xref: /titanic_44/usr/src/uts/common/io/vnic/vnic_dev.c (revision b9238976491622ad75a67ab0c12edf99e36212b9)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2007 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #pragma ident	"%Z%%M%	%I%	%E% SMI"
27 
28 #include <sys/types.h>
29 #include <sys/sysmacros.h>
30 #include <sys/conf.h>
31 #include <sys/cmn_err.h>
32 #include <sys/list.h>
33 #include <sys/ksynch.h>
34 #include <sys/kmem.h>
35 #include <sys/stream.h>
36 #include <sys/modctl.h>
37 #include <sys/ddi.h>
38 #include <sys/sunddi.h>
39 #include <sys/atomic.h>
40 #include <sys/stat.h>
41 #include <sys/modhash.h>
42 #include <sys/strsubr.h>
43 #include <sys/strsun.h>
44 #include <sys/dlpi.h>
45 #include <sys/mac.h>
46 #include <sys/mac_ether.h>
47 #include <sys/pattr.h>
48 #if 0
49 #include <sys/vlan.h>
50 #endif
51 #include <sys/vnic.h>
52 #include <sys/vnic_impl.h>
53 #include <sys/gld.h>
54 #include <inet/ip.h>
55 #include <inet/ip_impl.h>
56 
57 static int vnic_m_start(void *);
58 static void vnic_m_stop(void *);
59 static int vnic_m_promisc(void *, boolean_t);
60 static int vnic_m_multicst(void *, boolean_t, const uint8_t *);
61 static int vnic_m_unicst(void *, const uint8_t *);
62 static int vnic_m_stat(void *, uint_t, uint64_t *);
63 static void vnic_m_resources(void *);
64 static mblk_t *vnic_m_tx(void *, mblk_t *);
65 static boolean_t vnic_m_capab_get(void *, mac_capab_t, void *);
66 static void vnic_mac_free(vnic_mac_t *);
67 static uint_t vnic_info_walker(mod_hash_key_t, mod_hash_val_t *, void *);
68 static void vnic_notify_cb(void *, mac_notify_type_t);
69 static int vnic_modify_mac_addr(vnic_t *, uint_t, uchar_t *);
70 static mblk_t *vnic_active_tx(void *, mblk_t *);
71 static int vnic_promisc_set(vnic_t *, boolean_t);
72 
73 static kmem_cache_t	*vnic_cache;
74 static kmem_cache_t	*vnic_mac_cache;
75 static krwlock_t	vnic_lock;
76 static kmutex_t		vnic_mac_lock;
77 static uint_t		vnic_count;
78 
79 /* hash of VNICs (vnic_t's), keyed by VNIC id */
80 static mod_hash_t	*vnic_hash;
81 #define	VNIC_HASHSZ	64
82 #define	VNIC_HASH_KEY(vnic_id)	((mod_hash_key_t)(uintptr_t)vnic_id)
83 
84 /*
85  * Hash of underlying open MACs (vnic_mac_t's), keyed by the string
86  * "<device name><instance number>/<port number>".
87  */
88 static mod_hash_t	*vnic_mac_hash;
89 #define	VNIC_MAC_HASHSZ	64
90 
91 #define	VNIC_MAC_REFHOLD(va) {			\
92 	ASSERT(MUTEX_HELD(&vnic_mac_lock));	\
93 	(va)->va_refs++;			\
94 	ASSERT((va)->va_refs != 0);		\
95 }
96 
97 #define	VNIC_MAC_REFRELE(va) {			\
98 	ASSERT(MUTEX_HELD(&vnic_mac_lock));	\
99 	ASSERT((va)->va_refs != 0);		\
100 	if (--((va)->va_refs) == 0)		\
101 		vnic_mac_free(va);		\
102 }
103 
104 static uchar_t vnic_brdcst_mac[] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };
105 
106 /* used by vnic_walker */
107 typedef struct vnic_info_state {
108 	uint32_t	vs_vnic_id;
109 	char		vs_dev_name[MAXNAMELEN];
110 	boolean_t	vs_vnic_found;
111 	vnic_info_new_vnic_fn_t	vs_new_vnic_fn;
112 	void		*vs_fn_arg;
113 	int		vs_rc;
114 } vnic_info_state_t;
115 
116 #define	VNIC_M_CALLBACK_FLAGS	(MC_RESOURCES | MC_GETCAPAB)
117 
118 static mac_callbacks_t vnic_m_callbacks = {
119 	VNIC_M_CALLBACK_FLAGS,
120 	vnic_m_stat,
121 	vnic_m_start,
122 	vnic_m_stop,
123 	vnic_m_promisc,
124 	vnic_m_multicst,
125 	vnic_m_unicst,
126 	vnic_m_tx,
127 	vnic_m_resources,
128 	NULL,			/* m_ioctl */
129 	vnic_m_capab_get
130 };
131 
132 /* ARGSUSED */
133 static int
134 vnic_mac_ctor(void *buf, void *arg, int kmflag)
135 {
136 	vnic_mac_t *vnic_mac = buf;
137 
138 	bzero(vnic_mac, sizeof (vnic_mac_t));
139 	rw_init(&vnic_mac->va_bcast_grp_lock, NULL, RW_DRIVER, NULL);
140 	rw_init(&vnic_mac->va_promisc_lock, NULL, RW_DRIVER, NULL);
141 
142 	return (0);
143 }
144 
145 /* ARGSUSED */
146 static void
147 vnic_mac_dtor(void *buf, void *arg)
148 {
149 	vnic_mac_t *vnic_mac = buf;
150 
151 	rw_destroy(&vnic_mac->va_promisc_lock);
152 	rw_destroy(&vnic_mac->va_bcast_grp_lock);
153 }
154 
155 void
156 vnic_dev_init(void)
157 {
158 	vnic_cache = kmem_cache_create("vnic_cache",
159 	    sizeof (vnic_t), 0, NULL, NULL, NULL, NULL, NULL, 0);
160 
161 	vnic_mac_cache = kmem_cache_create("vnic_mac_cache",
162 	    sizeof (vnic_mac_t), 0, vnic_mac_ctor, vnic_mac_dtor,
163 	    NULL, NULL, NULL, 0);
164 
165 	vnic_hash = mod_hash_create_idhash("vnic_hash",
166 	    VNIC_HASHSZ, mod_hash_null_valdtor);
167 
168 	vnic_mac_hash = mod_hash_create_strhash("vnic_mac_hash",
169 	    VNIC_MAC_HASHSZ, mod_hash_null_valdtor);
170 
171 	rw_init(&vnic_lock, NULL, RW_DEFAULT, NULL);
172 
173 	mutex_init(&vnic_mac_lock, NULL, MUTEX_DEFAULT, NULL);
174 
175 	vnic_count = 0;
176 }
177 
178 void
179 vnic_dev_fini(void)
180 {
181 	ASSERT(vnic_count == 0);
182 
183 	mutex_destroy(&vnic_mac_lock);
184 	rw_destroy(&vnic_lock);
185 	mod_hash_destroy_strhash(vnic_mac_hash);
186 	mod_hash_destroy_idhash(vnic_hash);
187 	kmem_cache_destroy(vnic_mac_cache);
188 	kmem_cache_destroy(vnic_cache);
189 }
190 
191 uint_t
192 vnic_dev_count(void)
193 {
194 	return (vnic_count);
195 }
196 
197 static int
198 vnic_mac_open(const char *dev_name, vnic_mac_t **vmp)
199 {
200 	char *str_key;
201 	int err;
202 	vnic_mac_t *vnic_mac = NULL;
203 	char driver[MAXNAMELEN];
204 	uint_t ddi_instance;
205 	const mac_info_t *mip;
206 
207 	*vmp = NULL;
208 
209 	if (ddi_parse(dev_name, driver, &ddi_instance) != DDI_SUCCESS)
210 		return (EINVAL);
211 
212 	mutex_enter(&vnic_mac_lock);
213 
214 	err = mod_hash_find(vnic_mac_hash, (mod_hash_key_t)dev_name,
215 	    (mod_hash_val_t *)&vnic_mac);
216 	if (err == 0) {
217 		/* this MAC is already opened, increment reference count */
218 		VNIC_MAC_REFHOLD(vnic_mac);
219 		mutex_exit(&vnic_mac_lock);
220 		*vmp = vnic_mac;
221 		return (0);
222 	}
223 
224 	vnic_mac = kmem_cache_alloc(vnic_mac_cache, KM_SLEEP);
225 
226 	if ((err = mac_open(dev_name, ddi_instance, &vnic_mac->va_mh)) != 0) {
227 		vnic_mac->va_mh = NULL;
228 		goto bail;
229 	}
230 
231 	/* only ethernet support, for now */
232 	mip = mac_info(vnic_mac->va_mh);
233 	if (mip->mi_media != DL_ETHER) {
234 		err = ENOTSUP;
235 		goto bail;
236 	}
237 	if (mip->mi_media != mip->mi_nativemedia) {
238 		err = ENOTSUP;
239 		goto bail;
240 	}
241 
242 	(void) strcpy(vnic_mac->va_dev_name, dev_name);
243 
244 	/* add entry to hash table */
245 	str_key = kmem_alloc(strlen(dev_name) + 1, KM_SLEEP);
246 	(void) strcpy(str_key, dev_name);
247 	err = mod_hash_insert(vnic_mac_hash, (mod_hash_key_t)str_key,
248 	    (mod_hash_val_t)vnic_mac);
249 	ASSERT(err == 0);
250 
251 	/* initialize the flow table associated with lower MAC */
252 	vnic_mac->va_addr_len = ETHERADDRL;
253 	(void) vnic_classifier_flow_tab_init(vnic_mac, vnic_mac->va_addr_len,
254 	    KM_SLEEP);
255 
256 	vnic_mac->va_txinfo = mac_vnic_tx_get(vnic_mac->va_mh);
257 	vnic_mac->va_notify_hdl = mac_notify_add(vnic_mac->va_mh,
258 	    vnic_notify_cb, vnic_mac);
259 
260 	VNIC_MAC_REFHOLD(vnic_mac);
261 	*vmp = vnic_mac;
262 	mutex_exit(&vnic_mac_lock);
263 	return (0);
264 
265 bail:
266 	if (vnic_mac != NULL) {
267 		if (vnic_mac->va_mh != NULL)
268 			mac_close(vnic_mac->va_mh);
269 		kmem_cache_free(vnic_mac_cache, vnic_mac);
270 	}
271 	mutex_exit(&vnic_mac_lock);
272 	return (err);
273 }
274 
275 /*
276  * Create a new flow for the active MAC client sharing the NIC
277  * with the VNICs. This allows the unicast packets for that NIC
278  * to be classified and passed up to the active MAC client. It
279  * also allows packets sent from a VNIC to the active link to
280  * be classified by the VNIC transmit function and delivered via
281  * the MAC module locally. Returns B_TRUE on success, B_FALSE on
282  * failure.
283  */
284 static int
285 vnic_init_active_rx(vnic_mac_t *vnic_mac)
286 {
287 	uchar_t nic_mac_addr[MAXMACADDRLEN];
288 
289 	if (vnic_mac->va_active_flow != NULL)
290 		return (B_TRUE);
291 
292 	mac_unicst_get(vnic_mac->va_mh, nic_mac_addr);
293 
294 	vnic_mac->va_active_flow = vnic_classifier_flow_create(
295 	    vnic_mac->va_addr_len, nic_mac_addr, NULL, B_TRUE, KM_SLEEP);
296 
297 	vnic_classifier_flow_add(vnic_mac, vnic_mac->va_active_flow,
298 	    (vnic_rx_fn_t)mac_active_rx, vnic_mac->va_mh, NULL);
299 	return (B_TRUE);
300 }
301 
302 static void
303 vnic_fini_active_rx(vnic_mac_t *vnic_mac)
304 {
305 	if (vnic_mac->va_active_flow == NULL)
306 		return;
307 
308 	vnic_classifier_flow_remove(vnic_mac, vnic_mac->va_active_flow);
309 	vnic_classifier_flow_destroy(vnic_mac->va_active_flow);
310 	vnic_mac->va_active_flow = NULL;
311 }
312 
313 static void
314 vnic_update_active_rx(vnic_mac_t *vnic_mac)
315 {
316 	if (vnic_mac->va_active_flow == NULL)
317 		return;
318 
319 	vnic_fini_active_rx(vnic_mac);
320 	(void) vnic_init_active_rx(vnic_mac);
321 }
322 
323 /*
324  * Copy an mblk, preserving its hardware checksum flags.
325  */
326 mblk_t *
327 vnic_copymsg_cksum(mblk_t *mp)
328 {
329 	mblk_t *mp1;
330 	uint32_t start, stuff, end, value, flags;
331 
332 	mp1 = copymsg(mp);
333 	if (mp1 == NULL)
334 		return (NULL);
335 
336 	hcksum_retrieve(mp, NULL, NULL, &start, &stuff, &end, &value, &flags);
337 	(void) hcksum_assoc(mp1, NULL, NULL, start, stuff, end, value,
338 	    flags, KM_NOSLEEP);
339 
340 	return (mp1);
341 }
342 
343 /*
344  * Copy an mblk chain, presenting the hardware checksum flags of the
345  * individual mblks.
346  */
347 mblk_t *
348 vnic_copymsgchain_cksum(mblk_t *mp)
349 {
350 	mblk_t *nmp = NULL;
351 	mblk_t **nmpp = &nmp;
352 
353 	for (; mp != NULL; mp = mp->b_next) {
354 		if ((*nmpp = vnic_copymsg_cksum(mp)) == NULL) {
355 			freemsgchain(nmp);
356 			return (NULL);
357 		}
358 
359 		nmpp = &((*nmpp)->b_next);
360 	}
361 
362 	return (nmp);
363 }
364 
365 
366 /*
367  * Process the specified mblk chain for proper handling of hardware
368  * checksum offload. This routine is invoked for loopback VNIC traffic.
369  * The function handles a NULL mblk chain passed as argument.
370  */
371 mblk_t *
372 vnic_fix_cksum(mblk_t *mp_chain)
373 {
374 	mblk_t *mp, *prev = NULL, *new_chain = mp_chain, *mp1;
375 	uint32_t flags, start, stuff, end, value;
376 
377 	for (mp = mp_chain; mp != NULL; prev = mp, mp = mp->b_next) {
378 		uint16_t len;
379 		uint32_t offset;
380 		struct ether_header *ehp;
381 		uint16_t sap;
382 
383 		hcksum_retrieve(mp, NULL, NULL, &start, &stuff, &end, &value,
384 		    &flags);
385 		if (flags == 0)
386 			continue;
387 
388 		/*
389 		 * Since the processing of checksum offload for loopback
390 		 * traffic requires modification of the packet contents,
391 		 * ensure sure that we are always modifying our own copy.
392 		 */
393 		if (DB_REF(mp) > 1) {
394 			mp1 = copymsg(mp);
395 			if (mp1 == NULL)
396 				continue;
397 			mp1->b_next = mp->b_next;
398 			mp->b_next = NULL;
399 			freemsg(mp);
400 			if (prev != NULL)
401 				prev->b_next = mp1;
402 			else
403 				new_chain = mp1;
404 			mp = mp1;
405 		}
406 
407 		/*
408 		 * Ethernet, and optionally VLAN header.
409 		 */
410 		/*LINTED*/
411 		ehp = (struct ether_header *)mp->b_rptr;
412 		if (ntohs(ehp->ether_type) == VLAN_TPID) {
413 			struct ether_vlan_header *evhp;
414 
415 			ASSERT(MBLKL(mp) >=
416 			    sizeof (struct ether_vlan_header));
417 			/*LINTED*/
418 			evhp = (struct ether_vlan_header *)mp->b_rptr;
419 			sap = ntohs(evhp->ether_type);
420 			offset = sizeof (struct ether_vlan_header);
421 		} else {
422 			sap = ntohs(ehp->ether_type);
423 			offset = sizeof (struct ether_header);
424 		}
425 
426 		if (MBLKL(mp) <= offset) {
427 			offset -= MBLKL(mp);
428 			if (mp->b_cont == NULL) {
429 				/* corrupted packet, skip it */
430 				if (prev != NULL)
431 					prev->b_next = mp->b_next;
432 				else
433 					new_chain = mp->b_next;
434 				mp1 = mp->b_next;
435 				mp->b_next = NULL;
436 				freemsg(mp);
437 				mp = mp1;
438 				continue;
439 			}
440 			mp = mp->b_cont;
441 		}
442 
443 		if (flags & (HCK_FULLCKSUM | HCK_IPV4_HDRCKSUM)) {
444 			ipha_t *ipha = NULL;
445 
446 			/*
447 			 * In order to compute the full and header
448 			 * checksums, we need to find and parse
449 			 * the IP and/or ULP headers.
450 			 */
451 
452 			sap = (sap < ETHERTYPE_802_MIN) ? 0 : sap;
453 
454 			/*
455 			 * IP header.
456 			 */
457 			if (sap != ETHERTYPE_IP)
458 				continue;
459 
460 			ASSERT(MBLKL(mp) >= offset + sizeof (ipha_t));
461 			/*LINTED*/
462 			ipha = (ipha_t *)(mp->b_rptr + offset);
463 
464 			if (flags & HCK_FULLCKSUM) {
465 				ipaddr_t src, dst;
466 				uint32_t cksum;
467 				uint16_t *up;
468 				uint8_t proto;
469 
470 				/*
471 				 * Pointer to checksum field in ULP header.
472 				 */
473 				proto = ipha->ipha_protocol;
474 				ASSERT(ipha->ipha_version_and_hdr_length ==
475 				    IP_SIMPLE_HDR_VERSION);
476 				if (proto == IPPROTO_TCP) {
477 					/*LINTED*/
478 					up = IPH_TCPH_CHECKSUMP(ipha,
479 					    IP_SIMPLE_HDR_LENGTH);
480 				} else {
481 					ASSERT(proto == IPPROTO_UDP);
482 					/*LINTED*/
483 					up = IPH_UDPH_CHECKSUMP(ipha,
484 					    IP_SIMPLE_HDR_LENGTH);
485 				}
486 
487 				/*
488 				 * Pseudo-header checksum.
489 				 */
490 				src = ipha->ipha_src;
491 				dst = ipha->ipha_dst;
492 				len = ntohs(ipha->ipha_length) -
493 				    IP_SIMPLE_HDR_LENGTH;
494 
495 				cksum = (dst >> 16) + (dst & 0xFFFF) +
496 				    (src >> 16) + (src & 0xFFFF);
497 				cksum += htons(len);
498 
499 				/*
500 				 * The checksum value stored in the packet needs
501 				 * to be correct. Compute it here.
502 				 */
503 				*up = 0;
504 				cksum += (((proto) == IPPROTO_UDP) ?
505 				    IP_UDP_CSUM_COMP : IP_TCP_CSUM_COMP);
506 				cksum = IP_CSUM(mp, IP_SIMPLE_HDR_LENGTH +
507 				    offset, cksum);
508 				*(up) = (uint16_t)(cksum ? cksum : ~cksum);
509 
510 				flags |= HCK_FULLCKSUM_OK;
511 				value = 0xffff;
512 			}
513 
514 			if (flags & HCK_IPV4_HDRCKSUM) {
515 				ASSERT(ipha != NULL);
516 				ipha->ipha_hdr_checksum =
517 				    (uint16_t)ip_csum_hdr(ipha);
518 			}
519 		}
520 
521 		if (flags & HCK_PARTIALCKSUM) {
522 			uint16_t *up, partial, cksum;
523 			uchar_t *ipp; /* ptr to beginning of IP header */
524 
525 			if (mp->b_cont != NULL) {
526 				mblk_t *mp1;
527 
528 				mp1 = msgpullup(mp, offset + end);
529 				if (mp1 == NULL)
530 					continue;
531 				mp1->b_next = mp->b_next;
532 				mp->b_next = NULL;
533 				freemsg(mp);
534 				if (prev != NULL)
535 					prev->b_next = mp1;
536 				else
537 					new_chain = mp1;
538 				mp = mp1;
539 			}
540 
541 			ipp = mp->b_rptr + offset;
542 			/*LINTED*/
543 			up = (uint16_t *)((uchar_t *)ipp + stuff);
544 			partial = *up;
545 			*up = 0;
546 
547 			cksum = IP_BCSUM_PARTIAL(mp->b_rptr + offset + start,
548 			    end - start, partial);
549 			cksum = ~cksum;
550 			*up = cksum ? cksum : ~cksum;
551 
552 			/*
553 			 * Since we already computed the whole checksum,
554 			 * indicate to the stack that it has already
555 			 * been verified by the hardware.
556 			 */
557 			flags &= ~HCK_PARTIALCKSUM;
558 			flags |= (HCK_FULLCKSUM | HCK_FULLCKSUM_OK);
559 			value = 0xffff;
560 		}
561 
562 		(void) hcksum_assoc(mp, NULL, NULL, start, stuff, end,
563 		    value, flags, KM_NOSLEEP);
564 	}
565 
566 	return (new_chain);
567 }
568 
569 static void
570 vnic_mac_close(vnic_mac_t *vnic_mac)
571 {
572 	mutex_enter(&vnic_mac_lock);
573 	VNIC_MAC_REFRELE(vnic_mac);
574 	mutex_exit(&vnic_mac_lock);
575 }
576 
577 static void
578 vnic_mac_free(vnic_mac_t *vnic_mac)
579 {
580 	mod_hash_val_t val;
581 
582 	ASSERT(MUTEX_HELD(&vnic_mac_lock));
583 	vnic_fini_active_rx(vnic_mac);
584 	mac_notify_remove(vnic_mac->va_mh, vnic_mac->va_notify_hdl);
585 	if (vnic_mac->va_mac_set) {
586 		vnic_mac->va_mac_set = B_FALSE;
587 		mac_vnic_clear(vnic_mac->va_mh);
588 	}
589 	vnic_classifier_flow_tab_fini(vnic_mac);
590 	mac_close(vnic_mac->va_mh);
591 
592 	(void) mod_hash_remove(vnic_mac_hash,
593 	    (mod_hash_key_t)vnic_mac->va_dev_name, &val);
594 	ASSERT(vnic_mac == (vnic_mac_t *)val);
595 
596 	kmem_cache_free(vnic_mac_cache, vnic_mac);
597 }
598 
599 /*
600  * Initial VNIC receive routine. Invoked for packets that are steered
601  * to a VNIC but the VNIC has not been started yet.
602  */
603 /* ARGSUSED */
604 static void
605 vnic_rx_initial(void *arg1, void *arg2, mblk_t *mp_chain)
606 {
607 	vnic_t *vnic = arg1;
608 	mblk_t *mp;
609 
610 	/* update stats */
611 	for (mp = mp_chain; mp != NULL; mp = mp->b_next)
612 		vnic->vn_stat_ierrors++;
613 	freemsgchain(mp_chain);
614 }
615 
616 /*
617  * VNIC receive routine invoked after the classifier for the VNIC
618  * has been initialized and the VNIC has been started.
619  */
620 /* ARGSUSED */
621 void
622 vnic_rx(void *arg1, void *arg2, mblk_t *mp_chain)
623 {
624 	vnic_t *vnic = arg1;
625 	mblk_t *mp;
626 
627 	/* update stats */
628 	for (mp = mp_chain; mp != NULL; mp = mp->b_next) {
629 		vnic->vn_stat_ipackets++;
630 		vnic->vn_stat_rbytes += msgdsize(mp);
631 	}
632 
633 	/* pass packet up */
634 	mac_rx(vnic->vn_mh, NULL, mp_chain);
635 }
636 
637 /*
638  * Routine to create a MAC-based VNIC. Adds the passed MAC address
639  * to an unused slot in the NIC if one is available. Otherwise it
640  * sets the NIC in promiscuous mode and assigns the MAC address to
641  * a Rx ring if available or a soft ring.
642  */
643 static int
644 vnic_add_unicstaddr(vnic_t *vnic, mac_multi_addr_t *maddr)
645 {
646 	vnic_mac_t *vnic_mac = vnic->vn_vnic_mac;
647 	int err;
648 
649 	if (mac_vnic_capab_get(vnic_mac->va_mh, MAC_CAPAB_MULTIADDRESS,
650 	    &(vnic->vn_mma_capab))) {
651 		if (vnic->vn_maddr_naddrfree == 0) {
652 			/*
653 			 * No free address slots available.
654 			 * Enable promiscuous mode.
655 			 */
656 			goto set_promisc;
657 		}
658 
659 		err = vnic->vn_maddr_add(vnic->vn_maddr_handle, maddr);
660 		if (err != 0) {
661 			if (err == ENOSPC) {
662 				/*
663 				 * There was a race to add addresses
664 				 * with other multiple address consumers,
665 				 * and we lost out. Use promisc mode.
666 				 */
667 				goto set_promisc;
668 			}
669 
670 			return (err);
671 		}
672 
673 		vnic->vn_slot_id = maddr->mma_slot;
674 		vnic->vn_multi_mac = B_TRUE;
675 	} else {
676 		/*
677 		 * Either multiple MAC address support is not
678 		 * available or all available addresses have
679 		 * been used up.
680 		 */
681 	set_promisc:
682 		err = mac_promisc_set(vnic_mac->va_mh, B_TRUE, MAC_DEVPROMISC);
683 		if (err != 0) {
684 			return (err);
685 		}
686 
687 		vnic->vn_promisc_mac = B_TRUE;
688 	}
689 	return (err);
690 }
691 
692 /*
693  * VNIC is getting deleted. Remove the MAC address from the slot.
694  * If promiscuous mode was being used, then unset the promiscuous mode.
695  */
696 static int
697 vnic_remove_unicstaddr(vnic_t *vnic)
698 {
699 	vnic_mac_t *vnic_mac = vnic->vn_vnic_mac;
700 	int err;
701 
702 	if (vnic->vn_multi_mac) {
703 		ASSERT(vnic->vn_promisc_mac == B_FALSE);
704 		err = vnic->vn_maddr_remove(vnic->vn_maddr_handle,
705 		    vnic->vn_slot_id);
706 		vnic->vn_multi_mac = B_FALSE;
707 	}
708 
709 	if (vnic->vn_promisc_mac) {
710 		ASSERT(vnic->vn_multi_mac == B_FALSE);
711 		err = mac_promisc_set(vnic_mac->va_mh, B_FALSE, MAC_DEVPROMISC);
712 		vnic->vn_promisc_mac = B_FALSE;
713 	}
714 
715 	return (err);
716 }
717 
718 /*
719  * Create a new VNIC upon request from administrator.
720  * Returns 0 on success, an errno on failure.
721  */
722 int
723 vnic_dev_create(uint_t vnic_id, char *dev_name, int mac_len, uchar_t *mac_addr)
724 {
725 	vnic_t *vnic = NULL;
726 	mac_register_t *mac;
727 	int err;
728 	vnic_mac_t *vnic_mac;
729 	const mac_info_t *lower_mac_info;
730 	mac_multi_addr_t maddr;
731 	mac_txinfo_t tx_info;
732 
733 	if (mac_len != ETHERADDRL) {
734 		/* currently only ethernet NICs are supported */
735 		return (EINVAL);
736 	}
737 
738 	rw_enter(&vnic_lock, RW_WRITER);
739 
740 	/* does a VNIC with the same id already exist? */
741 	err = mod_hash_find(vnic_hash, VNIC_HASH_KEY(vnic_id),
742 	    (mod_hash_val_t *)&vnic);
743 	if (err == 0) {
744 		rw_exit(&vnic_lock);
745 		return (EEXIST);
746 	}
747 
748 	vnic = kmem_cache_alloc(vnic_cache, KM_NOSLEEP);
749 	if (vnic == NULL) {
750 		rw_exit(&vnic_lock);
751 		return (ENOMEM);
752 	}
753 
754 	/* open underlying MAC */
755 	err = vnic_mac_open(dev_name, &vnic_mac);
756 	if (err != 0) {
757 		kmem_cache_free(vnic_cache, vnic);
758 		rw_exit(&vnic_lock);
759 		return (err);
760 	}
761 
762 	bzero(vnic, sizeof (*vnic));
763 	vnic->vn_id = vnic_id;
764 	vnic->vn_vnic_mac = vnic_mac;
765 
766 	vnic->vn_started = B_FALSE;
767 	vnic->vn_promisc = B_FALSE;
768 	vnic->vn_multi_mac = B_FALSE;
769 	vnic->vn_bcast_grp = B_FALSE;
770 
771 	/* set the VNIC MAC address */
772 	maddr.mma_addrlen = mac_len;
773 	maddr.mma_slot = 0;
774 	maddr.mma_flags = 0;
775 	bcopy(mac_addr, maddr.mma_addr, mac_len);
776 	if ((err = vnic_add_unicstaddr(vnic, &maddr)) != 0)
777 		goto bail;
778 	bcopy(mac_addr, vnic->vn_addr, mac_len);
779 
780 	/* set the initial VNIC capabilities */
781 	if (!mac_vnic_capab_get(vnic_mac->va_mh, MAC_CAPAB_HCKSUM,
782 	    &vnic->vn_hcksum_txflags))
783 		vnic->vn_hcksum_txflags = 0;
784 
785 	/* register with the MAC module */
786 	if ((mac = mac_alloc(MAC_VERSION)) == NULL)
787 		goto bail;
788 
789 	mac->m_type_ident = MAC_PLUGIN_IDENT_ETHER;
790 	mac->m_driver = vnic;
791 	mac->m_dip = vnic_get_dip();
792 	mac->m_instance = vnic_id;
793 	mac->m_src_addr = vnic->vn_addr;
794 	mac->m_callbacks = &vnic_m_callbacks;
795 
796 	lower_mac_info = mac_info(vnic_mac->va_mh);
797 	mac->m_min_sdu = lower_mac_info->mi_sdu_min;
798 	mac->m_max_sdu = lower_mac_info->mi_sdu_max;
799 
800 	err = mac_register(mac, &vnic->vn_mh);
801 	mac_free(mac);
802 	if (err != 0)
803 		goto bail;
804 
805 	/* add new VNIC to hash table */
806 	err = mod_hash_insert(vnic_hash, VNIC_HASH_KEY(vnic_id),
807 	    (mod_hash_val_t)vnic);
808 	ASSERT(err == 0);
809 	vnic_count++;
810 
811 	rw_exit(&vnic_lock);
812 
813 	/* Create a flow, initialized with the MAC address of the VNIC */
814 	if ((vnic->vn_flow_ent = vnic_classifier_flow_create(mac_len, mac_addr,
815 	    NULL, B_FALSE, KM_SLEEP)) == NULL) {
816 		(void) vnic_dev_delete(vnic_id);
817 		vnic = NULL;
818 		err = ENOMEM;
819 		goto bail_unlocked;
820 	}
821 
822 	vnic_classifier_flow_add(vnic_mac, vnic->vn_flow_ent, vnic_rx_initial,
823 	    vnic, vnic);
824 
825 	/* setup VNIC to receive broadcast packets */
826 	err = vnic_bcast_add(vnic, vnic_brdcst_mac, MAC_ADDRTYPE_BROADCAST);
827 	if (err != 0) {
828 		(void) vnic_dev_delete(vnic_id);
829 		vnic = NULL;
830 		goto bail_unlocked;
831 	}
832 	vnic->vn_bcast_grp = B_TRUE;
833 
834 	mutex_enter(&vnic_mac_lock);
835 	if (!vnic_mac->va_mac_set) {
836 		/*
837 		 * We want to MAC layer to call the VNIC tx outbound
838 		 * routine, so that local broadcast packets sent by
839 		 * the active interface sharing the underlying NIC (if
840 		 * any), can be broadcast to every VNIC.
841 		 */
842 		tx_info.mt_fn = vnic_active_tx;
843 		tx_info.mt_arg = vnic_mac;
844 		if (!mac_vnic_set(vnic_mac->va_mh, &tx_info,
845 		    vnic_m_capab_get, vnic)) {
846 			mutex_exit(&vnic_mac_lock);
847 			(void) vnic_dev_delete(vnic_id);
848 			vnic = NULL;
849 			err = EBUSY;
850 			goto bail_unlocked;
851 		}
852 		vnic_mac->va_mac_set = B_TRUE;
853 	}
854 	mutex_exit(&vnic_mac_lock);
855 
856 	/* allow passing packets to NIC's active MAC client */
857 	if (!vnic_init_active_rx(vnic_mac)) {
858 		(void) vnic_dev_delete(vnic_id);
859 		vnic = NULL;
860 		err = ENOMEM;
861 		goto bail_unlocked;
862 	}
863 
864 	return (0);
865 
866 bail:
867 	(void) vnic_remove_unicstaddr(vnic);
868 	vnic_mac_close(vnic_mac);
869 	rw_exit(&vnic_lock);
870 
871 bail_unlocked:
872 	if (vnic != NULL) {
873 		kmem_cache_free(vnic_cache, vnic);
874 	}
875 
876 	return (err);
877 }
878 
879 /*
880  * Modify the properties of an existing VNIC.
881  */
882 /* ARGSUSED */
883 int
884 vnic_dev_modify(uint_t vnic_id, uint_t modify_mask,
885     vnic_mac_addr_type_t mac_addr_type, uint_t mac_len, uchar_t *mac_addr)
886 {
887 	vnic_t *vnic = NULL;
888 	int rv = 0;
889 	boolean_t notify_mac_addr = B_FALSE;
890 
891 	rw_enter(&vnic_lock, RW_WRITER);
892 
893 	if (mod_hash_find(vnic_hash, VNIC_HASH_KEY(vnic_id),
894 	    (mod_hash_val_t *)&vnic) != 0) {
895 		rw_exit(&vnic_lock);
896 		return (ENOENT);
897 	}
898 
899 	if (modify_mask & VNIC_IOC_MODIFY_ADDR) {
900 		rv = vnic_modify_mac_addr(vnic, mac_len, mac_addr);
901 		if (rv == 0)
902 			notify_mac_addr = B_TRUE;
903 	}
904 
905 	rw_exit(&vnic_lock);
906 
907 	if (notify_mac_addr)
908 		mac_unicst_update(vnic->vn_mh, mac_addr);
909 
910 	return (rv);
911 }
912 
913 int
914 vnic_dev_delete(uint_t vnic_id)
915 {
916 	vnic_t *vnic = NULL;
917 	mod_hash_val_t val;
918 	vnic_flow_t *flent;
919 	int rc;
920 
921 	rw_enter(&vnic_lock, RW_WRITER);
922 
923 	if (mod_hash_find(vnic_hash, VNIC_HASH_KEY(vnic_id),
924 	    (mod_hash_val_t *)&vnic) != 0) {
925 		rw_exit(&vnic_lock);
926 		return (ENOENT);
927 	}
928 
929 	/*
930 	 * We cannot unregister the MAC yet. Unregistering would
931 	 * free up mac_impl_t which should not happen at this time.
932 	 * Packets could be entering vnic_rx() through the
933 	 * flow entry and so mac_impl_t cannot be NULL. So disable
934 	 * mac_impl_t by calling mac_disable(). This will prevent any
935 	 * new claims on mac_impl_t.
936 	 */
937 	if (mac_disable(vnic->vn_mh) != 0) {
938 		rw_exit(&vnic_lock);
939 		return (EBUSY);
940 	}
941 
942 	(void) mod_hash_remove(vnic_hash, VNIC_HASH_KEY(vnic_id), &val);
943 	ASSERT(vnic == (vnic_t *)val);
944 
945 	if (vnic->vn_bcast_grp)
946 		(void) vnic_bcast_delete(vnic, vnic_brdcst_mac);
947 
948 	flent = vnic->vn_flow_ent;
949 	if (flent != NULL) {
950 		/*
951 		 * vnic_classifier_flow_destroy() ensures that the
952 		 * flow is no longer used.
953 		 */
954 		vnic_classifier_flow_remove(vnic->vn_vnic_mac, flent);
955 		vnic_classifier_flow_destroy(flent);
956 	}
957 
958 	rc = mac_unregister(vnic->vn_mh);
959 	ASSERT(rc == 0);
960 	(void) vnic_remove_unicstaddr(vnic);
961 	vnic_mac_close(vnic->vn_vnic_mac);
962 	kmem_cache_free(vnic_cache, vnic);
963 	vnic_count--;
964 	rw_exit(&vnic_lock);
965 	return (0);
966 }
967 
968 /*
969  * For the specified packet chain, return a sub-chain to be sent
970  * and the transmit function to be used to send the packet. Also
971  * return a pointer to the sub-chain of packets that should
972  * be re-classified. If the function returns NULL, the packet
973  * should be sent using the underlying NIC.
974  */
975 static vnic_flow_t *
976 vnic_classify(vnic_mac_t *vnic_mac, mblk_t *mp, mblk_t **mp_chain_rest)
977 {
978 	vnic_flow_t *flow_ent;
979 
980 	/* one packet at a time */
981 	*mp_chain_rest = mp->b_next;
982 	mp->b_next = NULL;
983 
984 	/* do classification on the packet */
985 	flow_ent = vnic_classifier_get_flow(vnic_mac, mp);
986 
987 	return (flow_ent);
988 }
989 
990 /*
991  * Send a packet chain to a local VNIC or an active MAC client.
992  */
993 static void
994 vnic_local_tx(vnic_mac_t *vnic_mac, vnic_flow_t *flow_ent, mblk_t *mp_chain)
995 {
996 	mblk_t *mp1;
997 	const vnic_flow_fn_info_t *fn_info;
998 	vnic_t *vnic;
999 
1000 	if (!vnic_classifier_is_active(flow_ent) &&
1001 	    mac_promisc_get(vnic_mac->va_mh, MAC_PROMISC)) {
1002 		/*
1003 		 * If the MAC is in promiscous mode,
1004 		 * send a copy of the active client.
1005 		 */
1006 		if ((mp1 = vnic_copymsgchain_cksum(mp_chain)) == NULL)
1007 			goto sendit;
1008 		if ((mp1 = vnic_fix_cksum(mp1)) == NULL)
1009 			goto sendit;
1010 		mac_active_rx(vnic_mac->va_mh, NULL, mp1);
1011 	}
1012 sendit:
1013 	fn_info = vnic_classifier_get_fn_info(flow_ent);
1014 	/*
1015 	 * If the vnic to which we would deliver this packet is in
1016 	 * promiscuous mode then it already received the packet via
1017 	 * vnic_promisc_rx().
1018 	 *
1019 	 * XXX assumes that ff_arg2 is a vnic_t pointer if it is
1020 	 * non-NULL (currently always true).
1021 	 */
1022 	vnic = (vnic_t *)fn_info->ff_arg2;
1023 	if ((vnic != NULL) && vnic->vn_promisc)
1024 		freemsg(mp_chain);
1025 	else if ((mp1 = vnic_fix_cksum(mp_chain)) != NULL)
1026 		(fn_info->ff_fn)(fn_info->ff_arg1, fn_info->ff_arg2, mp1);
1027 }
1028 
1029 /*
1030  * This function is invoked when a MAC client needs to send a packet
1031  * to a NIC which is shared by VNICs. It is passed to the MAC layer
1032  * by a call to mac_vnic_set() when the NIC is opened, and is returned
1033  * to MAC clients by mac_tx_get() when VNICs are present.
1034  */
1035 mblk_t *
1036 vnic_active_tx(void *arg, mblk_t *mp_chain)
1037 {
1038 	vnic_mac_t *vnic_mac = arg;
1039 	mblk_t *mp, *extra_mp = NULL;
1040 	vnic_flow_t *flow_ent;
1041 	void *flow_cookie;
1042 	const mac_txinfo_t *mtp = vnic_mac->va_txinfo;
1043 
1044 	for (mp = mp_chain; mp != NULL; mp = extra_mp) {
1045 		mblk_t *next;
1046 
1047 		next = mp->b_next;
1048 		mp->b_next = NULL;
1049 
1050 		vnic_promisc_rx(vnic_mac, (vnic_t *)-1, mp);
1051 
1052 		flow_ent = vnic_classify(vnic_mac, mp, &extra_mp);
1053 		ASSERT(extra_mp == NULL);
1054 		extra_mp = next;
1055 
1056 		if (flow_ent != NULL) {
1057 			flow_cookie = vnic_classifier_get_client_cookie(
1058 			    flow_ent);
1059 			if (flow_cookie != NULL) {
1060 				/*
1061 				 * Send a copy to every VNIC defined on the
1062 				 * interface, as well as the underlying MAC.
1063 				 */
1064 				vnic_bcast_send(flow_cookie, (vnic_t *)-1, mp);
1065 			} else {
1066 				/*
1067 				 * loopback the packet to a local VNIC or
1068 				 * an active MAC client.
1069 				 */
1070 				vnic_local_tx(vnic_mac, flow_ent, mp);
1071 			}
1072 			VNIC_FLOW_REFRELE(flow_ent);
1073 			mp_chain = NULL;
1074 		} else {
1075 			/*
1076 			 * Non-VNIC destination, send via the underlying
1077 			 * NIC. In order to avoid a recursive call
1078 			 * to this function, we ensured that mtp points
1079 			 * to the unerlying NIC transmit function
1080 			 * by inilizating through mac_vnic_tx_get().
1081 			 */
1082 			mp_chain = mtp->mt_fn(mtp->mt_arg, mp);
1083 			if (mp_chain != NULL)
1084 				break;
1085 		}
1086 	}
1087 
1088 	if ((mp_chain != NULL) && (extra_mp != NULL)) {
1089 		ASSERT(mp_chain->b_next == NULL);
1090 		mp_chain->b_next = extra_mp;
1091 	}
1092 	return (mp_chain);
1093 }
1094 
1095 /*
1096  * VNIC transmit function.
1097  */
1098 mblk_t *
1099 vnic_m_tx(void *arg, mblk_t *mp_chain)
1100 {
1101 	vnic_t *vnic = arg;
1102 	vnic_mac_t *vnic_mac = vnic->vn_vnic_mac;
1103 	mblk_t *mp, *extra_mp = NULL;
1104 	vnic_flow_t *flow_ent;
1105 	void *flow_cookie;
1106 
1107 	/*
1108 	 * Update stats.
1109 	 */
1110 	for (mp = mp_chain; mp != NULL; mp = mp->b_next) {
1111 		vnic->vn_stat_opackets++;
1112 		vnic->vn_stat_obytes += msgdsize(mp);
1113 	}
1114 
1115 	for (mp = mp_chain; mp != NULL; mp = extra_mp) {
1116 		mblk_t *next;
1117 
1118 		next = mp->b_next;
1119 		mp->b_next = NULL;
1120 
1121 		vnic_promisc_rx(vnic->vn_vnic_mac, vnic, mp);
1122 
1123 		flow_ent = vnic_classify(vnic->vn_vnic_mac, mp, &extra_mp);
1124 		ASSERT(extra_mp == NULL);
1125 		extra_mp = next;
1126 
1127 		if (flow_ent != NULL) {
1128 			flow_cookie = vnic_classifier_get_client_cookie(
1129 			    flow_ent);
1130 			if (flow_cookie != NULL) {
1131 				/*
1132 				 * The vnic_bcast_send function expects
1133 				 * to receive the sender VNIC as value
1134 				 * for arg2.
1135 				 */
1136 				vnic_bcast_send(flow_cookie, vnic, mp);
1137 			} else {
1138 				/*
1139 				 * loopback the packet to a local VNIC or
1140 				 * an active MAC client.
1141 				 */
1142 				vnic_local_tx(vnic_mac, flow_ent, mp);
1143 			}
1144 			VNIC_FLOW_REFRELE(flow_ent);
1145 			mp_chain = NULL;
1146 		} else {
1147 			/*
1148 			 * Non-local destination, send via the underlying
1149 			 * NIC.
1150 			 */
1151 			const mac_txinfo_t *mtp = vnic->vn_txinfo;
1152 			mp_chain = mtp->mt_fn(mtp->mt_arg, mp);
1153 			if (mp_chain != NULL)
1154 				break;
1155 		}
1156 	}
1157 
1158 	/* update stats to account for unsent packets */
1159 	for (mp = mp_chain; mp != NULL; mp = mp->b_next) {
1160 		vnic->vn_stat_opackets--;
1161 		vnic->vn_stat_obytes -= msgdsize(mp);
1162 		vnic->vn_stat_oerrors++;
1163 		/*
1164 		 * link back in the last portion not counted due to bandwidth
1165 		 * control.
1166 		 */
1167 		if (mp->b_next == NULL) {
1168 			mp->b_next = extra_mp;
1169 			break;
1170 		}
1171 	}
1172 
1173 	return (mp_chain);
1174 }
1175 
1176 /* ARGSUSED */
1177 static void
1178 vnic_m_resources(void *arg)
1179 {
1180 	/* no resources to advertise */
1181 }
1182 
1183 static int
1184 vnic_m_stat(void *arg, uint_t stat, uint64_t *val)
1185 {
1186 	vnic_t *vnic = arg;
1187 	int rval = 0;
1188 
1189 	rw_enter(&vnic_lock, RW_READER);
1190 
1191 	switch (stat) {
1192 	case ETHER_STAT_LINK_DUPLEX:
1193 		*val = mac_stat_get(vnic->vn_vnic_mac->va_mh,
1194 		    ETHER_STAT_LINK_DUPLEX);
1195 		break;
1196 	case MAC_STAT_IFSPEED:
1197 		*val = mac_stat_get(vnic->vn_vnic_mac->va_mh,
1198 		    MAC_STAT_IFSPEED);
1199 		break;
1200 	case MAC_STAT_MULTIRCV:
1201 		*val = vnic->vn_stat_multircv;
1202 		break;
1203 	case MAC_STAT_BRDCSTRCV:
1204 		*val = vnic->vn_stat_brdcstrcv;
1205 		break;
1206 	case MAC_STAT_MULTIXMT:
1207 		*val = vnic->vn_stat_multixmt;
1208 		break;
1209 	case MAC_STAT_BRDCSTXMT:
1210 		*val = vnic->vn_stat_brdcstxmt;
1211 		break;
1212 	case MAC_STAT_IERRORS:
1213 		*val = vnic->vn_stat_ierrors;
1214 		break;
1215 	case MAC_STAT_OERRORS:
1216 		*val = vnic->vn_stat_oerrors;
1217 		break;
1218 	case MAC_STAT_RBYTES:
1219 		*val = vnic->vn_stat_rbytes;
1220 		break;
1221 	case MAC_STAT_IPACKETS:
1222 		*val = vnic->vn_stat_ipackets;
1223 		break;
1224 	case MAC_STAT_OBYTES:
1225 		*val = vnic->vn_stat_obytes;
1226 		break;
1227 	case MAC_STAT_OPACKETS:
1228 		*val = vnic->vn_stat_opackets;
1229 		break;
1230 	default:
1231 		rval = ENOTSUP;
1232 	}
1233 
1234 	rw_exit(&vnic_lock);
1235 	return (rval);
1236 }
1237 
1238 /*
1239  * Return information about the specified capability.
1240  */
1241 /* ARGSUSED */
1242 static boolean_t
1243 vnic_m_capab_get(void *arg, mac_capab_t cap, void *cap_data)
1244 {
1245 	vnic_t *vnic = arg;
1246 
1247 	switch (cap) {
1248 	case MAC_CAPAB_POLL:
1249 		return (B_TRUE);
1250 	case MAC_CAPAB_HCKSUM: {
1251 		uint32_t *hcksum_txflags = cap_data;
1252 
1253 		*hcksum_txflags = vnic->vn_hcksum_txflags &
1254 		    (HCKSUM_INET_FULL_V4 | HCKSUM_IPHDRCKSUM |
1255 		    HCKSUM_INET_PARTIAL);
1256 		break;
1257 	}
1258 	default:
1259 		return (B_FALSE);
1260 	}
1261 	return (B_TRUE);
1262 }
1263 
1264 static int
1265 vnic_m_start(void *arg)
1266 {
1267 	vnic_t *vnic = arg;
1268 	mac_handle_t lower_mh = vnic->vn_vnic_mac->va_mh;
1269 	int rc;
1270 
1271 	rc = mac_start(lower_mh);
1272 	if (rc != 0)
1273 		return (rc);
1274 
1275 	vnic_classifier_flow_update_fn(vnic->vn_flow_ent, vnic_rx, vnic, vnic);
1276 	return (0);
1277 }
1278 
1279 static void
1280 vnic_m_stop(void *arg)
1281 {
1282 	vnic_t *vnic = arg;
1283 	mac_handle_t lower_mh = vnic->vn_vnic_mac->va_mh;
1284 
1285 	vnic_classifier_flow_update_fn(vnic->vn_flow_ent, vnic_rx_initial,
1286 	    vnic, vnic);
1287 	mac_stop(lower_mh);
1288 }
1289 
1290 /* ARGSUSED */
1291 static int
1292 vnic_m_promisc(void *arg, boolean_t on)
1293 {
1294 	vnic_t *vnic = arg;
1295 
1296 	return (vnic_promisc_set(vnic, on));
1297 }
1298 
1299 static int
1300 vnic_m_multicst(void *arg, boolean_t add, const uint8_t *addrp)
1301 {
1302 	vnic_t *vnic = arg;
1303 	int rc = 0;
1304 
1305 	if (add)
1306 		rc = vnic_bcast_add(vnic, addrp, MAC_ADDRTYPE_MULTICAST);
1307 	else
1308 		vnic_bcast_delete(vnic, addrp);
1309 
1310 	return (rc);
1311 }
1312 
1313 static int
1314 vnic_m_unicst(void *arg, const uint8_t *mac_addr)
1315 {
1316 	vnic_t *vnic = arg;
1317 	vnic_mac_t *vnic_mac = vnic->vn_vnic_mac;
1318 	int rv;
1319 
1320 	rw_enter(&vnic_lock, RW_WRITER);
1321 	rv = vnic_modify_mac_addr(vnic, vnic_mac->va_addr_len,
1322 	    (uchar_t *)mac_addr);
1323 	rw_exit(&vnic_lock);
1324 
1325 	if (rv == 0)
1326 		mac_unicst_update(vnic->vn_mh, mac_addr);
1327 	return (0);
1328 }
1329 
1330 int
1331 vnic_info(uint_t *nvnics, uint32_t vnic_id, char *dev_name, void *fn_arg,
1332     vnic_info_new_vnic_fn_t new_vnic_fn)
1333 {
1334 	vnic_info_state_t state;
1335 	int rc = 0;
1336 
1337 	rw_enter(&vnic_lock, RW_READER);
1338 
1339 	*nvnics = vnic_count;
1340 
1341 	bzero(&state, sizeof (state));
1342 	state.vs_vnic_id = vnic_id;
1343 	bcopy(state.vs_dev_name, dev_name, MAXNAMELEN);
1344 	state.vs_new_vnic_fn = new_vnic_fn;
1345 	state.vs_fn_arg = fn_arg;
1346 
1347 	mod_hash_walk(vnic_hash, vnic_info_walker, &state);
1348 
1349 	if ((rc = state.vs_rc) == 0 && vnic_id != 0 &&
1350 	    state.vs_vnic_found)
1351 		rc = ENOENT;
1352 
1353 	rw_exit(&vnic_lock);
1354 	return (rc);
1355 }
1356 
1357 /*
1358  * Walker invoked when building a list of vnics that must be passed
1359  * up to user space.
1360  */
1361 /*ARGSUSED*/
1362 static uint_t
1363 vnic_info_walker(mod_hash_key_t key, mod_hash_val_t *val, void *arg)
1364 {
1365 	vnic_t *vnic;
1366 	vnic_info_state_t *state = arg;
1367 
1368 	if (state->vs_rc != 0)
1369 		return (MH_WALK_TERMINATE);	/* terminate walk */
1370 
1371 	vnic = (vnic_t *)val;
1372 
1373 	if (state->vs_vnic_id != 0 && vnic->vn_id != state->vs_vnic_id)
1374 		goto bail;
1375 
1376 	state->vs_vnic_found = B_TRUE;
1377 
1378 	state->vs_rc = state->vs_new_vnic_fn(state->vs_fn_arg,
1379 	    vnic->vn_id, vnic->vn_addr_type, vnic->vn_vnic_mac->va_addr_len,
1380 	    vnic->vn_addr, vnic->vn_vnic_mac->va_dev_name);
1381 bail:
1382 	return ((state->vs_rc == 0) ? MH_WALK_CONTINUE : MH_WALK_TERMINATE);
1383 }
1384 
1385 /*
1386  * vnic_notify_cb() and vnic_notify_walker() below are used to
1387  * process events received from an underlying NIC and, if needed,
1388  * forward these events to the VNICs defined on top of that NIC.
1389  */
1390 
1391 typedef struct vnic_notify_state {
1392 	mac_notify_type_t	vo_type;
1393 	vnic_mac_t		*vo_vnic_mac;
1394 } vnic_notify_state_t;
1395 
1396 /* ARGSUSED */
1397 static uint_t
1398 vnic_notify_walker(mod_hash_key_t key, mod_hash_val_t *val, void *arg)
1399 {
1400 	vnic_t *vnic = (vnic_t *)val;
1401 	vnic_notify_state_t *state = arg;
1402 
1403 	/* ignore VNICs that don't use the specified underlying MAC */
1404 	if (vnic->vn_vnic_mac != state->vo_vnic_mac)
1405 		return (MH_WALK_CONTINUE);
1406 
1407 	switch (state->vo_type) {
1408 	case MAC_NOTE_TX:
1409 		mac_tx_update(vnic->vn_mh);
1410 		break;
1411 	case MAC_NOTE_LINK:
1412 		/*
1413 		 * The VNIC link state must be up regardless of
1414 		 * the link state of the underlying NIC to maintain
1415 		 * connectivity between VNICs on the same host.
1416 		 */
1417 		mac_link_update(vnic->vn_mh, LINK_STATE_UP);
1418 		break;
1419 	case MAC_NOTE_UNICST:
1420 		vnic_update_active_rx(vnic->vn_vnic_mac);
1421 		break;
1422 	case MAC_NOTE_VNIC:
1423 		/* only for clients which share a NIC with a VNIC */
1424 		break;
1425 	case MAC_NOTE_PROMISC:
1426 		mutex_enter(&vnic_mac_lock);
1427 		vnic->vn_vnic_mac->va_txinfo = mac_vnic_tx_get(
1428 		    vnic->vn_vnic_mac->va_mh);
1429 		mutex_exit(&vnic_mac_lock);
1430 		break;
1431 	}
1432 
1433 	return (MH_WALK_CONTINUE);
1434 }
1435 
1436 static void
1437 vnic_notify_cb(void *arg, mac_notify_type_t type)
1438 {
1439 	vnic_mac_t *vnic = arg;
1440 	vnic_notify_state_t state;
1441 
1442 	state.vo_type = type;
1443 	state.vo_vnic_mac = vnic;
1444 
1445 	rw_enter(&vnic_lock, RW_READER);
1446 	mod_hash_walk(vnic_hash, vnic_notify_walker, &state);
1447 	rw_exit(&vnic_lock);
1448 }
1449 
1450 static int
1451 vnic_modify_mac_addr(vnic_t *vnic, uint_t mac_len, uchar_t *mac_addr)
1452 {
1453 	vnic_mac_t *vnic_mac = vnic->vn_vnic_mac;
1454 	vnic_flow_t *vnic_flow = vnic->vn_flow_ent;
1455 
1456 	ASSERT(RW_WRITE_HELD(&vnic_lock));
1457 
1458 	if (mac_len != vnic_mac->va_addr_len)
1459 		return (EINVAL);
1460 
1461 	vnic_classifier_flow_update_addr(vnic_flow, mac_addr);
1462 	return (0);
1463 }
1464 
1465 static int
1466 vnic_promisc_set(vnic_t *vnic, boolean_t on)
1467 {
1468 	vnic_mac_t *vnic_mac = vnic->vn_vnic_mac;
1469 	int r = -1;
1470 
1471 	if (vnic->vn_promisc == on)
1472 		return (0);
1473 
1474 	if (on) {
1475 		r = mac_promisc_set(vnic_mac->va_mh, B_TRUE, MAC_DEVPROMISC);
1476 		if (r != 0)
1477 			return (r);
1478 
1479 		rw_enter(&vnic_mac->va_promisc_lock, RW_WRITER);
1480 		vnic->vn_promisc_next = vnic_mac->va_promisc;
1481 		vnic_mac->va_promisc = vnic;
1482 		vnic_mac->va_promisc_gen++;
1483 
1484 		vnic->vn_promisc = B_TRUE;
1485 		rw_exit(&vnic_mac->va_promisc_lock);
1486 
1487 		return (0);
1488 	} else {
1489 		vnic_t *loop, *prev = NULL;
1490 
1491 		rw_enter(&vnic_mac->va_promisc_lock, RW_WRITER);
1492 		loop = vnic_mac->va_promisc;
1493 
1494 		while ((loop != NULL) && (loop != vnic)) {
1495 			prev = loop;
1496 			loop = loop->vn_promisc_next;
1497 		}
1498 
1499 		if ((loop != NULL) &&
1500 		    ((r = mac_promisc_set(vnic_mac->va_mh, B_FALSE,
1501 		    MAC_DEVPROMISC)) == 0)) {
1502 			if (prev != NULL)
1503 				prev->vn_promisc_next = loop->vn_promisc_next;
1504 			else
1505 				vnic_mac->va_promisc = loop->vn_promisc_next;
1506 			vnic_mac->va_promisc_gen++;
1507 
1508 			vnic->vn_promisc = B_FALSE;
1509 		}
1510 		rw_exit(&vnic_mac->va_promisc_lock);
1511 
1512 		return (r);
1513 	}
1514 }
1515 
1516 void
1517 vnic_promisc_rx(vnic_mac_t *vnic_mac, vnic_t *sender, mblk_t *mp)
1518 {
1519 	vnic_t *loop;
1520 	vnic_flow_t *flow;
1521 	const vnic_flow_fn_info_t *fn_info;
1522 	mac_header_info_t hdr_info;
1523 	boolean_t dst_must_match = B_TRUE;
1524 
1525 	ASSERT(mp->b_next == NULL);
1526 
1527 	rw_enter(&vnic_mac->va_promisc_lock, RW_READER);
1528 	if (vnic_mac->va_promisc == NULL)
1529 		goto done;
1530 
1531 	if (mac_header_info(vnic_mac->va_mh, mp, &hdr_info) != 0)
1532 		goto done;
1533 
1534 	/*
1535 	 * If this is broadcast or multicast then the destination
1536 	 * address need not match for us to deliver it.
1537 	 */
1538 	if ((hdr_info.mhi_dsttype == MAC_ADDRTYPE_BROADCAST) ||
1539 	    (hdr_info.mhi_dsttype == MAC_ADDRTYPE_MULTICAST))
1540 		dst_must_match = B_FALSE;
1541 
1542 	for (loop = vnic_mac->va_promisc;
1543 	    loop != NULL;
1544 	    loop = loop->vn_promisc_next) {
1545 		if (loop == sender)
1546 			continue;
1547 
1548 		if (dst_must_match &&
1549 		    (bcmp(hdr_info.mhi_daddr, loop->vn_addr,
1550 		    sizeof (loop->vn_addr)) != 0))
1551 			continue;
1552 
1553 		flow = loop->vn_flow_ent;
1554 		ASSERT(flow != NULL);
1555 
1556 		if (!flow->vf_is_active) {
1557 			mblk_t *copy;
1558 			uint64_t gen;
1559 
1560 			if ((copy = vnic_copymsg_cksum(mp)) == NULL)
1561 				break;
1562 			if ((sender != NULL) &&
1563 			    ((copy = vnic_fix_cksum(copy)) == NULL))
1564 				break;
1565 
1566 			VNIC_FLOW_REFHOLD(flow);
1567 			gen = vnic_mac->va_promisc_gen;
1568 			rw_exit(&vnic_mac->va_promisc_lock);
1569 
1570 			fn_info = vnic_classifier_get_fn_info(flow);
1571 			(fn_info->ff_fn)(fn_info->ff_arg1,
1572 			    fn_info->ff_arg2, copy);
1573 
1574 			VNIC_FLOW_REFRELE(flow);
1575 			rw_enter(&vnic_mac->va_promisc_lock, RW_READER);
1576 			if (vnic_mac->va_promisc_gen != gen)
1577 				break;
1578 		}
1579 	}
1580 done:
1581 	rw_exit(&vnic_mac->va_promisc_lock);
1582 }
1583