1	// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0
2	/* Copyright (c) 2019-2021 Marvell International Ltd. All rights reserved */
3
4	#include <linux/kernel.h>
5	#include <linux/types.h>
6	#include <linux/inetdevice.h>
7	#include <net/inet_dscp.h>
8	#include <net/switchdev.h>
9	#include <linux/rhashtable.h>
10	#include <net/nexthop.h>
11	#include <net/arp.h>
12	#include <linux/if_vlan.h>
13	#include <linux/if_macvlan.h>
14	#include <net/netevent.h>
15
16	#include "prestera.h"
17	#include "prestera_router_hw.h"
18
19	#define PRESTERA_IMPLICITY_RESOLVE_DEAD_NEIGH
20	#define PRESTERA_NH_PROBE_INTERVAL 5000 /* ms */
21
22	struct prestera_kern_neigh_cache_key {
23	struct prestera_ip_addr addr;
24	struct net_device *dev;
25	};
26
27	struct prestera_kern_neigh_cache {
28	struct prestera_kern_neigh_cache_key key;
29	struct rhash_head ht_node;
30	struct list_head kern_fib_cache_list;
31	/* Hold prepared nh_neigh info if is in_kernel */
32	struct prestera_neigh_info nh_neigh_info;
33	/* Indicate if neighbour is reachable by direct route */
34	bool reachable;
35	/* Lock cache if neigh is present in kernel */
36	bool in_kernel;
37	};
38
39	struct prestera_kern_fib_cache_key {
40	struct prestera_ip_addr addr;
41	u32 prefix_len;
42	u32 kern_tb_id; /* tb_id from kernel (not fixed) */
43	};
44
45	/* Subscribing on neighbours in kernel */
46	struct prestera_kern_fib_cache {
47	struct prestera_kern_fib_cache_key key;
48	struct {
49	struct prestera_fib_key fib_key;
50	enum prestera_fib_type fib_type;
51	struct prestera_nexthop_group_key nh_grp_key;
52	} lpm_info; /* hold prepared lpm info */
53	/* Indicate if route is not overlapped by another table */
54	struct rhash_head ht_node; /* node of prestera_router */
55	struct prestera_kern_neigh_cache_head {
56	struct prestera_kern_fib_cache *this;
57	struct list_head head;
58	struct prestera_kern_neigh_cache *n_cache;
59	} kern_neigh_cache_head[PRESTERA_NHGR_SIZE_MAX];
60	union {
61	struct fib_notifier_info info; /* point to any of 4/6 */
62	struct fib_entry_notifier_info fen4_info;
63	};
64	bool reachable;
65	};
66
67	static const struct rhashtable_params __prestera_kern_neigh_cache_ht_params = {
68	.key_offset = offsetof(struct prestera_kern_neigh_cache, key),
69	.head_offset = offsetof(struct prestera_kern_neigh_cache, ht_node),
70	.key_len = sizeof(struct prestera_kern_neigh_cache_key),
71	.automatic_shrinking = true,
72	};
73
74	static const struct rhashtable_params __prestera_kern_fib_cache_ht_params = {
75	.key_offset = offsetof(struct prestera_kern_fib_cache, key),
76	.head_offset = offsetof(struct prestera_kern_fib_cache, ht_node),
77	.key_len = sizeof(struct prestera_kern_fib_cache_key),
78	.automatic_shrinking = true,
79	};
80
81	/* This util to be used, to convert kernel rules for default vr in hw_vr */
82	static u32 prestera_fix_tb_id(u32 tb_id)
83	{
84	if (tb_id == RT_TABLE_UNSPEC ||
85	tb_id == RT_TABLE_LOCAL ||
86	tb_id == RT_TABLE_DEFAULT)
87	tb_id = RT_TABLE_MAIN;
88
89	return tb_id;
90	}
91
92	static void
93	prestera_util_fen_info2fib_cache_key(struct fib_notifier_info *info,
94	struct prestera_kern_fib_cache_key *key)
95	{
96	struct fib_entry_notifier_info *fen_info =
97	container_of(info, struct fib_entry_notifier_info, info);
98
99	memset(key, 0, sizeof(*key));
100	key->addr.v = PRESTERA_IPV4;
101	key->addr.u.ipv4 = cpu_to_be32(fen_info->dst);
102	key->prefix_len = fen_info->dst_len;
103	key->kern_tb_id = fen_info->tb_id;
104	}
105
106	static int prestera_util_nhc2nc_key(struct prestera_switch *sw,
107	struct fib_nh_common *nhc,
108	struct prestera_kern_neigh_cache_key *nk)
109	{
110	memset(nk, 0, sizeof(*nk));
111	if (nhc->nhc_gw_family == AF_INET) {
112	nk->addr.v = PRESTERA_IPV4;
113	nk->addr.u.ipv4 = nhc->nhc_gw.ipv4;
114	} else {
115	nk->addr.v = PRESTERA_IPV6;
116	nk->addr.u.ipv6 = nhc->nhc_gw.ipv6;
117	}
118
119	nk->dev = nhc->nhc_dev;
120	return 0;
121	}
122
123	static void
124	prestera_util_nc_key2nh_key(struct prestera_kern_neigh_cache_key *ck,
125	struct prestera_nh_neigh_key *nk)
126	{
127	memset(nk, 0, sizeof(*nk));
128	nk->addr = ck->addr;
129	nk->rif = (void *)ck->dev;
130	}
131
132	static bool
133	prestera_util_nhc_eq_n_cache_key(struct prestera_switch *sw,
134	struct fib_nh_common *nhc,
135	struct prestera_kern_neigh_cache_key *nk)
136	{
137	struct prestera_kern_neigh_cache_key tk;
138	int err;
139
140	err = prestera_util_nhc2nc_key(sw, nhc, nk: &tk);
141	if (err)
142	return false;
143
144	if (memcmp(p: &tk, q: nk, size: sizeof(tk)))
145	return false;
146
147	return true;
148	}
149
150	static int
151	prestera_util_neigh2nc_key(struct prestera_switch *sw, struct neighbour *n,
152	struct prestera_kern_neigh_cache_key *key)
153	{
154	memset(key, 0, sizeof(*key));
155	if (n->tbl->family == AF_INET) {
156	key->addr.v = PRESTERA_IPV4;
157	key->addr.u.ipv4 = *(__be32 *)n->primary_key;
158	} else {
159	return -ENOENT;
160	}
161
162	key->dev = n->dev;
163
164	return 0;
165	}
166
167	static bool __prestera_fi_is_direct(struct fib_info *fi)
168	{
169	struct fib_nh_common *fib_nhc;
170
171	if (fib_info_num_path(fi) == 1) {
172	fib_nhc = fib_info_nhc(fi, nhsel: 0);
173	if (fib_nhc->nhc_gw_family == AF_UNSPEC)
174	return true;
175	}
176
177	return false;
178	}
179
180	static bool prestera_fi_is_direct(struct fib_info *fi)
181	{
182	if (fi->fib_type != RTN_UNICAST)
183	return false;
184
185	return __prestera_fi_is_direct(fi);
186	}
187
188	static bool prestera_fi_is_nh(struct fib_info *fi)
189	{
190	if (fi->fib_type != RTN_UNICAST)
191	return false;
192
193	return !__prestera_fi_is_direct(fi);
194	}
195
196	static bool __prestera_fi6_is_direct(struct fib6_info *fi)
197	{
198	if (!fi->fib6_nh->nh_common.nhc_gw_family)
199	return true;
200
201	return false;
202	}
203
204	static bool prestera_fi6_is_direct(struct fib6_info *fi)
205	{
206	if (fi->fib6_type != RTN_UNICAST)
207	return false;
208
209	return __prestera_fi6_is_direct(fi);
210	}
211
212	static bool prestera_fi6_is_nh(struct fib6_info *fi)
213	{
214	if (fi->fib6_type != RTN_UNICAST)
215	return false;
216
217	return !__prestera_fi6_is_direct(fi);
218	}
219
220	static bool prestera_fib_info_is_direct(struct fib_notifier_info *info)
221	{
222	struct fib6_entry_notifier_info *fen6_info =
223	container_of(info, struct fib6_entry_notifier_info, info);
224	struct fib_entry_notifier_info *fen_info =
225	container_of(info, struct fib_entry_notifier_info, info);
226
227	if (info->family == AF_INET)
228	return prestera_fi_is_direct(fi: fen_info->fi);
229	else
230	return prestera_fi6_is_direct(fi: fen6_info->rt);
231	}
232
233	static bool prestera_fib_info_is_nh(struct fib_notifier_info *info)
234	{
235	struct fib6_entry_notifier_info *fen6_info =
236	container_of(info, struct fib6_entry_notifier_info, info);
237	struct fib_entry_notifier_info *fen_info =
238	container_of(info, struct fib_entry_notifier_info, info);
239
240	if (info->family == AF_INET)
241	return prestera_fi_is_nh(fi: fen_info->fi);
242	else
243	return prestera_fi6_is_nh(fi: fen6_info->rt);
244	}
245
246	/* must be called with rcu_read_lock() */
247	static int prestera_util_kern_get_route(struct fib_result *res, u32 tb_id,
248	__be32 *addr)
249	{
250	struct flowi4 fl4;
251
252	/* TODO: walkthrough appropriate tables in kernel
253	* to know if the same prefix exists in several tables
254	*/
255	memset(&fl4, 0, sizeof(fl4));
256	fl4.daddr = *addr;
257	return fib_lookup(net: &init_net, flp: &fl4, res, flags: 0 /* FIB_LOOKUP_NOREF */);
258	}
259
260	static bool
261	__prestera_util_kern_n_is_reachable_v4(u32 tb_id, __be32 *addr,
262	struct net_device *dev)
263	{
264	struct fib_nh_common *fib_nhc;
265	struct fib_result res;
266	bool reachable;
267
268	reachable = false;
269
270	if (!prestera_util_kern_get_route(res: &res, tb_id, addr))
271	if (prestera_fi_is_direct(fi: res.fi)) {
272	fib_nhc = fib_info_nhc(fi: res.fi, nhsel: 0);
273	if (dev == fib_nhc->nhc_dev)
274	reachable = true;
275	}
276
277	return reachable;
278	}
279
280	/* Check if neigh route is reachable */
281	static bool
282	prestera_util_kern_n_is_reachable(u32 tb_id,
283	struct prestera_ip_addr *addr,
284	struct net_device *dev)
285	{
286	if (addr->v == PRESTERA_IPV4)
287	return __prestera_util_kern_n_is_reachable_v4(tb_id,
288	addr: &addr->u.ipv4,
289	dev);
290	else
291	return false;
292	}
293
294	static void prestera_util_kern_set_neigh_offload(struct neighbour *n,
295	bool offloaded)
296	{
297	if (offloaded)
298	n->flags |= NTF_OFFLOADED;
299	else
300	n->flags &= ~NTF_OFFLOADED;
301	}
302
303	static void
304	prestera_util_kern_set_nh_offload(struct fib_nh_common *nhc, bool offloaded, bool trap)
305	{
306	if (offloaded)
307	nhc->nhc_flags |= RTNH_F_OFFLOAD;
308	else
309	nhc->nhc_flags &= ~RTNH_F_OFFLOAD;
310
311	if (trap)
312	nhc->nhc_flags |= RTNH_F_TRAP;
313	else
314	nhc->nhc_flags &= ~RTNH_F_TRAP;
315	}
316
317	static struct fib_nh_common *
318	prestera_kern_fib_info_nhc(struct fib_notifier_info *info, int n)
319	{
320	struct fib6_entry_notifier_info *fen6_info;
321	struct fib_entry_notifier_info *fen4_info;
322	struct fib6_info *iter;
323
324	if (info->family == AF_INET) {
325	fen4_info = container_of(info, struct fib_entry_notifier_info,
326	info);
327	return fib_info_nhc(fi: fen4_info->fi, nhsel: n);
328	} else if (info->family == AF_INET6) {
329	fen6_info = container_of(info, struct fib6_entry_notifier_info,
330	info);
331	if (!n)
332	return &fen6_info->rt->fib6_nh->nh_common;
333
334	list_for_each_entry(iter, &fen6_info->rt->fib6_siblings,
335	fib6_siblings) {
336	if (!--n)
337	return &iter->fib6_nh->nh_common;
338	}
339	}
340
341	/* if family is incorrect - than upper functions has BUG */
342	/* if doesn't find requested index - there is alsi bug, because
343	* valid index must be produced by nhs, which checks list length
344	*/
345	WARN(1, "Invalid parameters passed to %s n=%d i=%p",
346	__func__, n, info);
347	return NULL;
348	}
349
350	static int prestera_kern_fib_info_nhs(struct fib_notifier_info *info)
351	{
352	struct fib6_entry_notifier_info *fen6_info;
353	struct fib_entry_notifier_info *fen4_info;
354
355	if (info->family == AF_INET) {
356	fen4_info = container_of(info, struct fib_entry_notifier_info,
357	info);
358	return fib_info_num_path(fi: fen4_info->fi);
359	} else if (info->family == AF_INET6) {
360	fen6_info = container_of(info, struct fib6_entry_notifier_info,
361	info);
362	return fen6_info->rt->fib6_nsiblings + 1;
363	}
364
365	return 0;
366	}
367
368	static unsigned char
369	prestera_kern_fib_info_type(struct fib_notifier_info *info)
370	{
371	struct fib6_entry_notifier_info *fen6_info;
372	struct fib_entry_notifier_info *fen4_info;
373
374	if (info->family == AF_INET) {
375	fen4_info = container_of(info, struct fib_entry_notifier_info,
376	info);
377	return fen4_info->fi->fib_type;
378	} else if (info->family == AF_INET6) {
379	fen6_info = container_of(info, struct fib6_entry_notifier_info,
380	info);
381	/* TODO: ECMP in ipv6 is several routes.
382	* Every route has single nh.
383	*/
384	return fen6_info->rt->fib6_type;
385	}
386
387	return RTN_UNSPEC;
388	}
389
390	/* Decided, that uc_nh route with key==nh is obviously neighbour route */
391	static bool
392	prestera_fib_node_util_is_neighbour(struct prestera_fib_node *fib_node)
393	{
394	if (fib_node->info.type != PRESTERA_FIB_TYPE_UC_NH)
395	return false;
396
397	if (fib_node->info.nh_grp->nh_neigh_head[1].neigh)
398	return false;
399
400	if (!fib_node->info.nh_grp->nh_neigh_head[0].neigh)
401	return false;
402
403	if (memcmp(p: &fib_node->info.nh_grp->nh_neigh_head[0].neigh->key.addr,
404	q: &fib_node->key.addr, size: sizeof(struct prestera_ip_addr)))
405	return false;
406
407	return true;
408	}
409
410	static int prestera_dev_if_type(const struct net_device *dev)
411	{
412	struct macvlan_dev *vlan;
413
414	if (is_vlan_dev(dev) &&
415	netif_is_bridge_master(dev: vlan_dev_real_dev(dev))) {
416	return PRESTERA_IF_VID_E;
417	} else if (netif_is_bridge_master(dev)) {
418	return PRESTERA_IF_VID_E;
419	} else if (netif_is_lag_master(dev)) {
420	return PRESTERA_IF_LAG_E;
421	} else if (netif_is_macvlan(dev)) {
422	vlan = netdev_priv(dev);
423	return prestera_dev_if_type(dev: vlan->lowerdev);
424	} else {
425	return PRESTERA_IF_PORT_E;
426	}
427	}
428
429	static int
430	prestera_neigh_iface_init(struct prestera_switch *sw,
431	struct prestera_iface *iface,
432	struct neighbour *n)
433	{
434	struct prestera_port *port;
435
436	iface->vlan_id = 0; /* TODO: vlan egress */
437	iface->type = prestera_dev_if_type(dev: n->dev);
438	if (iface->type != PRESTERA_IF_PORT_E)
439	return -EINVAL;
440
441	if (!prestera_netdev_check(dev: n->dev))
442	return -EINVAL;
443
444	port = netdev_priv(dev: n->dev);
445	iface->dev_port.hw_dev_num = port->dev_id;
446	iface->dev_port.port_num = port->hw_id;
447
448	return 0;
449	}
450
451	static struct prestera_kern_neigh_cache *
452	prestera_kern_neigh_cache_find(struct prestera_switch *sw,
453	struct prestera_kern_neigh_cache_key *key)
454	{
455	struct prestera_kern_neigh_cache *n_cache;
456
457	n_cache =
458	rhashtable_lookup_fast(ht: &sw->router->kern_neigh_cache_ht, key,
459	params: __prestera_kern_neigh_cache_ht_params);
460	return n_cache;
461	}
462
463	static void
464	__prestera_kern_neigh_cache_destruct(struct prestera_switch *sw,
465	struct prestera_kern_neigh_cache *n_cache)
466	{
467	dev_put(dev: n_cache->key.dev);
468	}
469
470	static void
471	__prestera_kern_neigh_cache_destroy(struct prestera_switch *sw,
472	struct prestera_kern_neigh_cache *n_cache)
473	{
474	rhashtable_remove_fast(ht: &sw->router->kern_neigh_cache_ht,
475	obj: &n_cache->ht_node,
476	params: __prestera_kern_neigh_cache_ht_params);
477	__prestera_kern_neigh_cache_destruct(sw, n_cache);
478	kfree(objp: n_cache);
479	}
480
481	static struct prestera_kern_neigh_cache *
482	__prestera_kern_neigh_cache_create(struct prestera_switch *sw,
483	struct prestera_kern_neigh_cache_key *key)
484	{
485	struct prestera_kern_neigh_cache *n_cache;
486	int err;
487
488	n_cache = kzalloc(size: sizeof(*n_cache), GFP_KERNEL);
489	if (!n_cache)
490	goto err_kzalloc;
491
492	memcpy(&n_cache->key, key, sizeof(*key));
493	dev_hold(dev: n_cache->key.dev);
494
495	INIT_LIST_HEAD(list: &n_cache->kern_fib_cache_list);
496	err = rhashtable_insert_fast(ht: &sw->router->kern_neigh_cache_ht,
497	obj: &n_cache->ht_node,
498	params: __prestera_kern_neigh_cache_ht_params);
499	if (err)
500	goto err_ht_insert;
501
502	return n_cache;
503
504	err_ht_insert:
505	dev_put(dev: n_cache->key.dev);
506	kfree(objp: n_cache);
507	err_kzalloc:
508	return NULL;
509	}
510
511	static struct prestera_kern_neigh_cache *
512	prestera_kern_neigh_cache_get(struct prestera_switch *sw,
513	struct prestera_kern_neigh_cache_key *key)
514	{
515	struct prestera_kern_neigh_cache *n_cache;
516
517	n_cache = prestera_kern_neigh_cache_find(sw, key);
518	if (!n_cache)
519	n_cache = __prestera_kern_neigh_cache_create(sw, key);
520
521	return n_cache;
522	}
523
524	static struct prestera_kern_neigh_cache *
525	prestera_kern_neigh_cache_put(struct prestera_switch *sw,
526	struct prestera_kern_neigh_cache *n_cache)
527	{
528	if (!n_cache->in_kernel &&
529	list_empty(head: &n_cache->kern_fib_cache_list)) {
530	__prestera_kern_neigh_cache_destroy(sw, n_cache);
531	return NULL;
532	}
533
534	return n_cache;
535	}
536
537	static struct prestera_kern_fib_cache *
538	prestera_kern_fib_cache_find(struct prestera_switch *sw,
539	struct prestera_kern_fib_cache_key *key)
540	{
541	struct prestera_kern_fib_cache *fib_cache;
542
543	fib_cache =
544	rhashtable_lookup_fast(ht: &sw->router->kern_fib_cache_ht, key,
545	params: __prestera_kern_fib_cache_ht_params);
546	return fib_cache;
547	}
548
549	static void
550	__prestera_kern_fib_cache_destruct(struct prestera_switch *sw,
551	struct prestera_kern_fib_cache *fib_cache)
552	{
553	struct prestera_kern_neigh_cache *n_cache;
554	int i;
555
556	for (i = 0; i < PRESTERA_NHGR_SIZE_MAX; i++) {
557	n_cache = fib_cache->kern_neigh_cache_head[i].n_cache;
558	if (n_cache) {
559	list_del(entry: &fib_cache->kern_neigh_cache_head[i].head);
560	prestera_kern_neigh_cache_put(sw, n_cache);
561	}
562	}
563
564	fib_info_put(fi: fib_cache->fen4_info.fi);
565	}
566
567	static void
568	prestera_kern_fib_cache_destroy(struct prestera_switch *sw,
569	struct prestera_kern_fib_cache *fib_cache)
570	{
571	rhashtable_remove_fast(ht: &sw->router->kern_fib_cache_ht,
572	obj: &fib_cache->ht_node,
573	params: __prestera_kern_fib_cache_ht_params);
574	__prestera_kern_fib_cache_destruct(sw, fib_cache);
575	kfree(objp: fib_cache);
576	}
577
578	static int
579	__prestera_kern_fib_cache_create_nhs(struct prestera_switch *sw,
580	struct prestera_kern_fib_cache *fc)
581	{
582	struct prestera_kern_neigh_cache_key nc_key;
583	struct prestera_kern_neigh_cache *n_cache;
584	struct fib_nh_common *nhc;
585	int i, nhs, err;
586
587	if (!prestera_fib_info_is_nh(info: &fc->info))
588	return 0;
589
590	nhs = prestera_kern_fib_info_nhs(info: &fc->info);
591	if (nhs > PRESTERA_NHGR_SIZE_MAX)
592	return 0;
593
594	for (i = 0; i < nhs; i++) {
595	nhc = prestera_kern_fib_info_nhc(info: &fc->fen4_info.info, n: i);
596	err = prestera_util_nhc2nc_key(sw, nhc, nk: &nc_key);
597	if (err)
598	return 0;
599
600	n_cache = prestera_kern_neigh_cache_get(sw, key: &nc_key);
601	if (!n_cache)
602	return 0;
603
604	fc->kern_neigh_cache_head[i].this = fc;
605	fc->kern_neigh_cache_head[i].n_cache = n_cache;
606	list_add(new: &fc->kern_neigh_cache_head[i].head,
607	head: &n_cache->kern_fib_cache_list);
608	}
609
610	return 0;
611	}
612
613	/* Operations on fi (offload, etc) must be wrapped in utils.
614	* This function just create storage.
615	*/
616	static struct prestera_kern_fib_cache *
617	prestera_kern_fib_cache_create(struct prestera_switch *sw,
618	struct prestera_kern_fib_cache_key *key,
619	struct fib_notifier_info *info)
620	{
621	struct fib_entry_notifier_info *fen_info =
622	container_of(info, struct fib_entry_notifier_info, info);
623	struct prestera_kern_fib_cache *fib_cache;
624	int err;
625
626	fib_cache = kzalloc(size: sizeof(*fib_cache), GFP_KERNEL);
627	if (!fib_cache)
628	goto err_kzalloc;
629
630	memcpy(&fib_cache->key, key, sizeof(*key));
631	fib_info_hold(fi: fen_info->fi);
632	memcpy(&fib_cache->fen4_info, fen_info, sizeof(*fen_info));
633
634	err = rhashtable_insert_fast(ht: &sw->router->kern_fib_cache_ht,
635	obj: &fib_cache->ht_node,
636	params: __prestera_kern_fib_cache_ht_params);
637	if (err)
638	goto err_ht_insert;
639
640	/* Handle nexthops */
641	err = __prestera_kern_fib_cache_create_nhs(sw, fc: fib_cache);
642	if (err)
643	goto out; /* Not critical */
644
645	out:
646	return fib_cache;
647
648	err_ht_insert:
649	fib_info_put(fi: fen_info->fi);
650	kfree(objp: fib_cache);
651	err_kzalloc:
652	return NULL;
653	}
654
655	static void
656	__prestera_k_arb_fib_nh_offload_set(struct prestera_switch *sw,
657	struct prestera_kern_fib_cache *fibc,
658	struct prestera_kern_neigh_cache *nc,
659	bool offloaded, bool trap)
660	{
661	struct fib_nh_common *nhc;
662	int i, nhs;
663
664	nhs = prestera_kern_fib_info_nhs(info: &fibc->info);
665	for (i = 0; i < nhs; i++) {
666	nhc = prestera_kern_fib_info_nhc(info: &fibc->info, n: i);
667	if (!nc) {
668	prestera_util_kern_set_nh_offload(nhc, offloaded, trap);
669	continue;
670	}
671
672	if (prestera_util_nhc_eq_n_cache_key(sw, nhc, nk: &nc->key)) {
673	prestera_util_kern_set_nh_offload(nhc, offloaded, trap);
674	break;
675	}
676	}
677	}
678
679	static void
680	__prestera_k_arb_n_offload_set(struct prestera_switch *sw,
681	struct prestera_kern_neigh_cache *nc,
682	bool offloaded)
683	{
684	struct neighbour *n;
685
686	n = neigh_lookup(tbl: &arp_tbl, pkey: &nc->key.addr.u.ipv4,
687	dev: nc->key.dev);
688	if (!n)
689	return;
690
691	prestera_util_kern_set_neigh_offload(n, offloaded);
692	neigh_release(neigh: n);
693	}
694
695	static void
696	__prestera_k_arb_fib_lpm_offload_set(struct prestera_switch *sw,
697	struct prestera_kern_fib_cache *fc,
698	bool fail, bool offload, bool trap)
699	{
700	struct fib_rt_info fri;
701
702	switch (fc->key.addr.v) {
703	case PRESTERA_IPV4:
704	fri.fi = fc->fen4_info.fi;
705	fri.tb_id = fc->key.kern_tb_id;
706	fri.dst = fc->key.addr.u.ipv4;
707	fri.dst_len = fc->key.prefix_len;
708	fri.dscp = fc->fen4_info.dscp;
709	fri.type = fc->fen4_info.type;
710	/* flags begin */
711	fri.offload = offload;
712	fri.trap = trap;
713	fri.offload_failed = fail;
714	/* flags end */
715	fib_alias_hw_flags_set(net: &init_net, fri: &fri);
716	return;
717	case PRESTERA_IPV6:
718	/* TODO */
719	return;
720	}
721	}
722
723	static void
724	__prestera_k_arb_n_lpm_set(struct prestera_switch *sw,
725	struct prestera_kern_neigh_cache *n_cache,
726	bool enabled)
727	{
728	struct prestera_nexthop_group_key nh_grp_key;
729	struct prestera_kern_fib_cache_key fc_key;
730	struct prestera_kern_fib_cache *fib_cache;
731	struct prestera_fib_node *fib_node;
732	struct prestera_fib_key fib_key;
733
734	/* Exception for fc with prefix 32: LPM entry is already used by fib */
735	memset(&fc_key, 0, sizeof(fc_key));
736	fc_key.addr = n_cache->key.addr;
737	fc_key.prefix_len = PRESTERA_IP_ADDR_PLEN(n_cache->key.addr.v);
738	/* But better to use tb_id of route, which pointed to this neighbour. */
739	/* We take it from rif, because rif inconsistent.
740	* Must be separated in_rif and out_rif.
741	* Also note: for each fib pointed to this neigh should be separated
742	* neigh lpm entry (for each ingress vr)
743	*/
744	fc_key.kern_tb_id = l3mdev_fib_table(dev: n_cache->key.dev);
745	fib_cache = prestera_kern_fib_cache_find(sw, key: &fc_key);
746	memset(&fib_key, 0, sizeof(fib_key));
747	fib_key.addr = n_cache->key.addr;
748	fib_key.prefix_len = PRESTERA_IP_ADDR_PLEN(n_cache->key.addr.v);
749	fib_key.tb_id = prestera_fix_tb_id(tb_id: fc_key.kern_tb_id);
750	fib_node = prestera_fib_node_find(sw, key: &fib_key);
751	if (!fib_cache || !fib_cache->reachable) {
752	if (!enabled && fib_node) {
753	if (prestera_fib_node_util_is_neighbour(fib_node))
754	prestera_fib_node_destroy(sw, fib_node);
755	return;
756	}
757	}
758
759	if (enabled && !fib_node) {
760	memset(&nh_grp_key, 0, sizeof(nh_grp_key));
761	prestera_util_nc_key2nh_key(ck: &n_cache->key,
762	nk: &nh_grp_key.neigh[0]);
763	fib_node = prestera_fib_node_create(sw, key: &fib_key,
764	fib_type: PRESTERA_FIB_TYPE_UC_NH,
765	nh_grp_key: &nh_grp_key);
766	if (!fib_node)
767	pr_err("%s failed ip=%pI4n", "prestera_fib_node_create",
768	&fib_key.addr.u.ipv4);
769	return;
770	}
771	}
772
773	static void
774	__prestera_k_arb_nc_kern_fib_fetch(struct prestera_switch *sw,
775	struct prestera_kern_neigh_cache *nc)
776	{
777	if (prestera_util_kern_n_is_reachable(tb_id: l3mdev_fib_table(dev: nc->key.dev),
778	addr: &nc->key.addr, dev: nc->key.dev))
779	nc->reachable = true;
780	else
781	nc->reachable = false;
782	}
783
784	/* Kernel neighbour -> neigh_cache info */
785	static void
786	__prestera_k_arb_nc_kern_n_fetch(struct prestera_switch *sw,
787	struct prestera_kern_neigh_cache *nc)
788	{
789	struct neighbour *n;
790	int err;
791
792	memset(&nc->nh_neigh_info, 0, sizeof(nc->nh_neigh_info));
793	n = neigh_lookup(tbl: &arp_tbl, pkey: &nc->key.addr.u.ipv4, dev: nc->key.dev);
794	if (!n)
795	goto out;
796
797	read_lock_bh(&n->lock);
798	if (n->nud_state & NUD_VALID && !n->dead) {
799	err = prestera_neigh_iface_init(sw, iface: &nc->nh_neigh_info.iface,
800	n);
801	if (err)
802	goto n_read_out;
803
804	memcpy(&nc->nh_neigh_info.ha[0], &n->ha[0], ETH_ALEN);
805	nc->nh_neigh_info.connected = true;
806	}
807	n_read_out:
808	read_unlock_bh(&n->lock);
809	out:
810	nc->in_kernel = nc->nh_neigh_info.connected;
811	if (n)
812	neigh_release(neigh: n);
813	}
814
815	/* neigh_cache info -> lpm update */
816	static void
817	__prestera_k_arb_nc_apply(struct prestera_switch *sw,
818	struct prestera_kern_neigh_cache *nc)
819	{
820	struct prestera_kern_neigh_cache_head *nhead;
821	struct prestera_nh_neigh_key nh_key;
822	struct prestera_nh_neigh *nh_neigh;
823	int err;
824
825	__prestera_k_arb_n_lpm_set(sw, n_cache: nc, enabled: nc->reachable && nc->in_kernel);
826	__prestera_k_arb_n_offload_set(sw, nc, offloaded: nc->reachable && nc->in_kernel);
827
828	prestera_util_nc_key2nh_key(ck: &nc->key, nk: &nh_key);
829	nh_neigh = prestera_nh_neigh_find(sw, key: &nh_key);
830	if (!nh_neigh)
831	goto out;
832
833	/* Do hw update only if something changed to prevent nh flap */
834	if (memcmp(p: &nc->nh_neigh_info, q: &nh_neigh->info,
835	size: sizeof(nh_neigh->info))) {
836	memcpy(&nh_neigh->info, &nc->nh_neigh_info,
837	sizeof(nh_neigh->info));
838	err = prestera_nh_neigh_set(sw, neigh: nh_neigh);
839	if (err) {
840	pr_err("%s failed with err=%d ip=%pI4n mac=%pM",
841	"prestera_nh_neigh_set", err,
842	&nh_neigh->key.addr.u.ipv4,
843	&nh_neigh->info.ha[0]);
844	goto out;
845	}
846	}
847
848	out:
849	list_for_each_entry(nhead, &nc->kern_fib_cache_list, head) {
850	__prestera_k_arb_fib_nh_offload_set(sw, fibc: nhead->this, nc,
851	offloaded: nc->in_kernel,
852	trap: !nc->in_kernel);
853	}
854	}
855
856	static int
857	__prestera_pr_k_arb_fc_lpm_info_calc(struct prestera_switch *sw,
858	struct prestera_kern_fib_cache *fc)
859	{
860	struct fib_nh_common *nhc;
861	int nh_cnt;
862
863	memset(&fc->lpm_info, 0, sizeof(fc->lpm_info));
864
865	switch (prestera_kern_fib_info_type(info: &fc->info)) {
866	case RTN_UNICAST:
867	if (prestera_fib_info_is_direct(info: &fc->info) &&
868	fc->key.prefix_len ==
869	PRESTERA_IP_ADDR_PLEN(fc->key.addr.v)) {
870	/* This is special case.
871	* When prefix is 32. Than we will have conflict in lpm
872	* for direct route - once TRAP added, there is no
873	* place for neighbour entry. So represent direct route
874	* with prefix 32, as NH. So neighbour will be resolved
875	* as nexthop of this route.
876	*/
877	nhc = prestera_kern_fib_info_nhc(info: &fc->info, n: 0);
878	fc->lpm_info.fib_type = PRESTERA_FIB_TYPE_UC_NH;
879	fc->lpm_info.nh_grp_key.neigh[0].addr =
880	fc->key.addr;
881	fc->lpm_info.nh_grp_key.neigh[0].rif =
882	nhc->nhc_dev;
883
884	break;
885	}
886
887	/* We can also get nh_grp_key from fi. This will be correct to
888	* because cache not always represent, what actually written to
889	* lpm. But we use nh cache, as well for now (for this case).
890	*/
891	for (nh_cnt = 0; nh_cnt < PRESTERA_NHGR_SIZE_MAX; nh_cnt++) {
892	if (!fc->kern_neigh_cache_head[nh_cnt].n_cache)
893	break;
894
895	fc->lpm_info.nh_grp_key.neigh[nh_cnt].addr =
896	fc->kern_neigh_cache_head[nh_cnt].n_cache->key.addr;
897	fc->lpm_info.nh_grp_key.neigh[nh_cnt].rif =
898	fc->kern_neigh_cache_head[nh_cnt].n_cache->key.dev;
899	}
900
901	fc->lpm_info.fib_type = nh_cnt ?
902	PRESTERA_FIB_TYPE_UC_NH :
903	PRESTERA_FIB_TYPE_TRAP;
904	break;
905	/* Unsupported. Leave it for kernel: */
906	case RTN_BROADCAST:
907	case RTN_MULTICAST:
908	/* Routes we must trap by design: */
909	case RTN_LOCAL:
910	case RTN_UNREACHABLE:
911	case RTN_PROHIBIT:
912	fc->lpm_info.fib_type = PRESTERA_FIB_TYPE_TRAP;
913	break;
914	case RTN_BLACKHOLE:
915	fc->lpm_info.fib_type = PRESTERA_FIB_TYPE_DROP;
916	break;
917	default:
918	dev_err(sw->dev->dev, "Unsupported fib_type");
919	return -EOPNOTSUPP;
920	}
921
922	fc->lpm_info.fib_key.addr = fc->key.addr;
923	fc->lpm_info.fib_key.prefix_len = fc->key.prefix_len;
924	fc->lpm_info.fib_key.tb_id = prestera_fix_tb_id(tb_id: fc->key.kern_tb_id);
925
926	return 0;
927	}
928
929	static int __prestera_k_arb_f_lpm_set(struct prestera_switch *sw,
930	struct prestera_kern_fib_cache *fc,
931	bool enabled)
932	{
933	struct prestera_fib_node *fib_node;
934
935	fib_node = prestera_fib_node_find(sw, key: &fc->lpm_info.fib_key);
936	if (fib_node)
937	prestera_fib_node_destroy(sw, fib_node);
938
939	if (!enabled)
940	return 0;
941
942	fib_node = prestera_fib_node_create(sw, key: &fc->lpm_info.fib_key,
943	fib_type: fc->lpm_info.fib_type,
944	nh_grp_key: &fc->lpm_info.nh_grp_key);
945
946	if (!fib_node) {
947	dev_err(sw->dev->dev, "fib_node=NULL %pI4n/%d kern_tb_id = %d",
948	&fc->key.addr.u.ipv4, fc->key.prefix_len,
949	fc->key.kern_tb_id);
950	return -ENOENT;
951	}
952
953	return 0;
954	}
955
956	static int __prestera_k_arb_fc_apply(struct prestera_switch *sw,
957	struct prestera_kern_fib_cache *fc)
958	{
959	int err;
960
961	err = __prestera_pr_k_arb_fc_lpm_info_calc(sw, fc);
962	if (err)
963	return err;
964
965	err = __prestera_k_arb_f_lpm_set(sw, fc, enabled: fc->reachable);
966	if (err) {
967	__prestera_k_arb_fib_lpm_offload_set(sw, fc,
968	fail: true, offload: false, trap: false);
969	return err;
970	}
971
972	switch (fc->lpm_info.fib_type) {
973	case PRESTERA_FIB_TYPE_UC_NH:
974	__prestera_k_arb_fib_lpm_offload_set(sw, fc, fail: false,
975	offload: fc->reachable, trap: false);
976	break;
977	case PRESTERA_FIB_TYPE_TRAP:
978	__prestera_k_arb_fib_lpm_offload_set(sw, fc, fail: false,
979	offload: false, trap: fc->reachable);
980	break;
981	case PRESTERA_FIB_TYPE_DROP:
982	__prestera_k_arb_fib_lpm_offload_set(sw, fc, fail: false, offload: true,
983	trap: fc->reachable);
984	break;
985	case PRESTERA_FIB_TYPE_INVALID:
986	break;
987	}
988
989	return 0;
990	}
991
992	static struct prestera_kern_fib_cache *
993	__prestera_k_arb_util_fib_overlaps(struct prestera_switch *sw,
994	struct prestera_kern_fib_cache *fc)
995	{
996	struct prestera_kern_fib_cache_key fc_key;
997	struct prestera_kern_fib_cache *rfc;
998
999	/* TODO: parse kernel rules */
1000	rfc = NULL;
1001	if (fc->key.kern_tb_id == RT_TABLE_LOCAL) {
1002	memcpy(&fc_key, &fc->key, sizeof(fc_key));
1003	fc_key.kern_tb_id = RT_TABLE_MAIN;
1004	rfc = prestera_kern_fib_cache_find(sw, key: &fc_key);
1005	}
1006
1007	return rfc;
1008	}
1009
1010	static struct prestera_kern_fib_cache *
1011	__prestera_k_arb_util_fib_overlapped(struct prestera_switch *sw,
1012	struct prestera_kern_fib_cache *fc)
1013	{
1014	struct prestera_kern_fib_cache_key fc_key;
1015	struct prestera_kern_fib_cache *rfc;
1016
1017	/* TODO: parse kernel rules */
1018	rfc = NULL;
1019	if (fc->key.kern_tb_id == RT_TABLE_MAIN) {
1020	memcpy(&fc_key, &fc->key, sizeof(fc_key));
1021	fc_key.kern_tb_id = RT_TABLE_LOCAL;
1022	rfc = prestera_kern_fib_cache_find(sw, key: &fc_key);
1023	}
1024
1025	return rfc;
1026	}
1027
1028	static void __prestera_k_arb_hw_state_upd(struct prestera_switch *sw,
1029	struct prestera_kern_neigh_cache *nc)
1030	{
1031	struct prestera_nh_neigh_key nh_key;
1032	struct prestera_nh_neigh *nh_neigh;
1033	struct neighbour *n;
1034	bool hw_active;
1035
1036	prestera_util_nc_key2nh_key(ck: &nc->key, nk: &nh_key);
1037	nh_neigh = prestera_nh_neigh_find(sw, key: &nh_key);
1038	if (!nh_neigh) {
1039	pr_err("Cannot find nh_neigh for cached %pI4n",
1040	&nc->key.addr.u.ipv4);
1041	return;
1042	}
1043
1044	hw_active = prestera_nh_neigh_util_hw_state(sw, nh_neigh);
1045
1046	#ifdef PRESTERA_IMPLICITY_RESOLVE_DEAD_NEIGH
1047	if (!hw_active && nc->in_kernel)
1048	goto out;
1049	#else /* PRESTERA_IMPLICITY_RESOLVE_DEAD_NEIGH */
1050	if (!hw_active)
1051	goto out;
1052	#endif /* PRESTERA_IMPLICITY_RESOLVE_DEAD_NEIGH */
1053
1054	if (nc->key.addr.v == PRESTERA_IPV4) {
1055	n = neigh_lookup(tbl: &arp_tbl, pkey: &nc->key.addr.u.ipv4,
1056	dev: nc->key.dev);
1057	if (!n)
1058	n = neigh_create(tbl: &arp_tbl, pkey: &nc->key.addr.u.ipv4,
1059	dev: nc->key.dev);
1060	} else {
1061	n = NULL;
1062	}
1063
1064	if (!IS_ERR(ptr: n) && n) {
1065	neigh_event_send(neigh: n, NULL);
1066	neigh_release(neigh: n);
1067	} else {
1068	pr_err("Cannot create neighbour %pI4n", &nc->key.addr.u.ipv4);
1069	}
1070
1071	out:
1072	return;
1073	}
1074
1075	/* Propagate hw state to kernel */
1076	static void prestera_k_arb_hw_evt(struct prestera_switch *sw)
1077	{
1078	struct prestera_kern_neigh_cache *n_cache;
1079	struct rhashtable_iter iter;
1080
1081	rhashtable_walk_enter(ht: &sw->router->kern_neigh_cache_ht, iter: &iter);
1082	rhashtable_walk_start(iter: &iter);
1083	while (1) {
1084	n_cache = rhashtable_walk_next(iter: &iter);
1085
1086	if (!n_cache)
1087	break;
1088
1089	if (IS_ERR(ptr: n_cache))
1090	continue;
1091
1092	rhashtable_walk_stop(iter: &iter);
1093	__prestera_k_arb_hw_state_upd(sw, nc: n_cache);
1094	rhashtable_walk_start(iter: &iter);
1095	}
1096	rhashtable_walk_stop(iter: &iter);
1097	rhashtable_walk_exit(iter: &iter);
1098	}
1099
1100	/* Propagate kernel event to hw */
1101	static void prestera_k_arb_n_evt(struct prestera_switch *sw,
1102	struct neighbour *n)
1103	{
1104	struct prestera_kern_neigh_cache_key n_key;
1105	struct prestera_kern_neigh_cache *n_cache;
1106	int err;
1107
1108	err = prestera_util_neigh2nc_key(sw, n, key: &n_key);
1109	if (err)
1110	return;
1111
1112	n_cache = prestera_kern_neigh_cache_find(sw, key: &n_key);
1113	if (!n_cache) {
1114	n_cache = prestera_kern_neigh_cache_get(sw, key: &n_key);
1115	if (!n_cache)
1116	return;
1117	__prestera_k_arb_nc_kern_fib_fetch(sw, nc: n_cache);
1118	}
1119
1120	__prestera_k_arb_nc_kern_n_fetch(sw, nc: n_cache);
1121	__prestera_k_arb_nc_apply(sw, nc: n_cache);
1122
1123	prestera_kern_neigh_cache_put(sw, n_cache);
1124	}
1125
1126	static void __prestera_k_arb_fib_evt2nc(struct prestera_switch *sw)
1127	{
1128	struct prestera_kern_neigh_cache *n_cache;
1129	struct rhashtable_iter iter;
1130
1131	rhashtable_walk_enter(ht: &sw->router->kern_neigh_cache_ht, iter: &iter);
1132	rhashtable_walk_start(iter: &iter);
1133	while (1) {
1134	n_cache = rhashtable_walk_next(iter: &iter);
1135
1136	if (!n_cache)
1137	break;
1138
1139	if (IS_ERR(ptr: n_cache))
1140	continue;
1141
1142	rhashtable_walk_stop(iter: &iter);
1143	__prestera_k_arb_nc_kern_fib_fetch(sw, nc: n_cache);
1144	__prestera_k_arb_nc_apply(sw, nc: n_cache);
1145	rhashtable_walk_start(iter: &iter);
1146	}
1147	rhashtable_walk_stop(iter: &iter);
1148	rhashtable_walk_exit(iter: &iter);
1149	}
1150
1151	static int
1152	prestera_k_arb_fib_evt(struct prestera_switch *sw,
1153	bool replace, /* replace or del */
1154	struct fib_notifier_info *info)
1155	{
1156	struct prestera_kern_fib_cache *tfib_cache, *bfib_cache; /* top/btm */
1157	struct prestera_kern_fib_cache_key fc_key;
1158	struct prestera_kern_fib_cache *fib_cache;
1159	int err;
1160
1161	prestera_util_fen_info2fib_cache_key(info, key: &fc_key);
1162	fib_cache = prestera_kern_fib_cache_find(sw, key: &fc_key);
1163	if (fib_cache) {
1164	fib_cache->reachable = false;
1165	err = __prestera_k_arb_fc_apply(sw, fc: fib_cache);
1166	if (err)
1167	dev_err(sw->dev->dev,
1168	"Applying destroyed fib_cache failed");
1169
1170	bfib_cache = __prestera_k_arb_util_fib_overlaps(sw, fc: fib_cache);
1171	tfib_cache = __prestera_k_arb_util_fib_overlapped(sw, fc: fib_cache);
1172	if (!tfib_cache && bfib_cache) {
1173	bfib_cache->reachable = true;
1174	err = __prestera_k_arb_fc_apply(sw, fc: bfib_cache);
1175	if (err)
1176	dev_err(sw->dev->dev,
1177	"Applying fib_cache btm failed");
1178	}
1179
1180	prestera_kern_fib_cache_destroy(sw, fib_cache);
1181	}
1182
1183	if (replace) {
1184	fib_cache = prestera_kern_fib_cache_create(sw, key: &fc_key, info);
1185	if (!fib_cache) {
1186	dev_err(sw->dev->dev, "fib_cache == NULL");
1187	return -ENOENT;
1188	}
1189
1190	bfib_cache = __prestera_k_arb_util_fib_overlaps(sw, fc: fib_cache);
1191	tfib_cache = __prestera_k_arb_util_fib_overlapped(sw, fc: fib_cache);
1192	if (!tfib_cache)
1193	fib_cache->reachable = true;
1194
1195	if (bfib_cache) {
1196	bfib_cache->reachable = false;
1197	err = __prestera_k_arb_fc_apply(sw, fc: bfib_cache);
1198	if (err)
1199	dev_err(sw->dev->dev,
1200	"Applying fib_cache btm failed");
1201	}
1202
1203	err = __prestera_k_arb_fc_apply(sw, fc: fib_cache);
1204	if (err)
1205	dev_err(sw->dev->dev, "Applying fib_cache failed");
1206	}
1207
1208	/* Update all neighs to resolve overlapped and apply related */
1209	__prestera_k_arb_fib_evt2nc(sw);
1210
1211	return 0;
1212	}
1213
1214	static void __prestera_k_arb_abort_neigh_ht_cb(void *ptr, void *arg)
1215	{
1216	struct prestera_kern_neigh_cache *n_cache = ptr;
1217	struct prestera_switch *sw = arg;
1218
1219	if (!list_empty(head: &n_cache->kern_fib_cache_list)) {
1220	WARN_ON(1); /* BUG */
1221	return;
1222	}
1223	__prestera_k_arb_n_offload_set(sw, nc: n_cache, offloaded: false);
1224	n_cache->in_kernel = false;
1225	/* No need to destroy lpm.
1226	* It will be aborted by destroy_ht
1227	*/
1228	__prestera_kern_neigh_cache_destruct(sw, n_cache);
1229	kfree(objp: n_cache);
1230	}
1231
1232	static void __prestera_k_arb_abort_fib_ht_cb(void *ptr, void *arg)
1233	{
1234	struct prestera_kern_fib_cache *fib_cache = ptr;
1235	struct prestera_switch *sw = arg;
1236
1237	__prestera_k_arb_fib_lpm_offload_set(sw, fc: fib_cache,
1238	fail: false, offload: false,
1239	trap: false);
1240	__prestera_k_arb_fib_nh_offload_set(sw, fibc: fib_cache, NULL,
1241	offloaded: false, trap: false);
1242	/* No need to destroy lpm.
1243	* It will be aborted by destroy_ht
1244	*/
1245	__prestera_kern_fib_cache_destruct(sw, fib_cache);
1246	kfree(objp: fib_cache);
1247	}
1248
1249	static void prestera_k_arb_abort(struct prestera_switch *sw)
1250	{
1251	/* Function to remove all arbiter entries and related hw objects. */
1252	/* Sequence:
1253	* 1) Clear arbiter tables, but don't touch hw
1254	* 2) Clear hw
1255	* We use such approach, because arbiter object is not directly mapped
1256	* to hw. So deletion of one arbiter object may even lead to creation of
1257	* hw object (e.g. in case of overlapped routes).
1258	*/
1259	rhashtable_free_and_destroy(ht: &sw->router->kern_fib_cache_ht,
1260	free_fn: __prestera_k_arb_abort_fib_ht_cb,
1261	arg: sw);
1262	rhashtable_free_and_destroy(ht: &sw->router->kern_neigh_cache_ht,
1263	free_fn: __prestera_k_arb_abort_neigh_ht_cb,
1264	arg: sw);
1265	}
1266
1267	static int __prestera_inetaddr_port_event(struct net_device *port_dev,
1268	unsigned long event,
1269	struct netlink_ext_ack *extack)
1270	{
1271	struct prestera_port *port = netdev_priv(dev: port_dev);
1272	struct prestera_rif_entry_key re_key = {};
1273	struct prestera_rif_entry *re;
1274	u32 kern_tb_id;
1275	int err;
1276
1277	err = prestera_is_valid_mac_addr(port, addr: port_dev->dev_addr);
1278	if (err) {
1279	NL_SET_ERR_MSG_MOD(extack, "RIF MAC must have the same prefix");
1280	return err;
1281	}
1282
1283	kern_tb_id = l3mdev_fib_table(dev: port_dev);
1284	re_key.iface.type = PRESTERA_IF_PORT_E;
1285	re_key.iface.dev_port.hw_dev_num = port->dev_id;
1286	re_key.iface.dev_port.port_num = port->hw_id;
1287	re = prestera_rif_entry_find(sw: port->sw, k: &re_key);
1288
1289	switch (event) {
1290	case NETDEV_UP:
1291	if (re) {
1292	NL_SET_ERR_MSG_MOD(extack, "RIF already exist");
1293	return -EEXIST;
1294	}
1295	re = prestera_rif_entry_create(sw: port->sw, k: &re_key,
1296	tb_id: prestera_fix_tb_id(tb_id: kern_tb_id),
1297	addr: port_dev->dev_addr);
1298	if (!re) {
1299	NL_SET_ERR_MSG_MOD(extack, "Can't create RIF");
1300	return -EINVAL;
1301	}
1302	dev_hold(dev: port_dev);
1303	break;
1304	case NETDEV_DOWN:
1305	if (!re) {
1306	NL_SET_ERR_MSG_MOD(extack, "Can't find RIF");
1307	return -EEXIST;
1308	}
1309	prestera_rif_entry_destroy(sw: port->sw, e: re);
1310	dev_put(dev: port_dev);
1311	break;
1312	}
1313
1314	return 0;
1315	}
1316
1317	static int __prestera_inetaddr_event(struct prestera_switch *sw,
1318	struct net_device *dev,
1319	unsigned long event,
1320	struct netlink_ext_ack *extack)
1321	{
1322	if (!prestera_netdev_check(dev) || netif_is_any_bridge_port(dev) ||
1323	netif_is_lag_port(dev))
1324	return 0;
1325
1326	return __prestera_inetaddr_port_event(port_dev: dev, event, extack);
1327	}
1328
1329	static int __prestera_inetaddr_cb(struct notifier_block *nb,
1330	unsigned long event, void *ptr)
1331	{
1332	struct in_ifaddr *ifa = (struct in_ifaddr *)ptr;
1333	struct net_device *dev = ifa->ifa_dev->dev;
1334	struct prestera_router *router = container_of(nb,
1335	struct prestera_router,
1336	inetaddr_nb);
1337	struct in_device *idev;
1338	int err = 0;
1339
1340	if (event != NETDEV_DOWN)
1341	goto out;
1342
1343	/* Ignore if this is not latest address */
1344	idev = __in_dev_get_rtnl(dev);
1345	if (idev && idev->ifa_list)
1346	goto out;
1347
1348	err = __prestera_inetaddr_event(sw: router->sw, dev, event, NULL);
1349	out:
1350	return notifier_from_errno(err);
1351	}
1352
1353	static int __prestera_inetaddr_valid_cb(struct notifier_block *nb,
1354	unsigned long event, void *ptr)
1355	{
1356	struct in_validator_info *ivi = (struct in_validator_info *)ptr;
1357	struct net_device *dev = ivi->ivi_dev->dev;
1358	struct prestera_router *router = container_of(nb,
1359	struct prestera_router,
1360	inetaddr_valid_nb);
1361	struct in_device *idev;
1362	int err = 0;
1363
1364	if (event != NETDEV_UP)
1365	goto out;
1366
1367	/* Ignore if this is not first address */
1368	idev = __in_dev_get_rtnl(dev);
1369	if (idev && idev->ifa_list)
1370	goto out;
1371
1372	if (ipv4_is_multicast(addr: ivi->ivi_addr)) {
1373	NL_SET_ERR_MSG_MOD(ivi->extack,
1374	"Multicast addr on RIF is not supported");
1375	err = -EINVAL;
1376	goto out;
1377	}
1378
1379	err = __prestera_inetaddr_event(sw: router->sw, dev, event, extack: ivi->extack);
1380	out:
1381	return notifier_from_errno(err);
1382	}
1383
1384	struct prestera_fib_event_work {
1385	struct work_struct work;
1386	struct prestera_switch *sw;
1387	struct fib_entry_notifier_info fen_info;
1388	unsigned long event;
1389	};
1390
1391	static void __prestera_router_fib_event_work(struct work_struct *work)
1392	{
1393	struct prestera_fib_event_work *fib_work =
1394	container_of(work, struct prestera_fib_event_work, work);
1395	struct prestera_switch *sw = fib_work->sw;
1396	int err;
1397
1398	rtnl_lock();
1399
1400	switch (fib_work->event) {
1401	case FIB_EVENT_ENTRY_REPLACE:
1402	err = prestera_k_arb_fib_evt(sw, replace: true,
1403	info: &fib_work->fen_info.info);
1404	if (err)
1405	goto err_out;
1406
1407	break;
1408	case FIB_EVENT_ENTRY_DEL:
1409	err = prestera_k_arb_fib_evt(sw, replace: false,
1410	info: &fib_work->fen_info.info);
1411	if (err)
1412	goto err_out;
1413
1414	break;
1415	}
1416
1417	goto out;
1418
1419	err_out:
1420	dev_err(sw->dev->dev, "Error when processing %pI4h/%d",
1421	&fib_work->fen_info.dst,
1422	fib_work->fen_info.dst_len);
1423	out:
1424	fib_info_put(fi: fib_work->fen_info.fi);
1425	rtnl_unlock();
1426	kfree(objp: fib_work);
1427	}
1428
1429	/* Called with rcu_read_lock() */
1430	static int __prestera_router_fib_event(struct notifier_block *nb,
1431	unsigned long event, void *ptr)
1432	{
1433	struct prestera_fib_event_work *fib_work;
1434	struct fib_entry_notifier_info *fen_info;
1435	struct fib_notifier_info *info = ptr;
1436	struct prestera_router *router;
1437
1438	if (info->family != AF_INET)
1439	return NOTIFY_DONE;
1440
1441	router = container_of(nb, struct prestera_router, fib_nb);
1442
1443	switch (event) {
1444	case FIB_EVENT_ENTRY_REPLACE:
1445	case FIB_EVENT_ENTRY_DEL:
1446	fen_info = container_of(info, struct fib_entry_notifier_info,
1447	info);
1448	if (!fen_info->fi)
1449	return NOTIFY_DONE;
1450
1451	fib_work = kzalloc(size: sizeof(*fib_work), GFP_ATOMIC);
1452	if (WARN_ON(!fib_work))
1453	return NOTIFY_BAD;
1454
1455	fib_info_hold(fi: fen_info->fi);
1456	fib_work->fen_info = *fen_info;
1457	fib_work->event = event;
1458	fib_work->sw = router->sw;
1459	INIT_WORK(&fib_work->work, __prestera_router_fib_event_work);
1460	prestera_queue_work(work: &fib_work->work);
1461	break;
1462	default:
1463	return NOTIFY_DONE;
1464	}
1465
1466	return NOTIFY_DONE;
1467	}
1468
1469	struct prestera_netevent_work {
1470	struct work_struct work;
1471	struct prestera_switch *sw;
1472	struct neighbour *n;
1473	};
1474
1475	static void prestera_router_neigh_event_work(struct work_struct *work)
1476	{
1477	struct prestera_netevent_work *net_work =
1478	container_of(work, struct prestera_netevent_work, work);
1479	struct prestera_switch *sw = net_work->sw;
1480	struct neighbour *n = net_work->n;
1481
1482	/* neigh - its not hw related object. It stored only in kernel. So... */
1483	rtnl_lock();
1484
1485	prestera_k_arb_n_evt(sw, n);
1486
1487	neigh_release(neigh: n);
1488	rtnl_unlock();
1489	kfree(objp: net_work);
1490	}
1491
1492	static int prestera_router_netevent_event(struct notifier_block *nb,
1493	unsigned long event, void *ptr)
1494	{
1495	struct prestera_netevent_work *net_work;
1496	struct prestera_router *router;
1497	struct neighbour *n = ptr;
1498
1499	router = container_of(nb, struct prestera_router, netevent_nb);
1500
1501	switch (event) {
1502	case NETEVENT_NEIGH_UPDATE:
1503	if (n->tbl->family != AF_INET)
1504	return NOTIFY_DONE;
1505
1506	net_work = kzalloc(size: sizeof(*net_work), GFP_ATOMIC);
1507	if (WARN_ON(!net_work))
1508	return NOTIFY_BAD;
1509
1510	neigh_clone(neigh: n);
1511	net_work->n = n;
1512	net_work->sw = router->sw;
1513	INIT_WORK(&net_work->work, prestera_router_neigh_event_work);
1514	prestera_queue_work(work: &net_work->work);
1515	}
1516
1517	return NOTIFY_DONE;
1518	}
1519
1520	static void prestera_router_update_neighs_work(struct work_struct *work)
1521	{
1522	struct prestera_router *router;
1523
1524	router = container_of(work, struct prestera_router,
1525	neighs_update.dw.work);
1526	rtnl_lock();
1527
1528	prestera_k_arb_hw_evt(sw: router->sw);
1529
1530	rtnl_unlock();
1531	prestera_queue_delayed_work(work: &router->neighs_update.dw,
1532	delay: msecs_to_jiffies(PRESTERA_NH_PROBE_INTERVAL));
1533	}
1534
1535	static int prestera_neigh_work_init(struct prestera_switch *sw)
1536	{
1537	INIT_DELAYED_WORK(&sw->router->neighs_update.dw,
1538	prestera_router_update_neighs_work);
1539	prestera_queue_delayed_work(work: &sw->router->neighs_update.dw, delay: 0);
1540	return 0;
1541	}
1542
1543	static void prestera_neigh_work_fini(struct prestera_switch *sw)
1544	{
1545	cancel_delayed_work_sync(dwork: &sw->router->neighs_update.dw);
1546	}
1547
1548	int prestera_router_init(struct prestera_switch *sw)
1549	{
1550	struct prestera_router *router;
1551	int err, nhgrp_cache_bytes;
1552
1553	router = kzalloc(size: sizeof(*sw->router), GFP_KERNEL);
1554	if (!router)
1555	return -ENOMEM;
1556
1557	sw->router = router;
1558	router->sw = sw;
1559
1560	err = prestera_router_hw_init(sw);
1561	if (err)
1562	goto err_router_lib_init;
1563
1564	err = rhashtable_init(ht: &router->kern_fib_cache_ht,
1565	params: &__prestera_kern_fib_cache_ht_params);
1566	if (err)
1567	goto err_kern_fib_cache_ht_init;
1568
1569	err = rhashtable_init(ht: &router->kern_neigh_cache_ht,
1570	params: &__prestera_kern_neigh_cache_ht_params);
1571	if (err)
1572	goto err_kern_neigh_cache_ht_init;
1573
1574	nhgrp_cache_bytes = sw->size_tbl_router_nexthop / 8 + 1;
1575	router->nhgrp_hw_state_cache = kzalloc(size: nhgrp_cache_bytes, GFP_KERNEL);
1576	if (!router->nhgrp_hw_state_cache) {
1577	err = -ENOMEM;
1578	goto err_nh_state_cache_alloc;
1579	}
1580
1581	err = prestera_neigh_work_init(sw);
1582	if (err)
1583	goto err_neigh_work_init;
1584
1585	router->inetaddr_valid_nb.notifier_call = __prestera_inetaddr_valid_cb;
1586	err = register_inetaddr_validator_notifier(nb: &router->inetaddr_valid_nb);
1587	if (err)
1588	goto err_register_inetaddr_validator_notifier;
1589
1590	router->inetaddr_nb.notifier_call = __prestera_inetaddr_cb;
1591	err = register_inetaddr_notifier(nb: &router->inetaddr_nb);
1592	if (err)
1593	goto err_register_inetaddr_notifier;
1594
1595	router->netevent_nb.notifier_call = prestera_router_netevent_event;
1596	err = register_netevent_notifier(nb: &router->netevent_nb);
1597	if (err)
1598	goto err_register_netevent_notifier;
1599
1600	router->fib_nb.notifier_call = __prestera_router_fib_event;
1601	err = register_fib_notifier(net: &init_net, nb: &router->fib_nb,
1602	/* TODO: flush fib entries */ NULL, NULL);
1603	if (err)
1604	goto err_register_fib_notifier;
1605
1606	return 0;
1607
1608	err_register_fib_notifier:
1609	unregister_netevent_notifier(nb: &router->netevent_nb);
1610	err_register_netevent_notifier:
1611	unregister_inetaddr_notifier(nb: &router->inetaddr_nb);
1612	err_register_inetaddr_notifier:
1613	unregister_inetaddr_validator_notifier(nb: &router->inetaddr_valid_nb);
1614	err_register_inetaddr_validator_notifier:
1615	prestera_neigh_work_fini(sw);
1616	err_neigh_work_init:
1617	kfree(objp: router->nhgrp_hw_state_cache);
1618	err_nh_state_cache_alloc:
1619	rhashtable_destroy(ht: &router->kern_neigh_cache_ht);
1620	err_kern_neigh_cache_ht_init:
1621	rhashtable_destroy(ht: &router->kern_fib_cache_ht);
1622	err_kern_fib_cache_ht_init:
1623	prestera_router_hw_fini(sw);
1624	err_router_lib_init:
1625	kfree(objp: sw->router);
1626	return err;
1627	}
1628
1629	void prestera_router_fini(struct prestera_switch *sw)
1630	{
1631	unregister_fib_notifier(net: &init_net, nb: &sw->router->fib_nb);
1632	unregister_netevent_notifier(nb: &sw->router->netevent_nb);
1633	unregister_inetaddr_notifier(nb: &sw->router->inetaddr_nb);
1634	unregister_inetaddr_validator_notifier(nb: &sw->router->inetaddr_valid_nb);
1635	prestera_neigh_work_fini(sw);
1636	prestera_queue_drain();
1637
1638	prestera_k_arb_abort(sw);
1639
1640	kfree(objp: sw->router->nhgrp_hw_state_cache);
1641	rhashtable_destroy(ht: &sw->router->kern_fib_cache_ht);
1642	prestera_router_hw_fini(sw);
1643	kfree(objp: sw->router);
1644	sw->router = NULL;
1645	}
1646