xref: /titanic_44/usr/src/uts/common/io/mac/mac_datapath_setup.c (revision 7890944b0b2c01b84121fff3edd473b842417fb5)
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 (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved.
23  * Copyright 2017, Joyent, Inc.
24  */
25 
26 #include <sys/types.h>
27 #include <sys/callb.h>
28 #include <sys/cpupart.h>
29 #include <sys/pool.h>
30 #include <sys/pool_pset.h>
31 #include <sys/sdt.h>
32 #include <sys/strsubr.h>
33 #include <sys/strsun.h>
34 #include <sys/vlan.h>
35 #include <inet/ipsec_impl.h>
36 #include <inet/ip_impl.h>
37 #include <inet/sadb.h>
38 #include <inet/ipsecesp.h>
39 #include <inet/ipsecah.h>
40 
41 #include <sys/mac_impl.h>
42 #include <sys/mac_client_impl.h>
43 #include <sys/mac_client_priv.h>
44 #include <sys/mac_soft_ring.h>
45 #include <sys/mac_flow_impl.h>
46 #include <sys/mac_stat.h>
47 
48 static void mac_srs_soft_rings_signal(mac_soft_ring_set_t *, uint_t);
49 static void mac_srs_update_fanout_list(mac_soft_ring_set_t *);
50 static void mac_srs_poll_unbind(mac_soft_ring_set_t *);
51 static void mac_srs_worker_unbind(mac_soft_ring_set_t *);
52 static void mac_srs_soft_rings_quiesce(mac_soft_ring_set_t *, uint_t);
53 
54 static int mac_srs_cpu_setup(cpu_setup_t, int, void *);
55 static void mac_srs_worker_bind(mac_soft_ring_set_t *, processorid_t);
56 static void mac_srs_poll_bind(mac_soft_ring_set_t *, processorid_t);
57 static void mac_srs_threads_unbind(mac_soft_ring_set_t *);
58 static void mac_srs_add_glist(mac_soft_ring_set_t *);
59 static void mac_srs_remove_glist(mac_soft_ring_set_t *);
60 static void mac_srs_fanout_list_free(mac_soft_ring_set_t *);
61 static void mac_soft_ring_remove(mac_soft_ring_set_t *, mac_soft_ring_t *);
62 
63 static int mac_compute_soft_ring_count(flow_entry_t *, int, int);
64 static void mac_walk_srs_and_bind(int);
65 static void mac_walk_srs_and_unbind(int);
66 
67 extern boolean_t mac_latency_optimize;
68 
69 static kmem_cache_t *mac_srs_cache;
70 kmem_cache_t *mac_soft_ring_cache;
71 
72 /*
73  * The duration in msec we wait before signalling the soft ring
74  * worker thread in case packets get queued.
75  */
76 uint32_t mac_soft_ring_worker_wait = 0;
77 
78 /*
79  * A global tunable for turning polling on/off. By default, dynamic
80  * polling is always on and is always very beneficial. It should be
81  * turned off with absolute care and for the rare workload (very
82  * low latency sensitive traffic).
83  */
84 int mac_poll_enable = B_TRUE;
85 
86 /*
87  * Need to set mac_soft_ring_max_q_cnt based on bandwidth and perhaps latency.
88  * Large values could end up in consuming lot of system memory and cause
89  * system hang.
90  */
91 int mac_soft_ring_max_q_cnt = 1024;
92 int mac_soft_ring_min_q_cnt = 256;
93 int mac_soft_ring_poll_thres = 16;
94 
95 boolean_t mac_tx_serialize = B_FALSE;
96 
97 /*
98  * mac_tx_srs_hiwat is the queue depth threshold at which callers of
99  * mac_tx() will be notified of flow control condition.
100  *
101  * TCP does not honour flow control condition sent up by mac_tx().
102  * Thus provision is made for TCP to allow more packets to be queued
103  * in SRS upto a maximum of mac_tx_srs_max_q_cnt.
104  *
105  * Note that mac_tx_srs_hiwat is always be lesser than
106  * mac_tx_srs_max_q_cnt.
107  */
108 uint32_t mac_tx_srs_max_q_cnt = 100000;
109 uint32_t mac_tx_srs_hiwat = 1000;
110 
111 /*
112  * mac_rx_soft_ring_count, mac_soft_ring_10gig_count:
113  *
114  * Global tunables that determines the number of soft rings to be used for
115  * fanning out incoming traffic on a link. These count will be used only
116  * when no explicit set of CPUs was assigned to the data-links.
117  *
118  * mac_rx_soft_ring_count tunable will come into effect only if
119  * mac_soft_ring_enable is set. mac_soft_ring_enable is turned on by
120  * default only for sun4v platforms.
121  *
122  * mac_rx_soft_ring_10gig_count will come into effect if you are running on a
123  * 10Gbps link and is not dependent upon mac_soft_ring_enable.
124  *
125  * The number of soft rings for fanout for a link or a flow is determined
126  * by mac_compute_soft_ring_count() routine. This routine will take into
127  * account mac_soft_ring_enable, mac_rx_soft_ring_count and
128  * mac_rx_soft_ring_10gig_count to determine the soft ring count for a link.
129  *
130  * If a bandwidth is specified, the determination of the number of soft
131  * rings is based on specified bandwidth, CPU speed and number of CPUs in
132  * the system.
133  */
134 uint_t mac_rx_soft_ring_count = 8;
135 uint_t mac_rx_soft_ring_10gig_count = 8;
136 
137 /*
138  * Every Tx and Rx mac_soft_ring_set_t (mac_srs) created gets added
139  * to mac_srs_g_list and mac_srs_g_lock protects mac_srs_g_list. The
140  * list is used to walk the list of all MAC threads when a CPU is
141  * coming online or going offline.
142  */
143 static mac_soft_ring_set_t *mac_srs_g_list = NULL;
144 static krwlock_t mac_srs_g_lock;
145 
146 /*
147  * Whether the SRS threads should be bound, or not.
148  */
149 boolean_t mac_srs_thread_bind = B_TRUE;
150 
151 /*
152  * Whether Rx/Tx interrupts should be re-targeted. Disabled by default.
153  * dladm command would override this.
154  */
155 boolean_t mac_tx_intr_retarget = B_FALSE;
156 boolean_t mac_rx_intr_retarget = B_FALSE;
157 
158 /*
159  * If cpu bindings are specified by user, then Tx SRS and its soft
160  * rings should also be bound to the CPUs specified by user. The
161  * CPUs for Tx bindings are at the end of the cpu list provided by
162  * the user. If enough CPUs are not available (for Tx and Rx
163  * SRSes), then the CPUs are shared by both Tx and Rx SRSes.
164  */
165 #define	BIND_TX_SRS_AND_SOFT_RINGS(mac_tx_srs, mrp) {			\
166 	processorid_t cpuid;						\
167 	int i;								\
168 	mac_soft_ring_t *softring;					\
169 	mac_cpus_t *srs_cpu;						\
170 									\
171 	srs_cpu = &mac_tx_srs->srs_cpu;					\
172 	cpuid = srs_cpu->mc_tx_fanout_cpus[0];				\
173 	mac_srs_worker_bind(mac_tx_srs, cpuid);				\
174 	if (MAC_TX_SOFT_RINGS(mac_tx_srs)) {				\
175 		for (i = 0; i < mac_tx_srs->srs_tx_ring_count; i++) {	\
176 			cpuid = srs_cpu->mc_tx_fanout_cpus[i];		\
177 			softring = mac_tx_srs->srs_tx_soft_rings[i];	\
178 			if (cpuid != -1) {				\
179 				(void) mac_soft_ring_bind(softring,	\
180 				    cpuid);				\
181 			}						\
182 		}							\
183 	}								\
184 }
185 
186 /*
187  * Re-targeting is allowed only for exclusive group or for primary.
188  */
189 #define	RETARGETABLE_CLIENT(group, mcip)				\
190 	((((group) != NULL) &&						\
191 	    ((group)->mrg_state == MAC_GROUP_STATE_RESERVED)) ||	\
192 	    mac_is_primary_client(mcip))
193 
194 #define	MAC_RING_RETARGETABLE(ring)					\
195 	(((ring) != NULL) &&						\
196 	    ((ring)->mr_info.mri_intr.mi_ddi_handle != NULL) &&		\
197 	    !((ring)->mr_info.mri_intr.mi_ddi_shared))
198 
199 
200 /* INIT and FINI ROUTINES */
201 
202 void
mac_soft_ring_init(void)203 mac_soft_ring_init(void)
204 {
205 	mac_soft_ring_cache = kmem_cache_create("mac_soft_ring_cache",
206 	    sizeof (mac_soft_ring_t), 64, NULL, NULL, NULL, NULL, NULL, 0);
207 
208 	mac_srs_cache = kmem_cache_create("mac_srs_cache",
209 	    sizeof (mac_soft_ring_set_t),
210 	    64, NULL, NULL, NULL, NULL, NULL, 0);
211 
212 	rw_init(&mac_srs_g_lock, NULL, RW_DEFAULT, NULL);
213 	mutex_enter(&cpu_lock);
214 	register_cpu_setup_func(mac_srs_cpu_setup, NULL);
215 	mutex_exit(&cpu_lock);
216 }
217 
218 void
mac_soft_ring_finish(void)219 mac_soft_ring_finish(void)
220 {
221 	mutex_enter(&cpu_lock);
222 	unregister_cpu_setup_func(mac_srs_cpu_setup, NULL);
223 	mutex_exit(&cpu_lock);
224 	rw_destroy(&mac_srs_g_lock);
225 	kmem_cache_destroy(mac_soft_ring_cache);
226 	kmem_cache_destroy(mac_srs_cache);
227 }
228 
229 static void
mac_srs_soft_rings_free(mac_soft_ring_set_t * mac_srs)230 mac_srs_soft_rings_free(mac_soft_ring_set_t *mac_srs)
231 {
232 	mac_soft_ring_t	*softring, *next, *head;
233 
234 	/*
235 	 * Synchronize with mac_walk_srs_bind/unbind which are callbacks from
236 	 * DR. The callbacks from DR are called with cpu_lock held, and hence
237 	 * can't wait to grab the mac perimeter. The soft ring list is hence
238 	 * protected for read access by srs_lock. Changing the soft ring list
239 	 * needs the mac perimeter and the srs_lock.
240 	 */
241 	mutex_enter(&mac_srs->srs_lock);
242 
243 	head = mac_srs->srs_soft_ring_head;
244 	mac_srs->srs_soft_ring_head = NULL;
245 	mac_srs->srs_soft_ring_tail = NULL;
246 	mac_srs->srs_soft_ring_count = 0;
247 
248 	mutex_exit(&mac_srs->srs_lock);
249 
250 	for (softring = head; softring != NULL; softring = next) {
251 		next = softring->s_ring_next;
252 		mac_soft_ring_free(softring);
253 	}
254 }
255 
256 static void
mac_srs_add_glist(mac_soft_ring_set_t * mac_srs)257 mac_srs_add_glist(mac_soft_ring_set_t *mac_srs)
258 {
259 	ASSERT(mac_srs->srs_next == NULL && mac_srs->srs_prev == NULL);
260 	ASSERT(MAC_PERIM_HELD((mac_handle_t)mac_srs->srs_mcip->mci_mip));
261 
262 	rw_enter(&mac_srs_g_lock, RW_WRITER);
263 	mutex_enter(&mac_srs->srs_lock);
264 
265 	ASSERT((mac_srs->srs_state & SRS_IN_GLIST) == 0);
266 
267 	if (mac_srs_g_list == NULL) {
268 		mac_srs_g_list = mac_srs;
269 	} else {
270 		mac_srs->srs_next = mac_srs_g_list;
271 		mac_srs_g_list->srs_prev = mac_srs;
272 		mac_srs->srs_prev = NULL;
273 		mac_srs_g_list = mac_srs;
274 	}
275 	mac_srs->srs_state |= SRS_IN_GLIST;
276 
277 	mutex_exit(&mac_srs->srs_lock);
278 	rw_exit(&mac_srs_g_lock);
279 }
280 
281 static void
mac_srs_remove_glist(mac_soft_ring_set_t * mac_srs)282 mac_srs_remove_glist(mac_soft_ring_set_t *mac_srs)
283 {
284 	ASSERT(MAC_PERIM_HELD((mac_handle_t)mac_srs->srs_mcip->mci_mip));
285 
286 	rw_enter(&mac_srs_g_lock, RW_WRITER);
287 	mutex_enter(&mac_srs->srs_lock);
288 
289 	ASSERT((mac_srs->srs_state & SRS_IN_GLIST) != 0);
290 
291 	if (mac_srs == mac_srs_g_list) {
292 		mac_srs_g_list = mac_srs->srs_next;
293 		if (mac_srs_g_list != NULL)
294 			mac_srs_g_list->srs_prev = NULL;
295 	} else {
296 		mac_srs->srs_prev->srs_next = mac_srs->srs_next;
297 		if (mac_srs->srs_next != NULL)
298 			mac_srs->srs_next->srs_prev = mac_srs->srs_prev;
299 	}
300 	mac_srs->srs_state &= ~SRS_IN_GLIST;
301 
302 	mutex_exit(&mac_srs->srs_lock);
303 	rw_exit(&mac_srs_g_lock);
304 }
305 
306 /* POLLING SETUP AND TEAR DOWN ROUTINES */
307 
308 /*
309  * mac_srs_client_poll_quiesce and mac_srs_client_poll_restart
310  *
311  * These routines are used to call back into the upper layer
312  * (primarily TCP squeue) to stop polling the soft rings or
313  * restart polling.
314  */
315 void
mac_srs_client_poll_quiesce(mac_client_impl_t * mcip,mac_soft_ring_set_t * mac_srs)316 mac_srs_client_poll_quiesce(mac_client_impl_t *mcip,
317     mac_soft_ring_set_t *mac_srs)
318 {
319 	mac_soft_ring_t	*softring;
320 
321 	ASSERT(MAC_PERIM_HELD((mac_handle_t)mcip->mci_mip));
322 
323 	if (!(mac_srs->srs_type & SRST_CLIENT_POLL_ENABLED)) {
324 		ASSERT(!(mac_srs->srs_type & SRST_DLS_BYPASS));
325 		return;
326 	}
327 
328 	for (softring = mac_srs->srs_soft_ring_head;
329 	    softring != NULL; softring = softring->s_ring_next) {
330 		if ((softring->s_ring_type & ST_RING_TCP) &&
331 		    (softring->s_ring_rx_arg2 != NULL)) {
332 			mcip->mci_resource_quiesce(mcip->mci_resource_arg,
333 			    softring->s_ring_rx_arg2);
334 		}
335 	}
336 }
337 
338 void
mac_srs_client_poll_restart(mac_client_impl_t * mcip,mac_soft_ring_set_t * mac_srs)339 mac_srs_client_poll_restart(mac_client_impl_t *mcip,
340     mac_soft_ring_set_t *mac_srs)
341 {
342 	mac_soft_ring_t	*softring;
343 
344 	ASSERT(MAC_PERIM_HELD((mac_handle_t)mcip->mci_mip));
345 
346 	if (!(mac_srs->srs_type & SRST_CLIENT_POLL_ENABLED)) {
347 		ASSERT(!(mac_srs->srs_type & SRST_DLS_BYPASS));
348 		return;
349 	}
350 
351 	for (softring = mac_srs->srs_soft_ring_head;
352 	    softring != NULL; softring = softring->s_ring_next) {
353 		if ((softring->s_ring_type & ST_RING_TCP) &&
354 		    (softring->s_ring_rx_arg2 != NULL)) {
355 			mcip->mci_resource_restart(mcip->mci_resource_arg,
356 			    softring->s_ring_rx_arg2);
357 		}
358 	}
359 }
360 
361 /*
362  * Register the given SRS and associated soft rings with the consumer and
363  * enable the polling interface used by the consumer.(i.e IP) over this
364  * SRS and associated soft rings.
365  */
366 void
mac_srs_client_poll_enable(mac_client_impl_t * mcip,mac_soft_ring_set_t * mac_srs)367 mac_srs_client_poll_enable(mac_client_impl_t *mcip,
368     mac_soft_ring_set_t *mac_srs)
369 {
370 	mac_rx_fifo_t		mrf;
371 	mac_soft_ring_t		*softring;
372 
373 	ASSERT(mac_srs->srs_mcip == mcip);
374 	ASSERT(MAC_PERIM_HELD((mac_handle_t)mcip->mci_mip));
375 
376 	if (!(mcip->mci_state_flags & MCIS_CLIENT_POLL_CAPABLE))
377 		return;
378 
379 	bzero(&mrf, sizeof (mac_rx_fifo_t));
380 	mrf.mrf_type = MAC_RX_FIFO;
381 
382 	/*
383 	 * A SRS is capable of acting as a soft ring for cases
384 	 * where no fanout is needed. This is the case for userland
385 	 * flows.
386 	 */
387 	if (mac_srs->srs_type & SRST_NO_SOFT_RINGS)
388 		return;
389 
390 	mrf.mrf_receive = (mac_receive_t)mac_soft_ring_poll;
391 	mrf.mrf_intr_enable = (mac_intr_enable_t)mac_soft_ring_intr_enable;
392 	mrf.mrf_intr_disable = (mac_intr_disable_t)mac_soft_ring_intr_disable;
393 	mac_srs->srs_type |= SRST_CLIENT_POLL_ENABLED;
394 
395 	softring = mac_srs->srs_soft_ring_head;
396 	while (softring != NULL) {
397 		if (softring->s_ring_type & (ST_RING_TCP | ST_RING_UDP)) {
398 			/*
399 			 * TCP and UDP support DLS bypass. Squeue polling
400 			 * support implies DLS bypass since the squeue poll
401 			 * path does not have DLS processing.
402 			 */
403 			mac_soft_ring_dls_bypass(softring,
404 			    mcip->mci_direct_rx_fn, mcip->mci_direct_rx_arg);
405 		}
406 		/*
407 		 * Non-TCP protocols don't support squeues. Hence we don't
408 		 * make any ring addition callbacks for non-TCP rings
409 		 */
410 		if (!(softring->s_ring_type & ST_RING_TCP)) {
411 			softring->s_ring_rx_arg2 = NULL;
412 			softring = softring->s_ring_next;
413 			continue;
414 		}
415 		mrf.mrf_rx_arg = softring;
416 		mrf.mrf_intr_handle = (mac_intr_handle_t)softring;
417 		mrf.mrf_cpu_id = softring->s_ring_cpuid;
418 		mrf.mrf_flow_priority = mac_srs->srs_pri;
419 
420 		softring->s_ring_rx_arg2 = mcip->mci_resource_add(
421 		    mcip->mci_resource_arg, (mac_resource_t *)&mrf);
422 
423 		softring = softring->s_ring_next;
424 	}
425 }
426 
427 /*
428  * Unregister the given SRS and associated soft rings with the consumer and
429  * disable the polling interface used by the consumer.(i.e IP) over this
430  * SRS and associated soft rings.
431  */
432 void
mac_srs_client_poll_disable(mac_client_impl_t * mcip,mac_soft_ring_set_t * mac_srs)433 mac_srs_client_poll_disable(mac_client_impl_t *mcip,
434     mac_soft_ring_set_t *mac_srs)
435 {
436 	mac_soft_ring_t		*softring;
437 
438 	ASSERT(MAC_PERIM_HELD((mac_handle_t)mcip->mci_mip));
439 
440 	/*
441 	 * A SRS is capable of acting as a soft ring for cases
442 	 * where no protocol fanout is needed. This is the case
443 	 * for userland flows. Nothing to do here.
444 	 */
445 	if (mac_srs->srs_type & SRST_NO_SOFT_RINGS)
446 		return;
447 
448 	mutex_enter(&mac_srs->srs_lock);
449 	if (!(mac_srs->srs_type & SRST_CLIENT_POLL_ENABLED)) {
450 		ASSERT(!(mac_srs->srs_type & SRST_DLS_BYPASS));
451 		mutex_exit(&mac_srs->srs_lock);
452 		return;
453 	}
454 	mac_srs->srs_type &= ~(SRST_CLIENT_POLL_ENABLED | SRST_DLS_BYPASS);
455 	mutex_exit(&mac_srs->srs_lock);
456 
457 	/*
458 	 * DLS bypass is now disabled in the case of both TCP and UDP.
459 	 * Reset the soft ring callbacks to the standard 'mac_rx_deliver'
460 	 * callback. In addition, in the case of TCP, invoke IP's callback
461 	 * for ring removal.
462 	 */
463 	for (softring = mac_srs->srs_soft_ring_head;
464 	    softring != NULL; softring = softring->s_ring_next) {
465 		if (!(softring->s_ring_type & (ST_RING_UDP | ST_RING_TCP)))
466 			continue;
467 
468 		if ((softring->s_ring_type & ST_RING_TCP) &&
469 		    softring->s_ring_rx_arg2 != NULL) {
470 			mcip->mci_resource_remove(mcip->mci_resource_arg,
471 			    softring->s_ring_rx_arg2);
472 		}
473 
474 		mutex_enter(&softring->s_ring_lock);
475 		while (softring->s_ring_state & S_RING_PROC) {
476 			softring->s_ring_state |= S_RING_CLIENT_WAIT;
477 			cv_wait(&softring->s_ring_client_cv,
478 			    &softring->s_ring_lock);
479 		}
480 		softring->s_ring_state &= ~S_RING_CLIENT_WAIT;
481 		softring->s_ring_rx_arg2 = NULL;
482 		softring->s_ring_rx_func = mac_rx_deliver;
483 		softring->s_ring_rx_arg1 = mcip;
484 		mutex_exit(&softring->s_ring_lock);
485 	}
486 }
487 
488 /*
489  * Enable or disable poll capability of the SRS on the underlying Rx ring.
490  *
491  * There is a need to enable or disable the poll capability of an SRS over an
492  * Rx ring depending on the number of mac clients sharing the ring and also
493  * whether user flows are configured on it. However the poll state is actively
494  * manipulated by the SRS worker and poll threads and uncoordinated changes by
495  * yet another thread to the underlying capability can surprise them leading
496  * to assert failures. Instead we quiesce the SRS, make the changes and then
497  * restart the SRS.
498  */
499 static void
mac_srs_poll_state_change(mac_soft_ring_set_t * mac_srs,boolean_t turn_off_poll_capab,mac_rx_func_t rx_func)500 mac_srs_poll_state_change(mac_soft_ring_set_t *mac_srs,
501     boolean_t turn_off_poll_capab, mac_rx_func_t rx_func)
502 {
503 	boolean_t	need_restart = B_FALSE;
504 	mac_srs_rx_t	*srs_rx = &mac_srs->srs_rx;
505 	mac_ring_t	*ring;
506 
507 	if (!SRS_QUIESCED(mac_srs)) {
508 		mac_rx_srs_quiesce(mac_srs, SRS_QUIESCE);
509 		need_restart = B_TRUE;
510 	}
511 
512 	ring = mac_srs->srs_ring;
513 	if ((ring != NULL) &&
514 	    (ring->mr_classify_type == MAC_HW_CLASSIFIER)) {
515 		if (turn_off_poll_capab)
516 			mac_srs->srs_state &= ~SRS_POLLING_CAPAB;
517 		else if (mac_poll_enable)
518 			mac_srs->srs_state |= SRS_POLLING_CAPAB;
519 	}
520 	srs_rx->sr_lower_proc = rx_func;
521 
522 	if (need_restart)
523 		mac_rx_srs_restart(mac_srs);
524 }
525 
526 /* CPU RECONFIGURATION AND FANOUT COMPUTATION ROUTINES */
527 
528 /*
529  * Return the next CPU to be used to bind a MAC kernel thread.
530  * If a cpupart is specified, the cpu chosen must be from that
531  * cpu partition.
532  */
533 static processorid_t
mac_next_bind_cpu(cpupart_t * cpupart)534 mac_next_bind_cpu(cpupart_t *cpupart)
535 {
536 	static cpu_t		*cp = NULL;
537 	cpu_t			*cp_start;
538 
539 	ASSERT(MUTEX_HELD(&cpu_lock));
540 
541 	if (cp == NULL)
542 		cp = cpu_list;
543 
544 	cp = cp->cpu_next_onln;
545 	cp_start = cp;
546 
547 	do {
548 		if ((cpupart == NULL) || (cp->cpu_part == cpupart))
549 			return (cp->cpu_id);
550 
551 	} while ((cp = cp->cpu_next_onln) != cp_start);
552 
553 	return (NULL);
554 }
555 
556 /* ARGSUSED */
557 static int
mac_srs_cpu_setup(cpu_setup_t what,int id,void * arg)558 mac_srs_cpu_setup(cpu_setup_t what, int id, void *arg)
559 {
560 	ASSERT(MUTEX_HELD(&cpu_lock));
561 	switch (what) {
562 	case CPU_CONFIG:
563 	case CPU_ON:
564 	case CPU_CPUPART_IN:
565 		mac_walk_srs_and_bind(id);
566 		break;
567 
568 	case CPU_UNCONFIG:
569 	case CPU_OFF:
570 	case CPU_CPUPART_OUT:
571 		mac_walk_srs_and_unbind(id);
572 		break;
573 
574 	default:
575 		break;
576 	}
577 	return (0);
578 }
579 
580 /*
581  * mac_compute_soft_ring_count():
582  *
583  * This routine computes the number of soft rings needed to handle incoming
584  * load given a flow_entry.
585  *
586  * The routine does the following:
587  * 1) soft rings will be created if mac_soft_ring_enable is set.
588  * 2) If the underlying link is a 10Gbps link, then soft rings will be
589  * created even if mac_soft_ring_enable is not set. The number of soft
590  * rings, so created,  will equal mac_rx_soft_ring_10gig_count.
591  * 3) On a sun4v platform (i.e., mac_soft_ring_enable is set), 2 times the
592  * mac_rx_soft_ring_10gig_count number of soft rings will be created for a
593  * 10Gbps link.
594  *
595  * If a bandwidth limit is specified, the number that gets computed is
596  * dependent upon CPU speed, the number of Rx rings configured, and
597  * the bandwidth limit.
598  * If more Rx rings are available, less number of soft rings is needed.
599  *
600  * mac_use_bw_heuristic is another "hidden" variable that can be used to
601  * override the default use of soft ring count computation. Depending upon
602  * the usefulness of it, mac_use_bw_heuristic can later be made into a
603  * data-link property or removed altogether.
604  *
605  * TODO: Cleanup and tighten some of the assumptions.
606  */
607 boolean_t mac_use_bw_heuristic = B_TRUE;
608 static int
mac_compute_soft_ring_count(flow_entry_t * flent,int rx_srs_cnt,int maxcpus)609 mac_compute_soft_ring_count(flow_entry_t *flent, int rx_srs_cnt, int maxcpus)
610 {
611 	uint64_t cpu_speed, bw = 0;
612 	int srings = 0;
613 	boolean_t bw_enabled = B_FALSE;
614 
615 	ASSERT(!(flent->fe_type & FLOW_USER));
616 	if (flent->fe_resource_props.mrp_mask & MRP_MAXBW &&
617 	    mac_use_bw_heuristic) {
618 		/* bandwidth enabled */
619 		bw_enabled = B_TRUE;
620 		bw = flent->fe_resource_props.mrp_maxbw;
621 	}
622 	if (!bw_enabled) {
623 		/* No bandwidth enabled */
624 		if (mac_soft_ring_enable)
625 			srings = mac_rx_soft_ring_count;
626 
627 		/* Is this a 10Gig link? */
628 		flent->fe_nic_speed = mac_client_stat_get(flent->fe_mcip,
629 		    MAC_STAT_IFSPEED);
630 		/* convert to Mbps */
631 		if (((flent->fe_nic_speed)/1000000) > 1000 &&
632 		    mac_rx_soft_ring_10gig_count > 0) {
633 			/* This is a 10Gig link */
634 			srings = mac_rx_soft_ring_10gig_count;
635 			/*
636 			 * Use 2 times mac_rx_soft_ring_10gig_count for
637 			 * sun4v systems.
638 			 */
639 			if (mac_soft_ring_enable)
640 				srings = srings * 2;
641 		}
642 	} else {
643 		/*
644 		 * Soft ring computation using CPU speed and specified
645 		 * bandwidth limit.
646 		 */
647 		/* Assumption: all CPUs have the same frequency */
648 		cpu_speed = (uint64_t)CPU->cpu_type_info.pi_clock;
649 
650 		/* cpu_speed is in MHz; make bw in units of Mbps.  */
651 		bw = bw/1000000;
652 
653 		if (bw >= 1000) {
654 			/*
655 			 * bw is greater than or equal to 1Gbps.
656 			 * The number of soft rings required is a function
657 			 * of bandwidth and CPU speed. To keep this simple,
658 			 * let's use this rule: 1GHz CPU can handle 1Gbps.
659 			 * If bw is less than 1 Gbps, then there is no need
660 			 * for soft rings. Assumption is that CPU speeds
661 			 * (on modern systems) are at least 1GHz.
662 			 */
663 			srings = bw/cpu_speed;
664 			if (srings <= 1 && mac_soft_ring_enable) {
665 				/*
666 				 * Give at least 2 soft rings
667 				 * for sun4v systems
668 				 */
669 				srings = 2;
670 			}
671 		}
672 	}
673 	/*
674 	 * If the flent has multiple Rx SRSs, then each SRS need not
675 	 * have that many soft rings on top of it. The number of
676 	 * soft rings for each Rx SRS is found by dividing srings by
677 	 * rx_srs_cnt.
678 	 */
679 	if (rx_srs_cnt > 1) {
680 		int remainder;
681 
682 		remainder = srings%rx_srs_cnt;
683 		srings = srings/rx_srs_cnt;
684 		if (remainder != 0)
685 			srings++;
686 		/*
687 		 * Fanning out to 1 soft ring is not very useful.
688 		 * Set it as well to 0 and mac_srs_fanout_init()
689 		 * will take care of creating a single soft ring
690 		 * for proto fanout.
691 		 */
692 		if (srings == 1)
693 			srings = 0;
694 	}
695 	/* Do some more massaging */
696 	srings = min(srings, maxcpus);
697 	srings = min(srings, MAX_SR_FANOUT);
698 	return (srings);
699 }
700 
701 /*
702  * mac_tx_cpu_init:
703  * set up CPUs for Tx interrupt re-targeting and Tx worker
704  * thread binding
705  */
706 static void
mac_tx_cpu_init(flow_entry_t * flent,mac_resource_props_t * mrp,cpupart_t * cpupart)707 mac_tx_cpu_init(flow_entry_t *flent, mac_resource_props_t *mrp,
708     cpupart_t *cpupart)
709 {
710 	mac_soft_ring_set_t *tx_srs = flent->fe_tx_srs;
711 	mac_srs_tx_t *srs_tx = &tx_srs->srs_tx;
712 	mac_cpus_t *srs_cpu = &tx_srs->srs_cpu;
713 	mac_soft_ring_t *sringp;
714 	mac_ring_t *ring;
715 	processorid_t worker_cpuid;
716 	boolean_t retargetable_client = B_FALSE;
717 	int i, j;
718 
719 	if (RETARGETABLE_CLIENT((mac_group_t *)flent->fe_tx_ring_group,
720 	    flent->fe_mcip)) {
721 		retargetable_client = B_TRUE;
722 	}
723 
724 	if (MAC_TX_SOFT_RINGS(tx_srs)) {
725 		if (mrp != NULL)
726 			j = mrp->mrp_ncpus - 1;
727 		for (i = 0; i < tx_srs->srs_tx_ring_count; i++) {
728 			if (mrp != NULL) {
729 				if (j < 0)
730 					j = mrp->mrp_ncpus - 1;
731 				worker_cpuid = mrp->mrp_cpu[j];
732 			} else {
733 				/*
734 				 * Bind interrupt to the next CPU available
735 				 * and leave the worker unbound.
736 				 */
737 				worker_cpuid = -1;
738 			}
739 			sringp = tx_srs->srs_tx_soft_rings[i];
740 			ring = (mac_ring_t *)sringp->s_ring_tx_arg2;
741 			srs_cpu->mc_tx_fanout_cpus[i] = worker_cpuid;
742 			if (MAC_RING_RETARGETABLE(ring) &&
743 			    retargetable_client) {
744 				mutex_enter(&cpu_lock);
745 				srs_cpu->mc_tx_intr_cpu[i] =
746 				    (mrp != NULL) ? mrp->mrp_cpu[j] :
747 				    (mac_tx_intr_retarget ?
748 				    mac_next_bind_cpu(cpupart) : -1);
749 				mutex_exit(&cpu_lock);
750 			} else {
751 				srs_cpu->mc_tx_intr_cpu[i] = -1;
752 			}
753 			if (mrp != NULL)
754 				j--;
755 		}
756 	} else {
757 		/* Tx mac_ring_handle_t is stored in st_arg2 */
758 		srs_cpu->mc_tx_fanout_cpus[0] =
759 		    (mrp != NULL) ? mrp->mrp_cpu[mrp->mrp_ncpus - 1] : -1;
760 		ring = (mac_ring_t *)srs_tx->st_arg2;
761 		if (MAC_RING_RETARGETABLE(ring) && retargetable_client) {
762 			mutex_enter(&cpu_lock);
763 			srs_cpu->mc_tx_intr_cpu[0] = (mrp != NULL) ?
764 			    mrp->mrp_cpu[mrp->mrp_ncpus - 1] :
765 			    (mac_tx_intr_retarget ?
766 			    mac_next_bind_cpu(cpupart) : -1);
767 			mutex_exit(&cpu_lock);
768 		} else {
769 			srs_cpu->mc_tx_intr_cpu[0] = -1;
770 		}
771 	}
772 }
773 
774 /*
775  * Assignment of user specified CPUs to a link.
776  *
777  * Minimum CPUs required to get an optimal assignmet:
778  * For each Rx SRS, atleast two CPUs are needed if mac_latency_optimize
779  * flag is set -- one for polling, one for fanout soft ring.
780  * If mac_latency_optimize is not set, then 3 CPUs are needed -- one
781  * for polling, one for SRS worker thread and one for fanout soft ring.
782  *
783  * The CPUs needed for Tx side is equal to the number of Tx rings
784  * the link is using.
785  *
786  * mac_flow_user_cpu_init() categorizes the CPU assignment depending
787  * upon the number of CPUs in 3 different buckets.
788  *
789  * In the first bucket, the most optimal case is handled. The user has
790  * passed enough number of CPUs and every thread gets its own CPU.
791  *
792  * The second and third are the sub-optimal cases. Enough CPUs are not
793  * available.
794  *
795  * The second bucket handles the case where atleast one distinct CPU is
796  * is available for each of the Rx rings (Rx SRSes) and Tx rings (Tx
797  * SRS or soft rings).
798  *
799  * In the third case (worst case scenario), specified CPU count is less
800  * than the Rx rings configured for the link. In this case, we round
801  * robin the CPUs among the Rx SRSes and Tx SRS/soft rings.
802  */
803 static void
mac_flow_user_cpu_init(flow_entry_t * flent,mac_resource_props_t * mrp)804 mac_flow_user_cpu_init(flow_entry_t *flent, mac_resource_props_t *mrp)
805 {
806 	mac_soft_ring_set_t *rx_srs, *tx_srs;
807 	int i, srs_cnt;
808 	mac_cpus_t *srs_cpu;
809 	int no_of_cpus, cpu_cnt;
810 	int rx_srs_cnt, reqd_rx_cpu_cnt;
811 	int fanout_cpu_cnt, reqd_tx_cpu_cnt;
812 	int reqd_poll_worker_cnt, fanout_cnt_per_srs;
813 	mac_resource_props_t *emrp = &flent->fe_effective_props;
814 
815 	ASSERT(mrp->mrp_fanout_mode == MCM_CPUS);
816 	/*
817 	 * The check for nbc_ncpus to be within limits for
818 	 * the user specified case was done earlier and if
819 	 * not within limits, an error would have been
820 	 * returned to the user.
821 	 */
822 	ASSERT(mrp->mrp_ncpus > 0);
823 
824 	no_of_cpus = mrp->mrp_ncpus;
825 
826 	if (mrp->mrp_rx_intr_cpu != -1) {
827 		/*
828 		 * interrupt has been re-targetted. Poll
829 		 * thread needs to be bound to interrupt
830 		 * CPU.
831 		 *
832 		 * Find where in the list is the intr
833 		 * CPU and swap it with the first one.
834 		 * We will be using the first CPU in the
835 		 * list for poll.
836 		 */
837 		for (i = 0; i < no_of_cpus; i++) {
838 			if (mrp->mrp_cpu[i] == mrp->mrp_rx_intr_cpu)
839 				break;
840 		}
841 		mrp->mrp_cpu[i] = mrp->mrp_cpu[0];
842 		mrp->mrp_cpu[0] = mrp->mrp_rx_intr_cpu;
843 	}
844 
845 	/*
846 	 * Requirements:
847 	 * The number of CPUs that each Rx ring needs is dependent
848 	 * upon mac_latency_optimize flag.
849 	 * 1) If set, atleast 2 CPUs are needed -- one for
850 	 * polling, one for fanout soft ring.
851 	 * 2) If not set, then atleast 3 CPUs are needed -- one
852 	 * for polling, one for srs worker thread, and one for
853 	 * fanout soft ring.
854 	 */
855 	rx_srs_cnt = (flent->fe_rx_srs_cnt > 1) ?
856 	    (flent->fe_rx_srs_cnt - 1) : flent->fe_rx_srs_cnt;
857 	reqd_rx_cpu_cnt = mac_latency_optimize ?
858 	    (rx_srs_cnt * 2) : (rx_srs_cnt * 3);
859 
860 	/* How many CPUs are needed for Tx side? */
861 	tx_srs = flent->fe_tx_srs;
862 	reqd_tx_cpu_cnt = MAC_TX_SOFT_RINGS(tx_srs) ?
863 	    tx_srs->srs_tx_ring_count : 1;
864 
865 	/* CPUs needed for Rx SRSes poll and worker threads */
866 	reqd_poll_worker_cnt = mac_latency_optimize ?
867 	    rx_srs_cnt : rx_srs_cnt * 2;
868 
869 	/* Has the user provided enough CPUs? */
870 	if (no_of_cpus >= (reqd_rx_cpu_cnt + reqd_tx_cpu_cnt)) {
871 		/*
872 		 * Best case scenario. There is enough CPUs. All
873 		 * Rx rings will get their own set of CPUs plus
874 		 * Tx soft rings will get their own.
875 		 */
876 		/*
877 		 * fanout_cpu_cnt is the number of CPUs available
878 		 * for Rx side fanout soft rings.
879 		 */
880 		fanout_cpu_cnt = no_of_cpus -
881 		    reqd_poll_worker_cnt - reqd_tx_cpu_cnt;
882 
883 		/*
884 		 * Divide fanout_cpu_cnt by rx_srs_cnt to find
885 		 * out how many fanout soft rings each Rx SRS
886 		 * can have.
887 		 */
888 		fanout_cnt_per_srs = fanout_cpu_cnt/rx_srs_cnt;
889 
890 		/* fanout_cnt_per_srs should not be >  MAX_SR_FANOUT */
891 		fanout_cnt_per_srs = min(fanout_cnt_per_srs, MAX_SR_FANOUT);
892 
893 		/* Do the assignment for the default Rx ring */
894 		cpu_cnt = 0;
895 		rx_srs = flent->fe_rx_srs[0];
896 		ASSERT(rx_srs->srs_ring == NULL);
897 		if (rx_srs->srs_fanout_state == SRS_FANOUT_INIT)
898 			rx_srs->srs_fanout_state = SRS_FANOUT_REINIT;
899 		srs_cpu = &rx_srs->srs_cpu;
900 		srs_cpu->mc_ncpus = no_of_cpus;
901 		bcopy(mrp->mrp_cpu,
902 		    srs_cpu->mc_cpus, sizeof (srs_cpu->mc_cpus));
903 		srs_cpu->mc_rx_fanout_cnt = fanout_cnt_per_srs;
904 		srs_cpu->mc_rx_pollid = mrp->mrp_cpu[cpu_cnt++];
905 		/* Retarget the interrupt to the same CPU as the poll */
906 		srs_cpu->mc_rx_intr_cpu = srs_cpu->mc_rx_pollid;
907 		srs_cpu->mc_rx_workerid = (mac_latency_optimize ?
908 		    srs_cpu->mc_rx_pollid : mrp->mrp_cpu[cpu_cnt++]);
909 		for (i = 0; i < fanout_cnt_per_srs; i++)
910 			srs_cpu->mc_rx_fanout_cpus[i] = mrp->mrp_cpu[cpu_cnt++];
911 
912 		/* Do the assignment for h/w Rx SRSes */
913 		if (flent->fe_rx_srs_cnt > 1) {
914 			cpu_cnt = 0;
915 			for (srs_cnt = 1;
916 			    srs_cnt < flent->fe_rx_srs_cnt; srs_cnt++) {
917 				rx_srs = flent->fe_rx_srs[srs_cnt];
918 				ASSERT(rx_srs->srs_ring != NULL);
919 				if (rx_srs->srs_fanout_state ==
920 				    SRS_FANOUT_INIT) {
921 					rx_srs->srs_fanout_state =
922 					    SRS_FANOUT_REINIT;
923 				}
924 				srs_cpu = &rx_srs->srs_cpu;
925 				srs_cpu->mc_ncpus = no_of_cpus;
926 				bcopy(mrp->mrp_cpu, srs_cpu->mc_cpus,
927 				    sizeof (srs_cpu->mc_cpus));
928 				srs_cpu->mc_rx_fanout_cnt = fanout_cnt_per_srs;
929 				/* The first CPU in the list is the intr CPU */
930 				srs_cpu->mc_rx_pollid = mrp->mrp_cpu[cpu_cnt++];
931 				srs_cpu->mc_rx_intr_cpu = srs_cpu->mc_rx_pollid;
932 				srs_cpu->mc_rx_workerid =
933 				    (mac_latency_optimize ?
934 				    srs_cpu->mc_rx_pollid :
935 				    mrp->mrp_cpu[cpu_cnt++]);
936 				for (i = 0; i < fanout_cnt_per_srs; i++) {
937 					srs_cpu->mc_rx_fanout_cpus[i] =
938 					    mrp->mrp_cpu[cpu_cnt++];
939 				}
940 				ASSERT(cpu_cnt <= no_of_cpus);
941 			}
942 		}
943 		goto tx_cpu_init;
944 	}
945 
946 	/*
947 	 * Sub-optimal case.
948 	 * We have the following information:
949 	 * no_of_cpus - no. of cpus that user passed.
950 	 * rx_srs_cnt - no. of rx rings.
951 	 * reqd_rx_cpu_cnt = mac_latency_optimize?rx_srs_cnt*2:rx_srs_cnt*3
952 	 * reqd_tx_cpu_cnt - no. of cpus reqd. for Tx side.
953 	 * reqd_poll_worker_cnt = mac_latency_optimize?rx_srs_cnt:rx_srs_cnt*2
954 	 */
955 	/*
956 	 * If we bind the Rx fanout soft rings to the same CPUs
957 	 * as poll/worker, would that be enough?
958 	 */
959 	if (no_of_cpus >= (rx_srs_cnt + reqd_tx_cpu_cnt)) {
960 		boolean_t worker_assign = B_FALSE;
961 
962 		/*
963 		 * If mac_latency_optimize is not set, are there
964 		 * enough CPUs to assign a CPU for worker also?
965 		 */
966 		if (no_of_cpus >= (reqd_poll_worker_cnt + reqd_tx_cpu_cnt))
967 			worker_assign = B_TRUE;
968 		/*
969 		 * Zero'th Rx SRS is the default Rx ring. It is not
970 		 * associated with h/w Rx ring.
971 		 */
972 		rx_srs = flent->fe_rx_srs[0];
973 		ASSERT(rx_srs->srs_ring == NULL);
974 		if (rx_srs->srs_fanout_state == SRS_FANOUT_INIT)
975 			rx_srs->srs_fanout_state = SRS_FANOUT_REINIT;
976 		cpu_cnt = 0;
977 		srs_cpu = &rx_srs->srs_cpu;
978 		srs_cpu->mc_ncpus = no_of_cpus;
979 		bcopy(mrp->mrp_cpu,
980 		    srs_cpu->mc_cpus, sizeof (srs_cpu->mc_cpus));
981 		srs_cpu->mc_rx_fanout_cnt = 1;
982 		srs_cpu->mc_rx_pollid = mrp->mrp_cpu[cpu_cnt++];
983 		/* Retarget the interrupt to the same CPU as the poll */
984 		srs_cpu->mc_rx_intr_cpu = srs_cpu->mc_rx_pollid;
985 		srs_cpu->mc_rx_workerid =
986 		    ((!mac_latency_optimize && worker_assign) ?
987 		    mrp->mrp_cpu[cpu_cnt++] : srs_cpu->mc_rx_pollid);
988 
989 		srs_cpu->mc_rx_fanout_cpus[0] = mrp->mrp_cpu[cpu_cnt];
990 
991 		/* Do CPU bindings for SRSes having h/w Rx rings */
992 		if (flent->fe_rx_srs_cnt > 1) {
993 			cpu_cnt = 0;
994 			for (srs_cnt = 1;
995 			    srs_cnt < flent->fe_rx_srs_cnt; srs_cnt++) {
996 				rx_srs = flent->fe_rx_srs[srs_cnt];
997 				ASSERT(rx_srs->srs_ring != NULL);
998 				if (rx_srs->srs_fanout_state ==
999 				    SRS_FANOUT_INIT) {
1000 					rx_srs->srs_fanout_state =
1001 					    SRS_FANOUT_REINIT;
1002 				}
1003 				srs_cpu = &rx_srs->srs_cpu;
1004 				srs_cpu->mc_ncpus = no_of_cpus;
1005 				bcopy(mrp->mrp_cpu, srs_cpu->mc_cpus,
1006 				    sizeof (srs_cpu->mc_cpus));
1007 				srs_cpu->mc_rx_pollid =
1008 				    mrp->mrp_cpu[cpu_cnt];
1009 				srs_cpu->mc_rx_intr_cpu = srs_cpu->mc_rx_pollid;
1010 				srs_cpu->mc_rx_workerid =
1011 				    ((!mac_latency_optimize && worker_assign) ?
1012 				    mrp->mrp_cpu[++cpu_cnt] :
1013 				    srs_cpu->mc_rx_pollid);
1014 				srs_cpu->mc_rx_fanout_cnt = 1;
1015 				srs_cpu->mc_rx_fanout_cpus[0] =
1016 				    mrp->mrp_cpu[cpu_cnt];
1017 				cpu_cnt++;
1018 				ASSERT(cpu_cnt <= no_of_cpus);
1019 			}
1020 		}
1021 		goto tx_cpu_init;
1022 	}
1023 
1024 	/*
1025 	 * Real sub-optimal case. Not enough CPUs for poll and
1026 	 * Tx soft rings. Do a round robin assignment where
1027 	 * each Rx SRS will get the same CPU for poll, worker
1028 	 * and fanout soft ring.
1029 	 */
1030 	cpu_cnt = 0;
1031 	for (srs_cnt = 0; srs_cnt < flent->fe_rx_srs_cnt; srs_cnt++) {
1032 		rx_srs = flent->fe_rx_srs[srs_cnt];
1033 		srs_cpu = &rx_srs->srs_cpu;
1034 		if (rx_srs->srs_fanout_state == SRS_FANOUT_INIT)
1035 			rx_srs->srs_fanout_state = SRS_FANOUT_REINIT;
1036 		srs_cpu->mc_ncpus = no_of_cpus;
1037 		bcopy(mrp->mrp_cpu,
1038 		    srs_cpu->mc_cpus, sizeof (srs_cpu->mc_cpus));
1039 		srs_cpu->mc_rx_fanout_cnt = 1;
1040 		srs_cpu->mc_rx_pollid = mrp->mrp_cpu[cpu_cnt];
1041 		/* Retarget the interrupt to the same CPU as the poll */
1042 		srs_cpu->mc_rx_intr_cpu = srs_cpu->mc_rx_pollid;
1043 		srs_cpu->mc_rx_workerid = mrp->mrp_cpu[cpu_cnt];
1044 		srs_cpu->mc_rx_fanout_cpus[0] = mrp->mrp_cpu[cpu_cnt];
1045 		if (++cpu_cnt >= no_of_cpus)
1046 			cpu_cnt = 0;
1047 	}
1048 
1049 tx_cpu_init:
1050 	mac_tx_cpu_init(flent, mrp, NULL);
1051 
1052 	/*
1053 	 * Copy the user specified CPUs to the effective CPUs
1054 	 */
1055 	for (i = 0; i < mrp->mrp_ncpus; i++) {
1056 		emrp->mrp_cpu[i] = mrp->mrp_cpu[i];
1057 	}
1058 	emrp->mrp_ncpus = mrp->mrp_ncpus;
1059 	emrp->mrp_mask = mrp->mrp_mask;
1060 	bzero(emrp->mrp_pool, MAXPATHLEN);
1061 }
1062 
1063 /*
1064  * mac_flow_cpu_init():
1065  *
1066  * Each SRS has a mac_cpu_t structure, srs_cpu. This routine fills in
1067  * the CPU binding information in srs_cpu for all Rx SRSes associated
1068  * with a flent.
1069  */
1070 static void
mac_flow_cpu_init(flow_entry_t * flent,cpupart_t * cpupart)1071 mac_flow_cpu_init(flow_entry_t *flent, cpupart_t *cpupart)
1072 {
1073 	mac_soft_ring_set_t *rx_srs;
1074 	processorid_t cpuid;
1075 	int i, j, k, srs_cnt, nscpus, maxcpus, soft_ring_cnt = 0;
1076 	mac_cpus_t *srs_cpu;
1077 	mac_resource_props_t *emrp = &flent->fe_effective_props;
1078 	uint32_t cpus[MRP_NCPUS];
1079 
1080 	/*
1081 	 * The maximum number of CPUs available can either be
1082 	 * the number of CPUs in the pool or the number of CPUs
1083 	 * in the system.
1084 	 */
1085 	maxcpus = (cpupart != NULL) ? cpupart->cp_ncpus : ncpus;
1086 
1087 	/*
1088 	 * Compute the number of soft rings needed on top for each Rx
1089 	 * SRS. "rx_srs_cnt-1" indicates the number of Rx SRS
1090 	 * associated with h/w Rx rings. Soft ring count needed for
1091 	 * each h/w Rx SRS is computed and the same is applied to
1092 	 * software classified Rx SRS. The first Rx SRS in fe_rx_srs[]
1093 	 * is the software classified Rx SRS.
1094 	 */
1095 	soft_ring_cnt = mac_compute_soft_ring_count(flent,
1096 	    flent->fe_rx_srs_cnt - 1, maxcpus);
1097 	if (soft_ring_cnt == 0) {
1098 		/*
1099 		 * Even when soft_ring_cnt is 0, we still need
1100 		 * to create a soft ring for TCP, UDP and
1101 		 * OTHER. So set it to 1.
1102 		 */
1103 		soft_ring_cnt = 1;
1104 	}
1105 	for (srs_cnt = 0; srs_cnt < flent->fe_rx_srs_cnt; srs_cnt++) {
1106 		rx_srs = flent->fe_rx_srs[srs_cnt];
1107 		srs_cpu = &rx_srs->srs_cpu;
1108 		if (rx_srs->srs_fanout_state == SRS_FANOUT_INIT)
1109 			rx_srs->srs_fanout_state = SRS_FANOUT_REINIT;
1110 		srs_cpu->mc_ncpus = soft_ring_cnt;
1111 		srs_cpu->mc_rx_fanout_cnt = soft_ring_cnt;
1112 		mutex_enter(&cpu_lock);
1113 		for (j = 0; j < soft_ring_cnt; j++) {
1114 			cpuid = mac_next_bind_cpu(cpupart);
1115 			srs_cpu->mc_cpus[j] = cpuid;
1116 			srs_cpu->mc_rx_fanout_cpus[j] = cpuid;
1117 		}
1118 		cpuid = mac_next_bind_cpu(cpupart);
1119 		srs_cpu->mc_rx_pollid = cpuid;
1120 		srs_cpu->mc_rx_intr_cpu = (mac_rx_intr_retarget ?
1121 		    srs_cpu->mc_rx_pollid : -1);
1122 		/* increment ncpus to account for polling cpu */
1123 		srs_cpu->mc_ncpus++;
1124 		srs_cpu->mc_cpus[j++] = cpuid;
1125 		if (!mac_latency_optimize) {
1126 			cpuid = mac_next_bind_cpu(cpupart);
1127 			srs_cpu->mc_ncpus++;
1128 			srs_cpu->mc_cpus[j++] = cpuid;
1129 		}
1130 		srs_cpu->mc_rx_workerid = cpuid;
1131 		mutex_exit(&cpu_lock);
1132 	}
1133 
1134 	nscpus = 0;
1135 	for (srs_cnt = 0; srs_cnt < flent->fe_rx_srs_cnt; srs_cnt++) {
1136 		rx_srs = flent->fe_rx_srs[srs_cnt];
1137 		srs_cpu = &rx_srs->srs_cpu;
1138 		for (j = 0; j < srs_cpu->mc_ncpus; j++) {
1139 			cpus[nscpus++] = srs_cpu->mc_cpus[j];
1140 		}
1141 	}
1142 
1143 
1144 	/*
1145 	 * Copy cpu list to fe_effective_props
1146 	 * without duplicates.
1147 	 */
1148 	k = 0;
1149 	for (i = 0; i < nscpus; i++) {
1150 		for (j = 0; j < k; j++) {
1151 			if (emrp->mrp_cpu[j] == cpus[i])
1152 				break;
1153 		}
1154 		if (j == k)
1155 			emrp->mrp_cpu[k++] = cpus[i];
1156 	}
1157 	emrp->mrp_ncpus = k;
1158 
1159 	mac_tx_cpu_init(flent, NULL, cpupart);
1160 }
1161 
1162 /*
1163  * DATAPATH SETUP ROUTINES
1164  * (setup SRS and set/update FANOUT, B/W and PRIORITY)
1165  */
1166 
1167 /*
1168  * mac_srs_fanout_list_alloc:
1169  *
1170  * The underlying device can expose upto MAX_RINGS_PER_GROUP worth of
1171  * rings to a client. In such a case, MAX_RINGS_PER_GROUP worth of
1172  * array space is needed to store Tx soft rings. Thus we allocate so
1173  * much array space for srs_tx_soft_rings.
1174  *
1175  * And when it is an aggr, again we allocate MAX_RINGS_PER_GROUP worth
1176  * of space to st_soft_rings. This array is used for quick access to
1177  * soft ring associated with a pseudo Tx ring based on the pseudo
1178  * ring's index (mr_index).
1179  */
1180 static void
mac_srs_fanout_list_alloc(mac_soft_ring_set_t * mac_srs)1181 mac_srs_fanout_list_alloc(mac_soft_ring_set_t *mac_srs)
1182 {
1183 	mac_client_impl_t *mcip = mac_srs->srs_mcip;
1184 
1185 	if (mac_srs->srs_type & SRST_TX) {
1186 		mac_srs->srs_tx_soft_rings = (mac_soft_ring_t **)
1187 		    kmem_zalloc(sizeof (mac_soft_ring_t *) *
1188 		    MAX_RINGS_PER_GROUP, KM_SLEEP);
1189 		if (mcip->mci_state_flags & MCIS_IS_AGGR) {
1190 			mac_srs_tx_t *tx = &mac_srs->srs_tx;
1191 
1192 			tx->st_soft_rings = (mac_soft_ring_t **)
1193 			    kmem_zalloc(sizeof (mac_soft_ring_t *) *
1194 			    MAX_RINGS_PER_GROUP, KM_SLEEP);
1195 		}
1196 	} else {
1197 		mac_srs->srs_tcp_soft_rings = (mac_soft_ring_t **)
1198 		    kmem_zalloc(sizeof (mac_soft_ring_t *) * MAX_SR_FANOUT,
1199 		    KM_SLEEP);
1200 		mac_srs->srs_udp_soft_rings = (mac_soft_ring_t **)
1201 		    kmem_zalloc(sizeof (mac_soft_ring_t *) * MAX_SR_FANOUT,
1202 		    KM_SLEEP);
1203 		mac_srs->srs_oth_soft_rings = (mac_soft_ring_t **)
1204 		    kmem_zalloc(sizeof (mac_soft_ring_t *) * MAX_SR_FANOUT,
1205 		    KM_SLEEP);
1206 	}
1207 }
1208 
1209 static void
mac_srs_worker_bind(mac_soft_ring_set_t * mac_srs,processorid_t cpuid)1210 mac_srs_worker_bind(mac_soft_ring_set_t *mac_srs, processorid_t cpuid)
1211 {
1212 	cpu_t *cp;
1213 	boolean_t clear = B_FALSE;
1214 
1215 	ASSERT(MUTEX_HELD(&cpu_lock));
1216 
1217 	if (!mac_srs_thread_bind)
1218 		return;
1219 
1220 	cp = cpu_get(cpuid);
1221 	if (cp == NULL || !cpu_is_online(cp))
1222 		return;
1223 
1224 	mutex_enter(&mac_srs->srs_lock);
1225 	mac_srs->srs_state |= SRS_WORKER_BOUND;
1226 	if (mac_srs->srs_worker_cpuid != -1)
1227 		clear = B_TRUE;
1228 	mac_srs->srs_worker_cpuid = cpuid;
1229 	mutex_exit(&mac_srs->srs_lock);
1230 
1231 	if (clear)
1232 		thread_affinity_clear(mac_srs->srs_worker);
1233 
1234 	thread_affinity_set(mac_srs->srs_worker, cpuid);
1235 	DTRACE_PROBE1(worker__CPU, processorid_t, cpuid);
1236 }
1237 
1238 static void
mac_srs_poll_bind(mac_soft_ring_set_t * mac_srs,processorid_t cpuid)1239 mac_srs_poll_bind(mac_soft_ring_set_t *mac_srs, processorid_t cpuid)
1240 {
1241 	cpu_t *cp;
1242 	boolean_t clear = B_FALSE;
1243 
1244 	ASSERT(MUTEX_HELD(&cpu_lock));
1245 
1246 	if (!mac_srs_thread_bind || mac_srs->srs_poll_thr == NULL)
1247 		return;
1248 
1249 	cp = cpu_get(cpuid);
1250 	if (cp == NULL || !cpu_is_online(cp))
1251 		return;
1252 
1253 	mutex_enter(&mac_srs->srs_lock);
1254 	mac_srs->srs_state |= SRS_POLL_BOUND;
1255 	if (mac_srs->srs_poll_cpuid != -1)
1256 		clear = B_TRUE;
1257 	mac_srs->srs_poll_cpuid = cpuid;
1258 	mutex_exit(&mac_srs->srs_lock);
1259 
1260 	if (clear)
1261 		thread_affinity_clear(mac_srs->srs_poll_thr);
1262 
1263 	thread_affinity_set(mac_srs->srs_poll_thr, cpuid);
1264 	DTRACE_PROBE1(poll__CPU, processorid_t, cpuid);
1265 }
1266 
1267 /*
1268  * Re-target interrupt to the passed CPU. If re-target is successful,
1269  * set mc_rx_intr_cpu to the re-targeted CPU. Otherwise set it to -1.
1270  */
1271 void
mac_rx_srs_retarget_intr(mac_soft_ring_set_t * mac_srs,processorid_t cpuid)1272 mac_rx_srs_retarget_intr(mac_soft_ring_set_t *mac_srs, processorid_t cpuid)
1273 {
1274 	cpu_t *cp;
1275 	mac_ring_t *ring = mac_srs->srs_ring;
1276 	mac_intr_t *mintr = &ring->mr_info.mri_intr;
1277 	flow_entry_t *flent = mac_srs->srs_flent;
1278 	boolean_t primary = mac_is_primary_client(mac_srs->srs_mcip);
1279 
1280 	ASSERT(MUTEX_HELD(&cpu_lock));
1281 
1282 	/*
1283 	 * Don't re-target the interrupt for these cases:
1284 	 * 1) ring is NULL
1285 	 * 2) the interrupt is shared (mi_ddi_shared)
1286 	 * 3) ddi_handle is NULL and !primary
1287 	 * 4) primary, ddi_handle is NULL but fe_rx_srs_cnt > 2
1288 	 * Case 3 & 4 are because of mac_client_intr_cpu() routine.
1289 	 * This routine will re-target fixed interrupt for primary
1290 	 * mac client if the client has only one ring. In that
1291 	 * case, mc_rx_intr_cpu will already have the correct value.
1292 	 */
1293 	if (ring == NULL || mintr->mi_ddi_shared || cpuid == -1 ||
1294 	    (mintr->mi_ddi_handle == NULL && !primary) || (primary &&
1295 	    mintr->mi_ddi_handle == NULL && flent->fe_rx_srs_cnt > 2)) {
1296 		mac_srs->srs_cpu.mc_rx_intr_cpu = -1;
1297 		return;
1298 	}
1299 
1300 	if (mintr->mi_ddi_handle == NULL)
1301 		return;
1302 
1303 	cp = cpu_get(cpuid);
1304 	if (cp == NULL || !cpu_is_online(cp))
1305 		return;
1306 
1307 	/* Drop the cpu_lock as set_intr_affinity() holds it */
1308 	mutex_exit(&cpu_lock);
1309 	if (set_intr_affinity(mintr->mi_ddi_handle, cpuid) == DDI_SUCCESS)
1310 		mac_srs->srs_cpu.mc_rx_intr_cpu = cpuid;
1311 	else
1312 		mac_srs->srs_cpu.mc_rx_intr_cpu = -1;
1313 	mutex_enter(&cpu_lock);
1314 }
1315 
1316 /*
1317  * Re-target Tx interrupts
1318  */
1319 void
mac_tx_srs_retarget_intr(mac_soft_ring_set_t * mac_srs)1320 mac_tx_srs_retarget_intr(mac_soft_ring_set_t *mac_srs)
1321 {
1322 	cpu_t *cp;
1323 	mac_ring_t *ring;
1324 	mac_intr_t *mintr;
1325 	mac_soft_ring_t *sringp;
1326 	mac_srs_tx_t *srs_tx;
1327 	mac_cpus_t *srs_cpu;
1328 	processorid_t cpuid;
1329 	int i;
1330 
1331 	ASSERT(MUTEX_HELD(&cpu_lock));
1332 
1333 	srs_cpu = &mac_srs->srs_cpu;
1334 	if (MAC_TX_SOFT_RINGS(mac_srs)) {
1335 		for (i = 0; i < mac_srs->srs_tx_ring_count; i++) {
1336 			sringp = mac_srs->srs_tx_soft_rings[i];
1337 			ring = (mac_ring_t *)sringp->s_ring_tx_arg2;
1338 			cpuid = srs_cpu->mc_tx_intr_cpu[i];
1339 			cp = cpu_get(cpuid);
1340 			if (cp == NULL || !cpu_is_online(cp) ||
1341 			    !MAC_RING_RETARGETABLE(ring)) {
1342 				srs_cpu->mc_tx_retargeted_cpu[i] = -1;
1343 				continue;
1344 			}
1345 			mintr = &ring->mr_info.mri_intr;
1346 			/*
1347 			 * Drop the cpu_lock as set_intr_affinity()
1348 			 * holds it
1349 			 */
1350 			mutex_exit(&cpu_lock);
1351 			if (set_intr_affinity(mintr->mi_ddi_handle,
1352 			    cpuid) == DDI_SUCCESS) {
1353 				srs_cpu->mc_tx_retargeted_cpu[i] = cpuid;
1354 			} else {
1355 				srs_cpu->mc_tx_retargeted_cpu[i] = -1;
1356 			}
1357 			mutex_enter(&cpu_lock);
1358 		}
1359 	} else {
1360 		cpuid = srs_cpu->mc_tx_intr_cpu[0];
1361 		cp = cpu_get(cpuid);
1362 		if (cp == NULL || !cpu_is_online(cp)) {
1363 			srs_cpu->mc_tx_retargeted_cpu[0] = -1;
1364 			return;
1365 		}
1366 		srs_tx = &mac_srs->srs_tx;
1367 		ring = (mac_ring_t *)srs_tx->st_arg2;
1368 		if (MAC_RING_RETARGETABLE(ring)) {
1369 			mintr = &ring->mr_info.mri_intr;
1370 			mutex_exit(&cpu_lock);
1371 			if ((set_intr_affinity(mintr->mi_ddi_handle,
1372 			    cpuid) == DDI_SUCCESS)) {
1373 				srs_cpu->mc_tx_retargeted_cpu[0] = cpuid;
1374 			} else {
1375 				srs_cpu->mc_tx_retargeted_cpu[0] = -1;
1376 			}
1377 			mutex_enter(&cpu_lock);
1378 		}
1379 	}
1380 }
1381 
1382 /*
1383  * When a CPU comes back online, bind the MAC kernel threads which
1384  * were previously bound to that CPU, and had to be unbound because
1385  * the CPU was going away.
1386  *
1387  * These functions are called with cpu_lock held and hence we can't
1388  * cv_wait to grab the mac perimeter. Since these functions walk the soft
1389  * ring list of an SRS without being in the perimeter, the list itself
1390  * is protected by the SRS lock.
1391  */
1392 static void
mac_walk_srs_and_bind(int cpuid)1393 mac_walk_srs_and_bind(int cpuid)
1394 {
1395 	mac_soft_ring_set_t *mac_srs;
1396 	mac_soft_ring_t *soft_ring;
1397 
1398 	rw_enter(&mac_srs_g_lock, RW_READER);
1399 
1400 	if ((mac_srs = mac_srs_g_list) == NULL)
1401 		goto done;
1402 
1403 	for (; mac_srs != NULL; mac_srs = mac_srs->srs_next) {
1404 		if (mac_srs->srs_worker_cpuid == -1 &&
1405 		    mac_srs->srs_worker_cpuid_save == cpuid) {
1406 			mac_srs->srs_worker_cpuid_save = -1;
1407 			mac_srs_worker_bind(mac_srs, cpuid);
1408 		}
1409 
1410 		if (!(mac_srs->srs_type & SRST_TX)) {
1411 			if (mac_srs->srs_poll_cpuid == -1 &&
1412 			    mac_srs->srs_poll_cpuid_save == cpuid) {
1413 				mac_srs->srs_poll_cpuid_save = -1;
1414 				mac_srs_poll_bind(mac_srs, cpuid);
1415 			}
1416 		}
1417 
1418 		/* Next tackle the soft rings associated with the srs */
1419 		mutex_enter(&mac_srs->srs_lock);
1420 		for (soft_ring = mac_srs->srs_soft_ring_head; soft_ring != NULL;
1421 		    soft_ring = soft_ring->s_ring_next) {
1422 			if (soft_ring->s_ring_cpuid == -1 &&
1423 			    soft_ring->s_ring_cpuid_save == cpuid) {
1424 				soft_ring->s_ring_cpuid_save = -1;
1425 				(void) mac_soft_ring_bind(soft_ring, cpuid);
1426 			}
1427 		}
1428 		mutex_exit(&mac_srs->srs_lock);
1429 	}
1430 done:
1431 	rw_exit(&mac_srs_g_lock);
1432 }
1433 
1434 /*
1435  * Change the priority of the SRS's poll and worker thread. Additionally,
1436  * update the priority of the worker threads for the SRS's soft rings.
1437  * Need to modify any associated squeue threads.
1438  */
1439 void
mac_update_srs_priority(mac_soft_ring_set_t * mac_srs,pri_t prival)1440 mac_update_srs_priority(mac_soft_ring_set_t *mac_srs, pri_t prival)
1441 {
1442 	mac_soft_ring_t		*ringp;
1443 
1444 	mac_srs->srs_pri = prival;
1445 	thread_lock(mac_srs->srs_worker);
1446 	(void) thread_change_pri(mac_srs->srs_worker, mac_srs->srs_pri, 0);
1447 	thread_unlock(mac_srs->srs_worker);
1448 	if (mac_srs->srs_poll_thr != NULL) {
1449 		thread_lock(mac_srs->srs_poll_thr);
1450 		(void) thread_change_pri(mac_srs->srs_poll_thr,
1451 		    mac_srs->srs_pri, 0);
1452 		thread_unlock(mac_srs->srs_poll_thr);
1453 	}
1454 	if ((ringp = mac_srs->srs_soft_ring_head) == NULL)
1455 		return;
1456 	while (ringp != mac_srs->srs_soft_ring_tail) {
1457 		thread_lock(ringp->s_ring_worker);
1458 		(void) thread_change_pri(ringp->s_ring_worker,
1459 		    mac_srs->srs_pri, 0);
1460 		thread_unlock(ringp->s_ring_worker);
1461 		ringp = ringp->s_ring_next;
1462 	}
1463 	ASSERT(ringp == mac_srs->srs_soft_ring_tail);
1464 	thread_lock(ringp->s_ring_worker);
1465 	(void) thread_change_pri(ringp->s_ring_worker, mac_srs->srs_pri, 0);
1466 	thread_unlock(ringp->s_ring_worker);
1467 }
1468 
1469 /*
1470  * Change the receive bandwidth limit.
1471  */
1472 static void
mac_rx_srs_update_bwlimit(mac_soft_ring_set_t * srs,mac_resource_props_t * mrp)1473 mac_rx_srs_update_bwlimit(mac_soft_ring_set_t *srs, mac_resource_props_t *mrp)
1474 {
1475 	mac_soft_ring_t		*softring;
1476 
1477 	mutex_enter(&srs->srs_lock);
1478 	mutex_enter(&srs->srs_bw->mac_bw_lock);
1479 
1480 	if (mrp->mrp_maxbw == MRP_MAXBW_RESETVAL) {
1481 		/* Reset bandwidth limit */
1482 		if (srs->srs_type & SRST_BW_CONTROL) {
1483 			softring = srs->srs_soft_ring_head;
1484 			while (softring != NULL) {
1485 				softring->s_ring_type &= ~ST_RING_BW_CTL;
1486 				softring = softring->s_ring_next;
1487 			}
1488 			srs->srs_type &= ~SRST_BW_CONTROL;
1489 			srs->srs_drain_func = mac_rx_srs_drain;
1490 		}
1491 	} else {
1492 		/* Set/Modify bandwidth limit */
1493 		srs->srs_bw->mac_bw_limit = FLOW_BYTES_PER_TICK(mrp->mrp_maxbw);
1494 		/*
1495 		 * Give twice the queuing capability before
1496 		 * dropping packets. The unit is bytes/tick.
1497 		 */
1498 		srs->srs_bw->mac_bw_drop_threshold =
1499 		    srs->srs_bw->mac_bw_limit << 1;
1500 		if (!(srs->srs_type & SRST_BW_CONTROL)) {
1501 			softring = srs->srs_soft_ring_head;
1502 			while (softring != NULL) {
1503 				softring->s_ring_type |= ST_RING_BW_CTL;
1504 				softring = softring->s_ring_next;
1505 			}
1506 			srs->srs_type |= SRST_BW_CONTROL;
1507 			srs->srs_drain_func = mac_rx_srs_drain_bw;
1508 		}
1509 	}
1510 done:
1511 	mutex_exit(&srs->srs_bw->mac_bw_lock);
1512 	mutex_exit(&srs->srs_lock);
1513 }
1514 
1515 /* Change the transmit bandwidth limit */
1516 static void
mac_tx_srs_update_bwlimit(mac_soft_ring_set_t * srs,mac_resource_props_t * mrp)1517 mac_tx_srs_update_bwlimit(mac_soft_ring_set_t *srs, mac_resource_props_t *mrp)
1518 {
1519 	uint32_t		tx_mode, ring_info = 0;
1520 	mac_srs_tx_t		*srs_tx = &srs->srs_tx;
1521 	mac_client_impl_t	*mcip = srs->srs_mcip;
1522 
1523 	/*
1524 	 * We need to quiesce/restart the client here because mac_tx() and
1525 	 * srs->srs_tx->st_func do not hold srs->srs_lock while accessing
1526 	 * st_mode and related fields, which are modified by the code below.
1527 	 */
1528 	mac_tx_client_quiesce((mac_client_handle_t)mcip);
1529 
1530 	mutex_enter(&srs->srs_lock);
1531 	mutex_enter(&srs->srs_bw->mac_bw_lock);
1532 
1533 	tx_mode = srs_tx->st_mode;
1534 	if (mrp->mrp_maxbw == MRP_MAXBW_RESETVAL) {
1535 		/* Reset bandwidth limit */
1536 		if (tx_mode == SRS_TX_BW) {
1537 			if (srs_tx->st_arg2 != NULL)
1538 				ring_info = mac_hwring_getinfo(srs_tx->st_arg2);
1539 			if (mac_tx_serialize ||
1540 			    (ring_info & MAC_RING_TX_SERIALIZE)) {
1541 				srs_tx->st_mode = SRS_TX_SERIALIZE;
1542 			} else {
1543 				srs_tx->st_mode = SRS_TX_DEFAULT;
1544 			}
1545 		} else if (tx_mode == SRS_TX_BW_FANOUT) {
1546 			srs_tx->st_mode = SRS_TX_FANOUT;
1547 		} else if (tx_mode == SRS_TX_BW_AGGR) {
1548 			srs_tx->st_mode = SRS_TX_AGGR;
1549 		}
1550 		srs->srs_type &= ~SRST_BW_CONTROL;
1551 	} else {
1552 		/* Set/Modify bandwidth limit */
1553 		srs->srs_bw->mac_bw_limit = FLOW_BYTES_PER_TICK(mrp->mrp_maxbw);
1554 		/*
1555 		 * Give twice the queuing capability before
1556 		 * dropping packets. The unit is bytes/tick.
1557 		 */
1558 		srs->srs_bw->mac_bw_drop_threshold =
1559 		    srs->srs_bw->mac_bw_limit << 1;
1560 		srs->srs_type |= SRST_BW_CONTROL;
1561 		if (tx_mode != SRS_TX_BW && tx_mode != SRS_TX_BW_FANOUT &&
1562 		    tx_mode != SRS_TX_BW_AGGR) {
1563 			if (tx_mode == SRS_TX_SERIALIZE ||
1564 			    tx_mode == SRS_TX_DEFAULT) {
1565 				srs_tx->st_mode = SRS_TX_BW;
1566 			} else if (tx_mode == SRS_TX_FANOUT) {
1567 				srs_tx->st_mode = SRS_TX_BW_FANOUT;
1568 			} else if (tx_mode == SRS_TX_AGGR) {
1569 				srs_tx->st_mode = SRS_TX_BW_AGGR;
1570 			} else {
1571 				ASSERT(0);
1572 			}
1573 		}
1574 	}
1575 done:
1576 	srs_tx->st_func = mac_tx_get_func(srs_tx->st_mode);
1577 	mutex_exit(&srs->srs_bw->mac_bw_lock);
1578 	mutex_exit(&srs->srs_lock);
1579 
1580 	mac_tx_client_restart((mac_client_handle_t)mcip);
1581 }
1582 
1583 /*
1584  * The uber function that deals with any update to bandwidth limits.
1585  */
1586 void
mac_srs_update_bwlimit(flow_entry_t * flent,mac_resource_props_t * mrp)1587 mac_srs_update_bwlimit(flow_entry_t *flent, mac_resource_props_t *mrp)
1588 {
1589 	int			count;
1590 
1591 	for (count = 0; count < flent->fe_rx_srs_cnt; count++)
1592 		mac_rx_srs_update_bwlimit(flent->fe_rx_srs[count], mrp);
1593 	mac_tx_srs_update_bwlimit(flent->fe_tx_srs, mrp);
1594 }
1595 
1596 /*
1597  * When the first sub-flow is added to a link, we disable polling on the
1598  * link and also modify the entry point to mac_rx_srs_subflow_process.
1599  * (polling is disabled because with the subflow added, accounting
1600  * for polling needs additional logic, it is assumed that when a subflow is
1601  * added, we can take some hit as a result of disabling polling rather than
1602  * adding more complexity - if this becomes a perf. issue we need to
1603  * re-rvaluate this logic).  When the last subflow is removed, we turn back
1604  * polling and also reset the entry point to mac_rx_srs_process.
1605  *
1606  * In the future if there are multiple SRS, we can simply
1607  * take one and give it to the flow rather than disabling polling and
1608  * resetting the entry point.
1609  */
1610 void
mac_client_update_classifier(mac_client_impl_t * mcip,boolean_t enable)1611 mac_client_update_classifier(mac_client_impl_t *mcip, boolean_t enable)
1612 {
1613 	flow_entry_t		*flent = mcip->mci_flent;
1614 	int			i;
1615 	mac_impl_t		*mip = mcip->mci_mip;
1616 	mac_rx_func_t		rx_func;
1617 	uint_t			rx_srs_cnt;
1618 	boolean_t		enable_classifier;
1619 
1620 	ASSERT(MAC_PERIM_HELD((mac_handle_t)mip));
1621 
1622 	enable_classifier = !FLOW_TAB_EMPTY(mcip->mci_subflow_tab) && enable;
1623 
1624 	rx_func = enable_classifier ? mac_rx_srs_subflow_process :
1625 	    mac_rx_srs_process;
1626 
1627 	/* Tell mac_srs_poll_state_change to disable polling if necessary */
1628 	if (mip->mi_state_flags & MIS_POLL_DISABLE)
1629 		enable_classifier = B_TRUE;
1630 
1631 	/*
1632 	 * If receive function has already been configured correctly for
1633 	 * current subflow configuration, do nothing.
1634 	 */
1635 	if (flent->fe_cb_fn == (flow_fn_t)rx_func)
1636 		return;
1637 
1638 	rx_srs_cnt = flent->fe_rx_srs_cnt;
1639 	for (i = 0; i < rx_srs_cnt; i++) {
1640 		ASSERT(flent->fe_rx_srs[i] != NULL);
1641 		mac_srs_poll_state_change(flent->fe_rx_srs[i],
1642 		    enable_classifier, rx_func);
1643 	}
1644 
1645 	/*
1646 	 * Change the S/W classifier so that we can land in the
1647 	 * correct processing function with correct argument.
1648 	 * If all subflows have been removed we can revert to
1649 	 * mac_rx_srsprocess, else we need mac_rx_srs_subflow_process.
1650 	 */
1651 	mutex_enter(&flent->fe_lock);
1652 	flent->fe_cb_fn = (flow_fn_t)rx_func;
1653 	flent->fe_cb_arg1 = (void *)mip;
1654 	flent->fe_cb_arg2 = flent->fe_rx_srs[0];
1655 	mutex_exit(&flent->fe_lock);
1656 }
1657 
1658 static void
mac_srs_update_fanout_list(mac_soft_ring_set_t * mac_srs)1659 mac_srs_update_fanout_list(mac_soft_ring_set_t *mac_srs)
1660 {
1661 	int tcp_count = 0, udp_count = 0, oth_count = 0, tx_count = 0;
1662 	mac_soft_ring_t *softring;
1663 
1664 	softring = mac_srs->srs_soft_ring_head;
1665 	if (softring == NULL) {
1666 		ASSERT(mac_srs->srs_soft_ring_count == 0);
1667 		mac_srs->srs_tcp_ring_count = 0;
1668 		mac_srs->srs_udp_ring_count = 0;
1669 		mac_srs->srs_oth_ring_count = 0;
1670 		mac_srs->srs_tx_ring_count = 0;
1671 		return;
1672 	}
1673 
1674 	while (softring != NULL) {
1675 		if (softring->s_ring_type & ST_RING_TCP) {
1676 			mac_srs->srs_tcp_soft_rings[tcp_count++] = softring;
1677 		} else if (softring->s_ring_type & ST_RING_UDP) {
1678 			mac_srs->srs_udp_soft_rings[udp_count++] = softring;
1679 		} else if (softring->s_ring_type & ST_RING_OTH) {
1680 			mac_srs->srs_oth_soft_rings[oth_count++] = softring;
1681 		} else {
1682 			ASSERT(softring->s_ring_type & ST_RING_TX);
1683 			mac_srs->srs_tx_soft_rings[tx_count++] = softring;
1684 		}
1685 		softring = softring->s_ring_next;
1686 	}
1687 
1688 	ASSERT(mac_srs->srs_soft_ring_count ==
1689 	    (tcp_count + udp_count + oth_count + tx_count));
1690 	mac_srs->srs_tcp_ring_count = tcp_count;
1691 	mac_srs->srs_udp_ring_count = udp_count;
1692 	mac_srs->srs_oth_ring_count = oth_count;
1693 	mac_srs->srs_tx_ring_count = tx_count;
1694 }
1695 
1696 void
mac_srs_create_proto_softrings(int id,uint16_t type,pri_t pri,mac_client_impl_t * mcip,mac_soft_ring_set_t * mac_srs,processorid_t cpuid,mac_direct_rx_t rx_func,void * x_arg1,mac_resource_handle_t x_arg2,boolean_t set_bypass)1697 mac_srs_create_proto_softrings(int id, uint16_t type, pri_t pri,
1698     mac_client_impl_t *mcip, mac_soft_ring_set_t *mac_srs,
1699     processorid_t cpuid, mac_direct_rx_t rx_func, void *x_arg1,
1700     mac_resource_handle_t x_arg2, boolean_t set_bypass)
1701 {
1702 	mac_soft_ring_t	*softring;
1703 	mac_rx_fifo_t	mrf;
1704 
1705 	bzero(&mrf, sizeof (mac_rx_fifo_t));
1706 	mrf.mrf_type = MAC_RX_FIFO;
1707 	mrf.mrf_receive = (mac_receive_t)mac_soft_ring_poll;
1708 	mrf.mrf_intr_enable =
1709 	    (mac_intr_enable_t)mac_soft_ring_intr_enable;
1710 	mrf.mrf_intr_disable =
1711 	    (mac_intr_disable_t)mac_soft_ring_intr_disable;
1712 	mrf.mrf_flow_priority = pri;
1713 
1714 	softring = mac_soft_ring_create(id, mac_soft_ring_worker_wait,
1715 	    (type|ST_RING_TCP), pri, mcip, mac_srs,
1716 	    cpuid, rx_func, x_arg1, x_arg2);
1717 	softring->s_ring_rx_arg2 = NULL;
1718 
1719 	/*
1720 	 * TCP and UDP support DLS bypass. In addition TCP
1721 	 * squeue can also poll their corresponding soft rings.
1722 	 */
1723 	if (set_bypass && (mcip->mci_resource_arg != NULL)) {
1724 		mac_soft_ring_dls_bypass(softring,
1725 		    mcip->mci_direct_rx_fn,
1726 		    mcip->mci_direct_rx_arg);
1727 
1728 		mrf.mrf_rx_arg = softring;
1729 		mrf.mrf_intr_handle = (mac_intr_handle_t)softring;
1730 
1731 		/*
1732 		 * Make a call in IP to get a TCP squeue assigned to
1733 		 * this softring to maintain full CPU locality through
1734 		 * the stack and allow the squeue to be able to poll
1735 		 * the softring so the flow control can be pushed
1736 		 * all the way to H/W.
1737 		 */
1738 		softring->s_ring_rx_arg2 =
1739 		    mcip->mci_resource_add((void *)mcip->mci_resource_arg,
1740 		    (mac_resource_t *)&mrf);
1741 	}
1742 
1743 	/*
1744 	 * Non-TCP protocols don't support squeues. Hence we
1745 	 * don't make any ring addition callbacks for non-TCP
1746 	 * rings. Now create the UDP softring and allow it to
1747 	 * bypass the DLS layer.
1748 	 */
1749 	softring = mac_soft_ring_create(id, mac_soft_ring_worker_wait,
1750 	    (type|ST_RING_UDP), pri, mcip, mac_srs,
1751 	    cpuid, rx_func, x_arg1, x_arg2);
1752 	softring->s_ring_rx_arg2 = NULL;
1753 
1754 	if (set_bypass && (mcip->mci_resource_arg != NULL)) {
1755 		mac_soft_ring_dls_bypass(softring,
1756 		    mcip->mci_direct_rx_fn,
1757 		    mcip->mci_direct_rx_arg);
1758 	}
1759 
1760 	/* Create the Oth softrings which has to go through the DLS */
1761 	softring = mac_soft_ring_create(id, mac_soft_ring_worker_wait,
1762 	    (type|ST_RING_OTH), pri, mcip, mac_srs,
1763 	    cpuid, rx_func, x_arg1, x_arg2);
1764 	softring->s_ring_rx_arg2 = NULL;
1765 }
1766 
1767 /*
1768  * This routine associates a CPU or a set of CPU to process incoming
1769  * traffic from a mac client. If multiple CPUs are specified, then
1770  * so many soft rings are created with each soft ring worker thread
1771  * bound to a CPU in the set. Each soft ring in turn will be
1772  * associated with an squeue and the squeue will be moved to the
1773  * same CPU as that of the soft ring's.
1774  */
1775 static void
mac_srs_fanout_modify(mac_client_impl_t * mcip,mac_direct_rx_t rx_func,void * x_arg1,mac_resource_handle_t x_arg2,mac_soft_ring_set_t * mac_rx_srs,mac_soft_ring_set_t * mac_tx_srs)1776 mac_srs_fanout_modify(mac_client_impl_t *mcip, mac_direct_rx_t rx_func,
1777     void *x_arg1, mac_resource_handle_t x_arg2,
1778     mac_soft_ring_set_t *mac_rx_srs, mac_soft_ring_set_t *mac_tx_srs)
1779 {
1780 	mac_soft_ring_t *softring;
1781 	uint32_t soft_ring_flag = 0;
1782 	processorid_t cpuid = -1;
1783 	int i, srings_present, new_fanout_cnt;
1784 	mac_cpus_t *srs_cpu;
1785 
1786 	/* fanout state is REINIT. Set it back to INIT */
1787 	ASSERT(mac_rx_srs->srs_fanout_state == SRS_FANOUT_REINIT);
1788 	mac_rx_srs->srs_fanout_state = SRS_FANOUT_INIT;
1789 
1790 	/* how many are present right now */
1791 	srings_present = mac_rx_srs->srs_tcp_ring_count;
1792 	/* new request */
1793 	srs_cpu = &mac_rx_srs->srs_cpu;
1794 	new_fanout_cnt = srs_cpu->mc_rx_fanout_cnt;
1795 
1796 	mutex_enter(&mac_rx_srs->srs_lock);
1797 	if (mac_rx_srs->srs_type & SRST_BW_CONTROL)
1798 		soft_ring_flag |= ST_RING_BW_CTL;
1799 	mutex_exit(&mac_rx_srs->srs_lock);
1800 
1801 	if (new_fanout_cnt > srings_present) {
1802 		/* soft rings increased */
1803 		mutex_enter(&mac_rx_srs->srs_lock);
1804 		mac_rx_srs->srs_type |= SRST_FANOUT_SRC_IP;
1805 		mutex_exit(&mac_rx_srs->srs_lock);
1806 
1807 		for (i = mac_rx_srs->srs_tcp_ring_count;
1808 		    i < new_fanout_cnt; i++) {
1809 			/*
1810 			 * Create the protocol softrings and set the
1811 			 * DLS bypass where possible.
1812 			 */
1813 			mac_srs_create_proto_softrings(i, soft_ring_flag,
1814 			    mac_rx_srs->srs_pri, mcip, mac_rx_srs, cpuid,
1815 			    rx_func, x_arg1, x_arg2, B_TRUE);
1816 		}
1817 		mac_srs_update_fanout_list(mac_rx_srs);
1818 	} else if (new_fanout_cnt < srings_present) {
1819 		/* soft rings decreased */
1820 		if (new_fanout_cnt == 1) {
1821 			mutex_enter(&mac_rx_srs->srs_lock);
1822 			mac_rx_srs->srs_type &= ~SRST_FANOUT_SRC_IP;
1823 			ASSERT(mac_rx_srs->srs_type & SRST_FANOUT_PROTO);
1824 			mutex_exit(&mac_rx_srs->srs_lock);
1825 		}
1826 		/* Get rid of extra soft rings */
1827 		for (i = new_fanout_cnt;
1828 		    i < mac_rx_srs->srs_tcp_ring_count; i++) {
1829 			softring = mac_rx_srs->srs_tcp_soft_rings[i];
1830 			if (softring->s_ring_rx_arg2 != NULL) {
1831 				mcip->mci_resource_remove(
1832 				    (void *)mcip->mci_resource_arg,
1833 				    softring->s_ring_rx_arg2);
1834 			}
1835 			mac_soft_ring_remove(mac_rx_srs,
1836 			    mac_rx_srs->srs_tcp_soft_rings[i]);
1837 			mac_soft_ring_remove(mac_rx_srs,
1838 			    mac_rx_srs->srs_udp_soft_rings[i]);
1839 			mac_soft_ring_remove(mac_rx_srs,
1840 			    mac_rx_srs->srs_oth_soft_rings[i]);
1841 		}
1842 		mac_srs_update_fanout_list(mac_rx_srs);
1843 	}
1844 
1845 	ASSERT(new_fanout_cnt == mac_rx_srs->srs_tcp_ring_count);
1846 	mutex_enter(&cpu_lock);
1847 	for (i = 0; i < mac_rx_srs->srs_tcp_ring_count; i++) {
1848 		cpuid = srs_cpu->mc_rx_fanout_cpus[i];
1849 		(void) mac_soft_ring_bind(mac_rx_srs->srs_udp_soft_rings[i],
1850 		    cpuid);
1851 		(void) mac_soft_ring_bind(mac_rx_srs->srs_oth_soft_rings[i],
1852 		    cpuid);
1853 		(void) mac_soft_ring_bind(mac_rx_srs->srs_tcp_soft_rings[i],
1854 		    cpuid);
1855 		softring = mac_rx_srs->srs_tcp_soft_rings[i];
1856 		if (softring->s_ring_rx_arg2 != NULL) {
1857 			mcip->mci_resource_bind((void *)mcip->mci_resource_arg,
1858 			    softring->s_ring_rx_arg2, cpuid);
1859 		}
1860 	}
1861 
1862 	mac_srs_worker_bind(mac_rx_srs, srs_cpu->mc_rx_workerid);
1863 	mac_srs_poll_bind(mac_rx_srs, srs_cpu->mc_rx_pollid);
1864 	mac_rx_srs_retarget_intr(mac_rx_srs, srs_cpu->mc_rx_intr_cpu);
1865 	/*
1866 	 * Bind Tx srs and soft ring threads too. Let's bind tx
1867 	 * srs to the last cpu in mrp list.
1868 	 */
1869 	if (mac_tx_srs != NULL) {
1870 		BIND_TX_SRS_AND_SOFT_RINGS(mac_tx_srs, mrp);
1871 		mac_tx_srs_retarget_intr(mac_tx_srs);
1872 	}
1873 	mutex_exit(&cpu_lock);
1874 }
1875 
1876 /*
1877  * Bind SRS threads and soft rings to CPUs/create fanout list.
1878  */
1879 void
mac_srs_fanout_init(mac_client_impl_t * mcip,mac_resource_props_t * mrp,mac_direct_rx_t rx_func,void * x_arg1,mac_resource_handle_t x_arg2,mac_soft_ring_set_t * mac_rx_srs,mac_soft_ring_set_t * mac_tx_srs,cpupart_t * cpupart)1880 mac_srs_fanout_init(mac_client_impl_t *mcip, mac_resource_props_t *mrp,
1881     mac_direct_rx_t rx_func, void *x_arg1, mac_resource_handle_t x_arg2,
1882     mac_soft_ring_set_t *mac_rx_srs, mac_soft_ring_set_t *mac_tx_srs,
1883     cpupart_t *cpupart)
1884 {
1885 	int		i;
1886 	processorid_t	cpuid;
1887 	uint32_t	soft_ring_flag = 0;
1888 	int soft_ring_cnt;
1889 	mac_cpus_t *srs_cpu = &mac_rx_srs->srs_cpu;
1890 
1891 	/*
1892 	 * Remove the no soft ring flag and we will adjust it
1893 	 * appropriately further down.
1894 	 */
1895 	mutex_enter(&mac_rx_srs->srs_lock);
1896 	mac_rx_srs->srs_type &= ~SRST_NO_SOFT_RINGS;
1897 	mutex_exit(&mac_rx_srs->srs_lock);
1898 
1899 	ASSERT(mac_rx_srs->srs_soft_ring_head == NULL);
1900 
1901 	if (mac_rx_srs->srs_type & SRST_BW_CONTROL)
1902 		soft_ring_flag |= ST_RING_BW_CTL;
1903 
1904 	ASSERT(mac_rx_srs->srs_fanout_state == SRS_FANOUT_UNINIT);
1905 	mac_rx_srs->srs_fanout_state = SRS_FANOUT_INIT;
1906 	/*
1907 	 * Ring count can be 0 if no fanout is required and no cpu
1908 	 * were specified. Leave the SRS worker and poll thread
1909 	 * unbound
1910 	 */
1911 	ASSERT(mrp != NULL);
1912 	soft_ring_cnt = srs_cpu->mc_rx_fanout_cnt;
1913 
1914 	/* Step 1: bind cpu contains cpu list where threads need to bind */
1915 	if (soft_ring_cnt > 0) {
1916 		mutex_enter(&cpu_lock);
1917 		for (i = 0; i < soft_ring_cnt; i++) {
1918 			cpuid = srs_cpu->mc_rx_fanout_cpus[i];
1919 			/* Create the protocol softrings */
1920 			mac_srs_create_proto_softrings(i, soft_ring_flag,
1921 			    mac_rx_srs->srs_pri, mcip, mac_rx_srs, cpuid,
1922 			    rx_func, x_arg1, x_arg2, B_FALSE);
1923 		}
1924 		mac_srs_worker_bind(mac_rx_srs, srs_cpu->mc_rx_workerid);
1925 		mac_srs_poll_bind(mac_rx_srs, srs_cpu->mc_rx_pollid);
1926 		mac_rx_srs_retarget_intr(mac_rx_srs, srs_cpu->mc_rx_intr_cpu);
1927 		/*
1928 		 * Bind Tx srs and soft ring threads too.
1929 		 * Let's bind tx srs to the last cpu in
1930 		 * mrp list.
1931 		 */
1932 		if (mac_tx_srs == NULL) {
1933 			mutex_exit(&cpu_lock);
1934 			goto alldone;
1935 		}
1936 
1937 		BIND_TX_SRS_AND_SOFT_RINGS(mac_tx_srs, mrp);
1938 		mac_tx_srs_retarget_intr(mac_tx_srs);
1939 		mutex_exit(&cpu_lock);
1940 	} else {
1941 		mutex_enter(&cpu_lock);
1942 		/*
1943 		 * For a subflow, mrp_workerid and mrp_pollid
1944 		 * is not set.
1945 		 */
1946 		mac_srs_worker_bind(mac_rx_srs, mrp->mrp_rx_workerid);
1947 		mac_srs_poll_bind(mac_rx_srs, mrp->mrp_rx_pollid);
1948 		mutex_exit(&cpu_lock);
1949 		goto no_softrings;
1950 	}
1951 
1952 alldone:
1953 	if (soft_ring_cnt > 1)
1954 		mac_rx_srs->srs_type |= SRST_FANOUT_SRC_IP;
1955 	mac_srs_update_fanout_list(mac_rx_srs);
1956 	mac_srs_client_poll_enable(mcip, mac_rx_srs);
1957 	return;
1958 
1959 no_softrings:
1960 	if (mac_rx_srs->srs_type & SRST_FANOUT_PROTO) {
1961 		mutex_enter(&cpu_lock);
1962 		cpuid = mac_next_bind_cpu(cpupart);
1963 		/* Create the protocol softrings */
1964 		mac_srs_create_proto_softrings(0, soft_ring_flag,
1965 		    mac_rx_srs->srs_pri, mcip, mac_rx_srs, cpuid,
1966 		    rx_func, x_arg1, x_arg2, B_FALSE);
1967 		mutex_exit(&cpu_lock);
1968 	} else {
1969 		/*
1970 		 * This is the case when there is no fanout which is
1971 		 * true for subflows.
1972 		 */
1973 		mac_rx_srs->srs_type |= SRST_NO_SOFT_RINGS;
1974 	}
1975 	mac_srs_update_fanout_list(mac_rx_srs);
1976 	mac_srs_client_poll_enable(mcip, mac_rx_srs);
1977 }
1978 
1979 /*
1980  * mac_fanout_setup:
1981  *
1982  * Calls mac_srs_fanout_init() or modify() depending upon whether
1983  * the SRS is getting initialized or re-initialized.
1984  */
1985 void
mac_fanout_setup(mac_client_impl_t * mcip,flow_entry_t * flent,mac_resource_props_t * mrp,mac_direct_rx_t rx_func,void * x_arg1,mac_resource_handle_t x_arg2,cpupart_t * cpupart)1986 mac_fanout_setup(mac_client_impl_t *mcip, flow_entry_t *flent,
1987     mac_resource_props_t *mrp, mac_direct_rx_t rx_func, void *x_arg1,
1988     mac_resource_handle_t x_arg2, cpupart_t *cpupart)
1989 {
1990 	mac_soft_ring_set_t *mac_rx_srs, *mac_tx_srs;
1991 	int i, rx_srs_cnt;
1992 
1993 	ASSERT(MAC_PERIM_HELD((mac_handle_t)mcip->mci_mip));
1994 	/*
1995 	 * This is an aggregation port. Fanout will be setup
1996 	 * over the aggregation itself.
1997 	 */
1998 	if (mcip->mci_state_flags & MCIS_EXCLUSIVE)
1999 		return;
2000 
2001 	mac_rx_srs = flent->fe_rx_srs[0];
2002 	/*
2003 	 * Set up the fanout on the tx side only once, with the
2004 	 * first rx SRS. The CPU binding, fanout, and bandwidth
2005 	 * criteria are common to both RX and TX, so
2006 	 * initializing them along side avoids redundant code.
2007 	 */
2008 	mac_tx_srs = flent->fe_tx_srs;
2009 	rx_srs_cnt = flent->fe_rx_srs_cnt;
2010 
2011 	/* No fanout for subflows */
2012 	if (flent->fe_type & FLOW_USER) {
2013 		mac_srs_fanout_init(mcip, mrp, rx_func,
2014 		    x_arg1, x_arg2, mac_rx_srs, mac_tx_srs,
2015 		    cpupart);
2016 		return;
2017 	}
2018 
2019 	if (mrp->mrp_mask & MRP_CPUS_USERSPEC)
2020 		mac_flow_user_cpu_init(flent, mrp);
2021 	else
2022 		mac_flow_cpu_init(flent, cpupart);
2023 
2024 	mrp->mrp_rx_fanout_cnt = mac_rx_srs->srs_cpu.mc_rx_fanout_cnt;
2025 
2026 	/*
2027 	 * Set up fanout for both SW (0th SRS) and HW classified
2028 	 * SRS (the rest of Rx SRSs in flent).
2029 	 */
2030 	for (i = 0; i < rx_srs_cnt; i++) {
2031 		mac_rx_srs = flent->fe_rx_srs[i];
2032 		if (i != 0)
2033 			mac_tx_srs = NULL;
2034 		switch (mac_rx_srs->srs_fanout_state) {
2035 		case SRS_FANOUT_UNINIT:
2036 			mac_srs_fanout_init(mcip, mrp, rx_func,
2037 			    x_arg1, x_arg2, mac_rx_srs, mac_tx_srs,
2038 			    cpupart);
2039 			break;
2040 		case SRS_FANOUT_INIT:
2041 			break;
2042 		case SRS_FANOUT_REINIT:
2043 			mac_rx_srs_quiesce(mac_rx_srs, SRS_QUIESCE);
2044 			mac_srs_fanout_modify(mcip, rx_func, x_arg1,
2045 			    x_arg2, mac_rx_srs, mac_tx_srs);
2046 			mac_rx_srs_restart(mac_rx_srs);
2047 			break;
2048 		default:
2049 			VERIFY(mac_rx_srs->srs_fanout_state <=
2050 			    SRS_FANOUT_REINIT);
2051 			break;
2052 		}
2053 	}
2054 }
2055 
2056 /*
2057  * mac_srs_create:
2058  *
2059  * Create a mac_soft_ring_set_t (SRS). If soft_ring_fanout_type is
2060  * SRST_TX, an SRS for Tx side is created. Otherwise an SRS for Rx side
2061  * processing is created.
2062  *
2063  * Details on Rx SRS:
2064  * Create a SRS and also add the necessary soft rings for TCP and
2065  * non-TCP based on fanout type and count specified.
2066  *
2067  * mac_soft_ring_fanout, mac_srs_fanout_modify (?),
2068  * mac_soft_ring_stop_workers, mac_soft_ring_set_destroy, etc need
2069  * to be heavily modified.
2070  *
2071  * mi_soft_ring_list_size, mi_soft_ring_size, etc need to disappear.
2072  */
2073 mac_soft_ring_set_t *
mac_srs_create(mac_client_impl_t * mcip,flow_entry_t * flent,uint32_t srs_type,mac_direct_rx_t rx_func,void * x_arg1,mac_resource_handle_t x_arg2,mac_ring_t * ring)2074 mac_srs_create(mac_client_impl_t *mcip, flow_entry_t *flent, uint32_t srs_type,
2075     mac_direct_rx_t rx_func, void *x_arg1, mac_resource_handle_t x_arg2,
2076     mac_ring_t *ring)
2077 {
2078 	mac_soft_ring_set_t 	*mac_srs;
2079 	mac_srs_rx_t		*srs_rx;
2080 	mac_srs_tx_t		*srs_tx;
2081 	mac_bw_ctl_t		*mac_bw;
2082 	mac_resource_props_t	*mrp;
2083 	boolean_t		is_tx_srs = ((srs_type & SRST_TX) != 0);
2084 
2085 	mac_srs = kmem_cache_alloc(mac_srs_cache, KM_SLEEP);
2086 	bzero(mac_srs, sizeof (mac_soft_ring_set_t));
2087 	srs_rx = &mac_srs->srs_rx;
2088 	srs_tx = &mac_srs->srs_tx;
2089 
2090 	mutex_enter(&flent->fe_lock);
2091 
2092 	/*
2093 	 * Get the bandwidth control structure from the flent. Get
2094 	 * rid of any residual values in the control structure for
2095 	 * the tx bw struct and also for the rx, if the rx srs is
2096 	 * the 1st one being brought up (the rx bw ctl struct may
2097 	 * be shared by multiple SRSs)
2098 	 */
2099 	if (is_tx_srs) {
2100 		mac_srs->srs_bw = &flent->fe_tx_bw;
2101 		bzero(mac_srs->srs_bw, sizeof (mac_bw_ctl_t));
2102 		flent->fe_tx_srs = mac_srs;
2103 	} else {
2104 		/*
2105 		 * The bw counter (stored in the flent) is shared
2106 		 * by SRS's within an rx group.
2107 		 */
2108 		mac_srs->srs_bw = &flent->fe_rx_bw;
2109 		/* First rx SRS, clear the bw structure */
2110 		if (flent->fe_rx_srs_cnt == 0)
2111 			bzero(mac_srs->srs_bw, sizeof (mac_bw_ctl_t));
2112 
2113 		/*
2114 		 * It is better to panic here rather than just assert because
2115 		 * on a non-debug kernel we might end up courrupting memory
2116 		 * and making it difficult to debug.
2117 		 */
2118 		if (flent->fe_rx_srs_cnt >= MAX_RINGS_PER_GROUP) {
2119 			panic("Array Overrun detected due to MAC client %p "
2120 			    " having more rings than %d", (void *)mcip,
2121 			    MAX_RINGS_PER_GROUP);
2122 		}
2123 		flent->fe_rx_srs[flent->fe_rx_srs_cnt] = mac_srs;
2124 		flent->fe_rx_srs_cnt++;
2125 	}
2126 	mac_srs->srs_flent = flent;
2127 	mutex_exit(&flent->fe_lock);
2128 
2129 	mac_srs->srs_state = 0;
2130 	mac_srs->srs_type = (srs_type | SRST_NO_SOFT_RINGS);
2131 	mac_srs->srs_worker_cpuid = mac_srs->srs_worker_cpuid_save = -1;
2132 	mac_srs->srs_poll_cpuid = mac_srs->srs_poll_cpuid_save = -1;
2133 	mac_srs->srs_mcip = mcip;
2134 	mac_srs_fanout_list_alloc(mac_srs);
2135 
2136 	/*
2137 	 * For a flow we use the underlying MAC client's priority range with
2138 	 * the priority value to find an absolute priority value. For a MAC
2139 	 * client we use the MAC client's maximum priority as the value.
2140 	 */
2141 	mrp = &flent->fe_effective_props;
2142 	if ((mac_srs->srs_type & SRST_FLOW) != 0) {
2143 		mac_srs->srs_pri = FLOW_PRIORITY(mcip->mci_min_pri,
2144 		    mcip->mci_max_pri, mrp->mrp_priority);
2145 	} else {
2146 		mac_srs->srs_pri = mcip->mci_max_pri;
2147 	}
2148 	/*
2149 	 * We need to insert the SRS in the global list before
2150 	 * binding the SRS and SR threads. Otherwise there is a
2151 	 * is a small window where the cpu reconfig callbacks
2152 	 * may miss the SRS in the list walk and DR could fail
2153 	 * as there are bound threads.
2154 	 */
2155 	mac_srs_add_glist(mac_srs);
2156 
2157 	/* Initialize bw limit */
2158 	if ((mrp->mrp_mask & MRP_MAXBW) != 0) {
2159 		mac_srs->srs_drain_func = mac_rx_srs_drain_bw;
2160 
2161 		mac_bw = mac_srs->srs_bw;
2162 		mutex_enter(&mac_bw->mac_bw_lock);
2163 		mac_bw->mac_bw_limit = FLOW_BYTES_PER_TICK(mrp->mrp_maxbw);
2164 
2165 		/*
2166 		 * Give twice the queuing capability before
2167 		 * dropping packets. The unit is bytes/tick.
2168 		 */
2169 		mac_bw->mac_bw_drop_threshold = mac_bw->mac_bw_limit << 1;
2170 		mutex_exit(&mac_bw->mac_bw_lock);
2171 		mac_srs->srs_type |= SRST_BW_CONTROL;
2172 	} else {
2173 		mac_srs->srs_drain_func = mac_rx_srs_drain;
2174 	}
2175 
2176 	/*
2177 	 * We use the following policy to control Receive
2178 	 * Side Dynamic Polling:
2179 	 * 1) We switch to poll mode anytime the processing thread causes
2180 	 *    a backlog to build up in SRS and its associated Soft Rings
2181 	 *    (sr_poll_pkt_cnt > 0).
2182 	 * 2) As long as the backlog stays under the low water mark
2183 	 *    (sr_lowat), we poll the H/W for more packets.
2184 	 * 3) If the backlog (sr_poll_pkt_cnt) exceeds low water mark, we
2185 	 *    stay in poll mode but don't poll the H/W for more packets.
2186 	 * 4) Anytime in polling mode, if we poll the H/W for packets and
2187 	 *    find nothing plus we have an existing backlog
2188 	 *    (sr_poll_pkt_cnt > 0), we stay in polling mode but don't poll
2189 	 *    the H/W for packets anymore (let the polling thread go to sleep).
2190 	 * 5) Once the backlog is relived (packets are processed) we reenable
2191 	 *    polling (by signalling the poll thread) only when the backlog
2192 	 *    dips below sr_poll_thres.
2193 	 * 6) sr_hiwat is used exclusively when we are not polling capable
2194 	 *    and is used to decide when to drop packets so the SRS queue
2195 	 *    length doesn't grow infinitely.
2196 	 */
2197 	if (!is_tx_srs) {
2198 		srs_rx->sr_hiwat = mac_soft_ring_max_q_cnt;
2199 		/* Low water mark needs to be less than high water mark */
2200 		srs_rx->sr_lowat = mac_soft_ring_min_q_cnt <=
2201 		    mac_soft_ring_max_q_cnt ? mac_soft_ring_min_q_cnt :
2202 		    (mac_soft_ring_max_q_cnt >> 2);
2203 		/* Poll threshold need to be half of low water mark or less */
2204 		srs_rx->sr_poll_thres = mac_soft_ring_poll_thres <=
2205 		    (srs_rx->sr_lowat >> 1) ? mac_soft_ring_poll_thres :
2206 		    (srs_rx->sr_lowat >> 1);
2207 		if (mac_latency_optimize)
2208 			mac_srs->srs_state |= SRS_LATENCY_OPT;
2209 		else
2210 			mac_srs->srs_state |= SRS_SOFTRING_QUEUE;
2211 	}
2212 
2213 	mac_srs->srs_worker = thread_create(NULL, 0,
2214 	    mac_srs_worker, mac_srs, 0, &p0, TS_RUN, mac_srs->srs_pri);
2215 
2216 	if (is_tx_srs) {
2217 		/* Handle everything about Tx SRS and return */
2218 		mac_srs->srs_drain_func = mac_tx_srs_drain;
2219 		srs_tx->st_max_q_cnt = mac_tx_srs_max_q_cnt;
2220 		srs_tx->st_hiwat =
2221 		    (mac_tx_srs_hiwat > mac_tx_srs_max_q_cnt) ?
2222 		    mac_tx_srs_max_q_cnt : mac_tx_srs_hiwat;
2223 		srs_tx->st_arg1 = x_arg1;
2224 		srs_tx->st_arg2 = x_arg2;
2225 		goto done;
2226 	}
2227 
2228 	if ((srs_type & SRST_FLOW) != 0 ||
2229 	    FLOW_TAB_EMPTY(mcip->mci_subflow_tab))
2230 		srs_rx->sr_lower_proc = mac_rx_srs_process;
2231 	else
2232 		srs_rx->sr_lower_proc = mac_rx_srs_subflow_process;
2233 
2234 	srs_rx->sr_func = rx_func;
2235 	srs_rx->sr_arg1 = x_arg1;
2236 	srs_rx->sr_arg2 = x_arg2;
2237 
2238 	if (ring != NULL) {
2239 		uint_t ring_info;
2240 
2241 		/* Is the mac_srs created over the RX default group? */
2242 		if (ring->mr_gh == (mac_group_handle_t)
2243 		    MAC_DEFAULT_RX_GROUP(mcip->mci_mip)) {
2244 			mac_srs->srs_type |= SRST_DEFAULT_GRP;
2245 		}
2246 		mac_srs->srs_ring = ring;
2247 		ring->mr_srs = mac_srs;
2248 		ring->mr_classify_type = MAC_HW_CLASSIFIER;
2249 		ring->mr_flag |= MR_INCIPIENT;
2250 
2251 		if (!(mcip->mci_mip->mi_state_flags & MIS_POLL_DISABLE) &&
2252 		    FLOW_TAB_EMPTY(mcip->mci_subflow_tab) && mac_poll_enable)
2253 			mac_srs->srs_state |= SRS_POLLING_CAPAB;
2254 
2255 		mac_srs->srs_poll_thr = thread_create(NULL, 0,
2256 		    mac_rx_srs_poll_ring, mac_srs, 0, &p0, TS_RUN,
2257 		    mac_srs->srs_pri);
2258 		/*
2259 		 * Some drivers require serialization and don't send
2260 		 * packet chains in interrupt context. For such
2261 		 * drivers, we should always queue in soft ring
2262 		 * so that we get a chance to switch into a polling
2263 		 * mode under backlog.
2264 		 */
2265 		ring_info = mac_hwring_getinfo((mac_ring_handle_t)ring);
2266 		if (ring_info & MAC_RING_RX_ENQUEUE)
2267 			mac_srs->srs_state |= SRS_SOFTRING_QUEUE;
2268 	}
2269 done:
2270 	mac_srs_stat_create(mac_srs);
2271 	return (mac_srs);
2272 }
2273 
2274 /*
2275  * Figure out the number of soft rings required. Its dependant on
2276  * if protocol fanout is required (for LINKs), global settings
2277  * require us to do fanout for performance (based on mac_soft_ring_enable),
2278  * or user has specifically requested fanout.
2279  */
2280 static uint32_t
mac_find_fanout(flow_entry_t * flent,uint32_t link_type)2281 mac_find_fanout(flow_entry_t *flent, uint32_t link_type)
2282 {
2283 	uint32_t			fanout_type;
2284 	mac_resource_props_t		*mrp = &flent->fe_effective_props;
2285 
2286 	/* no fanout for subflows */
2287 	switch (link_type) {
2288 	case SRST_FLOW:
2289 		fanout_type = SRST_NO_SOFT_RINGS;
2290 		break;
2291 	case SRST_LINK:
2292 		fanout_type = SRST_FANOUT_PROTO;
2293 		break;
2294 	}
2295 
2296 	/* A primary NIC/link is being plumbed */
2297 	if (flent->fe_type & FLOW_PRIMARY_MAC) {
2298 		if (mac_soft_ring_enable && mac_rx_soft_ring_count > 1) {
2299 			fanout_type |= SRST_FANOUT_SRC_IP;
2300 		}
2301 	} else if (flent->fe_type & FLOW_VNIC) {
2302 		/* A VNIC is being created */
2303 		if (mrp != NULL && mrp->mrp_ncpus > 0) {
2304 			fanout_type |= SRST_FANOUT_SRC_IP;
2305 		}
2306 	}
2307 
2308 	return (fanout_type);
2309 }
2310 
2311 /*
2312  * Change a group from h/w to s/w classification.
2313  */
2314 void
mac_rx_switch_grp_to_sw(mac_group_t * group)2315 mac_rx_switch_grp_to_sw(mac_group_t *group)
2316 {
2317 	mac_ring_t		*ring;
2318 	mac_soft_ring_set_t	*mac_srs;
2319 
2320 	for (ring = group->mrg_rings; ring != NULL; ring = ring->mr_next) {
2321 		if (ring->mr_classify_type == MAC_HW_CLASSIFIER) {
2322 			/*
2323 			 * Remove the SRS associated with the HW ring.
2324 			 * As a result, polling will be disabled.
2325 			 */
2326 			mac_srs = ring->mr_srs;
2327 			ASSERT(mac_srs != NULL);
2328 			mac_rx_srs_remove(mac_srs);
2329 			ring->mr_srs = NULL;
2330 		}
2331 
2332 		if (ring->mr_state != MR_INUSE)
2333 			(void) mac_start_ring(ring);
2334 
2335 		/*
2336 		 * We need to perform SW classification
2337 		 * for packets landing in these rings
2338 		 */
2339 		ring->mr_flag = 0;
2340 		ring->mr_classify_type = MAC_SW_CLASSIFIER;
2341 	}
2342 }
2343 
2344 /*
2345  * Create the Rx SRS for S/W classifier and for each ring in the
2346  * group (if exclusive group). Also create the Tx SRS.
2347  */
2348 void
mac_srs_group_setup(mac_client_impl_t * mcip,flow_entry_t * flent,uint32_t link_type)2349 mac_srs_group_setup(mac_client_impl_t *mcip, flow_entry_t *flent,
2350     uint32_t link_type)
2351 {
2352 	cpupart_t		*cpupart;
2353 	mac_resource_props_t	*mrp = MCIP_RESOURCE_PROPS(mcip);
2354 	mac_resource_props_t	*emrp = MCIP_EFFECTIVE_PROPS(mcip);
2355 	boolean_t		use_default = B_FALSE;
2356 
2357 	mac_rx_srs_group_setup(mcip, flent, link_type);
2358 	mac_tx_srs_group_setup(mcip, flent, link_type);
2359 
2360 	pool_lock();
2361 	cpupart = mac_pset_find(mrp, &use_default);
2362 	mac_fanout_setup(mcip, flent, MCIP_RESOURCE_PROPS(mcip),
2363 	    mac_rx_deliver, mcip, NULL, cpupart);
2364 	mac_set_pool_effective(use_default, cpupart, mrp, emrp);
2365 	pool_unlock();
2366 }
2367 
2368 /*
2369  * Set up the RX SRSs. If the S/W SRS is not set, set  it up, if there
2370  * is a group associated with this MAC client, set up SRSs for individual
2371  * h/w rings.
2372  */
2373 void
mac_rx_srs_group_setup(mac_client_impl_t * mcip,flow_entry_t * flent,uint32_t link_type)2374 mac_rx_srs_group_setup(mac_client_impl_t *mcip, flow_entry_t *flent,
2375     uint32_t link_type)
2376 {
2377 	mac_impl_t		*mip = mcip->mci_mip;
2378 	mac_soft_ring_set_t	*mac_srs;
2379 	mac_ring_t 		*ring;
2380 	uint32_t		fanout_type;
2381 	mac_group_t		*rx_group = flent->fe_rx_ring_group;
2382 
2383 	fanout_type = mac_find_fanout(flent, link_type);
2384 
2385 	/* Create the SRS for S/W classification if none exists */
2386 	if (flent->fe_rx_srs[0] == NULL) {
2387 		ASSERT(flent->fe_rx_srs_cnt == 0);
2388 		/* Setup the Rx SRS */
2389 		mac_srs = mac_srs_create(mcip, flent, fanout_type | link_type,
2390 		    mac_rx_deliver, mcip, NULL, NULL);
2391 		mutex_enter(&flent->fe_lock);
2392 		flent->fe_cb_fn = (flow_fn_t)mac_srs->srs_rx.sr_lower_proc;
2393 		flent->fe_cb_arg1 = (void *)mip;
2394 		flent->fe_cb_arg2 = (void *)mac_srs;
2395 		mutex_exit(&flent->fe_lock);
2396 	}
2397 
2398 	if (rx_group == NULL)
2399 		return;
2400 	/*
2401 	 * fanout for default SRS is done when default SRS are created
2402 	 * above. As each ring is added to the group, we setup the
2403 	 * SRS and fanout to it.
2404 	 */
2405 	switch (rx_group->mrg_state) {
2406 	case MAC_GROUP_STATE_RESERVED:
2407 		for (ring = rx_group->mrg_rings; ring != NULL;
2408 		    ring = ring->mr_next) {
2409 			switch (ring->mr_state) {
2410 			case MR_INUSE:
2411 			case MR_FREE:
2412 				if (ring->mr_srs != NULL)
2413 					break;
2414 				if (ring->mr_state != MR_INUSE)
2415 					(void) mac_start_ring(ring);
2416 
2417 				/*
2418 				 * Since the group is exclusively ours create
2419 				 * an SRS for this ring to allow the
2420 				 * individual SRS to dynamically poll the
2421 				 * ring. Do this only if the  client is not
2422 				 * a VLAN MAC client, since for VLAN we do
2423 				 * s/w classification for the VID check, and
2424 				 * if it has a unicast address.
2425 				 */
2426 				if ((mcip->mci_state_flags &
2427 				    MCIS_NO_UNICAST_ADDR) ||
2428 				    i_mac_flow_vid(mcip->mci_flent) !=
2429 				    VLAN_ID_NONE) {
2430 					break;
2431 				}
2432 				mac_srs = mac_srs_create(mcip, flent,
2433 				    fanout_type | link_type,
2434 				    mac_rx_deliver, mcip, NULL, ring);
2435 				break;
2436 			default:
2437 				cmn_err(CE_PANIC,
2438 				    "srs_setup: mcip = %p "
2439 				    "trying to add UNKNOWN ring = %p\n",
2440 				    (void *)mcip, (void *)ring);
2441 				break;
2442 			}
2443 		}
2444 		break;
2445 	case MAC_GROUP_STATE_SHARED:
2446 		/*
2447 		 * Set all rings of this group to software classified.
2448 		 *
2449 		 * If the group is current RESERVED, the existing mac
2450 		 * client (the only client on this group) is using
2451 		 * this group exclusively.  In that case we need to
2452 		 * disable polling on the rings of the group (if it
2453 		 * was enabled), and free the SRS associated with the
2454 		 * rings.
2455 		 */
2456 		mac_rx_switch_grp_to_sw(rx_group);
2457 		break;
2458 	default:
2459 		ASSERT(B_FALSE);
2460 		break;
2461 	}
2462 }
2463 
2464 /*
2465  * Set up the TX SRS.
2466  */
2467 void
mac_tx_srs_group_setup(mac_client_impl_t * mcip,flow_entry_t * flent,uint32_t link_type)2468 mac_tx_srs_group_setup(mac_client_impl_t *mcip, flow_entry_t *flent,
2469     uint32_t link_type)
2470 {
2471 	int			cnt;
2472 	int			ringcnt;
2473 	mac_ring_t		*ring;
2474 	mac_group_t		*grp;
2475 
2476 	/*
2477 	 * If we are opened exclusively (like aggr does for aggr_ports),
2478 	 * don't set up Tx SRS and Tx soft rings as they won't be used.
2479 	 * The same thing has to be done for Rx side also. See bug:
2480 	 * 6880080
2481 	 */
2482 	if (mcip->mci_state_flags & MCIS_EXCLUSIVE) {
2483 		/*
2484 		 * If we have rings, start them here.
2485 		 */
2486 		if (flent->fe_tx_ring_group == NULL)
2487 			return;
2488 		grp = (mac_group_t *)flent->fe_tx_ring_group;
2489 		ringcnt = grp->mrg_cur_count;
2490 		ring = grp->mrg_rings;
2491 		for (cnt = 0; cnt < ringcnt; cnt++) {
2492 			if (ring->mr_state != MR_INUSE) {
2493 				(void) mac_start_ring(ring);
2494 			}
2495 			ring = ring->mr_next;
2496 		}
2497 		return;
2498 	}
2499 	if (flent->fe_tx_srs == NULL) {
2500 		(void) mac_srs_create(mcip, flent, SRST_TX | link_type,
2501 		    NULL, mcip, NULL, NULL);
2502 	}
2503 	mac_tx_srs_setup(mcip, flent);
2504 }
2505 
2506 /*
2507  * Remove all the RX SRSs. If we want to remove only the SRSs associated
2508  * with h/w rings, leave the S/W SRS alone. This is used when we want to
2509  * move the MAC client from one group to another, so we need to teardown
2510  * on the h/w SRSs.
2511  */
2512 void
mac_rx_srs_group_teardown(flow_entry_t * flent,boolean_t hwonly)2513 mac_rx_srs_group_teardown(flow_entry_t *flent, boolean_t hwonly)
2514 {
2515 	mac_soft_ring_set_t	*mac_srs;
2516 	int			i;
2517 	int			count = flent->fe_rx_srs_cnt;
2518 
2519 	for (i = 0; i < count; i++) {
2520 		if (i == 0 && hwonly)
2521 			continue;
2522 		mac_srs = flent->fe_rx_srs[i];
2523 		mac_rx_srs_quiesce(mac_srs, SRS_CONDEMNED);
2524 		mac_srs_free(mac_srs);
2525 		flent->fe_rx_srs[i] = NULL;
2526 		flent->fe_rx_srs_cnt--;
2527 	}
2528 	ASSERT(!hwonly || flent->fe_rx_srs_cnt == 1);
2529 	ASSERT(hwonly || flent->fe_rx_srs_cnt == 0);
2530 }
2531 
2532 /*
2533  * Remove the TX SRS.
2534  */
2535 void
mac_tx_srs_group_teardown(mac_client_impl_t * mcip,flow_entry_t * flent,uint32_t link_type)2536 mac_tx_srs_group_teardown(mac_client_impl_t *mcip, flow_entry_t *flent,
2537     uint32_t link_type)
2538 {
2539 	mac_soft_ring_set_t	*tx_srs;
2540 	mac_srs_tx_t		*tx;
2541 
2542 	if ((tx_srs = flent->fe_tx_srs) == NULL)
2543 		return;
2544 
2545 	tx = &tx_srs->srs_tx;
2546 	switch (link_type) {
2547 	case SRST_FLOW:
2548 		/*
2549 		 * For flows, we need to work with passed
2550 		 * flent to find the Rx/Tx SRS.
2551 		 */
2552 		mac_tx_srs_quiesce(tx_srs, SRS_CONDEMNED);
2553 		break;
2554 	case SRST_LINK:
2555 		mac_tx_client_condemn((mac_client_handle_t)mcip);
2556 		if (tx->st_arg2 != NULL) {
2557 			ASSERT(tx_srs->srs_type & SRST_TX);
2558 			/*
2559 			 * The ring itself will be stopped when
2560 			 * we release the group or in the
2561 			 * mac_datapath_teardown (for the default
2562 			 * group)
2563 			 */
2564 			tx->st_arg2 = NULL;
2565 		}
2566 		break;
2567 	default:
2568 		ASSERT(B_FALSE);
2569 		break;
2570 	}
2571 	mac_srs_free(tx_srs);
2572 	flent->fe_tx_srs = NULL;
2573 }
2574 
2575 /*
2576  * This is the group state machine.
2577  *
2578  * The state of an Rx group is given by
2579  * the following table. The default group and its rings are started in
2580  * mac_start itself and the default group stays in SHARED state until
2581  * mac_stop at which time the group and rings are stopped and and it
2582  * reverts to the Registered state.
2583  *
2584  * Typically this function is called on a group after adding or removing a
2585  * client from it, to find out what should be the new state of the group.
2586  * If the new state is RESERVED, then the client that owns this group
2587  * exclusively is also returned. Note that adding or removing a client from
2588  * a group could also impact the default group and the caller needs to
2589  * evaluate the effect on the default group.
2590  *
2591  * Group type		# of clients	mi_nactiveclients	Group State
2592  *			in the group
2593  *
2594  * Non-default		0		N.A.			REGISTERED
2595  * Non-default		1		N.A.			RESERVED
2596  *
2597  * Default		0		N.A.			SHARED
2598  * Default		1		1			RESERVED
2599  * Default		1		> 1			SHARED
2600  * Default		> 1		N.A.			SHARED
2601  *
2602  * For a TX group, the following is the state table.
2603  *
2604  * Group type		# of clients	Group State
2605  *			in the group
2606  *
2607  * Non-default		0		REGISTERED
2608  * Non-default		1		RESERVED
2609  *
2610  * Default		0		REGISTERED
2611  * Default		1		RESERVED
2612  * Default		> 1		SHARED
2613  */
2614 mac_group_state_t
mac_group_next_state(mac_group_t * grp,mac_client_impl_t ** group_only_mcip,mac_group_t * defgrp,boolean_t rx_group)2615 mac_group_next_state(mac_group_t *grp, mac_client_impl_t **group_only_mcip,
2616     mac_group_t *defgrp, boolean_t rx_group)
2617 {
2618 	mac_impl_t		*mip = (mac_impl_t *)grp->mrg_mh;
2619 
2620 	*group_only_mcip = NULL;
2621 
2622 	/* Non-default group */
2623 
2624 	if (grp != defgrp) {
2625 		if (MAC_GROUP_NO_CLIENT(grp))
2626 			return (MAC_GROUP_STATE_REGISTERED);
2627 
2628 		*group_only_mcip = MAC_GROUP_ONLY_CLIENT(grp);
2629 		if (*group_only_mcip != NULL)
2630 			return (MAC_GROUP_STATE_RESERVED);
2631 
2632 		return (MAC_GROUP_STATE_SHARED);
2633 	}
2634 
2635 	/* Default group */
2636 
2637 	if (MAC_GROUP_NO_CLIENT(grp)) {
2638 		if (rx_group)
2639 			return (MAC_GROUP_STATE_SHARED);
2640 		else
2641 			return (MAC_GROUP_STATE_REGISTERED);
2642 	}
2643 	*group_only_mcip = MAC_GROUP_ONLY_CLIENT(grp);
2644 	if (*group_only_mcip == NULL)
2645 		return (MAC_GROUP_STATE_SHARED);
2646 
2647 	if (rx_group && mip->mi_nactiveclients != 1)
2648 		return (MAC_GROUP_STATE_SHARED);
2649 
2650 	ASSERT(*group_only_mcip != NULL);
2651 	return (MAC_GROUP_STATE_RESERVED);
2652 }
2653 
2654 /*
2655  * OVERVIEW NOTES FOR DATAPATH
2656  * ===========================
2657  *
2658  * Create an SRS and setup the corresponding flow function and args.
2659  * Add a classification rule for the flow specified by 'flent' and program
2660  * the hardware classifier when applicable.
2661  *
2662  * Rx ring assignment, SRS, polling and B/W enforcement
2663  * ----------------------------------------------------
2664  *
2665  * We try to use H/W classification on NIC and assign traffic to a
2666  * MAC address to a particular Rx ring. There is a 1-1 mapping
2667  * between a SRS and a Rx ring. The SRS (short for soft ring set)
2668  * dynamically switches the underlying Rx ring between interrupt
2669  * and polling mode and enforces any specified B/W control.
2670  *
2671  * There is always a SRS created and tied to each H/W and S/W rule.
2672  * Whenever we create a H/W rule, we always add the the same rule to
2673  * S/W classifier and tie a SRS to it.
2674  *
2675  * In case a B/W control is specified, its broken into bytes
2676  * per ticks and as soon as the quota for a tick is exhausted,
2677  * the underlying Rx ring is forced into poll mode for remianing
2678  * tick. The SRS poll thread only polls for bytes that are
2679  * allowed to come in the SRS. We typically let 4x the configured
2680  * B/W worth of packets to come in the SRS (to prevent unnecessary
2681  * drops due to bursts) but only process the specified amount.
2682  *
2683  * A Link (primary NIC, VNIC, VLAN or aggr) can have 1 or more
2684  * Rx rings (and corresponding SRSs) assigned to it. The SRS
2685  * in turn can have softrings to do protocol level fanout or
2686  * softrings to do S/W based fanout or both. In case the NIC
2687  * has no Rx rings, we do S/W classification to respective SRS.
2688  * The S/W classification rule is always setup and ready. This
2689  * allows the MAC layer to reassign Rx rings whenever needed
2690  * but packets still continue to flow via the default path and
2691  * getting S/W classified to correct SRS.
2692  *
2693  * In other cases where a NIC or VNIC is plumbed, our goal is use
2694  * H/W classifier and get two Rx ring assigned for the Link. One
2695  * for TCP and one for UDP|SCTP. The respective SRS still do the
2696  * polling on the Rx ring. For Link that is plumbed for IP, there
2697  * is a TCP squeue which also does polling and can control the
2698  * the Rx ring directly (where SRS is just pass through). For
2699  * the following cases, the SRS does the polling underneath.
2700  * 1) non IP based Links (Links which are not plumbed via ifconfig)
2701  *    and paths which have no IP squeues (UDP & SCTP)
2702  * 2) If B/W control is specified on the Link
2703  * 3) If S/W fanout is secified
2704  *
2705  * Note1: As of current implementation, we try to assign only 1 Rx
2706  * ring per Link and more than 1 Rx ring for primary Link for
2707  * H/W based fanout. We always create following softrings per SRS:
2708  * 1) TCP softring which is polled by TCP squeue where possible
2709  *    (and also bypasses DLS)
2710  * 2) UDP/SCTP based which bypasses DLS
2711  * 3) OTH softring which goes via DLS (currently deal with IPv6
2712  *    and non TCP/UDP/SCTP for IPv4 packets).
2713  *
2714  * It is necessary to create 3 softrings since SRS has to poll
2715  * the single Rx ring underneath and enforce any link level B/W
2716  * control (we can't switch the Rx ring in poll mode just based
2717  * on TCP squeue if the same Rx ring is sharing UDP and other
2718  * traffic as well). Once polling is done and any Link level B/W
2719  * control is specified, the packets are assigned to respective
2720  * softring based on protocol. Since TCP has IP based squeue
2721  * which benefits by polling, we separate TCP packets into
2722  * its own softring which can be polled by IP squeue. We need
2723  * to separate out UDP/SCTP to UDP softring since it can bypass
2724  * the DLS layer which has heavy performance advanatges and we
2725  * need a softring (OTH) for rest.
2726  *
2727  * ToDo: The 3 softrings for protocol are needed only till we can
2728  * get rid of DLS from datapath, make IPv4 and IPv6 paths
2729  * symmetric (deal with mac_header_info for v6 and polling for
2730  * IPv4 TCP - ip_accept_tcp is IPv4 specific although squeues
2731  * are generic), and bring SAP based classification to MAC layer
2732  *
2733  * H/W and S/W based fanout and multiple Rx rings per Link
2734  * -------------------------------------------------------
2735  *
2736  * In case, fanout is requested (or determined automatically based
2737  * on Link speed and processor speed), we try to assign multiple
2738  * Rx rings per Link with their respective SRS. In this case
2739  * the NIC should be capable of fanning out incoming packets between
2740  * the assigned Rx rings (H/W based fanout). All the SRS
2741  * individually switch their Rx ring between interrupt and polling
2742  * mode but share a common B/W control counter in case of Link
2743  * level B/W is specified.
2744  *
2745  * If S/W based fanout is specified in lieu of H/W based fanout,
2746  * the Link SRS creates the specified number of softrings for
2747  * each protocol (TCP, UDP, OTH). Incoming packets are fanned
2748  * out to the correct softring based on their protocol and
2749  * protocol specific hash function.
2750  *
2751  * Primary and non primary MAC clients
2752  * -----------------------------------
2753  *
2754  * The NICs, VNICs, Vlans, and Aggrs are typically termed as Links
2755  * and are a Layer 2 construct.
2756  *
2757  * Primary NIC:
2758  *	The Link that owns the primary MAC address and typically
2759  *	is used as the data NIC in non virtualized cases. As such
2760  *	H/W resources are preferntially given to primary NIC. As
2761  *	far as code is concerned, there is no difference in the
2762  *	primary NIC vs VNICs. They are all treated as Links.
2763  *	At the very first call to mac_unicast_add() we program the S/W
2764  *	classifier for the primary MAC address, get a soft ring set
2765  *	(and soft rings based on 'ip_soft_ring_cnt')
2766  *	and a Rx ring assigned for polling to get enabled.
2767  *	When IP get plumbed and negotiates polling, we can
2768  *	let squeue do the polling on TCP softring.
2769  *
2770  * VNICs:
2771  *	Same as any other Link. As long as the H/W resource assignments
2772  *	are equal, the data path and setup for all Links is same.
2773  *
2774  * Flows:
2775  *	Can be configured on Links. They have their own SRS and the
2776  *	S/W classifier is programmed appropriately based on the flow.
2777  *	The flows typically deal with layer 3 and above and
2778  *	creates a soft ring set specific to the flow. The receive
2779  *	side function is switched from mac_rx_srs_process to
2780  *	mac_rx_srs_subflow_process which first tries to assign the
2781  *	packet to appropriate flow SRS and failing which assigns it
2782  *	to link SRS. This allows us to avoid the layered approach
2783  *	which gets complex.
2784  *
2785  * By the time mac_datapath_setup() completes, we already have the
2786  * soft rings set, Rx rings, soft rings, etc figured out and both H/W
2787  * and S/W classifiers programmed. IP is not plumbed yet (and might
2788  * never be for Virtual Machines guest OS path). When IP is plumbed
2789  * (for both NIC and VNIC), we do a capability negotiation for polling
2790  * and upcall functions etc.
2791  *
2792  * Rx ring Assignement NOTES
2793  * -------------------------
2794  *
2795  * For NICs which have only 1 Rx ring (we treat  NICs with no Rx rings
2796  * as NIC with a single default ring), we assign the only ring to
2797  * primary Link. The primary Link SRS can do polling on it as long as
2798  * it is the only link in use and we compare the MAC address for unicast
2799  * packets before accepting an incoming packet (there is no need for S/W
2800  * classification in this case). We disable polling on the only ring the
2801  * moment 2nd link gets created (the polling remains enabled even though
2802  * there are broadcast and * multicast flows created).
2803  *
2804  * If the NIC has more than 1 Rx ring, we assign the default ring (the
2805  * 1st ring) to deal with broadcast, multicast and traffic for other
2806  * NICs which needs S/W classification. We assign the primary mac
2807  * addresses to another ring by specifiying a classification rule for
2808  * primary unicast MAC address to the selected ring. The primary Link
2809  * (and its SRS) can continue to poll the assigned Rx ring at all times
2810  * independantly.
2811  *
2812  * Note: In future, if no fanout is specified, we try to assign 2 Rx
2813  * rings for the primary Link with the primary MAC address + TCP going
2814  * to one ring and primary MAC address + UDP|SCTP going to other ring.
2815  * Any remaining traffic for primary MAC address can go to the default
2816  * Rx ring and get S/W classified. This way the respective SRSs don't
2817  * need to do proto fanout and don't need to have softrings at all and
2818  * can poll their respective Rx rings.
2819  *
2820  * As an optimization, when a new NIC or VNIC is created, we can get
2821  * only one Rx ring and make it a TCP specific Rx ring and use the
2822  * H/W default Rx ring for the rest (this Rx ring is never polled).
2823  *
2824  * For clients that don't have MAC address, but want to receive and
2825  * transmit packets (e.g, bpf, gvrp etc.), we need to setup the datapath.
2826  * For such clients (identified by the MCIS_NO_UNICAST_ADDR flag) we
2827  * always give the default group and use software classification (i.e.
2828  * even if this is the only client in the default group, we will
2829  * leave group as shared).
2830  */
2831 int
mac_datapath_setup(mac_client_impl_t * mcip,flow_entry_t * flent,uint32_t link_type)2832 mac_datapath_setup(mac_client_impl_t *mcip, flow_entry_t *flent,
2833     uint32_t link_type)
2834 {
2835 	mac_impl_t		*mip = mcip->mci_mip;
2836 	mac_group_t		*rgroup = NULL;
2837 	mac_group_t		*tgroup = NULL;
2838 	mac_group_t		*default_rgroup;
2839 	mac_group_t		*default_tgroup;
2840 	int			err;
2841 	uint8_t 		*mac_addr;
2842 	mac_group_state_t	next_state;
2843 	mac_client_impl_t	*group_only_mcip;
2844 	mac_resource_props_t	*mrp = MCIP_RESOURCE_PROPS(mcip);
2845 	mac_resource_props_t	*emrp = MCIP_EFFECTIVE_PROPS(mcip);
2846 	boolean_t		rxhw;
2847 	boolean_t		txhw;
2848 	boolean_t		use_default = B_FALSE;
2849 	cpupart_t		*cpupart;
2850 	boolean_t		no_unicast;
2851 	boolean_t		isprimary = flent->fe_type & FLOW_PRIMARY_MAC;
2852 	mac_client_impl_t	*reloc_pmcip = NULL;
2853 
2854 	ASSERT(MAC_PERIM_HELD((mac_handle_t)mip));
2855 
2856 	switch (link_type) {
2857 	case SRST_FLOW:
2858 		mac_srs_group_setup(mcip, flent, link_type);
2859 		return (0);
2860 
2861 	case SRST_LINK:
2862 		no_unicast = mcip->mci_state_flags & MCIS_NO_UNICAST_ADDR;
2863 		mac_addr = flent->fe_flow_desc.fd_dst_mac;
2864 
2865 		/* Default RX group */
2866 		default_rgroup = MAC_DEFAULT_RX_GROUP(mip);
2867 
2868 		/* Default TX group */
2869 		default_tgroup = MAC_DEFAULT_TX_GROUP(mip);
2870 
2871 		if (no_unicast) {
2872 			rgroup = default_rgroup;
2873 			tgroup = default_tgroup;
2874 			goto grp_found;
2875 		}
2876 		rxhw = (mrp->mrp_mask & MRP_RX_RINGS) &&
2877 		    (mrp->mrp_nrxrings > 0 ||
2878 		    (mrp->mrp_mask & MRP_RXRINGS_UNSPEC));
2879 		txhw = (mrp->mrp_mask & MRP_TX_RINGS) &&
2880 		    (mrp->mrp_ntxrings > 0 ||
2881 		    (mrp->mrp_mask & MRP_TXRINGS_UNSPEC));
2882 
2883 		/*
2884 		 * By default we have given the primary all the rings
2885 		 * i.e. the default group. Let's see if the primary
2886 		 * needs to be relocated so that the addition of this
2887 		 * client doesn't impact the primary's performance,
2888 		 * i.e. if the primary is in the default group and
2889 		 * we add this client, the primary will lose polling.
2890 		 * We do this only for NICs supporting dynamic ring
2891 		 * grouping and only when this is the first client
2892 		 * after the primary (i.e. nactiveclients is 2)
2893 		 */
2894 		if (!isprimary && mip->mi_nactiveclients == 2 &&
2895 		    (group_only_mcip = mac_primary_client_handle(mip)) !=
2896 		    NULL && mip->mi_rx_group_type == MAC_GROUP_TYPE_DYNAMIC) {
2897 			reloc_pmcip = mac_check_primary_relocation(
2898 			    group_only_mcip, rxhw);
2899 		}
2900 		/*
2901 		 * Check to see if we can get an exclusive group for
2902 		 * this mac address or if there already exists a
2903 		 * group that has this mac address (case of VLANs).
2904 		 * If no groups are available, use the default group.
2905 		 */
2906 		rgroup = mac_reserve_rx_group(mcip, mac_addr, B_FALSE);
2907 		if (rgroup == NULL && rxhw) {
2908 			err = ENOSPC;
2909 			goto setup_failed;
2910 		} else if (rgroup == NULL) {
2911 			rgroup = default_rgroup;
2912 		}
2913 		/*
2914 		 * Check to see if we can get an exclusive group for
2915 		 * this mac client. If no groups are available, use
2916 		 * the default group.
2917 		 */
2918 		tgroup = mac_reserve_tx_group(mcip, B_FALSE);
2919 		if (tgroup == NULL && txhw) {
2920 			if (rgroup != NULL && rgroup != default_rgroup)
2921 				mac_release_rx_group(mcip, rgroup);
2922 			err = ENOSPC;
2923 			goto setup_failed;
2924 		} else if (tgroup == NULL) {
2925 			tgroup = default_tgroup;
2926 		}
2927 
2928 		/*
2929 		 * Some NICs don't support any Rx rings, so there may not
2930 		 * even be a default group.
2931 		 */
2932 	grp_found:
2933 		if (rgroup != NULL) {
2934 			if (rgroup != default_rgroup &&
2935 			    MAC_GROUP_NO_CLIENT(rgroup) &&
2936 			    (rxhw || mcip->mci_share != NULL)) {
2937 				MAC_RX_GRP_RESERVED(mip);
2938 				if (mip->mi_rx_group_type ==
2939 				    MAC_GROUP_TYPE_DYNAMIC) {
2940 					MAC_RX_RING_RESERVED(mip,
2941 					    rgroup->mrg_cur_count);
2942 				}
2943 			}
2944 			flent->fe_rx_ring_group = rgroup;
2945 			/*
2946 			 * Add the client to the group. This could cause
2947 			 * either this group to move to the shared state or
2948 			 * cause the default group to move to the shared state.
2949 			 * The actions on this group are done here, while the
2950 			 * actions on the default group are postponed to
2951 			 * the end of this function.
2952 			 */
2953 			mac_group_add_client(rgroup, mcip);
2954 			next_state = mac_group_next_state(rgroup,
2955 			    &group_only_mcip, default_rgroup, B_TRUE);
2956 			mac_set_group_state(rgroup, next_state);
2957 		}
2958 
2959 		if (tgroup != NULL) {
2960 			if (tgroup != default_tgroup &&
2961 			    MAC_GROUP_NO_CLIENT(tgroup) &&
2962 			    (txhw || mcip->mci_share != NULL)) {
2963 				MAC_TX_GRP_RESERVED(mip);
2964 				if (mip->mi_tx_group_type ==
2965 				    MAC_GROUP_TYPE_DYNAMIC) {
2966 					MAC_TX_RING_RESERVED(mip,
2967 					    tgroup->mrg_cur_count);
2968 				}
2969 			}
2970 			flent->fe_tx_ring_group = tgroup;
2971 			mac_group_add_client(tgroup, mcip);
2972 			next_state = mac_group_next_state(tgroup,
2973 			    &group_only_mcip, default_tgroup, B_FALSE);
2974 			tgroup->mrg_state = next_state;
2975 		}
2976 		/*
2977 		 * Setup the Rx and Tx SRSes. If we got a pristine group
2978 		 * exclusively above, mac_srs_group_setup would simply create
2979 		 * the required SRSes. If we ended up sharing a previously
2980 		 * reserved group, mac_srs_group_setup would also dismantle the
2981 		 * SRSes of the previously exclusive group
2982 		 */
2983 		mac_srs_group_setup(mcip, flent, link_type);
2984 
2985 		/* We are setting up minimal datapath only */
2986 		if (no_unicast)
2987 			break;
2988 		/* Program the S/W Classifer */
2989 		if ((err = mac_flow_add(mip->mi_flow_tab, flent)) != 0)
2990 			goto setup_failed;
2991 
2992 		/* Program the H/W Classifier */
2993 		if ((err = mac_add_macaddr(mip, rgroup, mac_addr,
2994 		    (mcip->mci_state_flags & MCIS_UNICAST_HW) != 0)) != 0)
2995 			goto setup_failed;
2996 		mcip->mci_unicast = mac_find_macaddr(mip, mac_addr);
2997 		ASSERT(mcip->mci_unicast != NULL);
2998 		/* (Re)init the v6 token & local addr used by link protection */
2999 		mac_protect_update_mac_token(mcip);
3000 		break;
3001 
3002 	default:
3003 		ASSERT(B_FALSE);
3004 		break;
3005 	}
3006 
3007 	/*
3008 	 * All broadcast and multicast traffic is received only on the default
3009 	 * group. If we have setup the datapath for a non-default group above
3010 	 * then move the default group to shared state to allow distribution of
3011 	 * incoming broadcast traffic to the other groups and dismantle the
3012 	 * SRSes over the default group.
3013 	 */
3014 	if (rgroup != NULL) {
3015 		if (rgroup != default_rgroup) {
3016 			if (default_rgroup->mrg_state ==
3017 			    MAC_GROUP_STATE_RESERVED) {
3018 				group_only_mcip = MAC_GROUP_ONLY_CLIENT(
3019 				    default_rgroup);
3020 				ASSERT(group_only_mcip != NULL &&
3021 				    mip->mi_nactiveclients > 1);
3022 
3023 				mac_set_group_state(default_rgroup,
3024 				    MAC_GROUP_STATE_SHARED);
3025 				mac_rx_srs_group_setup(group_only_mcip,
3026 				    group_only_mcip->mci_flent, SRST_LINK);
3027 				pool_lock();
3028 				cpupart = mac_pset_find(mrp, &use_default);
3029 				mac_fanout_setup(group_only_mcip,
3030 				    group_only_mcip->mci_flent,
3031 				    MCIP_RESOURCE_PROPS(group_only_mcip),
3032 				    mac_rx_deliver, group_only_mcip, NULL,
3033 				    cpupart);
3034 				mac_set_pool_effective(use_default, cpupart,
3035 				    mrp, emrp);
3036 				pool_unlock();
3037 			}
3038 			ASSERT(default_rgroup->mrg_state ==
3039 			    MAC_GROUP_STATE_SHARED);
3040 		}
3041 		/*
3042 		 * If we get an exclusive group for a VLAN MAC client we
3043 		 * need to take the s/w path to make the additional check for
3044 		 * the vid. Disable polling and set it to s/w classification.
3045 		 * Similarly for clients that don't have a unicast address.
3046 		 */
3047 		if (rgroup->mrg_state == MAC_GROUP_STATE_RESERVED &&
3048 		    (i_mac_flow_vid(flent) != VLAN_ID_NONE || no_unicast)) {
3049 			mac_rx_switch_grp_to_sw(rgroup);
3050 		}
3051 	}
3052 	mac_set_rings_effective(mcip);
3053 	return (0);
3054 
3055 setup_failed:
3056 	/* Switch the primary back to default group */
3057 	if (reloc_pmcip != NULL) {
3058 		(void) mac_rx_switch_group(reloc_pmcip,
3059 		    reloc_pmcip->mci_flent->fe_rx_ring_group, default_rgroup);
3060 	}
3061 	mac_datapath_teardown(mcip, flent, link_type);
3062 	return (err);
3063 }
3064 
3065 void
mac_datapath_teardown(mac_client_impl_t * mcip,flow_entry_t * flent,uint32_t link_type)3066 mac_datapath_teardown(mac_client_impl_t *mcip, flow_entry_t *flent,
3067     uint32_t link_type)
3068 {
3069 	mac_impl_t		*mip = mcip->mci_mip;
3070 	mac_group_t		*group = NULL;
3071 	mac_client_impl_t	*grp_only_mcip;
3072 	flow_entry_t		*group_only_flent;
3073 	mac_group_t		*default_group;
3074 	boolean_t		check_default_group = B_FALSE;
3075 	mac_group_state_t	next_state;
3076 	mac_resource_props_t	*mrp = MCIP_RESOURCE_PROPS(mcip);
3077 
3078 	ASSERT(MAC_PERIM_HELD((mac_handle_t)mip));
3079 
3080 	switch (link_type) {
3081 	case SRST_FLOW:
3082 		mac_rx_srs_group_teardown(flent, B_FALSE);
3083 		mac_tx_srs_group_teardown(mcip, flent, SRST_FLOW);
3084 		return;
3085 
3086 	case SRST_LINK:
3087 		/* Stop sending packets */
3088 		mac_tx_client_block(mcip);
3089 
3090 		/* Stop the packets coming from the H/W */
3091 		if (mcip->mci_unicast != NULL) {
3092 			int err;
3093 			err = mac_remove_macaddr(mcip->mci_unicast);
3094 			if (err != 0) {
3095 				cmn_err(CE_WARN, "%s: failed to remove a MAC"
3096 				    " address because of error 0x%x",
3097 				    mip->mi_name, err);
3098 			}
3099 			mcip->mci_unicast = NULL;
3100 		}
3101 
3102 		/* Stop the packets coming from the S/W classifier */
3103 		mac_flow_remove(mip->mi_flow_tab, flent, B_FALSE);
3104 		mac_flow_wait(flent, FLOW_DRIVER_UPCALL);
3105 
3106 		/* Now quiesce and destroy all SRS and soft rings */
3107 		mac_rx_srs_group_teardown(flent, B_FALSE);
3108 		mac_tx_srs_group_teardown(mcip, flent, SRST_LINK);
3109 
3110 		ASSERT((mcip->mci_flent == flent) &&
3111 		    (flent->fe_next == NULL));
3112 
3113 		/*
3114 		 * Release our hold on the group as well. We need
3115 		 * to check if the shared group has only one client
3116 		 * left who can use it exclusively. Also, if we
3117 		 * were the last client, release the group.
3118 		 */
3119 		group = flent->fe_rx_ring_group;
3120 		default_group = MAC_DEFAULT_RX_GROUP(mip);
3121 		if (group != NULL) {
3122 			mac_group_remove_client(group, mcip);
3123 			next_state = mac_group_next_state(group,
3124 			    &grp_only_mcip, default_group, B_TRUE);
3125 			if (next_state == MAC_GROUP_STATE_RESERVED) {
3126 				/*
3127 				 * Only one client left on this RX group.
3128 				 */
3129 				ASSERT(grp_only_mcip != NULL);
3130 				mac_set_group_state(group,
3131 				    MAC_GROUP_STATE_RESERVED);
3132 				group_only_flent = grp_only_mcip->mci_flent;
3133 
3134 				/*
3135 				 * The only remaining client has exclusive
3136 				 * access on the group. Allow it to
3137 				 * dynamically poll the H/W rings etc.
3138 				 */
3139 				mac_rx_srs_group_setup(grp_only_mcip,
3140 				    group_only_flent, SRST_LINK);
3141 				mac_fanout_setup(grp_only_mcip,
3142 				    group_only_flent,
3143 				    MCIP_RESOURCE_PROPS(grp_only_mcip),
3144 				    mac_rx_deliver, grp_only_mcip, NULL, NULL);
3145 				mac_rx_group_unmark(group, MR_INCIPIENT);
3146 				mac_set_rings_effective(grp_only_mcip);
3147 			} else if (next_state == MAC_GROUP_STATE_REGISTERED) {
3148 				/*
3149 				 * This is a non-default group being freed up.
3150 				 * We need to reevaluate the default group
3151 				 * to see if the primary client can get
3152 				 * exclusive access to the default group.
3153 				 */
3154 				ASSERT(group != MAC_DEFAULT_RX_GROUP(mip));
3155 				if (mrp->mrp_mask & MRP_RX_RINGS) {
3156 					MAC_RX_GRP_RELEASED(mip);
3157 					if (mip->mi_rx_group_type ==
3158 					    MAC_GROUP_TYPE_DYNAMIC) {
3159 						MAC_RX_RING_RELEASED(mip,
3160 						    group->mrg_cur_count);
3161 					}
3162 				}
3163 				mac_release_rx_group(mcip, group);
3164 				mac_set_group_state(group,
3165 				    MAC_GROUP_STATE_REGISTERED);
3166 				check_default_group = B_TRUE;
3167 			} else {
3168 				ASSERT(next_state == MAC_GROUP_STATE_SHARED);
3169 				mac_set_group_state(group,
3170 				    MAC_GROUP_STATE_SHARED);
3171 				mac_rx_group_unmark(group, MR_CONDEMNED);
3172 			}
3173 			flent->fe_rx_ring_group = NULL;
3174 		}
3175 		/*
3176 		 * Remove the client from the TX group. Additionally, if
3177 		 * this a non-default group, then we also need to release
3178 		 * the group.
3179 		 */
3180 		group = flent->fe_tx_ring_group;
3181 		default_group = MAC_DEFAULT_TX_GROUP(mip);
3182 		if (group != NULL) {
3183 			mac_group_remove_client(group, mcip);
3184 			next_state = mac_group_next_state(group,
3185 			    &grp_only_mcip, default_group, B_FALSE);
3186 			if (next_state == MAC_GROUP_STATE_REGISTERED) {
3187 				if (group != default_group) {
3188 					if (mrp->mrp_mask & MRP_TX_RINGS) {
3189 						MAC_TX_GRP_RELEASED(mip);
3190 						if (mip->mi_tx_group_type ==
3191 						    MAC_GROUP_TYPE_DYNAMIC) {
3192 							MAC_TX_RING_RELEASED(
3193 							    mip, group->
3194 							    mrg_cur_count);
3195 						}
3196 					}
3197 					mac_release_tx_group(mcip, group);
3198 					/*
3199 					 * If the default group is reserved,
3200 					 * then we need to set the effective
3201 					 * rings as we would have given
3202 					 * back some rings when the group
3203 					 * was released
3204 					 */
3205 					if (mip->mi_tx_group_type ==
3206 					    MAC_GROUP_TYPE_DYNAMIC &&
3207 					    default_group->mrg_state ==
3208 					    MAC_GROUP_STATE_RESERVED) {
3209 						grp_only_mcip =
3210 						    MAC_GROUP_ONLY_CLIENT
3211 						    (default_group);
3212 						mac_set_rings_effective(
3213 						    grp_only_mcip);
3214 					}
3215 				} else {
3216 					mac_ring_t	*ring;
3217 					int		cnt;
3218 					int		ringcnt;
3219 
3220 					/*
3221 					 * Stop all the rings except the
3222 					 * default ring.
3223 					 */
3224 					ringcnt = group->mrg_cur_count;
3225 					ring = group->mrg_rings;
3226 					for (cnt = 0; cnt < ringcnt; cnt++) {
3227 						if (ring->mr_state ==
3228 						    MR_INUSE && ring !=
3229 						    (mac_ring_t *)
3230 						    mip->mi_default_tx_ring) {
3231 							mac_stop_ring(ring);
3232 							ring->mr_flag = 0;
3233 						}
3234 						ring = ring->mr_next;
3235 					}
3236 				}
3237 			} else if (next_state == MAC_GROUP_STATE_RESERVED) {
3238 				mac_set_rings_effective(grp_only_mcip);
3239 			}
3240 			flent->fe_tx_ring_group = NULL;
3241 			group->mrg_state = next_state;
3242 		}
3243 		break;
3244 	default:
3245 		ASSERT(B_FALSE);
3246 		break;
3247 	}
3248 
3249 	/*
3250 	 * The mac client using the default group gets exclusive access to the
3251 	 * default group if and only if it is the sole client on the entire
3252 	 * mip. If so set the group state to reserved, and set up the SRSes
3253 	 * over the default group.
3254 	 */
3255 	if (check_default_group) {
3256 		default_group = MAC_DEFAULT_RX_GROUP(mip);
3257 		ASSERT(default_group->mrg_state == MAC_GROUP_STATE_SHARED);
3258 		next_state = mac_group_next_state(default_group,
3259 		    &grp_only_mcip, default_group, B_TRUE);
3260 		if (next_state == MAC_GROUP_STATE_RESERVED) {
3261 			ASSERT(grp_only_mcip != NULL &&
3262 			    mip->mi_nactiveclients == 1);
3263 			mac_set_group_state(default_group,
3264 			    MAC_GROUP_STATE_RESERVED);
3265 			mac_rx_srs_group_setup(grp_only_mcip,
3266 			    grp_only_mcip->mci_flent, SRST_LINK);
3267 			mac_fanout_setup(grp_only_mcip,
3268 			    grp_only_mcip->mci_flent,
3269 			    MCIP_RESOURCE_PROPS(grp_only_mcip), mac_rx_deliver,
3270 			    grp_only_mcip, NULL, NULL);
3271 			mac_rx_group_unmark(default_group, MR_INCIPIENT);
3272 			mac_set_rings_effective(grp_only_mcip);
3273 		}
3274 	}
3275 
3276 	/*
3277 	 * If the primary is the only one left and the MAC supports
3278 	 * dynamic grouping, we need to see if the primary needs to
3279 	 * be moved to the default group so that it can use all the
3280 	 * H/W rings.
3281 	 */
3282 	if (!(flent->fe_type & FLOW_PRIMARY_MAC) &&
3283 	    mip->mi_nactiveclients == 1 &&
3284 	    mip->mi_rx_group_type == MAC_GROUP_TYPE_DYNAMIC) {
3285 		default_group = MAC_DEFAULT_RX_GROUP(mip);
3286 		grp_only_mcip = mac_primary_client_handle(mip);
3287 		if (grp_only_mcip == NULL)
3288 			return;
3289 		group_only_flent = grp_only_mcip->mci_flent;
3290 		mrp = MCIP_RESOURCE_PROPS(grp_only_mcip);
3291 		/*
3292 		 * If the primary has an explicit property set, leave it
3293 		 * alone.
3294 		 */
3295 		if (mrp->mrp_mask & MRP_RX_RINGS)
3296 			return;
3297 		/*
3298 		 * Switch the primary to the default group.
3299 		 */
3300 		(void) mac_rx_switch_group(grp_only_mcip,
3301 		    group_only_flent->fe_rx_ring_group, default_group);
3302 	}
3303 }
3304 
3305 /* DATAPATH TEAR DOWN ROUTINES (SRS and FANOUT teardown) */
3306 
3307 static void
mac_srs_fanout_list_free(mac_soft_ring_set_t * mac_srs)3308 mac_srs_fanout_list_free(mac_soft_ring_set_t *mac_srs)
3309 {
3310 	if (mac_srs->srs_type & SRST_TX) {
3311 		mac_srs_tx_t *tx;
3312 
3313 		ASSERT(mac_srs->srs_tcp_soft_rings == NULL);
3314 		ASSERT(mac_srs->srs_udp_soft_rings == NULL);
3315 		ASSERT(mac_srs->srs_oth_soft_rings == NULL);
3316 		ASSERT(mac_srs->srs_tx_soft_rings != NULL);
3317 		kmem_free(mac_srs->srs_tx_soft_rings,
3318 		    sizeof (mac_soft_ring_t *) * MAX_RINGS_PER_GROUP);
3319 		mac_srs->srs_tx_soft_rings = NULL;
3320 		tx = &mac_srs->srs_tx;
3321 		if (tx->st_soft_rings != NULL) {
3322 			kmem_free(tx->st_soft_rings,
3323 			    sizeof (mac_soft_ring_t *) * MAX_RINGS_PER_GROUP);
3324 		}
3325 	} else {
3326 		ASSERT(mac_srs->srs_tx_soft_rings == NULL);
3327 		ASSERT(mac_srs->srs_tcp_soft_rings != NULL);
3328 		kmem_free(mac_srs->srs_tcp_soft_rings,
3329 		    sizeof (mac_soft_ring_t *) * MAX_SR_FANOUT);
3330 		mac_srs->srs_tcp_soft_rings = NULL;
3331 		ASSERT(mac_srs->srs_udp_soft_rings != NULL);
3332 		kmem_free(mac_srs->srs_udp_soft_rings,
3333 		    sizeof (mac_soft_ring_t *) * MAX_SR_FANOUT);
3334 		mac_srs->srs_udp_soft_rings = NULL;
3335 		ASSERT(mac_srs->srs_oth_soft_rings != NULL);
3336 		kmem_free(mac_srs->srs_oth_soft_rings,
3337 		    sizeof (mac_soft_ring_t *) * MAX_SR_FANOUT);
3338 		mac_srs->srs_oth_soft_rings = NULL;
3339 	}
3340 }
3341 
3342 /*
3343  * An RX SRS is attached to at most one mac_ring.
3344  * A TX SRS  has no  rings.
3345  */
3346 static void
mac_srs_ring_free(mac_soft_ring_set_t * mac_srs)3347 mac_srs_ring_free(mac_soft_ring_set_t *mac_srs)
3348 {
3349 	mac_client_impl_t	*mcip;
3350 	mac_ring_t		*ring;
3351 	flow_entry_t		*flent;
3352 
3353 	ring = mac_srs->srs_ring;
3354 	if (mac_srs->srs_type & SRST_TX) {
3355 		ASSERT(ring == NULL);
3356 		return;
3357 	}
3358 
3359 	if (ring == NULL)
3360 		return;
3361 
3362 	/*
3363 	 * Broadcast flows don't have a client impl association, but they
3364 	 * use only soft rings.
3365 	 */
3366 	flent = mac_srs->srs_flent;
3367 	mcip = flent->fe_mcip;
3368 	ASSERT(mcip != NULL);
3369 
3370 	ring->mr_classify_type = MAC_NO_CLASSIFIER;
3371 	ring->mr_srs = NULL;
3372 }
3373 
3374 /*
3375  * Physical unlink and free of the data structures happen below. This is
3376  * driven from mac_flow_destroy(), on the last refrele of a flow.
3377  *
3378  * Assumes Rx srs is 1-1 mapped with an ring.
3379  */
3380 void
mac_srs_free(mac_soft_ring_set_t * mac_srs)3381 mac_srs_free(mac_soft_ring_set_t *mac_srs)
3382 {
3383 	ASSERT(mac_srs->srs_mcip == NULL ||
3384 	    MAC_PERIM_HELD((mac_handle_t)mac_srs->srs_mcip->mci_mip));
3385 	ASSERT((mac_srs->srs_state & (SRS_CONDEMNED | SRS_CONDEMNED_DONE |
3386 	    SRS_PROC | SRS_PROC_FAST)) == (SRS_CONDEMNED | SRS_CONDEMNED_DONE));
3387 
3388 	mac_pkt_drop(NULL, NULL, mac_srs->srs_first, B_FALSE);
3389 	mac_srs_ring_free(mac_srs);
3390 	mac_srs_soft_rings_free(mac_srs);
3391 	mac_srs_fanout_list_free(mac_srs);
3392 
3393 	mac_srs->srs_bw = NULL;
3394 	mac_srs_stat_delete(mac_srs);
3395 	kmem_cache_free(mac_srs_cache, mac_srs);
3396 }
3397 
3398 static void
mac_srs_soft_rings_quiesce(mac_soft_ring_set_t * mac_srs,uint_t s_ring_flag)3399 mac_srs_soft_rings_quiesce(mac_soft_ring_set_t *mac_srs, uint_t s_ring_flag)
3400 {
3401 	mac_soft_ring_t	*softring;
3402 
3403 	ASSERT(MUTEX_HELD(&mac_srs->srs_lock));
3404 
3405 	mac_srs_soft_rings_signal(mac_srs, s_ring_flag);
3406 	if (s_ring_flag == S_RING_CONDEMNED) {
3407 		while (mac_srs->srs_soft_ring_condemned_count !=
3408 		    mac_srs->srs_soft_ring_count)
3409 			cv_wait(&mac_srs->srs_async, &mac_srs->srs_lock);
3410 	} else {
3411 		while (mac_srs->srs_soft_ring_quiesced_count !=
3412 		    mac_srs->srs_soft_ring_count)
3413 			cv_wait(&mac_srs->srs_async, &mac_srs->srs_lock);
3414 	}
3415 	mutex_exit(&mac_srs->srs_lock);
3416 
3417 	for (softring = mac_srs->srs_soft_ring_head; softring != NULL;
3418 	    softring = softring->s_ring_next) {
3419 		(void) untimeout(softring->s_ring_tid);
3420 		softring->s_ring_tid = NULL;
3421 	}
3422 
3423 	(void) untimeout(mac_srs->srs_tid);
3424 	mac_srs->srs_tid = NULL;
3425 
3426 	mutex_enter(&mac_srs->srs_lock);
3427 }
3428 
3429 /*
3430  * The block comment above mac_rx_classify_flow_state_change explains the
3431  * background. At this point upcalls from the driver (both hardware classified
3432  * and software classified) have been cut off. We now need to quiesce the
3433  * SRS worker, poll, and softring threads. The SRS worker thread serves as
3434  * the master controller. The steps involved are described below in the function
3435  */
3436 void
mac_srs_worker_quiesce(mac_soft_ring_set_t * mac_srs)3437 mac_srs_worker_quiesce(mac_soft_ring_set_t *mac_srs)
3438 {
3439 	uint_t			s_ring_flag;
3440 	uint_t			srs_poll_wait_flag;
3441 
3442 	ASSERT(MUTEX_HELD(&mac_srs->srs_lock));
3443 	ASSERT(mac_srs->srs_state & (SRS_CONDEMNED | SRS_QUIESCE));
3444 
3445 	if (mac_srs->srs_state & SRS_CONDEMNED) {
3446 		s_ring_flag = S_RING_CONDEMNED;
3447 		srs_poll_wait_flag = SRS_POLL_THR_EXITED;
3448 	} else {
3449 		s_ring_flag = S_RING_QUIESCE;
3450 		srs_poll_wait_flag = SRS_POLL_THR_QUIESCED;
3451 	}
3452 
3453 	/*
3454 	 * In the case of Rx SRS wait till the poll thread is done.
3455 	 */
3456 	if ((mac_srs->srs_type & SRST_TX) == 0 &&
3457 	    mac_srs->srs_poll_thr != NULL) {
3458 		while (!(mac_srs->srs_state & srs_poll_wait_flag))
3459 			cv_wait(&mac_srs->srs_async, &mac_srs->srs_lock);
3460 
3461 		/*
3462 		 * Turn off polling as part of the quiesce operation.
3463 		 */
3464 		MAC_SRS_POLLING_OFF(mac_srs);
3465 		mac_srs->srs_state &= ~(SRS_POLLING | SRS_GET_PKTS);
3466 	}
3467 
3468 	/*
3469 	 * Then signal the soft ring worker threads to quiesce or quit
3470 	 * as needed and then wait till that happens.
3471 	 */
3472 	mac_srs_soft_rings_quiesce(mac_srs, s_ring_flag);
3473 
3474 	if (mac_srs->srs_state & SRS_CONDEMNED)
3475 		mac_srs->srs_state |= (SRS_QUIESCE_DONE | SRS_CONDEMNED_DONE);
3476 	else
3477 		mac_srs->srs_state |= SRS_QUIESCE_DONE;
3478 	cv_signal(&mac_srs->srs_quiesce_done_cv);
3479 }
3480 
3481 /*
3482  * Signal an SRS to start a temporary quiesce, or permanent removal, or restart
3483  * a quiesced SRS by setting the appropriate flags and signaling the SRS worker
3484  * or poll thread. This function is internal to the quiescing logic and is
3485  * called internally from the SRS quiesce or flow quiesce or client quiesce
3486  * higher level functions.
3487  */
3488 void
mac_srs_signal(mac_soft_ring_set_t * mac_srs,uint_t srs_flag)3489 mac_srs_signal(mac_soft_ring_set_t *mac_srs, uint_t srs_flag)
3490 {
3491 	mac_ring_t	*ring;
3492 
3493 	ring = mac_srs->srs_ring;
3494 	ASSERT(ring == NULL || ring->mr_refcnt == 0);
3495 
3496 	if (srs_flag == SRS_CONDEMNED) {
3497 		/*
3498 		 * The SRS is going away. We need to unbind the SRS and SR
3499 		 * threads before removing from the global SRS list. Otherwise
3500 		 * there is a small window where the cpu reconfig callbacks
3501 		 * may miss the SRS in the list walk and DR could fail since
3502 		 * there are still bound threads.
3503 		 */
3504 		mac_srs_threads_unbind(mac_srs);
3505 		mac_srs_remove_glist(mac_srs);
3506 	}
3507 	/*
3508 	 * Wakeup the SRS worker and poll threads.
3509 	 */
3510 	mutex_enter(&mac_srs->srs_lock);
3511 	mac_srs->srs_state |= srs_flag;
3512 	cv_signal(&mac_srs->srs_async);
3513 	cv_signal(&mac_srs->srs_cv);
3514 	mutex_exit(&mac_srs->srs_lock);
3515 }
3516 
3517 /*
3518  * In the Rx side, the quiescing is done bottom up. After the Rx upcalls
3519  * from the driver are done, then the Rx SRS is quiesced and only then can
3520  * we signal the soft rings. Thus this function can't be called arbitrarily
3521  * without satisfying the prerequisites. On the Tx side, the threads from
3522  * top need to quiesced, then the Tx SRS and only then can we signal the
3523  * Tx soft rings.
3524  */
3525 static void
mac_srs_soft_rings_signal(mac_soft_ring_set_t * mac_srs,uint_t sr_flag)3526 mac_srs_soft_rings_signal(mac_soft_ring_set_t *mac_srs, uint_t sr_flag)
3527 {
3528 	mac_soft_ring_t		*softring;
3529 
3530 	for (softring = mac_srs->srs_soft_ring_head; softring != NULL;
3531 	    softring = softring->s_ring_next)
3532 		mac_soft_ring_signal(softring, sr_flag);
3533 }
3534 
3535 /*
3536  * The block comment above mac_rx_classify_flow_state_change explains the
3537  * background. At this point the SRS is quiesced and we need to restart the
3538  * SRS worker, poll, and softring threads. The SRS worker thread serves as
3539  * the master controller. The steps involved are described below in the function
3540  */
3541 void
mac_srs_worker_restart(mac_soft_ring_set_t * mac_srs)3542 mac_srs_worker_restart(mac_soft_ring_set_t *mac_srs)
3543 {
3544 	boolean_t	iam_rx_srs;
3545 	mac_soft_ring_t	*softring;
3546 
3547 	ASSERT(MUTEX_HELD(&mac_srs->srs_lock));
3548 	if ((mac_srs->srs_type & SRST_TX) != 0) {
3549 		iam_rx_srs = B_FALSE;
3550 		ASSERT((mac_srs->srs_state &
3551 		    (SRS_POLL_THR_QUIESCED | SRS_QUIESCE_DONE | SRS_QUIESCE)) ==
3552 		    (SRS_QUIESCE_DONE | SRS_QUIESCE));
3553 	} else {
3554 		iam_rx_srs = B_TRUE;
3555 		ASSERT((mac_srs->srs_state &
3556 		    (SRS_QUIESCE_DONE | SRS_QUIESCE)) ==
3557 		    (SRS_QUIESCE_DONE | SRS_QUIESCE));
3558 		if (mac_srs->srs_poll_thr != NULL) {
3559 			ASSERT((mac_srs->srs_state & SRS_POLL_THR_QUIESCED) ==
3560 			    SRS_POLL_THR_QUIESCED);
3561 		}
3562 	}
3563 
3564 	/*
3565 	 * Signal any quiesced soft ring workers to restart and wait for the
3566 	 * soft ring down count to come down to zero.
3567 	 */
3568 	if (mac_srs->srs_soft_ring_quiesced_count != 0) {
3569 		for (softring = mac_srs->srs_soft_ring_head; softring != NULL;
3570 		    softring = softring->s_ring_next) {
3571 			if (!(softring->s_ring_state & S_RING_QUIESCE))
3572 				continue;
3573 			mac_soft_ring_signal(softring, S_RING_RESTART);
3574 		}
3575 		while (mac_srs->srs_soft_ring_quiesced_count != 0)
3576 			cv_wait(&mac_srs->srs_async, &mac_srs->srs_lock);
3577 	}
3578 
3579 	mac_srs->srs_state &= ~(SRS_QUIESCE_DONE | SRS_QUIESCE | SRS_RESTART);
3580 	if (iam_rx_srs && mac_srs->srs_poll_thr != NULL) {
3581 		/*
3582 		 * Signal the poll thread and ask it to restart. Wait till it
3583 		 * actually restarts and the SRS_POLL_THR_QUIESCED flag gets
3584 		 * cleared.
3585 		 */
3586 		mac_srs->srs_state |= SRS_POLL_THR_RESTART;
3587 		cv_signal(&mac_srs->srs_cv);
3588 		while (mac_srs->srs_state & SRS_POLL_THR_QUIESCED)
3589 			cv_wait(&mac_srs->srs_async, &mac_srs->srs_lock);
3590 		ASSERT(!(mac_srs->srs_state & SRS_POLL_THR_RESTART));
3591 	}
3592 	/* Wake up any waiter waiting for the restart to complete */
3593 	mac_srs->srs_state |= SRS_RESTART_DONE;
3594 	cv_signal(&mac_srs->srs_quiesce_done_cv);
3595 }
3596 
3597 static void
mac_srs_worker_unbind(mac_soft_ring_set_t * mac_srs)3598 mac_srs_worker_unbind(mac_soft_ring_set_t *mac_srs)
3599 {
3600 	mutex_enter(&mac_srs->srs_lock);
3601 	if (!(mac_srs->srs_state & SRS_WORKER_BOUND)) {
3602 		ASSERT(mac_srs->srs_worker_cpuid == -1);
3603 		mutex_exit(&mac_srs->srs_lock);
3604 		return;
3605 	}
3606 
3607 	mac_srs->srs_worker_cpuid = -1;
3608 	mac_srs->srs_state &= ~SRS_WORKER_BOUND;
3609 	thread_affinity_clear(mac_srs->srs_worker);
3610 	mutex_exit(&mac_srs->srs_lock);
3611 }
3612 
3613 static void
mac_srs_poll_unbind(mac_soft_ring_set_t * mac_srs)3614 mac_srs_poll_unbind(mac_soft_ring_set_t *mac_srs)
3615 {
3616 	mutex_enter(&mac_srs->srs_lock);
3617 	if (mac_srs->srs_poll_thr == NULL ||
3618 	    (mac_srs->srs_state & SRS_POLL_BOUND) == 0) {
3619 		ASSERT(mac_srs->srs_poll_cpuid == -1);
3620 		mutex_exit(&mac_srs->srs_lock);
3621 		return;
3622 	}
3623 
3624 	mac_srs->srs_poll_cpuid = -1;
3625 	mac_srs->srs_state &= ~SRS_POLL_BOUND;
3626 	thread_affinity_clear(mac_srs->srs_poll_thr);
3627 	mutex_exit(&mac_srs->srs_lock);
3628 }
3629 
3630 static void
mac_srs_threads_unbind(mac_soft_ring_set_t * mac_srs)3631 mac_srs_threads_unbind(mac_soft_ring_set_t *mac_srs)
3632 {
3633 	mac_soft_ring_t	*soft_ring;
3634 
3635 	ASSERT(MAC_PERIM_HELD((mac_handle_t)mac_srs->srs_mcip->mci_mip));
3636 
3637 	mutex_enter(&cpu_lock);
3638 	mac_srs_worker_unbind(mac_srs);
3639 	if (!(mac_srs->srs_type & SRST_TX))
3640 		mac_srs_poll_unbind(mac_srs);
3641 
3642 	for (soft_ring = mac_srs->srs_soft_ring_head; soft_ring != NULL;
3643 	    soft_ring = soft_ring->s_ring_next) {
3644 		mac_soft_ring_unbind(soft_ring);
3645 	}
3646 	mutex_exit(&cpu_lock);
3647 }
3648 
3649 /*
3650  * When a CPU is going away, unbind all MAC threads which are bound
3651  * to that CPU. The affinity of the thread to the CPU is saved to allow
3652  * the thread to be rebound to the CPU if it comes back online.
3653  */
3654 static void
mac_walk_srs_and_unbind(int cpuid)3655 mac_walk_srs_and_unbind(int cpuid)
3656 {
3657 	mac_soft_ring_set_t *mac_srs;
3658 	mac_soft_ring_t *soft_ring;
3659 
3660 	rw_enter(&mac_srs_g_lock, RW_READER);
3661 
3662 	if ((mac_srs = mac_srs_g_list) == NULL)
3663 		goto done;
3664 
3665 	for (; mac_srs != NULL; mac_srs = mac_srs->srs_next) {
3666 		if (mac_srs->srs_worker_cpuid == cpuid) {
3667 			mac_srs->srs_worker_cpuid_save = cpuid;
3668 			mac_srs_worker_unbind(mac_srs);
3669 		}
3670 
3671 		if (!(mac_srs->srs_type & SRST_TX)) {
3672 			if (mac_srs->srs_poll_cpuid == cpuid) {
3673 				mac_srs->srs_poll_cpuid_save = cpuid;
3674 				mac_srs_poll_unbind(mac_srs);
3675 			}
3676 		}
3677 
3678 		/* Next tackle the soft rings associated with the srs */
3679 		mutex_enter(&mac_srs->srs_lock);
3680 		for (soft_ring = mac_srs->srs_soft_ring_head; soft_ring != NULL;
3681 		    soft_ring = soft_ring->s_ring_next) {
3682 			if (soft_ring->s_ring_cpuid == cpuid) {
3683 				soft_ring->s_ring_cpuid_save = cpuid;
3684 				mac_soft_ring_unbind(soft_ring);
3685 			}
3686 		}
3687 		mutex_exit(&mac_srs->srs_lock);
3688 	}
3689 done:
3690 	rw_exit(&mac_srs_g_lock);
3691 }
3692 
3693 /* TX SETUP and TEARDOWN ROUTINES */
3694 
3695 /*
3696  * XXXHIO need to make sure the two mac_tx_srs_{add,del}_ring()
3697  * handle the case where the number of rings is one. I.e. there is
3698  * a ring pointed to by mac_srs->srs_tx_arg2.
3699  */
3700 void
mac_tx_srs_add_ring(mac_soft_ring_set_t * mac_srs,mac_ring_t * tx_ring)3701 mac_tx_srs_add_ring(mac_soft_ring_set_t *mac_srs, mac_ring_t *tx_ring)
3702 {
3703 	mac_client_impl_t *mcip = mac_srs->srs_mcip;
3704 	mac_soft_ring_t *soft_ring;
3705 	int count = mac_srs->srs_tx_ring_count;
3706 	uint32_t soft_ring_type = ST_RING_TX;
3707 	uint_t ring_info;
3708 
3709 	ASSERT(mac_srs->srs_state & SRS_QUIESCE);
3710 	ring_info = mac_hwring_getinfo((mac_ring_handle_t)tx_ring);
3711 	if (mac_tx_serialize || (ring_info & MAC_RING_TX_SERIALIZE))
3712 		soft_ring_type |= ST_RING_WORKER_ONLY;
3713 	soft_ring = mac_soft_ring_create(count, 0,
3714 	    soft_ring_type, maxclsyspri, mcip, mac_srs, -1,
3715 	    NULL, mcip, (mac_resource_handle_t)tx_ring);
3716 	mac_srs->srs_tx_ring_count++;
3717 	mac_srs_update_fanout_list(mac_srs);
3718 	/*
3719 	 * put this soft ring in quiesce mode too so when we restart
3720 	 * all soft rings in the srs are in the same state.
3721 	 */
3722 	mac_soft_ring_signal(soft_ring, S_RING_QUIESCE);
3723 }
3724 
3725 static void
mac_soft_ring_remove(mac_soft_ring_set_t * mac_srs,mac_soft_ring_t * softring)3726 mac_soft_ring_remove(mac_soft_ring_set_t *mac_srs, mac_soft_ring_t *softring)
3727 {
3728 	int sringcnt;
3729 
3730 	mutex_enter(&mac_srs->srs_lock);
3731 	sringcnt = mac_srs->srs_soft_ring_count;
3732 	ASSERT(sringcnt > 0);
3733 	mac_soft_ring_signal(softring, S_RING_CONDEMNED);
3734 
3735 	ASSERT(mac_srs->srs_soft_ring_condemned_count == 0);
3736 	while (mac_srs->srs_soft_ring_condemned_count != 1)
3737 		cv_wait(&mac_srs->srs_async, &mac_srs->srs_lock);
3738 
3739 	if (softring == mac_srs->srs_soft_ring_head) {
3740 		mac_srs->srs_soft_ring_head = softring->s_ring_next;
3741 		if (mac_srs->srs_soft_ring_head != NULL) {
3742 			mac_srs->srs_soft_ring_head->s_ring_prev = NULL;
3743 		} else {
3744 			mac_srs->srs_soft_ring_tail = NULL;
3745 		}
3746 	} else {
3747 		softring->s_ring_prev->s_ring_next =
3748 		    softring->s_ring_next;
3749 		if (softring->s_ring_next != NULL) {
3750 			softring->s_ring_next->s_ring_prev =
3751 			    softring->s_ring_prev;
3752 		} else {
3753 			mac_srs->srs_soft_ring_tail =
3754 			    softring->s_ring_prev;
3755 		}
3756 	}
3757 	mac_srs->srs_soft_ring_count--;
3758 
3759 	mac_srs->srs_soft_ring_condemned_count--;
3760 	mutex_exit(&mac_srs->srs_lock);
3761 
3762 	mac_soft_ring_free(softring);
3763 }
3764 
3765 void
mac_tx_srs_del_ring(mac_soft_ring_set_t * mac_srs,mac_ring_t * tx_ring)3766 mac_tx_srs_del_ring(mac_soft_ring_set_t *mac_srs, mac_ring_t *tx_ring)
3767 {
3768 	int i;
3769 	mac_soft_ring_t *soft_ring, *remove_sring;
3770 	mac_client_impl_t *mcip = mac_srs->srs_mcip;
3771 
3772 	mutex_enter(&mac_srs->srs_lock);
3773 	for (i = 0; i < mac_srs->srs_tx_ring_count; i++) {
3774 		soft_ring =  mac_srs->srs_tx_soft_rings[i];
3775 		if (soft_ring->s_ring_tx_arg2 == tx_ring)
3776 			break;
3777 	}
3778 	mutex_exit(&mac_srs->srs_lock);
3779 	ASSERT(i < mac_srs->srs_tx_ring_count);
3780 	remove_sring = soft_ring;
3781 	/*
3782 	 * In the case of aggr, the soft ring associated with a Tx ring
3783 	 * is also stored in st_soft_rings[] array. That entry should
3784 	 * be removed.
3785 	 */
3786 	if (mcip->mci_state_flags & MCIS_IS_AGGR) {
3787 		mac_srs_tx_t *tx = &mac_srs->srs_tx;
3788 
3789 		ASSERT(tx->st_soft_rings[tx_ring->mr_index] == remove_sring);
3790 		tx->st_soft_rings[tx_ring->mr_index] = NULL;
3791 	}
3792 	mac_soft_ring_remove(mac_srs, remove_sring);
3793 	mac_srs_update_fanout_list(mac_srs);
3794 }
3795 
3796 /*
3797  * mac_tx_srs_setup():
3798  * Used to setup Tx rings. If no free Tx ring is available, then default
3799  * Tx ring is used.
3800  */
3801 void
mac_tx_srs_setup(mac_client_impl_t * mcip,flow_entry_t * flent)3802 mac_tx_srs_setup(mac_client_impl_t *mcip, flow_entry_t *flent)
3803 {
3804 	mac_impl_t		*mip = mcip->mci_mip;
3805 	mac_soft_ring_set_t	*tx_srs = flent->fe_tx_srs;
3806 	int			i;
3807 	int			tx_ring_count = 0;
3808 	uint32_t		soft_ring_type;
3809 	mac_group_t		*grp = NULL;
3810 	mac_ring_t		*ring;
3811 	mac_srs_tx_t		*tx = &tx_srs->srs_tx;
3812 	boolean_t		is_aggr;
3813 	uint_t			ring_info = 0;
3814 
3815 	is_aggr = (mcip->mci_state_flags & MCIS_IS_AGGR) != 0;
3816 	grp = flent->fe_tx_ring_group;
3817 	if (grp == NULL) {
3818 		ring = (mac_ring_t *)mip->mi_default_tx_ring;
3819 		goto no_group;
3820 	}
3821 	tx_ring_count = grp->mrg_cur_count;
3822 	ring = grp->mrg_rings;
3823 	/*
3824 	 * An attempt is made to reserve 'tx_ring_count' number
3825 	 * of Tx rings. If tx_ring_count is 0, default Tx ring
3826 	 * is used. If it is 1, an attempt is made to reserve one
3827 	 * Tx ring. In both the cases, the ring information is
3828 	 * stored in Tx SRS. If multiple Tx rings are specified,
3829 	 * then each Tx ring will have a Tx-side soft ring. All
3830 	 * these soft rings will be hang off Tx SRS.
3831 	 */
3832 	switch (grp->mrg_state) {
3833 		case MAC_GROUP_STATE_SHARED:
3834 		case MAC_GROUP_STATE_RESERVED:
3835 			if (tx_ring_count <= 1 && !is_aggr) {
3836 no_group:
3837 				if (ring != NULL &&
3838 				    ring->mr_state != MR_INUSE) {
3839 					(void) mac_start_ring(ring);
3840 					ring_info = mac_hwring_getinfo(
3841 					    (mac_ring_handle_t)ring);
3842 				}
3843 				tx->st_arg2 = (void *)ring;
3844 				mac_tx_srs_stat_recreate(tx_srs, B_FALSE);
3845 				if (tx_srs->srs_type & SRST_BW_CONTROL) {
3846 					tx->st_mode = SRS_TX_BW;
3847 				} else if (mac_tx_serialize ||
3848 				    (ring_info & MAC_RING_TX_SERIALIZE)) {
3849 					tx->st_mode = SRS_TX_SERIALIZE;
3850 				} else {
3851 					tx->st_mode = SRS_TX_DEFAULT;
3852 				}
3853 				break;
3854 			}
3855 			soft_ring_type = ST_RING_TX;
3856 			if (tx_srs->srs_type & SRST_BW_CONTROL) {
3857 				tx->st_mode = is_aggr ?
3858 				    SRS_TX_BW_AGGR : SRS_TX_BW_FANOUT;
3859 			} else {
3860 				tx->st_mode = is_aggr ? SRS_TX_AGGR :
3861 				    SRS_TX_FANOUT;
3862 			}
3863 			for (i = 0; i < tx_ring_count; i++) {
3864 				ASSERT(ring != NULL);
3865 				switch (ring->mr_state) {
3866 				case MR_INUSE:
3867 				case MR_FREE:
3868 					ASSERT(ring->mr_srs == NULL);
3869 
3870 					if (ring->mr_state != MR_INUSE)
3871 						(void) mac_start_ring(ring);
3872 					ring_info = mac_hwring_getinfo(
3873 					    (mac_ring_handle_t)ring);
3874 					if (mac_tx_serialize || (ring_info &
3875 					    MAC_RING_TX_SERIALIZE)) {
3876 						soft_ring_type |=
3877 						    ST_RING_WORKER_ONLY;
3878 					}
3879 					(void) mac_soft_ring_create(i, 0,
3880 					    soft_ring_type, maxclsyspri,
3881 					    mcip, tx_srs, -1, NULL, mcip,
3882 					    (mac_resource_handle_t)ring);
3883 					break;
3884 				default:
3885 					cmn_err(CE_PANIC,
3886 					    "srs_setup: mcip = %p "
3887 					    "trying to add UNKNOWN ring = %p\n",
3888 					    (void *)mcip, (void *)ring);
3889 					break;
3890 				}
3891 				ring = ring->mr_next;
3892 			}
3893 			mac_srs_update_fanout_list(tx_srs);
3894 			break;
3895 		default:
3896 			ASSERT(B_FALSE);
3897 			break;
3898 	}
3899 	tx->st_func = mac_tx_get_func(tx->st_mode);
3900 	if (is_aggr) {
3901 		VERIFY(i_mac_capab_get((mac_handle_t)mip,
3902 		    MAC_CAPAB_AGGR, &tx->st_capab_aggr));
3903 	}
3904 	DTRACE_PROBE3(tx__srs___setup__return, mac_soft_ring_set_t *, tx_srs,
3905 	    int, tx->st_mode, int, tx_srs->srs_tx_ring_count);
3906 }
3907 
3908 /*
3909  * Update the fanout of a client if its recorded link speed doesn't match
3910  * its current link speed.
3911  */
3912 void
mac_fanout_recompute_client(mac_client_impl_t * mcip,cpupart_t * cpupart)3913 mac_fanout_recompute_client(mac_client_impl_t *mcip, cpupart_t *cpupart)
3914 {
3915 	uint64_t link_speed;
3916 	mac_resource_props_t *mcip_mrp;
3917 	flow_entry_t *flent = mcip->mci_flent;
3918 	mac_soft_ring_set_t *rx_srs;
3919 	mac_cpus_t *srs_cpu;
3920 	int soft_ring_count, maxcpus;
3921 
3922 	ASSERT(MAC_PERIM_HELD((mac_handle_t)mcip->mci_mip));
3923 
3924 	link_speed = mac_client_stat_get(mcip->mci_flent->fe_mcip,
3925 	    MAC_STAT_IFSPEED);
3926 
3927 	if ((link_speed != 0) &&
3928 	    (link_speed != mcip->mci_flent->fe_nic_speed)) {
3929 		mcip_mrp = MCIP_RESOURCE_PROPS(mcip);
3930 		/*
3931 		 * Before calling mac_fanout_setup(), check to see if
3932 		 * the SRSes already have the right number of soft
3933 		 * rings. mac_fanout_setup() is a heavy duty operation
3934 		 * where new cpu bindings are done for SRS and soft
3935 		 * ring threads and interrupts re-targeted.
3936 		 */
3937 		maxcpus = (cpupart != NULL) ? cpupart->cp_ncpus : ncpus;
3938 		soft_ring_count = mac_compute_soft_ring_count(flent,
3939 		    flent->fe_rx_srs_cnt - 1, maxcpus);
3940 		/*
3941 		 * If soft_ring_count returned by
3942 		 * mac_compute_soft_ring_count() is 0, bump it
3943 		 * up by 1 because we always have atleast one
3944 		 * TCP, UDP, and OTH soft ring associated with
3945 		 * an SRS.
3946 		 */
3947 		soft_ring_count = (soft_ring_count == 0) ?
3948 		    1 : soft_ring_count;
3949 		rx_srs = flent->fe_rx_srs[0];
3950 		srs_cpu = &rx_srs->srs_cpu;
3951 		if (soft_ring_count != srs_cpu->mc_rx_fanout_cnt) {
3952 			mac_fanout_setup(mcip, flent, mcip_mrp,
3953 			    mac_rx_deliver, mcip, NULL, cpupart);
3954 		}
3955 	}
3956 }
3957 
3958 /*
3959  * Walk through the list of mac clients for the MAC.
3960  * For each active mac client, recompute the number of soft rings
3961  * associated with every client, only if current speed is different
3962  * from the speed that was previously used for soft ring computation.
3963  * If the cable is disconnected whlie the NIC is started, we would get
3964  * notification with speed set to 0. We do not recompute in that case.
3965  */
3966 void
mac_fanout_recompute(mac_impl_t * mip)3967 mac_fanout_recompute(mac_impl_t *mip)
3968 {
3969 	mac_client_impl_t	*mcip;
3970 	cpupart_t		*cpupart;
3971 	boolean_t		use_default;
3972 	mac_resource_props_t	*mrp, *emrp;
3973 
3974 	i_mac_perim_enter(mip);
3975 	if ((mip->mi_state_flags & MIS_IS_VNIC) != 0 ||
3976 	    mip->mi_linkstate != LINK_STATE_UP) {
3977 		i_mac_perim_exit(mip);
3978 		return;
3979 	}
3980 
3981 	for (mcip = mip->mi_clients_list; mcip != NULL;
3982 	    mcip = mcip->mci_client_next) {
3983 		if ((mcip->mci_state_flags & MCIS_SHARE_BOUND) != 0 ||
3984 		    !MCIP_DATAPATH_SETUP(mcip))
3985 			continue;
3986 		mrp = MCIP_RESOURCE_PROPS(mcip);
3987 		emrp = MCIP_EFFECTIVE_PROPS(mcip);
3988 		use_default = B_FALSE;
3989 		pool_lock();
3990 		cpupart = mac_pset_find(mrp, &use_default);
3991 		mac_fanout_recompute_client(mcip, cpupart);
3992 		mac_set_pool_effective(use_default, cpupart, mrp, emrp);
3993 		pool_unlock();
3994 	}
3995 	i_mac_perim_exit(mip);
3996 }
3997 
3998 /*
3999  * Given a MAC, change the polling state for all its MAC clients.  'enable' is
4000  * B_TRUE to enable polling or B_FALSE to disable.  Polling is enabled by
4001  * default.
4002  */
4003 void
mac_poll_state_change(mac_handle_t mh,boolean_t enable)4004 mac_poll_state_change(mac_handle_t mh, boolean_t enable)
4005 {
4006 	mac_impl_t *mip = (mac_impl_t *)mh;
4007 	mac_client_impl_t *mcip;
4008 
4009 	i_mac_perim_enter(mip);
4010 	if (enable)
4011 		mip->mi_state_flags &= ~MIS_POLL_DISABLE;
4012 	else
4013 		mip->mi_state_flags |= MIS_POLL_DISABLE;
4014 	for (mcip = mip->mi_clients_list; mcip != NULL;
4015 	    mcip = mcip->mci_client_next)
4016 		mac_client_update_classifier(mcip, B_TRUE);
4017 	i_mac_perim_exit(mip);
4018 }
4019