 1.188 roy void p2p_rtrequest(int, struct rtentry *, const struct rt_addrinfo *); 1156 1.51 thorpej 1157 1.114 thorpej void if_clone_attach(struct if_clone *); 1158 1.114 thorpej void if_clone_detach(struct if_clone *); 1159 1.51 thorpej 1160 1.215 knakahar int if_transmit_lock(struct ifnet *, struct mbuf *); 1161 1.203 knakahar 1162 1.201 knakahar int ifq_enqueue(struct ifnet *, struct mbuf *); 1163 1.201 knakahar int ifq_enqueue2(struct ifnet *, struct ifqueue *, struct mbuf *); 1164 1.107 christos 1165 1.123 christos int loioctl(struct ifnet *, u_long, void *); 1166 1.114 thorpej void loopattach(int); 1167 1.225 kre void loopinit(void); 1168 1.114 thorpej int looutput(struct ifnet *, 1169 1.202 ozaki struct mbuf *, const struct sockaddr *, const struct rtentry *); 1170 1.44 thorpej 1171 1.44 thorpej /* 1172 1.44 thorpej * These are exported because they're an easy way to tell if 1173 1.44 thorpej * an interface is going away without having to burn a flag. 1174 1.44 thorpej */ 1175 1.114 thorpej int if_nulloutput(struct ifnet *, struct mbuf *, 1176 1.202 ozaki const struct sockaddr *, const struct rtentry *); 1177 1.114 thorpej void if_nullinput(struct ifnet *, struct mbuf *); 1178 1.114 thorpej void if_nullstart(struct ifnet *); 1179 1.203 knakahar int if_nulltransmit(struct ifnet *, struct mbuf *); 1180 1.123 christos int if_nullioctl(struct ifnet *, u_long, void *); 1181 1.114 thorpej int if_nullinit(struct ifnet *); 1182 1.114 thorpej void if_nullstop(struct ifnet *, int); 1183 1.177 ozaki void if_nullslowtimo(struct ifnet *); 1184 1.177 ozaki #define if_nullwatchdog if_nullslowtimo 1185 1.114 thorpej void if_nulldrain(struct ifnet *); 1186 1.37 itojun #else 1187 1.37 itojun struct if_nameindex { 1188 1.37 itojun unsigned int if_index; /* 1, 2, ... */ 1189 1.37 itojun char *if_name; /* null terminated name: "le0", ... */ 1190 1.37 itojun }; 1191 1.37 itojun 1192 1.38 kleink #include <sys/cdefs.h> 1193 1.37 itojun __BEGIN_DECLS 1194 1.114 thorpej unsigned int if_nametoindex(const char *); 1195 1.114 thorpej char * if_indextoname(unsigned int, char *); 1196 1.114 thorpej struct if_nameindex * if_nameindex(void); 1197 1.114 thorpej void if_freenameindex(struct if_nameindex *); 1198 1.37 itojun __END_DECLS 1199 1.93 jonathan #endif /* _KERNEL */ /* XXX really ALTQ? */ 1200 1.93 jonathan 1201 1.93 jonathan #ifdef _KERNEL 1202 1.149 rmind 1203 1.164 rmind #define IFADDR_FIRST(__ifp) TAILQ_FIRST(&(__ifp)->if_addrlist) 1204 1.164 rmind #define IFADDR_NEXT(__ifa) TAILQ_NEXT((__ifa), ifa_list) 1205 1.164 rmind #define IFADDR_FOREACH(__ifa, __ifp) TAILQ_FOREACH(__ifa, \ 1206 1.164 rmind &(__ifp)->if_addrlist, ifa_list) 1207 1.174 ozaki #define IFADDR_FOREACH_SAFE(__ifa, __ifp, __nifa) \ 1208 1.174 ozaki TAILQ_FOREACH_SAFE(__ifa, \ 1209 1.174 ozaki &(__ifp)->if_addrlist, ifa_list, __nifa) 1210 1.164 rmind #define IFADDR_EMPTY(__ifp) TAILQ_EMPTY(&(__ifp)->if_addrlist) 1211 1.164 rmind 1212 1.220 ozaki #define IFADDR_ENTRY_INIT(__ifa) \ 1213 1.220 ozaki PSLIST_ENTRY_INIT((__ifa), ifa_pslist_entry) 1214 1.220 ozaki #define IFADDR_ENTRY_DESTROY(__ifa) \ 1215 1.220 ozaki PSLIST_ENTRY_DESTROY((__ifa), ifa_pslist_entry) 1216 1.220 ozaki #define IFADDR_READER_EMPTY(__ifp) \ 1217 1.220 ozaki (PSLIST_READER_FIRST(&(__ifp)->if_addr_pslist, struct ifaddr, \ 1218 1.220 ozaki ifa_pslist_entry) == NULL) 1219 1.220 ozaki #define IFADDR_READER_FIRST(__ifp) \ 1220 1.220 ozaki PSLIST_READER_FIRST(&(__ifp)->if_addr_pslist, struct ifaddr, \ 1221 1.220 ozaki ifa_pslist_entry) 1222 1.220 ozaki #define IFADDR_READER_NEXT(__ifa) \ 1223 1.220 ozaki PSLIST_READER_NEXT((__ifa), struct ifaddr, ifa_pslist_entry) 1224 1.220 ozaki #define IFADDR_READER_FOREACH(__ifa, __ifp) \ 1225 1.220 ozaki PSLIST_READER_FOREACH((__ifa), &(__ifp)->if_addr_pslist, struct ifaddr,\ 1226 1.220 ozaki ifa_pslist_entry) 1227 1.220 ozaki #define IFADDR_WRITER_INSERT_HEAD(__ifp, __ifa) \ 1228 1.220 ozaki PSLIST_WRITER_INSERT_HEAD(&(__ifp)->if_addr_pslist, (__ifa), \ 1229 1.220 ozaki ifa_pslist_entry) 1230 1.220 ozaki #define IFADDR_WRITER_REMOVE(__ifa) \ 1231 1.220 ozaki PSLIST_WRITER_REMOVE((__ifa), ifa_pslist_entry) 1232 1.220 ozaki #define IFADDR_WRITER_FOREACH(__ifa, __ifp) \ 1233 1.220 ozaki PSLIST_WRITER_FOREACH((__ifa), &(__ifp)->if_addr_pslist, struct ifaddr,\ 1234 1.220 ozaki ifa_pslist_entry) 1235 1.220 ozaki #define IFADDR_WRITER_NEXT(__ifp) \ 1236 1.220 ozaki PSLIST_WRITER_NEXT((__ifp), struct ifaddr, ifa_pslist_entry) 1237 1.220 ozaki #define IFADDR_WRITER_INSERT_AFTER(__ifp, __new) \ 1238 1.220 ozaki PSLIST_WRITER_INSERT_AFTER((__ifp), (__new), ifa_pslist_entry) 1239 1.220 ozaki #define IFADDR_WRITER_EMPTY(__ifp) \ 1240 1.220 ozaki (PSLIST_WRITER_FIRST(&(__ifp)->if_addr_pslist, struct ifaddr, \ 1241 1.220 ozaki ifa_pslist_entry) == NULL) 1242 1.220 ozaki #define IFADDR_WRITER_INSERT_TAIL(__ifp, __new) \ 1243 1.220 ozaki do { \ 1244 1.220 ozaki if (IFADDR_WRITER_EMPTY((__ifp))) { \ 1245 1.220 ozaki IFADDR_WRITER_INSERT_HEAD((__ifp), (__new)); \ 1246 1.220 ozaki } else { \ 1247 1.220 ozaki struct ifaddr *__ifa; \ 1248 1.220 ozaki IFADDR_WRITER_FOREACH(__ifa, (__ifp)) { \ 1249 1.220 ozaki if (IFADDR_WRITER_NEXT(__ifa) == NULL) {\ 1250 1.220 ozaki IFADDR_WRITER_INSERT_AFTER(__ifa,\ 1251 1.220 ozaki (__new)); \ 1252 1.220 ozaki break; \ 1253 1.220 ozaki } \ 1254 1.220 ozaki } \ 1255 1.220 ozaki } \ 1256 1.220 ozaki } while (0) 1257 1.220 ozaki 1258 1.252 ozaki #define IFNET_GLOBAL_LOCK() mutex_enter(&ifnet_mtx) 1259 1.252 ozaki #define IFNET_GLOBAL_UNLOCK() mutex_exit(&ifnet_mtx) 1260 1.252 ozaki #define IFNET_GLOBAL_LOCKED() mutex_owned(&ifnet_mtx) 1261 1.204 ozaki 1262 1.204 ozaki #define IFNET_READER_EMPTY() \ 1263 1.204 ozaki (PSLIST_READER_FIRST(&ifnet_pslist, struct ifnet, if_pslist_entry) == NULL) 1264 1.204 ozaki #define IFNET_READER_FIRST() \ 1265 1.204 ozaki PSLIST_READER_FIRST(&ifnet_pslist, struct ifnet, if_pslist_entry) 1266 1.204 ozaki #define IFNET_READER_NEXT(__ifp) \ 1267 1.204 ozaki PSLIST_READER_NEXT((__ifp), struct ifnet, if_pslist_entry) 1268 1.204 ozaki #define IFNET_READER_FOREACH(__ifp) \ 1269 1.204 ozaki PSLIST_READER_FOREACH((__ifp), &ifnet_pslist, struct ifnet, \ 1270 1.204 ozaki if_pslist_entry) 1271 1.204 ozaki #define IFNET_WRITER_INSERT_HEAD(__ifp) \ 1272 1.204 ozaki PSLIST_WRITER_INSERT_HEAD(&ifnet_pslist, (__ifp), if_pslist_entry) 1273 1.204 ozaki #define IFNET_WRITER_REMOVE(__ifp) \ 1274 1.204 ozaki PSLIST_WRITER_REMOVE((__ifp), if_pslist_entry) 1275 1.204 ozaki #define IFNET_WRITER_FOREACH(__ifp) \ 1276 1.204 ozaki PSLIST_WRITER_FOREACH((__ifp), &ifnet_pslist, struct ifnet, \ 1277 1.204 ozaki if_pslist_entry) 1278 1.204 ozaki #define IFNET_WRITER_NEXT(__ifp) \ 1279 1.204 ozaki PSLIST_WRITER_NEXT((__ifp), struct ifnet, if_pslist_entry) 1280 1.204 ozaki #define IFNET_WRITER_INSERT_AFTER(__ifp, __new) \ 1281 1.204 ozaki PSLIST_WRITER_INSERT_AFTER((__ifp), (__new), if_pslist_entry) 1282 1.204 ozaki #define IFNET_WRITER_EMPTY() \ 1283 1.204 ozaki (PSLIST_WRITER_FIRST(&ifnet_pslist, struct ifnet, if_pslist_entry) == NULL) 1284 1.204 ozaki #define IFNET_WRITER_INSERT_TAIL(__new) \ 1285 1.204 ozaki do { \ 1286 1.204 ozaki if (IFNET_WRITER_EMPTY()) { \ 1287 1.204 ozaki IFNET_WRITER_INSERT_HEAD((__new)); \ 1288 1.204 ozaki } else { \ 1289 1.204 ozaki struct ifnet *__ifp; \ 1290 1.204 ozaki IFNET_WRITER_FOREACH(__ifp) { \ 1291 1.204 ozaki if (IFNET_WRITER_NEXT(__ifp) == NULL) { \ 1292 1.204 ozaki IFNET_WRITER_INSERT_AFTER(__ifp,\ 1293 1.204 ozaki (__new)); \ 1294 1.204 ozaki break; \ 1295 1.204 ozaki } \ 1296 1.204 ozaki } \ 1297 1.204 ozaki } \ 1298 1.204 ozaki } while (0) 1299 1.204 ozaki 1300 1.253 ozaki #define IFNET_LOCK(ifp) mutex_enter((ifp)->if_ioctl_lock) 1301 1.253 ozaki #define IFNET_UNLOCK(ifp) mutex_exit((ifp)->if_ioctl_lock) 1302 1.253 ozaki #define IFNET_LOCKED(ifp) mutex_owned((ifp)->if_ioctl_lock) 1303 1.253 ozaki 1304 1.204 ozaki extern struct pslist_head ifnet_pslist; 1305 1.204 ozaki extern kmutex_t ifnet_mtx; 1306 1.204 ozaki 1307 1.165 rmind extern struct ifnet *lo0ifp; 1308 1.165 rmind 1309 1.93 jonathan /* 1310 1.93 jonathan * ifq sysctl support 1311 1.93 jonathan */ 1312 1.114 thorpej int sysctl_ifq(int *name, u_int namelen, void *oldp, 1313 1.93 jonathan size_t *oldlenp, void *newp, size_t newlen, 1314 1.114 thorpej struct ifqueue *ifq); 1315 1.93 jonathan /* symbolic names for terminal (per-protocol) CTL_IFQ_ nodes */ 1316 1.93 jonathan #define IFQCTL_LEN 1 1317 1.93 jonathan #define IFQCTL_MAXLEN 2 1318 1.93 jonathan #define IFQCTL_PEAK 3 1319 1.93 jonathan #define IFQCTL_DROPS 4 1320 1.93 jonathan #define IFQCTL_MAXID 5 1321 1.93 jonathan 1322 1.15 jtc #endif /* _KERNEL */ 1323 1.93 jonathan 1324 1.93 jonathan #ifdef _NETBSD_SOURCE 1325 1.93 jonathan /* 1326 1.101 perry * sysctl for ifq (per-protocol packet input queue variant of ifqueue) 1327 1.93 jonathan */ 1328 1.93 jonathan #define CTL_IFQ_NAMES { \ 1329 1.93 jonathan { 0, 0 }, \ 1330 1.93 jonathan { "len", CTLTYPE_INT }, \ 1331 1.93 jonathan { "maxlen", CTLTYPE_INT }, \ 1332 1.93 jonathan { "peak", CTLTYPE_INT }, \ 1333 1.93 jonathan { "drops", CTLTYPE_INT }, \ 1334 1.93 jonathan } 1335 1.258.2.1 pgoyette 1336 1.258.2.1 pgoyette /* compat function vectors */ 1337 1.258.2.1 pgoyette extern int (*vec_compat_ifdatareq)(struct lwp *, u_long, void *); 1338 1.258.2.1 pgoyette extern void (*vec_compat_ifreqo2n)(struct oifreq *, struct ifreq *); 1339 1.258.2.1 pgoyette extern int stub_compat_ifconf(u_long, void *); 1340 1.258.2.1 pgoyette 1341 1.93 jonathan #endif /* _NETBSD_SOURCE */ 1342 1.28 chuck #endif /* !_NET_IF_H_ */ 1343
Indexes created Sun Oct 19 19:09:49 GMT 2025