xref: /titanic_52/usr/src/uts/common/io/dld/dld_drv.c (revision 257873cfc1dd3337766407f80397db60a56f2f5a)
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 2008 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 /*
27  * Data-Link Driver
28  */
29 
30 #include	<sys/conf.h>
31 #include	<sys/mkdev.h>
32 #include	<sys/modctl.h>
33 #include	<sys/stat.h>
34 #include	<sys/vlan.h>
35 #include	<sys/mac.h>
36 #include	<sys/dld_impl.h>
37 #include	<sys/dls_impl.h>
38 #include	<sys/softmac.h>
39 #include 	<sys/vlan.h>
40 #include	<sys/policy.h>
41 #include	<inet/common.h>
42 
43 static void	drv_init(void);
44 static int	drv_fini(void);
45 
46 static int	drv_getinfo(dev_info_t	*, ddi_info_cmd_t, void *, void **);
47 static int	drv_attach(dev_info_t *, ddi_attach_cmd_t);
48 static int	drv_detach(dev_info_t *, ddi_detach_cmd_t);
49 
50 /*
51  * Secure objects declarations
52  */
53 #define	SECOBJ_WEP_HASHSZ	67
54 static krwlock_t	drv_secobj_lock;
55 static kmem_cache_t	*drv_secobj_cachep;
56 static mod_hash_t	*drv_secobj_hash;
57 static void		drv_secobj_init(void);
58 static void		drv_secobj_fini(void);
59 static int		drv_ioc_setap(datalink_id_t, struct dlautopush *);
60 static int		drv_ioc_getap(datalink_id_t, struct dlautopush *);
61 static int		drv_ioc_clrap(datalink_id_t);
62 
63 
64 /*
65  * The following entry points are private to dld and are used for control
66  * operations only. The entry points exported to mac drivers are defined
67  * in dld_str.c. Refer to the comment on top of dld_str.c for details.
68  */
69 static int	drv_open(dev_t *, int, int, cred_t *);
70 static int	drv_ioctl(dev_t, int, intptr_t, int, cred_t *, int *);
71 
72 static dev_info_t	*dld_dip;	/* dev_info_t for the driver */
73 uint32_t		dld_opt = 0;	/* Global options */
74 
75 #define	NAUTOPUSH 32
76 static mod_hash_t *dld_ap_hashp;
77 static krwlock_t dld_ap_hash_lock;
78 
79 static struct cb_ops drv_cb_ops = {
80 	drv_open,		/* open */
81 	nulldev,		/* close */
82 	nulldev,		/* strategy */
83 	nulldev,		/* print */
84 	nodev,			/* dump */
85 	nodev,			/* read */
86 	nodev,			/* write */
87 	drv_ioctl,		/* ioctl */
88 	nodev,			/* devmap */
89 	nodev,			/* mmap */
90 	nodev,			/* segmap */
91 	nochpoll,		/* poll */
92 	ddi_prop_op,		/* cb_prop_op */
93 	0,			/* streamtab  */
94 	D_MP			/* Driver compatibility flag */
95 };
96 
97 static struct dev_ops drv_ops = {
98 	DEVO_REV,		/* devo_rev */
99 	0,			/* refcnt */
100 	drv_getinfo,		/* get_dev_info */
101 	nulldev,		/* identify */
102 	nulldev,		/* probe */
103 	drv_attach,		/* attach */
104 	drv_detach,		/* detach */
105 	nodev,			/* reset */
106 	&drv_cb_ops,		/* driver operations */
107 	NULL,			/* bus operations */
108 	nodev,			/* dev power */
109 	ddi_quiesce_not_supported,	/* dev quiesce */
110 };
111 
112 /*
113  * Module linkage information for the kernel.
114  */
115 static	struct modldrv		drv_modldrv = {
116 	&mod_driverops,
117 	DLD_INFO,
118 	&drv_ops
119 };
120 
121 static	struct modlinkage	drv_modlinkage = {
122 	MODREV_1,
123 	&drv_modldrv,
124 	NULL
125 };
126 
127 int
128 _init(void)
129 {
130 	return (mod_install(&drv_modlinkage));
131 }
132 
133 int
134 _fini(void)
135 {
136 	return (mod_remove(&drv_modlinkage));
137 }
138 
139 int
140 _info(struct modinfo *modinfop)
141 {
142 	return (mod_info(&drv_modlinkage, modinfop));
143 }
144 
145 /*
146  * Initialize component modules.
147  */
148 static void
149 drv_init(void)
150 {
151 	drv_secobj_init();
152 	dld_str_init();
153 	/*
154 	 * Create a hash table for autopush configuration.
155 	 */
156 	dld_ap_hashp = mod_hash_create_idhash("dld_autopush_hash",
157 	    NAUTOPUSH, mod_hash_null_valdtor);
158 
159 	ASSERT(dld_ap_hashp != NULL);
160 	rw_init(&dld_ap_hash_lock, NULL, RW_DRIVER, NULL);
161 }
162 
163 /* ARGSUSED */
164 static uint_t
165 drv_ap_exist(mod_hash_key_t key, mod_hash_val_t *val, void *arg)
166 {
167 	boolean_t *pexist = arg;
168 
169 	*pexist = B_TRUE;
170 	return (MH_WALK_TERMINATE);
171 }
172 
173 static int
174 drv_fini(void)
175 {
176 	int		err;
177 	boolean_t	exist = B_FALSE;
178 
179 	rw_enter(&dld_ap_hash_lock, RW_READER);
180 	mod_hash_walk(dld_ap_hashp, drv_ap_exist, &exist);
181 	rw_exit(&dld_ap_hash_lock);
182 
183 	if (exist)
184 		return (EBUSY);
185 
186 	if ((err = dld_str_fini()) != 0)
187 		return (err);
188 
189 	drv_secobj_fini();
190 	mod_hash_destroy_idhash(dld_ap_hashp);
191 	rw_destroy(&dld_ap_hash_lock);
192 	return (0);
193 }
194 
195 /*
196  * devo_getinfo: getinfo(9e)
197  */
198 /*ARGSUSED*/
199 static int
200 drv_getinfo(dev_info_t *dip, ddi_info_cmd_t cmd, void *arg, void **resp)
201 {
202 	if (dld_dip == NULL)
203 		return (DDI_FAILURE);
204 
205 	switch (cmd) {
206 	case DDI_INFO_DEVT2INSTANCE:
207 		*resp = 0;
208 		break;
209 	case DDI_INFO_DEVT2DEVINFO:
210 		*resp = dld_dip;
211 		break;
212 	default:
213 		return (DDI_FAILURE);
214 	}
215 
216 	return (DDI_SUCCESS);
217 }
218 
219 /*
220  * Check properties to set options. (See dld.h for property definitions).
221  */
222 static void
223 drv_set_opt(dev_info_t *dip)
224 {
225 	if (ddi_prop_get_int(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS,
226 	    DLD_PROP_NO_FASTPATH, 0) != 0) {
227 		dld_opt |= DLD_OPT_NO_FASTPATH;
228 	}
229 
230 	if (ddi_prop_get_int(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS,
231 	    DLD_PROP_NO_POLL, 0) != 0) {
232 		dld_opt |= DLD_OPT_NO_POLL;
233 	}
234 
235 	if (ddi_prop_get_int(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS,
236 	    DLD_PROP_NO_ZEROCOPY, 0) != 0) {
237 		dld_opt |= DLD_OPT_NO_ZEROCOPY;
238 	}
239 
240 	if (ddi_prop_get_int(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS,
241 	    DLD_PROP_NO_SOFTRING, 0) != 0) {
242 		dld_opt |= DLD_OPT_NO_SOFTRING;
243 	}
244 }
245 
246 /*
247  * devo_attach: attach(9e)
248  */
249 static int
250 drv_attach(dev_info_t *dip, ddi_attach_cmd_t cmd)
251 {
252 	if (cmd != DDI_ATTACH)
253 		return (DDI_FAILURE);
254 
255 	ASSERT(ddi_get_instance(dip) == 0);
256 	drv_init();
257 	drv_set_opt(dip);
258 
259 	/*
260 	 * Create control node. DLPI provider nodes will be created on demand.
261 	 */
262 	if (ddi_create_minor_node(dip, DLD_CONTROL_MINOR_NAME, S_IFCHR,
263 	    DLD_CONTROL_MINOR, DDI_PSEUDO, 0) != DDI_SUCCESS)
264 		return (DDI_FAILURE);
265 
266 	dld_dip = dip;
267 
268 	/*
269 	 * Log the fact that the driver is now attached.
270 	 */
271 	ddi_report_dev(dip);
272 	return (DDI_SUCCESS);
273 }
274 
275 /*
276  * devo_detach: detach(9e)
277  */
278 static int
279 drv_detach(dev_info_t *dip, ddi_detach_cmd_t cmd)
280 {
281 	if (cmd != DDI_DETACH)
282 		return (DDI_FAILURE);
283 
284 	ASSERT(dld_dip == dip);
285 	if (drv_fini() != 0)
286 		return (DDI_FAILURE);
287 
288 	/*
289 	 * Remove the control node.
290 	 */
291 	ddi_remove_minor_node(dip, DLD_CONTROL_MINOR_NAME);
292 	dld_dip = NULL;
293 
294 	return (DDI_SUCCESS);
295 }
296 
297 /*
298  * dld control node open procedure.
299  */
300 /*ARGSUSED*/
301 static int
302 drv_open(dev_t *devp, int flag, int sflag, cred_t *credp)
303 {
304 	/*
305 	 * Only the control node can be opened.
306 	 */
307 	if (getminor(*devp) != DLD_CONTROL_MINOR)
308 		return (ENODEV);
309 	return (0);
310 }
311 
312 /*
313  * DLDIOC_ATTR
314  */
315 /* ARGSUSED */
316 static int
317 drv_ioc_attr(void *karg, intptr_t arg, int mode, cred_t *cred)
318 {
319 	dld_ioc_attr_t		*diap = karg;
320 	dls_dl_handle_t		dlh;
321 	dls_vlan_t		*dvp;
322 	int			err;
323 
324 	if ((err = dls_devnet_hold_tmp(diap->dia_linkid, &dlh)) != 0)
325 		return (err);
326 
327 	if ((err = dls_vlan_hold(dls_devnet_mac(dlh),
328 	    dls_devnet_vid(dlh), &dvp, B_FALSE, B_FALSE)) != 0) {
329 		dls_devnet_rele_tmp(dlh);
330 		return (err);
331 	}
332 	mac_sdu_get(dvp->dv_dlp->dl_mh, NULL, &diap->dia_max_sdu);
333 
334 	dls_vlan_rele(dvp);
335 	dls_devnet_rele_tmp(dlh);
336 
337 	return (0);
338 }
339 
340 /*
341  * DLDIOC_PHYS_ATTR
342  */
343 /* ARGSUSED */
344 static int
345 drv_ioc_phys_attr(void *karg, intptr_t arg, int mode, cred_t *cred)
346 {
347 	dld_ioc_phys_attr_t	*dipp = karg;
348 	int			err;
349 	dls_dl_handle_t		dlh;
350 	dls_dev_handle_t	ddh;
351 	dev_t			phydev;
352 
353 	/*
354 	 * Every physical link should have its physical dev_t kept in the
355 	 * daemon. If not, it is not a valid physical link.
356 	 */
357 	if (dls_mgmt_get_phydev(dipp->dip_linkid, &phydev) != 0)
358 		return (EINVAL);
359 
360 	/*
361 	 * Although this is a valid physical link, it might already be removed
362 	 * by DR or during system shutdown. softmac_hold_device() would return
363 	 * ENOENT in this case.
364 	 */
365 	if ((err = softmac_hold_device(phydev, &ddh)) != 0)
366 		return (err);
367 
368 	if (dls_devnet_hold_tmp(dipp->dip_linkid, &dlh) != 0) {
369 		/*
370 		 * Although this is an active physical link, its link type is
371 		 * not supported by GLDv3, and therefore it does not have
372 		 * vanity naming support.
373 		 */
374 		dipp->dip_novanity = B_TRUE;
375 	} else {
376 		dipp->dip_novanity = B_FALSE;
377 		dls_devnet_rele_tmp(dlh);
378 	}
379 	/*
380 	 * Get the physical device name from the major number and the instance
381 	 * number derived from phydev.
382 	 */
383 	(void) snprintf(dipp->dip_dev, MAXLINKNAMELEN, "%s%d",
384 	    ddi_major_to_name(getmajor(phydev)), getminor(phydev) - 1);
385 
386 	softmac_rele_device(ddh);
387 	return (0);
388 }
389 
390 /*
391  * DLDIOC_SETPROP
392  */
393 static int
394 drv_ioc_prop_common(dld_ioc_macprop_t *dipp, intptr_t arg, boolean_t set,
395     int mode)
396 {
397 	int		err = EINVAL;
398 	size_t		dsize;
399 	dld_ioc_macprop_t	*kdipp;
400 	dls_dl_handle_t		dlh;
401 	dls_vlan_t		*dvp;
402 	datalink_id_t 		linkid;
403 	mac_prop_t		macprop;
404 	uchar_t			*cp;
405 	struct dlautopush	*dlap;
406 	dld_ioc_zid_t		*dzp;
407 
408 	/*
409 	 * We only use pr_valsize from dipp, as the caller only did a
410 	 * copyin() for sizeof (dld_ioc_prop_t), which doesn't cover
411 	 * the property data.  We copyin the full dld_ioc_prop_t
412 	 * including the data into kdipp down below.
413 	 */
414 	dsize = sizeof (dld_ioc_macprop_t) + dipp->pr_valsize - 1;
415 	if (dsize < dipp->pr_valsize)
416 		return (EINVAL);
417 
418 	/*
419 	 * The property data is variable size, so we need to allocate
420 	 * a buffer for kernel use as this data was not part of the
421 	 * dipp allocation and copyin() done by the framework.
422 	 */
423 	if ((kdipp = kmem_alloc(dsize, KM_NOSLEEP)) == NULL)
424 		return (ENOMEM);
425 	if (ddi_copyin((void *)arg, kdipp, dsize, mode) != 0) {
426 		err = EFAULT;
427 		goto done;
428 	}
429 
430 	linkid = kdipp->pr_linkid;
431 
432 	switch (dipp->pr_num) {
433 	case MAC_PROP_ZONE:
434 		if (set) {
435 			dzp = (dld_ioc_zid_t *)kdipp->pr_val;
436 			err = dls_devnet_setzid(dzp->diz_link, dzp->diz_zid);
437 			goto done;
438 		} else {
439 			kdipp->pr_perm_flags = MAC_PROP_PERM_RW;
440 			cp = (uchar_t *)kdipp->pr_val;
441 			err = dls_devnet_getzid(linkid, (zoneid_t *)cp);
442 			goto done;
443 		}
444 	case MAC_PROP_AUTOPUSH:
445 		if (set) {
446 			if (dipp->pr_valsize != 0) {
447 				dlap = (struct dlautopush *)kdipp->pr_val;
448 				err = drv_ioc_setap(linkid, dlap);
449 				goto done;
450 			} else {
451 				err = drv_ioc_clrap(linkid);
452 				goto done;
453 			}
454 		} else {
455 			kdipp->pr_perm_flags = MAC_PROP_PERM_RW;
456 			dlap = (struct dlautopush *)kdipp->pr_val;
457 			err = drv_ioc_getap(linkid, dlap);
458 			goto done;
459 		}
460 
461 	default:
462 		break;
463 	}
464 
465 	if ((err = dls_devnet_hold_tmp(linkid, &dlh)) != 0)
466 		goto done;
467 
468 	if ((err = dls_vlan_hold(dls_devnet_mac(dlh),
469 	    dls_devnet_vid(dlh), &dvp, B_FALSE, B_FALSE)) != 0) {
470 		dls_devnet_rele_tmp(dlh);
471 		goto done;
472 	}
473 
474 	macprop.mp_name = kdipp->pr_name;
475 	macprop.mp_id = kdipp->pr_num;
476 	macprop.mp_flags = kdipp->pr_flags;
477 
478 	if (set) {
479 		err = mac_set_prop(dvp->dv_dlp->dl_mh, &macprop,
480 		    kdipp->pr_val, kdipp->pr_valsize);
481 	} else {
482 		kdipp->pr_perm_flags = MAC_PROP_PERM_RW;
483 		err = mac_get_prop(dvp->dv_dlp->dl_mh, &macprop,
484 		    kdipp->pr_val, kdipp->pr_valsize, &kdipp->pr_perm_flags);
485 	}
486 
487 	dls_vlan_rele(dvp);
488 	dls_devnet_rele_tmp(dlh);
489 done:
490 	if (!set && err == 0 &&
491 	    ddi_copyout(kdipp, (void *)arg, dsize, mode) != 0)
492 		err = EFAULT;
493 	kmem_free(kdipp, dsize);
494 	return (err);
495 }
496 
497 /* ARGSUSED */
498 static int
499 drv_ioc_setprop(void *karg, intptr_t arg, int mode, cred_t *cred)
500 {
501 	return (drv_ioc_prop_common(karg, arg, B_TRUE, mode));
502 }
503 
504 /* ARGSUSED */
505 static int
506 drv_ioc_getprop(void *karg, intptr_t arg, int mode, cred_t *cred)
507 {
508 	return (drv_ioc_prop_common(karg, arg, B_FALSE, mode));
509 }
510 
511 /*
512  * DLDIOC_CREATE_VLAN
513  */
514 /* ARGSUSED */
515 static int
516 drv_ioc_create_vlan(void *karg, intptr_t arg, int mode, cred_t *cred)
517 {
518 	dld_ioc_create_vlan_t	*dicp = karg;
519 
520 	return (dls_devnet_create_vlan(dicp->dic_vlanid, dicp->dic_linkid,
521 	    dicp->dic_vid, dicp->dic_force));
522 }
523 
524 /*
525  * DLDIOC_DELETE_VLAN
526  */
527 /* ARGSUSED */
528 static int
529 drv_ioc_delete_vlan(void *karg, intptr_t arg, int mode, cred_t *cred)
530 {
531 	dld_ioc_delete_vlan_t	*didp = karg;
532 
533 	return (dls_devnet_destroy_vlan(didp->did_linkid));
534 }
535 
536 /*
537  * DLDIOC_VLAN_ATTR
538  */
539 /* ARGSUSED */
540 static int
541 drv_ioc_vlan_attr(void *karg, intptr_t arg, int mode, cred_t *cred)
542 {
543 	dld_ioc_vlan_attr_t	*divp = karg;
544 	dls_dl_handle_t		dlh;
545 	uint16_t		vid;
546 	dls_vlan_t		*dvp;
547 	int			err;
548 
549 	/*
550 	 * Hold this link to prevent it from being deleted.
551 	 */
552 	if ((err = dls_devnet_hold_tmp(divp->div_vlanid, &dlh)) != 0)
553 		return (err);
554 
555 	if ((vid = dls_devnet_vid(dlh)) == VLAN_ID_NONE) {
556 		dls_devnet_rele_tmp(dlh);
557 		return (EINVAL);
558 	}
559 
560 	err = dls_vlan_hold(dls_devnet_mac(dlh), vid, &dvp, B_FALSE, B_FALSE);
561 	if (err != 0) {
562 		dls_devnet_rele_tmp(dlh);
563 		return (err);
564 	}
565 
566 	divp->div_linkid = dls_devnet_linkid(dlh);
567 	divp->div_implicit = !dls_devnet_is_explicit(dlh);
568 	divp->div_vid = vid;
569 	divp->div_force = dvp->dv_force;
570 
571 	dls_vlan_rele(dvp);
572 	dls_devnet_rele_tmp(dlh);
573 	return (0);
574 }
575 
576 /*
577  * DLDIOC_RENAME.
578  *
579  * This function handles two cases of link renaming. See more in comments above
580  * dls_datalink_rename().
581  */
582 /* ARGSUSED */
583 static int
584 drv_ioc_rename(void *karg, intptr_t arg, int mode, cred_t *cred)
585 {
586 	dld_ioc_rename_t	*dir = karg;
587 	mod_hash_key_t		key;
588 	mod_hash_val_t		val;
589 	int			err;
590 
591 	if ((err = dls_devnet_rename(dir->dir_linkid1, dir->dir_linkid2,
592 	    dir->dir_link)) != 0)
593 		return (err);
594 
595 	if (dir->dir_linkid2 == DATALINK_INVALID_LINKID)
596 		return (0);
597 
598 	/*
599 	 * if dir_linkid2 is not DATALINK_INVALID_LINKID, it means this
600 	 * renaming request is to rename a valid physical link (dir_linkid1)
601 	 * to a "removed" physical link (dir_linkid2, which is removed by DR
602 	 * or during system shutdown). In this case, the link (specified by
603 	 * dir_linkid1) would inherit all the configuration of dir_linkid2,
604 	 * and dir_linkid1 and its configuration would be lost.
605 	 *
606 	 * Remove per-link autopush configuration of dir_linkid1 in this case.
607 	 */
608 	key = (mod_hash_key_t)(uintptr_t)dir->dir_linkid1;
609 	rw_enter(&dld_ap_hash_lock, RW_WRITER);
610 	if (mod_hash_find(dld_ap_hashp, key, &val) != 0) {
611 		rw_exit(&dld_ap_hash_lock);
612 		return (0);
613 	}
614 
615 	VERIFY(mod_hash_remove(dld_ap_hashp, key, &val) == 0);
616 	kmem_free(val, sizeof (dld_ap_t));
617 	rw_exit(&dld_ap_hash_lock);
618 	return (0);
619 }
620 
621 static int
622 drv_ioc_setap(datalink_id_t linkid, struct dlautopush *dlap)
623 {
624 	dld_ap_t	*dap;
625 	int		i;
626 	mod_hash_key_t	key;
627 
628 	if (dlap->dap_npush == 0 || dlap->dap_npush > MAXAPUSH)
629 		return (EINVAL);
630 
631 	/*
632 	 * Validate that the specified list of modules exist.
633 	 */
634 	for (i = 0; i < dlap->dap_npush; i++) {
635 		if (fmodsw_find(dlap->dap_aplist[i], FMODSW_LOAD) == NULL)
636 			return (EINVAL);
637 	}
638 
639 
640 	key = (mod_hash_key_t)(uintptr_t)linkid;
641 
642 	rw_enter(&dld_ap_hash_lock, RW_WRITER);
643 	if (mod_hash_find(dld_ap_hashp, key, (mod_hash_val_t *)&dap) != 0) {
644 		dap = kmem_zalloc(sizeof (dld_ap_t), KM_NOSLEEP);
645 		if (dap == NULL) {
646 			rw_exit(&dld_ap_hash_lock);
647 			return (ENOMEM);
648 		}
649 
650 		dap->da_linkid = linkid;
651 		VERIFY(mod_hash_insert(dld_ap_hashp, key,
652 		    (mod_hash_val_t)dap) == 0);
653 	}
654 
655 	/*
656 	 * Update the configuration.
657 	 */
658 	dap->da_anchor = dlap->dap_anchor;
659 	dap->da_npush = dlap->dap_npush;
660 	for (i = 0; i < dlap->dap_npush; i++) {
661 		(void) strlcpy(dap->da_aplist[i], dlap->dap_aplist[i],
662 		    FMNAMESZ + 1);
663 	}
664 	rw_exit(&dld_ap_hash_lock);
665 
666 	return (0);
667 }
668 
669 static int
670 drv_ioc_getap(datalink_id_t linkid, struct dlautopush *dlap)
671 {
672 	dld_ap_t	*dap;
673 	int		i;
674 
675 	rw_enter(&dld_ap_hash_lock, RW_READER);
676 	if (mod_hash_find(dld_ap_hashp,
677 	    (mod_hash_key_t)(uintptr_t)linkid,
678 	    (mod_hash_val_t *)&dap) != 0) {
679 		rw_exit(&dld_ap_hash_lock);
680 		return (ENOENT);
681 	}
682 
683 	/*
684 	 * Retrieve the configuration.
685 	 */
686 	dlap->dap_anchor = dap->da_anchor;
687 	dlap->dap_npush = dap->da_npush;
688 	for (i = 0; i < dap->da_npush; i++) {
689 		(void) strlcpy(dlap->dap_aplist[i], dap->da_aplist[i],
690 		    FMNAMESZ + 1);
691 	}
692 	rw_exit(&dld_ap_hash_lock);
693 
694 	return (0);
695 }
696 
697 static int
698 drv_ioc_clrap(datalink_id_t linkid)
699 {
700 	mod_hash_val_t	val;
701 	mod_hash_key_t	key;
702 
703 	key = (mod_hash_key_t)(uintptr_t)linkid;
704 
705 	rw_enter(&dld_ap_hash_lock, RW_WRITER);
706 	if (mod_hash_find(dld_ap_hashp, key, &val) != 0) {
707 		rw_exit(&dld_ap_hash_lock);
708 		return (0);
709 	}
710 
711 	VERIFY(mod_hash_remove(dld_ap_hashp, key, &val) == 0);
712 	kmem_free(val, sizeof (dld_ap_t));
713 	rw_exit(&dld_ap_hash_lock);
714 	return (0);
715 }
716 
717 /*
718  * DLDIOC_DOORSERVER
719  */
720 /* ARGSUSED */
721 static int
722 drv_ioc_doorserver(void *karg, intptr_t arg, int mode, cred_t *cred)
723 {
724 	dld_ioc_door_t	*did = karg;
725 
726 	return (dls_mgmt_door_set(did->did_start_door));
727 }
728 
729 /*
730  * Check for GLDv3 autopush information.  There are three cases:
731  *
732  *   1. If devp points to a GLDv3 datalink and it has autopush configuration,
733  *	fill dlap in with that information and return 0.
734  *
735  *   2. If devp points to a GLDv3 datalink but it doesn't have autopush
736  *	configuration, then replace devp with the physical device (if one
737  *	exists) and return 1.  This allows stropen() to find the old-school
738  *	per-driver autopush configuration.  (For softmac, the result is that
739  *	the softmac dev_t is replaced with the legacy device's dev_t).
740  *
741  *   3. If neither of the above apply, don't touch the args and return -1.
742  */
743 int
744 dld_autopush(dev_t *devp, struct dlautopush *dlap)
745 {
746 	dld_ap_t	*dap;
747 	datalink_id_t	linkid;
748 	dev_t		phydev;
749 
750 	if (!GLDV3_DRV(getmajor(*devp)))
751 		return (-1);
752 
753 	/*
754 	 * Find the linkid by the link's dev_t.
755 	 */
756 	if (dls_devnet_dev2linkid(*devp, &linkid) != 0)
757 		return (-1);
758 
759 	/*
760 	 * Find the autopush configuration associated with the linkid.
761 	 */
762 	rw_enter(&dld_ap_hash_lock, RW_READER);
763 	if (mod_hash_find(dld_ap_hashp, (mod_hash_key_t)(uintptr_t)linkid,
764 	    (mod_hash_val_t *)&dap) == 0) {
765 		*dlap = dap->da_ap;
766 		rw_exit(&dld_ap_hash_lock);
767 		return (0);
768 	}
769 	rw_exit(&dld_ap_hash_lock);
770 
771 	if (dls_devnet_phydev(linkid, &phydev) != 0)
772 		return (-1);
773 
774 	*devp = phydev;
775 	return (1);
776 }
777 
778 /*
779  * Secure objects implementation
780  */
781 
782 /* ARGSUSED */
783 static int
784 drv_secobj_ctor(void *buf, void *arg, int kmflag)
785 {
786 	bzero(buf, sizeof (dld_secobj_t));
787 	return (0);
788 }
789 
790 static void
791 drv_secobj_init(void)
792 {
793 	rw_init(&drv_secobj_lock, NULL, RW_DEFAULT, NULL);
794 	drv_secobj_cachep = kmem_cache_create("drv_secobj_cache",
795 	    sizeof (dld_secobj_t), 0, drv_secobj_ctor, NULL,
796 	    NULL, NULL, NULL, 0);
797 	drv_secobj_hash = mod_hash_create_extended("drv_secobj_hash",
798 	    SECOBJ_WEP_HASHSZ, mod_hash_null_keydtor, mod_hash_null_valdtor,
799 	    mod_hash_bystr, NULL, mod_hash_strkey_cmp, KM_SLEEP);
800 }
801 
802 static void
803 drv_secobj_fini(void)
804 {
805 	mod_hash_destroy_hash(drv_secobj_hash);
806 	kmem_cache_destroy(drv_secobj_cachep);
807 	rw_destroy(&drv_secobj_lock);
808 }
809 
810 /* ARGSUSED */
811 static int
812 drv_ioc_secobj_set(void *karg, intptr_t arg, int mode, cred_t *cred)
813 {
814 	dld_ioc_secobj_set_t	*ssp = karg;
815 	dld_secobj_t		*sobjp, *objp;
816 	int			err;
817 
818 	sobjp = &ssp->ss_obj;
819 
820 	if (sobjp->so_class != DLD_SECOBJ_CLASS_WEP &&
821 	    sobjp->so_class != DLD_SECOBJ_CLASS_WPA)
822 		return (EINVAL);
823 
824 	if (sobjp->so_name[DLD_SECOBJ_NAME_MAX - 1] != '\0' ||
825 	    sobjp->so_len > DLD_SECOBJ_VAL_MAX)
826 		return (EINVAL);
827 
828 	rw_enter(&drv_secobj_lock, RW_WRITER);
829 	err = mod_hash_find(drv_secobj_hash, (mod_hash_key_t)sobjp->so_name,
830 	    (mod_hash_val_t *)&objp);
831 	if (err == 0) {
832 		if ((ssp->ss_flags & DLD_SECOBJ_OPT_CREATE) != 0) {
833 			rw_exit(&drv_secobj_lock);
834 			return (EEXIST);
835 		}
836 	} else {
837 		ASSERT(err == MH_ERR_NOTFOUND);
838 		if ((ssp->ss_flags & DLD_SECOBJ_OPT_CREATE) == 0) {
839 			rw_exit(&drv_secobj_lock);
840 			return (ENOENT);
841 		}
842 		objp = kmem_cache_alloc(drv_secobj_cachep, KM_SLEEP);
843 		(void) strlcpy(objp->so_name, sobjp->so_name,
844 		    DLD_SECOBJ_NAME_MAX);
845 
846 		VERIFY(mod_hash_insert(drv_secobj_hash,
847 		    (mod_hash_key_t)objp->so_name, (mod_hash_val_t)objp) == 0);
848 	}
849 	bcopy(sobjp->so_val, objp->so_val, sobjp->so_len);
850 	objp->so_len = sobjp->so_len;
851 	objp->so_class = sobjp->so_class;
852 	rw_exit(&drv_secobj_lock);
853 	return (0);
854 }
855 
856 typedef struct dld_secobj_state {
857 	uint_t		ss_free;
858 	uint_t		ss_count;
859 	int		ss_rc;
860 	int		ss_mode;
861 	dld_secobj_t	*ss_objp;
862 } dld_secobj_state_t;
863 
864 /* ARGSUSED */
865 static uint_t
866 drv_secobj_walker(mod_hash_key_t key, mod_hash_val_t *val, void *arg)
867 {
868 	dld_secobj_state_t	*statep = arg;
869 	dld_secobj_t		*sobjp = (dld_secobj_t *)val;
870 
871 	if (statep->ss_free < sizeof (dld_secobj_t)) {
872 		statep->ss_rc = ENOSPC;
873 		return (MH_WALK_TERMINATE);
874 	}
875 	if (ddi_copyout(sobjp, statep->ss_objp, sizeof (*sobjp),
876 	    statep->ss_mode) != 0) {
877 		statep->ss_rc = EFAULT;
878 		return (MH_WALK_TERMINATE);
879 	}
880 	statep->ss_objp++;
881 	statep->ss_free -= sizeof (dld_secobj_t);
882 	statep->ss_count++;
883 	return (MH_WALK_CONTINUE);
884 }
885 
886 /* ARGSUSED */
887 static int
888 drv_ioc_secobj_get(void *karg, intptr_t arg, int mode, cred_t *cred)
889 {
890 	dld_ioc_secobj_get_t	*sgp = karg;
891 	dld_secobj_t		*sobjp, *objp;
892 	int			err;
893 
894 	sobjp = &sgp->sg_obj;
895 
896 	if (sobjp->so_name[DLD_SECOBJ_NAME_MAX - 1] != '\0')
897 		return (EINVAL);
898 
899 	rw_enter(&drv_secobj_lock, RW_READER);
900 	if (sobjp->so_name[0] != '\0') {
901 		err = mod_hash_find(drv_secobj_hash,
902 		    (mod_hash_key_t)sobjp->so_name, (mod_hash_val_t *)&objp);
903 		if (err != 0) {
904 			ASSERT(err == MH_ERR_NOTFOUND);
905 			rw_exit(&drv_secobj_lock);
906 			return (ENOENT);
907 		}
908 		bcopy(objp->so_val, sobjp->so_val, objp->so_len);
909 		sobjp->so_len = objp->so_len;
910 		sobjp->so_class = objp->so_class;
911 		sgp->sg_count = 1;
912 	} else {
913 		dld_secobj_state_t	state;
914 
915 		state.ss_free = sgp->sg_size - sizeof (dld_ioc_secobj_get_t);
916 		state.ss_count = 0;
917 		state.ss_rc = 0;
918 		state.ss_mode = mode;
919 		state.ss_objp = (dld_secobj_t *)((uchar_t *)arg +
920 		    sizeof (dld_ioc_secobj_get_t));
921 
922 		mod_hash_walk(drv_secobj_hash, drv_secobj_walker, &state);
923 		if (state.ss_rc != 0) {
924 			rw_exit(&drv_secobj_lock);
925 			return (state.ss_rc);
926 		}
927 		sgp->sg_count = state.ss_count;
928 	}
929 	rw_exit(&drv_secobj_lock);
930 	return (0);
931 }
932 
933 /* ARGSUSED */
934 static int
935 drv_ioc_secobj_unset(void *karg, intptr_t arg, int mode, cred_t *cred)
936 {
937 	dld_ioc_secobj_unset_t	*sup = karg;
938 	dld_secobj_t		*objp;
939 	mod_hash_val_t		val;
940 	int			err;
941 
942 	if (sup->su_name[DLD_SECOBJ_NAME_MAX - 1] != '\0')
943 		return (EINVAL);
944 
945 	rw_enter(&drv_secobj_lock, RW_WRITER);
946 	err = mod_hash_find(drv_secobj_hash, (mod_hash_key_t)sup->su_name,
947 	    (mod_hash_val_t *)&objp);
948 	if (err != 0) {
949 		ASSERT(err == MH_ERR_NOTFOUND);
950 		rw_exit(&drv_secobj_lock);
951 		return (ENOENT);
952 	}
953 	VERIFY(mod_hash_remove(drv_secobj_hash, (mod_hash_key_t)sup->su_name,
954 	    (mod_hash_val_t *)&val) == 0);
955 	ASSERT(objp == (dld_secobj_t *)val);
956 
957 	kmem_cache_free(drv_secobj_cachep, objp);
958 	rw_exit(&drv_secobj_lock);
959 	return (0);
960 }
961 
962 static dld_ioc_info_t drv_ioc_list[] = {
963 	{DLDIOC_ATTR, DLDCOPYINOUT, sizeof (dld_ioc_attr_t),
964 	    drv_ioc_attr},
965 	{DLDIOC_PHYS_ATTR, DLDCOPYINOUT, sizeof (dld_ioc_phys_attr_t),
966 	    drv_ioc_phys_attr},
967 	{DLDIOC_SECOBJ_SET, DLDCOPYIN | DLDDLCONFIG,
968 	    sizeof (dld_ioc_secobj_set_t), drv_ioc_secobj_set},
969 	{DLDIOC_SECOBJ_GET, DLDCOPYINOUT | DLDDLCONFIG,
970 	    sizeof (dld_ioc_secobj_get_t), drv_ioc_secobj_get},
971 	{DLDIOC_SECOBJ_UNSET, DLDCOPYIN | DLDDLCONFIG,
972 	    sizeof (dld_ioc_secobj_unset_t), drv_ioc_secobj_unset},
973 	{DLDIOC_CREATE_VLAN, DLDCOPYIN | DLDDLCONFIG,
974 	    sizeof (dld_ioc_create_vlan_t), drv_ioc_create_vlan},
975 	{DLDIOC_DELETE_VLAN, DLDCOPYIN | DLDDLCONFIG,
976 	    sizeof (dld_ioc_delete_vlan_t),
977 	    drv_ioc_delete_vlan},
978 	{DLDIOC_VLAN_ATTR, DLDCOPYINOUT, sizeof (dld_ioc_vlan_attr_t),
979 	    drv_ioc_vlan_attr},
980 	{DLDIOC_DOORSERVER, DLDCOPYIN | DLDDLCONFIG, sizeof (dld_ioc_door_t),
981 	    drv_ioc_doorserver},
982 	{DLDIOC_RENAME, DLDCOPYIN | DLDDLCONFIG, sizeof (dld_ioc_rename_t),
983 	    drv_ioc_rename},
984 	{DLDIOC_GETMACPROP, DLDCOPYIN, sizeof (dld_ioc_macprop_t),
985 	    drv_ioc_getprop},
986 	{DLDIOC_SETMACPROP, DLDCOPYIN | DLDDLCONFIG, sizeof (dld_ioc_macprop_t),
987 	    drv_ioc_setprop}
988 };
989 
990 typedef struct dld_ioc_modentry {
991 	uint16_t	dim_modid;	/* Top 16 bits of ioctl command */
992 	char		*dim_modname;	/* Module to be loaded */
993 	dld_ioc_info_t	*dim_list;	/* array of ioctl structures */
994 	uint_t		dim_count;	/* number of elements in dim_list */
995 } dld_ioc_modentry_t;
996 
997 /*
998  * For all modules except for dld, dim_list and dim_count are assigned
999  * when the modules register their ioctls in dld_ioc_register().  We
1000  * can statically initialize dld's ioctls in-line here; there's no
1001  * need for it to call dld_ioc_register() itself.
1002  */
1003 static dld_ioc_modentry_t dld_ioc_modtable[] = {
1004 	{DLD_IOC,	"dld",	drv_ioc_list, DLDIOCCNT(drv_ioc_list)},
1005 	{AGGR_IOC,	"aggr",	NULL, 0},
1006 	{VNIC_IOC,	"vnic",	NULL, 0}
1007 };
1008 #define	DLDIOC_CNT	\
1009 	(sizeof (dld_ioc_modtable) / sizeof (dld_ioc_modentry_t))
1010 
1011 static dld_ioc_modentry_t *
1012 dld_ioc_findmod(uint16_t modid)
1013 {
1014 	int	i;
1015 
1016 	for (i = 0; i < DLDIOC_CNT; i++) {
1017 		if (modid == dld_ioc_modtable[i].dim_modid)
1018 			return (&dld_ioc_modtable[i]);
1019 	}
1020 	return (NULL);
1021 }
1022 
1023 int
1024 dld_ioc_register(uint16_t modid, dld_ioc_info_t *list, uint_t count)
1025 {
1026 	dld_ioc_modentry_t *dim = dld_ioc_findmod(modid);
1027 
1028 	if (dim == NULL)
1029 		return (ENOENT);
1030 
1031 	dim->dim_list = list;
1032 	dim->dim_count = count;
1033 	return (0);
1034 }
1035 
1036 void
1037 dld_ioc_unregister(uint16_t modid)
1038 {
1039 	VERIFY(dld_ioc_register(modid, NULL, 0) == 0);
1040 }
1041 
1042 /*
1043  * The general design with GLDv3 ioctls is that all ioctls issued
1044  * through /dev/dld go through this drv_ioctl() function.  This
1045  * function handles all ioctls on behalf of modules listed in
1046  * dld_ioc_modtable.
1047  *
1048  * When an ioctl is received, this function looks for the associated
1049  * module-id-specific ioctl information using dld_ioc_findmod().  The
1050  * call to ddi_hold_devi_by_instance() on the associated device will
1051  * cause the kernel module responsible for the ioctl to be loaded if
1052  * it's not already loaded, which should result in that module calling
1053  * dld_ioc_register(), thereby filling in the dim_list containing the
1054  * details for the ioctl being processed.
1055  *
1056  * This function can then perform operations such as copyin() data and
1057  * do credential checks based on the registered ioctl information,
1058  * then issue the callback function di_func() registered by the
1059  * responsible module.  Upon return, the appropriate copyout()
1060  * operation can be performed and the operation completes.
1061  */
1062 /* ARGSUSED */
1063 static int
1064 drv_ioctl(dev_t dev, int cmd, intptr_t arg, int mode, cred_t *cred, int *rvalp)
1065 {
1066 	dld_ioc_modentry_t *dim;
1067 	dld_ioc_info_t	*info;
1068 	dev_info_t	*dip = NULL;
1069 	void		*buf = NULL;
1070 	size_t		sz;
1071 	int		i, err;
1072 
1073 	if ((dim = dld_ioc_findmod(DLD_IOC_MODID(cmd))) == NULL)
1074 		return (ENOTSUP);
1075 
1076 	dip = ddi_hold_devi_by_instance(ddi_name_to_major(dim->dim_modname),
1077 	    0, 0);
1078 	if (dip == NULL || dim->dim_list == NULL) {
1079 		err = ENODEV;
1080 		goto done;
1081 	}
1082 
1083 	for (i = 0; i < dim->dim_count; i++) {
1084 		if (cmd == dim->dim_list[i].di_cmd)
1085 			break;
1086 	}
1087 	if (i == dim->dim_count) {
1088 		err = ENOTSUP;
1089 		goto done;
1090 	}
1091 
1092 	info = &dim->dim_list[i];
1093 
1094 	if ((info->di_flags & DLDDLCONFIG) && secpolicy_dl_config(cred) != 0) {
1095 		err = EPERM;
1096 		goto done;
1097 	}
1098 
1099 	sz = info->di_argsize;
1100 	if ((buf = kmem_zalloc(sz, KM_NOSLEEP)) == NULL) {
1101 		err = ENOMEM;
1102 		goto done;
1103 	}
1104 
1105 	if ((info->di_flags & DLDCOPYIN) &&
1106 	    ddi_copyin((void *)arg, buf, sz, mode) != 0) {
1107 		err = EFAULT;
1108 		goto done;
1109 	}
1110 
1111 	err = info->di_func(buf, arg, mode, cred);
1112 
1113 	if ((info->di_flags & DLDCOPYOUT) &&
1114 	    ddi_copyout(buf, (void *)arg, sz, mode) != 0 && err == 0)
1115 		err = EFAULT;
1116 
1117 done:
1118 	if (buf != NULL)
1119 		kmem_free(buf, sz);
1120 	if (dip != NULL)
1121 		ddi_release_devi(dip);
1122 	return (err);
1123 }
1124