xref: /illumos-gate/usr/src/uts/common/io/i40e/i40e_stats.c (revision 6446bd46ed1b4e9f69da153665f82181ccaedad5)
1 /*
2  * This file and its contents are supplied under the terms of the
3  * Common Development and Distribution License ("CDDL"), version 1.0.
4  * You may only use this file in accordance with the terms of version
5  * 1.0 of the CDDL.
6  *
7  * A full copy of the text of the CDDL should have accompanied this
8  * source.  A copy of the CDDL is also available via the Internet at
9  * http://www.illumos.org/license/CDDL.
10  */
11 
12 /*
13  * Copyright 2015 OmniTI Computer Consulting, Inc. All rights reserved.
14  * Copyright 2019 Joyent, Inc.
15  * Copyright 2021 Oxide Computer Company
16  */
17 
18 #include "i40e_sw.h"
19 
20 /*
21  * -------------------
22  * Statistics Overview
23  * -------------------
24  *
25  * As part of managing the driver and understanding what's going on, we keep
26  * track of statistics from two different sources:
27  *
28  *   - Statistics from the device
29  *   - Statistics maintained by the driver
30  *
31  * Generally, the hardware provides us traditional IETF and MIB Ethernet
32  * statistics, for example, the total packets in and out, various errors in
33  * packets, the negotiated status etc. The driver, on the other hand, primarily
34  * contains statistics around driver-specific issues, such as information about
35  * checksumming on receive and transmit and the data in and out of a specific
36  * ring.
37  *
38  * We export statistics in two different forms. The first form is the required
39  * GLDv3 endpoints, specifically:
40  *
41  *   - The general GLDv3 mc_getstat interface
42  *   - The GLDv3 ring mri_stat interface
43  *
44  * The second form that we export statistics is through kstats. kstats are
45  * exported in different ways. Particularly we arrange the kstats to monitor the
46  * layout of the device. Currently we have kstats which capture both the IEEE
47  * and driver-implementation specific stats. There are kstats for each of the
48  * following structures:
49  *
50  *   - Each physical function
51  *   - Each VSI
52  *   - Each Queue
53  *
54  * The PF's kstat is called 'pfstats' so as not to collide with other system
55  * provided kstats. Thus, for instance 0, usually the first PF, the full kstat
56  * would be: i40e:0:pfstats:.
57  *
58  * The kstat for each VSI is called vsi_%instance. So for the first PF, which is
59  * instance zero and the first vsi, which has id 0, it will be named vsi_0 and
60  * the full kstat would be i40e:0:vsi_0:.
61  *
62  * The kstat for each queue is trqpair_tx_%queue and trqpair_rx_%queue. Note
63  * that these are labeled based on their local index, which may mean that
64  * different instances have overlapping sets of queues. This isn't a problem as
65  * the kstats will always use the instance number of the pf to distinguish it in
66  * the kstat tuple.
67  *
68  * ---------------------
69  * Hardware Arrangements
70  * ---------------------
71  *
72  * The hardware keeps statistics at each physical function/MAC (PF) and it keeps
73  * statistics on each virtual station interface (VSI).
74  *
75  * The hardware keeps these statistics as 32-bit and 48-bit counters. We are
76  * required to read them and then compute the differences between them. The
77  * 48-bit counters span more than one 32-bit register in the BAR. The hardware
78  * suggests that to read them, we perform 64-bit reads of the lower of the two
79  * registers that make up a 48-bit stat. The hardware guarantees that the reads
80  * of those two registers will be atomic and we'll get a consistent value, not a
81  * property it has for every read of two registers.
82  *
83  * For every kstat we have based on this, we have a corresponding uint64_t that
84  * we keep around as a base value in a separate structure. Whenever we read a
85  * value, we end up grabbing the current value, calculating a difference between
86  * the previously stored value and the current one, and updating the kstat with
87  * that difference. After which, we go through and update the base value that we
88  * stored. This is all encapsulated in i40e_stat_get_uint32() and
89  * i40e_stat_get_uint48().
90  *
91  * The only unfortunate thing here is that the hardware doesn't give us any kind
92  * of overflow counter. It just tries to make sure that the uint32_t and
93  * uint48_t counters are large enough to hopefully not overflow right away. This
94  * isn't the most reassuring statement and we should investigate ways of
95  * ensuring that if a system is active, but not actively measured, we don't lose
96  * data.
97  *
98  * The pf kstats data is stored in the i40e_t`i40e_pf_kstat. It is backed by the
99  * i40e_t`i40e_pf_stat structure. Similarly the VSI related kstats are in
100  * i40e_t`i40e_vsis[idx].iv_kstats and the data is backed in the
101  * i40e_t`i40e_vsis[idx].iv_stats. All of this data is protected by the
102  * i40e_stat_lock, which should be taken last, when acquiring locks.
103  */
104 
105 static void
106 i40e_stat_get_uint48(i40e_t *i40e, uintptr_t reg, kstat_named_t *kstat,
107     uint64_t *base, boolean_t init)
108 {
109 	i40e_hw_t *hw = &i40e->i40e_hw_space;
110 	uint64_t raw, delta;
111 
112 	ASSERT(MUTEX_HELD(&i40e->i40e_stat_lock));
113 
114 	raw = ddi_get64(i40e->i40e_osdep_space.ios_reg_handle,
115 	    (uint64_t *)((uintptr_t)hw->hw_addr + reg));
116 
117 	if (init == B_TRUE) {
118 		*base = raw;
119 		return;
120 	}
121 
122 	/*
123 	 * Check for wraparound, note that the counter is actually only 48-bits,
124 	 * even though it has two uint32_t regs present.
125 	 */
126 	if (raw >= *base) {
127 		delta = raw - *base;
128 	} else {
129 		delta = 0x1000000000000ULL - *base + raw;
130 	}
131 
132 	kstat->value.ui64 += delta;
133 	*base = raw;
134 }
135 
136 static void
137 i40e_stat_get_uint32(i40e_t *i40e, uintptr_t reg, kstat_named_t *kstat,
138     uint64_t *base, boolean_t init)
139 {
140 	i40e_hw_t *hw = &i40e->i40e_hw_space;
141 	uint64_t raw, delta;
142 
143 	ASSERT(MUTEX_HELD(&i40e->i40e_stat_lock));
144 
145 	raw = ddi_get32(i40e->i40e_osdep_space.ios_reg_handle,
146 	    (uint32_t *)((uintptr_t)hw->hw_addr + reg));
147 
148 	if (init == B_TRUE) {
149 		*base = raw;
150 		return;
151 	}
152 
153 	/*
154 	 * Watch out for wraparound as we only have a 32-bit counter.
155 	 */
156 	if (raw >= *base) {
157 		delta = raw - *base;
158 	} else {
159 		delta = 0x100000000ULL - *base + raw;
160 	}
161 
162 	kstat->value.ui64 += delta;
163 	*base = raw;
164 
165 }
166 
167 static void
168 i40e_stat_vsi_update(i40e_t *i40e, uint_t idx, boolean_t init)
169 {
170 	i40e_vsi_stats_t *ivs;
171 	i40e_vsi_kstats_t *ivk;
172 	uint16_t id = i40e->i40e_vsis[idx].iv_stats_id;
173 
174 	ASSERT3P(i40e->i40e_vsis[idx].iv_kstats, !=, NULL);
175 	ivs = &i40e->i40e_vsis[idx].iv_stats;
176 	ivk = i40e->i40e_vsis[idx].iv_kstats->ks_data;
177 
178 	mutex_enter(&i40e->i40e_stat_lock);
179 
180 	i40e_stat_get_uint48(i40e, I40E_GLV_GORCL(id), &ivk->ivk_rx_bytes,
181 	    &ivs->ivs_rx_bytes, init);
182 	i40e_stat_get_uint48(i40e, I40E_GLV_UPRCL(id), &ivk->ivk_rx_unicast,
183 	    &ivs->ivs_rx_unicast, init);
184 	i40e_stat_get_uint48(i40e, I40E_GLV_MPRCL(id), &ivk->ivk_rx_multicast,
185 	    &ivs->ivs_rx_multicast, init);
186 	i40e_stat_get_uint48(i40e, I40E_GLV_BPRCL(id), &ivk->ivk_rx_broadcast,
187 	    &ivs->ivs_rx_broadcast, init);
188 
189 	i40e_stat_get_uint32(i40e, I40E_GLV_RDPC(id), &ivk->ivk_rx_discards,
190 	    &ivs->ivs_rx_discards, init);
191 	i40e_stat_get_uint32(i40e, I40E_GLV_RUPP(id),
192 	    &ivk->ivk_rx_unknown_protocol,
193 	    &ivs->ivs_rx_unknown_protocol,
194 	    init);
195 
196 	i40e_stat_get_uint48(i40e, I40E_GLV_GOTCL(id), &ivk->ivk_tx_bytes,
197 	    &ivs->ivs_tx_bytes, init);
198 	i40e_stat_get_uint48(i40e, I40E_GLV_UPTCL(id), &ivk->ivk_tx_unicast,
199 	    &ivs->ivs_tx_unicast, init);
200 	i40e_stat_get_uint48(i40e, I40E_GLV_MPTCL(id), &ivk->ivk_tx_multicast,
201 	    &ivs->ivs_tx_multicast, init);
202 	i40e_stat_get_uint48(i40e, I40E_GLV_BPTCL(id), &ivk->ivk_tx_broadcast,
203 	    &ivs->ivs_tx_broadcast, init);
204 
205 	i40e_stat_get_uint32(i40e, I40E_GLV_TEPC(id), &ivk->ivk_tx_errors,
206 	    &ivs->ivs_tx_errors, init);
207 
208 	mutex_exit(&i40e->i40e_stat_lock);
209 
210 	/*
211 	 * We follow ixgbe's lead here and that if a kstat update didn't work
212 	 * 100% then we mark service unaffected as opposed to when fetching
213 	 * things for MAC directly.
214 	 */
215 	if (i40e_check_acc_handle(i40e->i40e_osdep_space.ios_reg_handle) !=
216 	    DDI_FM_OK) {
217 		ddi_fm_service_impact(i40e->i40e_dip, DDI_SERVICE_UNAFFECTED);
218 	}
219 }
220 
221 static int
222 i40e_stat_vsi_kstat_update(kstat_t *ksp, int rw)
223 {
224 	i40e_t *i40e;
225 
226 	if (rw == KSTAT_WRITE)
227 		return (EACCES);
228 
229 	i40e = ksp->ks_private;
230 	for (uint_t i = 0; i < i40e->i40e_num_rx_groups; i++)
231 		i40e_stat_vsi_update(i40e, i, B_FALSE);
232 
233 	return (0);
234 }
235 
236 void
237 i40e_stat_vsi_fini(i40e_t *i40e, uint_t idx)
238 {
239 	if (i40e->i40e_vsis[idx].iv_kstats != NULL) {
240 		kstat_delete(i40e->i40e_vsis[idx].iv_kstats);
241 		i40e->i40e_vsis[idx].iv_kstats = NULL;
242 	}
243 }
244 
245 boolean_t
246 i40e_stat_vsi_init(i40e_t *i40e, uint_t idx)
247 {
248 	kstat_t *ksp;
249 	i40e_vsi_kstats_t *ivk;
250 	char buf[64];
251 	uint16_t vsi_id = i40e->i40e_vsis[idx].iv_seid;
252 
253 	(void) snprintf(buf, sizeof (buf), "vsi_%u", vsi_id);
254 
255 	ksp = kstat_create(I40E_MODULE_NAME, ddi_get_instance(i40e->i40e_dip),
256 	    buf, "net", KSTAT_TYPE_NAMED,
257 	    sizeof (i40e_vsi_kstats_t) / sizeof (kstat_named_t), 0);
258 
259 	if (ksp == NULL) {
260 		i40e_error(i40e, "Failed to create kstats for VSI %u", vsi_id);
261 		return (B_FALSE);
262 	}
263 
264 	i40e->i40e_vsis[idx].iv_kstats = ksp;
265 	ivk = ksp->ks_data;
266 	ksp->ks_update = i40e_stat_vsi_kstat_update;
267 	ksp->ks_private = i40e;
268 
269 	kstat_named_init(&ivk->ivk_rx_bytes, "rx_bytes",
270 	    KSTAT_DATA_UINT64);
271 	kstat_named_init(&ivk->ivk_rx_unicast, "rx_unicast",
272 	    KSTAT_DATA_UINT64);
273 	kstat_named_init(&ivk->ivk_rx_multicast, "rx_multicast",
274 	    KSTAT_DATA_UINT64);
275 	kstat_named_init(&ivk->ivk_rx_broadcast, "rx_broadcast",
276 	    KSTAT_DATA_UINT64);
277 	kstat_named_init(&ivk->ivk_rx_discards, "rx_discards",
278 	    KSTAT_DATA_UINT64);
279 	kstat_named_init(&ivk->ivk_rx_unknown_protocol, "rx_unknown_protocol",
280 	    KSTAT_DATA_UINT64);
281 	kstat_named_init(&ivk->ivk_tx_bytes, "tx_bytes",
282 	    KSTAT_DATA_UINT64);
283 	kstat_named_init(&ivk->ivk_tx_unicast, "tx_unicast",
284 	    KSTAT_DATA_UINT64);
285 	kstat_named_init(&ivk->ivk_tx_multicast, "tx_multicast",
286 	    KSTAT_DATA_UINT64);
287 	kstat_named_init(&ivk->ivk_tx_broadcast, "tx_broadcast",
288 	    KSTAT_DATA_UINT64);
289 	kstat_named_init(&ivk->ivk_tx_errors, "tx_errors",
290 	    KSTAT_DATA_UINT64);
291 
292 	bzero(&i40e->i40e_vsis[idx].iv_stats, sizeof (i40e_vsi_stats_t));
293 	i40e_stat_vsi_update(i40e, idx, B_TRUE);
294 	kstat_install(i40e->i40e_vsis[idx].iv_kstats);
295 
296 	return (B_TRUE);
297 }
298 
299 static void
300 i40e_stat_pf_update(i40e_t *i40e, boolean_t init)
301 {
302 	i40e_pf_stats_t *ips;
303 	i40e_pf_kstats_t *ipk;
304 	int port = i40e->i40e_hw_space.port;
305 	int i;
306 
307 	ASSERT(i40e->i40e_pf_kstat != NULL);
308 	ips = &i40e->i40e_pf_stat;
309 	ipk = i40e->i40e_pf_kstat->ks_data;
310 
311 	mutex_enter(&i40e->i40e_stat_lock);
312 
313 	/* 64-bit PCIe regs */
314 	i40e_stat_get_uint48(i40e, I40E_GLPRT_GORCL(port),
315 	    &ipk->ipk_rx_bytes, &ips->ips_rx_bytes, init);
316 	i40e_stat_get_uint48(i40e, I40E_GLPRT_UPRCL(port),
317 	    &ipk->ipk_rx_unicast, &ips->ips_rx_unicast, init);
318 	i40e_stat_get_uint48(i40e, I40E_GLPRT_MPRCL(port),
319 	    &ipk->ipk_rx_multicast, &ips->ips_rx_multicast, init);
320 	i40e_stat_get_uint48(i40e, I40E_GLPRT_BPRCL(port),
321 	    &ipk->ipk_rx_broadcast, &ips->ips_rx_broadcast, init);
322 	i40e_stat_get_uint48(i40e, I40E_GLPRT_GOTCL(port),
323 	    &ipk->ipk_tx_bytes, &ips->ips_tx_bytes, init);
324 	i40e_stat_get_uint48(i40e, I40E_GLPRT_UPTCL(port),
325 	    &ipk->ipk_tx_unicast, &ips->ips_tx_unicast, init);
326 	i40e_stat_get_uint48(i40e, I40E_GLPRT_MPTCL(port),
327 	    &ipk->ipk_tx_multicast, &ips->ips_tx_multicast, init);
328 	i40e_stat_get_uint48(i40e, I40E_GLPRT_BPTCL(port),
329 	    &ipk->ipk_tx_broadcast, &ips->ips_tx_broadcast, init);
330 
331 	i40e_stat_get_uint48(i40e, I40E_GLPRT_PRC64L(port),
332 	    &ipk->ipk_rx_size_64, &ips->ips_rx_size_64, init);
333 	i40e_stat_get_uint48(i40e, I40E_GLPRT_PRC127L(port),
334 	    &ipk->ipk_rx_size_127, &ips->ips_rx_size_127, init);
335 	i40e_stat_get_uint48(i40e, I40E_GLPRT_PRC255L(port),
336 	    &ipk->ipk_rx_size_255, &ips->ips_rx_size_255, init);
337 	i40e_stat_get_uint48(i40e, I40E_GLPRT_PRC511L(port),
338 	    &ipk->ipk_rx_size_511, &ips->ips_rx_size_511, init);
339 	i40e_stat_get_uint48(i40e, I40E_GLPRT_PRC1023L(port),
340 	    &ipk->ipk_rx_size_1023, &ips->ips_rx_size_1023, init);
341 	i40e_stat_get_uint48(i40e, I40E_GLPRT_PRC1522L(port),
342 	    &ipk->ipk_rx_size_1522, &ips->ips_rx_size_1522, init);
343 	i40e_stat_get_uint48(i40e, I40E_GLPRT_PRC9522L(port),
344 	    &ipk->ipk_rx_size_9522, &ips->ips_rx_size_9522, init);
345 
346 	i40e_stat_get_uint48(i40e, I40E_GLPRT_PTC64L(port),
347 	    &ipk->ipk_tx_size_64, &ips->ips_tx_size_64, init);
348 	i40e_stat_get_uint48(i40e, I40E_GLPRT_PTC127L(port),
349 	    &ipk->ipk_tx_size_127, &ips->ips_tx_size_127, init);
350 	i40e_stat_get_uint48(i40e, I40E_GLPRT_PTC255L(port),
351 	    &ipk->ipk_tx_size_255, &ips->ips_tx_size_255, init);
352 	i40e_stat_get_uint48(i40e, I40E_GLPRT_PTC511L(port),
353 	    &ipk->ipk_tx_size_511, &ips->ips_tx_size_511, init);
354 	i40e_stat_get_uint48(i40e, I40E_GLPRT_PTC1023L(port),
355 	    &ipk->ipk_tx_size_1023, &ips->ips_tx_size_1023, init);
356 	i40e_stat_get_uint48(i40e, I40E_GLPRT_PTC1522L(port),
357 	    &ipk->ipk_tx_size_1522, &ips->ips_tx_size_1522, init);
358 	i40e_stat_get_uint48(i40e, I40E_GLPRT_PTC9522L(port),
359 	    &ipk->ipk_tx_size_9522, &ips->ips_tx_size_9522, init);
360 
361 	/* 32-bit PCIe regs */
362 	i40e_stat_get_uint32(i40e, I40E_GLPRT_LXONRXC(port),
363 	    &ipk->ipk_link_xon_rx, &ips->ips_link_xon_rx, init);
364 	i40e_stat_get_uint32(i40e, I40E_GLPRT_LXOFFRXC(port),
365 	    &ipk->ipk_link_xoff_rx, &ips->ips_link_xoff_rx, init);
366 	i40e_stat_get_uint32(i40e, I40E_GLPRT_LXONTXC(port),
367 	    &ipk->ipk_link_xon_tx, &ips->ips_link_xon_tx, init);
368 	i40e_stat_get_uint32(i40e, I40E_GLPRT_LXOFFTXC(port),
369 	    &ipk->ipk_link_xoff_tx, &ips->ips_link_xoff_tx, init);
370 
371 	for (i = 0; i < 8; i++) {
372 		i40e_stat_get_uint32(i40e, I40E_GLPRT_PXONRXC(port, i),
373 		    &ipk->ipk_priority_xon_rx[i], &ips->ips_priority_xon_rx[i],
374 		    init);
375 		i40e_stat_get_uint32(i40e, I40E_GLPRT_PXOFFRXC(port, i),
376 		    &ipk->ipk_priority_xoff_rx[i],
377 		    &ips->ips_priority_xoff_rx[i],
378 		    init);
379 		i40e_stat_get_uint32(i40e, I40E_GLPRT_PXONTXC(port, i),
380 		    &ipk->ipk_priority_xon_tx[i], &ips->ips_priority_xon_tx[i],
381 		    init);
382 		i40e_stat_get_uint32(i40e, I40E_GLPRT_PXOFFTXC(port, i),
383 		    &ipk->ipk_priority_xoff_tx[i],
384 		    &ips->ips_priority_xoff_tx[i],
385 		    init);
386 		i40e_stat_get_uint32(i40e, I40E_GLPRT_RXON2OFFCNT(port, i),
387 		    &ipk->ipk_priority_xon_2_xoff[i],
388 		    &ips->ips_priority_xon_2_xoff[i],
389 		    init);
390 	}
391 
392 	i40e_stat_get_uint32(i40e, I40E_GLPRT_CRCERRS(port),
393 	    &ipk->ipk_crc_errors, &ips->ips_crc_errors, init);
394 	i40e_stat_get_uint32(i40e, I40E_GLPRT_ILLERRC(port),
395 	    &ipk->ipk_illegal_bytes, &ips->ips_illegal_bytes, init);
396 	i40e_stat_get_uint32(i40e, I40E_GLPRT_MLFC(port),
397 	    &ipk->ipk_mac_local_faults, &ips->ips_mac_local_faults, init);
398 	i40e_stat_get_uint32(i40e, I40E_GLPRT_MRFC(port),
399 	    &ipk->ipk_mac_remote_faults, &ips->ips_mac_remote_faults, init);
400 	i40e_stat_get_uint32(i40e, I40E_GLPRT_RLEC(port),
401 	    &ipk->ipk_rx_length_errors, &ips->ips_rx_length_errors, init);
402 	i40e_stat_get_uint32(i40e, I40E_GLPRT_RUC(port),
403 	    &ipk->ipk_rx_undersize, &ips->ips_rx_undersize, init);
404 	i40e_stat_get_uint32(i40e, I40E_GLPRT_RFC(port),
405 	    &ipk->ipk_rx_fragments, &ips->ips_rx_fragments, init);
406 	i40e_stat_get_uint32(i40e, I40E_GLPRT_ROC(port),
407 	    &ipk->ipk_rx_oversize, &ips->ips_rx_oversize, init);
408 	i40e_stat_get_uint32(i40e, I40E_GLPRT_RJC(port),
409 	    &ipk->ipk_rx_jabber, &ips->ips_rx_jabber, init);
410 	i40e_stat_get_uint32(i40e, I40E_GLPRT_RDPC(port),
411 	    &ipk->ipk_rx_discards, &ips->ips_rx_discards, init);
412 	i40e_stat_get_uint32(i40e, I40E_GLPRT_LDPC(port),
413 	    &ipk->ipk_rx_vm_discards, &ips->ips_rx_vm_discards, init);
414 	i40e_stat_get_uint32(i40e, I40E_GLPRT_MSPDC(port),
415 	    &ipk->ipk_rx_short_discards, &ips->ips_rx_short_discards, init);
416 	i40e_stat_get_uint32(i40e, I40E_GLPRT_TDOLD(port),
417 	    &ipk->ipk_tx_dropped_link_down, &ips->ips_tx_dropped_link_down,
418 	    init);
419 	i40e_stat_get_uint32(i40e, I40E_GLPRT_RUPP(port),
420 	    &ipk->ipk_rx_unknown_protocol, &ips->ips_rx_unknown_protocol, init);
421 
422 	/* 64-bit */
423 	i40e_stat_get_uint48(i40e, I40E_GL_RXERR1_L(port), &ipk->ipk_rx_err1,
424 	    &ips->ips_rx_err1, init);
425 	i40e_stat_get_uint48(i40e, I40E_GL_RXERR2_L(port), &ipk->ipk_rx_err2,
426 	    &ips->ips_rx_err2, init);
427 
428 	mutex_exit(&i40e->i40e_stat_lock);
429 
430 	/*
431 	 * We follow ixgbe's lead here and that if a kstat update didn't work
432 	 * 100% then we mark service unaffected as opposed to when fetching
433 	 * things for MAC directly.
434 	 */
435 	if (i40e_check_acc_handle(i40e->i40e_osdep_space.ios_reg_handle) !=
436 	    DDI_FM_OK) {
437 		ddi_fm_service_impact(i40e->i40e_dip, DDI_SERVICE_UNAFFECTED);
438 	}
439 }
440 
441 static int
442 i40e_stat_pf_kstat_update(kstat_t *ksp, int rw)
443 {
444 	i40e_t *i40e;
445 
446 	if (rw == KSTAT_WRITE)
447 		return (EACCES);
448 
449 	i40e = ksp->ks_private;
450 	i40e_stat_pf_update(i40e, B_FALSE);
451 	return (0);
452 }
453 
454 
455 static boolean_t
456 i40e_stat_pf_init(i40e_t *i40e)
457 {
458 	kstat_t *ksp;
459 	i40e_pf_kstats_t *ipk;
460 
461 	ksp = kstat_create(I40E_MODULE_NAME, ddi_get_instance(i40e->i40e_dip),
462 	    "pfstats", "net", KSTAT_TYPE_NAMED,
463 	    sizeof (i40e_pf_kstats_t) / sizeof (kstat_named_t), 0);
464 	if (ksp == NULL) {
465 		i40e_error(i40e, "Could not create kernel statistics.");
466 		return (B_FALSE);
467 	}
468 
469 	i40e->i40e_pf_kstat = ksp;
470 	ipk = ksp->ks_data;
471 	ksp->ks_update = i40e_stat_pf_kstat_update;
472 	ksp->ks_private = i40e;
473 
474 	kstat_named_init(&ipk->ipk_rx_bytes, "rx_bytes",
475 	    KSTAT_DATA_UINT64);
476 	kstat_named_init(&ipk->ipk_rx_unicast, "rx_unicast",
477 	    KSTAT_DATA_UINT64);
478 	kstat_named_init(&ipk->ipk_rx_multicast, "rx_multicast",
479 	    KSTAT_DATA_UINT64);
480 	kstat_named_init(&ipk->ipk_rx_broadcast, "rx_broadcast",
481 	    KSTAT_DATA_UINT64);
482 	kstat_named_init(&ipk->ipk_tx_bytes, "tx_bytes",
483 	    KSTAT_DATA_UINT64);
484 	kstat_named_init(&ipk->ipk_tx_unicast, "tx_unicast",
485 	    KSTAT_DATA_UINT64);
486 	kstat_named_init(&ipk->ipk_tx_multicast, "tx_multicast",
487 	    KSTAT_DATA_UINT64);
488 	kstat_named_init(&ipk->ipk_tx_broadcast, "tx_broadcast",
489 	    KSTAT_DATA_UINT64);
490 
491 	kstat_named_init(&ipk->ipk_rx_size_64, "rx_size_64",
492 	    KSTAT_DATA_UINT64);
493 	kstat_named_init(&ipk->ipk_rx_size_127, "rx_size_127",
494 	    KSTAT_DATA_UINT64);
495 	kstat_named_init(&ipk->ipk_rx_size_255, "rx_size_255",
496 	    KSTAT_DATA_UINT64);
497 	kstat_named_init(&ipk->ipk_rx_size_511, "rx_size_511",
498 	    KSTAT_DATA_UINT64);
499 	kstat_named_init(&ipk->ipk_rx_size_1023, "rx_size_1023",
500 	    KSTAT_DATA_UINT64);
501 	kstat_named_init(&ipk->ipk_rx_size_1522, "rx_size_1522",
502 	    KSTAT_DATA_UINT64);
503 	kstat_named_init(&ipk->ipk_rx_size_9522, "rx_size_9522",
504 	    KSTAT_DATA_UINT64);
505 
506 	kstat_named_init(&ipk->ipk_tx_size_64, "tx_size_64",
507 	    KSTAT_DATA_UINT64);
508 	kstat_named_init(&ipk->ipk_tx_size_127, "tx_size_127",
509 	    KSTAT_DATA_UINT64);
510 	kstat_named_init(&ipk->ipk_tx_size_255, "tx_size_255",
511 	    KSTAT_DATA_UINT64);
512 	kstat_named_init(&ipk->ipk_tx_size_511, "tx_size_511",
513 	    KSTAT_DATA_UINT64);
514 	kstat_named_init(&ipk->ipk_tx_size_1023, "tx_size_1023",
515 	    KSTAT_DATA_UINT64);
516 	kstat_named_init(&ipk->ipk_tx_size_1522, "tx_size_1522",
517 	    KSTAT_DATA_UINT64);
518 	kstat_named_init(&ipk->ipk_tx_size_9522, "tx_size_9522",
519 	    KSTAT_DATA_UINT64);
520 
521 	kstat_named_init(&ipk->ipk_link_xon_rx, "link_xon_rx",
522 	    KSTAT_DATA_UINT64);
523 	kstat_named_init(&ipk->ipk_link_xoff_rx, "link_xoff_rx",
524 	    KSTAT_DATA_UINT64);
525 	kstat_named_init(&ipk->ipk_link_xon_tx, "link_xon_tx",
526 	    KSTAT_DATA_UINT64);
527 	kstat_named_init(&ipk->ipk_link_xoff_tx, "link_xoff_tx",
528 	    KSTAT_DATA_UINT64);
529 
530 	kstat_named_init(&ipk->ipk_priority_xon_rx[0], "priority_xon_rx[0]",
531 	    KSTAT_DATA_UINT64);
532 	kstat_named_init(&ipk->ipk_priority_xoff_rx[0], "priority_xoff_rx[0]",
533 	    KSTAT_DATA_UINT64);
534 	kstat_named_init(&ipk->ipk_priority_xon_tx[0], "priority_xon_tx[0]",
535 	    KSTAT_DATA_UINT64);
536 	kstat_named_init(&ipk->ipk_priority_xoff_tx[0], "priority_xoff_tx[0]",
537 	    KSTAT_DATA_UINT64);
538 	kstat_named_init(&ipk->ipk_priority_xon_2_xoff[0],
539 	    "priority_xon_2_xoff[0]",
540 	    KSTAT_DATA_UINT64);
541 
542 	kstat_named_init(&ipk->ipk_priority_xon_rx[1], "priority_xon_rx[1]",
543 	    KSTAT_DATA_UINT64);
544 	kstat_named_init(&ipk->ipk_priority_xoff_rx[1], "priority_xoff_rx[1]",
545 	    KSTAT_DATA_UINT64);
546 	kstat_named_init(&ipk->ipk_priority_xon_tx[1], "priority_xon_tx[1]",
547 	    KSTAT_DATA_UINT64);
548 	kstat_named_init(&ipk->ipk_priority_xoff_tx[1], "priority_xoff_tx[1]",
549 	    KSTAT_DATA_UINT64);
550 	kstat_named_init(&ipk->ipk_priority_xon_2_xoff[1],
551 	    "priority_xon_2_xoff[1]",
552 	    KSTAT_DATA_UINT64);
553 
554 	kstat_named_init(&ipk->ipk_priority_xon_rx[2], "priority_xon_rx[2]",
555 	    KSTAT_DATA_UINT64);
556 	kstat_named_init(&ipk->ipk_priority_xoff_rx[2], "priority_xoff_rx[2]",
557 	    KSTAT_DATA_UINT64);
558 	kstat_named_init(&ipk->ipk_priority_xon_tx[2], "priority_xon_tx[2]",
559 	    KSTAT_DATA_UINT64);
560 	kstat_named_init(&ipk->ipk_priority_xoff_tx[2], "priority_xoff_tx[2]",
561 	    KSTAT_DATA_UINT64);
562 	kstat_named_init(&ipk->ipk_priority_xon_2_xoff[2],
563 	    "priority_xon_2_xoff[2]",
564 	    KSTAT_DATA_UINT64);
565 
566 	kstat_named_init(&ipk->ipk_priority_xon_rx[3], "priority_xon_rx[3]",
567 	    KSTAT_DATA_UINT64);
568 	kstat_named_init(&ipk->ipk_priority_xoff_rx[3], "priority_xoff_rx[3]",
569 	    KSTAT_DATA_UINT64);
570 	kstat_named_init(&ipk->ipk_priority_xon_tx[3], "priority_xon_tx[3]",
571 	    KSTAT_DATA_UINT64);
572 	kstat_named_init(&ipk->ipk_priority_xoff_tx[3], "priority_xoff_tx[3]",
573 	    KSTAT_DATA_UINT64);
574 	kstat_named_init(&ipk->ipk_priority_xon_2_xoff[3],
575 	    "priority_xon_2_xoff[3]",
576 	    KSTAT_DATA_UINT64);
577 
578 	kstat_named_init(&ipk->ipk_priority_xon_rx[4], "priority_xon_rx[4]",
579 	    KSTAT_DATA_UINT64);
580 	kstat_named_init(&ipk->ipk_priority_xoff_rx[4], "priority_xoff_rx[4]",
581 	    KSTAT_DATA_UINT64);
582 	kstat_named_init(&ipk->ipk_priority_xon_tx[4], "priority_xon_tx[4]",
583 	    KSTAT_DATA_UINT64);
584 	kstat_named_init(&ipk->ipk_priority_xoff_tx[4], "priority_xoff_tx[4]",
585 	    KSTAT_DATA_UINT64);
586 	kstat_named_init(&ipk->ipk_priority_xon_2_xoff[4],
587 	    "priority_xon_2_xoff[4]",
588 	    KSTAT_DATA_UINT64);
589 
590 	kstat_named_init(&ipk->ipk_priority_xon_rx[5], "priority_xon_rx[5]",
591 	    KSTAT_DATA_UINT64);
592 	kstat_named_init(&ipk->ipk_priority_xoff_rx[5], "priority_xoff_rx[5]",
593 	    KSTAT_DATA_UINT64);
594 	kstat_named_init(&ipk->ipk_priority_xon_tx[5], "priority_xon_tx[5]",
595 	    KSTAT_DATA_UINT64);
596 	kstat_named_init(&ipk->ipk_priority_xoff_tx[5], "priority_xoff_tx[5]",
597 	    KSTAT_DATA_UINT64);
598 	kstat_named_init(&ipk->ipk_priority_xon_2_xoff[5],
599 	    "priority_xon_2_xoff[5]",
600 	    KSTAT_DATA_UINT64);
601 
602 	kstat_named_init(&ipk->ipk_priority_xon_rx[6], "priority_xon_rx[6]",
603 	    KSTAT_DATA_UINT64);
604 	kstat_named_init(&ipk->ipk_priority_xoff_rx[6], "priority_xoff_rx[6]",
605 	    KSTAT_DATA_UINT64);
606 	kstat_named_init(&ipk->ipk_priority_xon_tx[6], "priority_xon_tx[6]",
607 	    KSTAT_DATA_UINT64);
608 	kstat_named_init(&ipk->ipk_priority_xoff_tx[6], "priority_xoff_tx[6]",
609 	    KSTAT_DATA_UINT64);
610 	kstat_named_init(&ipk->ipk_priority_xon_2_xoff[6],
611 	    "priority_xon_2_xoff[6]",
612 	    KSTAT_DATA_UINT64);
613 
614 	kstat_named_init(&ipk->ipk_priority_xon_rx[7], "priority_xon_rx[7]",
615 	    KSTAT_DATA_UINT64);
616 	kstat_named_init(&ipk->ipk_priority_xoff_rx[7], "priority_xoff_rx[7]",
617 	    KSTAT_DATA_UINT64);
618 	kstat_named_init(&ipk->ipk_priority_xon_tx[7], "priority_xon_tx[7]",
619 	    KSTAT_DATA_UINT64);
620 	kstat_named_init(&ipk->ipk_priority_xoff_tx[7], "priority_xoff_tx[7]",
621 	    KSTAT_DATA_UINT64);
622 	kstat_named_init(&ipk->ipk_priority_xon_2_xoff[7],
623 	    "priority_xon_2_xoff[7]",
624 	    KSTAT_DATA_UINT64);
625 
626 	kstat_named_init(&ipk->ipk_crc_errors, "crc_errors",
627 	    KSTAT_DATA_UINT64);
628 	kstat_named_init(&ipk->ipk_illegal_bytes, "illegal_bytes",
629 	    KSTAT_DATA_UINT64);
630 	kstat_named_init(&ipk->ipk_mac_local_faults, "mac_local_faults",
631 	    KSTAT_DATA_UINT64);
632 	kstat_named_init(&ipk->ipk_mac_remote_faults, "mac_remote_faults",
633 	    KSTAT_DATA_UINT64);
634 	kstat_named_init(&ipk->ipk_rx_length_errors, "rx_length_errors",
635 	    KSTAT_DATA_UINT64);
636 	kstat_named_init(&ipk->ipk_rx_undersize, "rx_undersize",
637 	    KSTAT_DATA_UINT64);
638 	kstat_named_init(&ipk->ipk_rx_fragments, "rx_fragments",
639 	    KSTAT_DATA_UINT64);
640 	kstat_named_init(&ipk->ipk_rx_oversize, "rx_oversize",
641 	    KSTAT_DATA_UINT64);
642 	kstat_named_init(&ipk->ipk_rx_jabber, "rx_jabber",
643 	    KSTAT_DATA_UINT64);
644 	kstat_named_init(&ipk->ipk_rx_discards, "rx_discards",
645 	    KSTAT_DATA_UINT64);
646 	kstat_named_init(&ipk->ipk_rx_vm_discards, "rx_vm_discards",
647 	    KSTAT_DATA_UINT64);
648 	kstat_named_init(&ipk->ipk_rx_short_discards, "rx_short_discards",
649 	    KSTAT_DATA_UINT64);
650 	kstat_named_init(&ipk->ipk_tx_dropped_link_down, "tx_dropped_link_down",
651 	    KSTAT_DATA_UINT64);
652 	kstat_named_init(&ipk->ipk_rx_unknown_protocol, "rx_unknown_protocol",
653 	    KSTAT_DATA_UINT64);
654 	kstat_named_init(&ipk->ipk_rx_err1, "rx_err1",
655 	    KSTAT_DATA_UINT64);
656 	kstat_named_init(&ipk->ipk_rx_err2, "rx_err2",
657 	    KSTAT_DATA_UINT64);
658 
659 
660 	bzero(&i40e->i40e_pf_stat, sizeof (i40e_pf_stats_t));
661 	i40e_stat_pf_update(i40e, B_TRUE);
662 
663 	kstat_install(i40e->i40e_pf_kstat);
664 
665 	return (B_TRUE);
666 }
667 
668 void
669 i40e_stats_fini(i40e_t *i40e)
670 {
671 #ifdef DEBUG
672 	for (uint_t i = 0; i < i40e->i40e_num_rx_groups; i++) {
673 		ASSERT3P(i40e->i40e_vsis[i].iv_kstats, ==, NULL);
674 	}
675 #endif
676 
677 	if (i40e->i40e_pf_kstat != NULL) {
678 		kstat_delete(i40e->i40e_pf_kstat);
679 		i40e->i40e_pf_kstat = NULL;
680 	}
681 
682 	mutex_destroy(&i40e->i40e_stat_lock);
683 }
684 
685 boolean_t
686 i40e_stats_init(i40e_t *i40e)
687 {
688 	mutex_init(&i40e->i40e_stat_lock, NULL, MUTEX_DRIVER, NULL);
689 	if (i40e_stat_pf_init(i40e) == B_FALSE) {
690 		mutex_destroy(&i40e->i40e_stat_lock);
691 		return (B_FALSE);
692 	}
693 
694 	return (B_TRUE);
695 }
696 
697 /*
698  * For Nemo/GLDv3.
699  */
700 int
701 i40e_m_stat(void *arg, uint_t stat, uint64_t *val)
702 {
703 	i40e_t *i40e = (i40e_t *)arg;
704 	i40e_hw_t *hw = &i40e->i40e_hw_space;
705 	int port = i40e->i40e_hw_space.port;
706 	i40e_pf_stats_t *ips;
707 	i40e_pf_kstats_t *ipk;
708 
709 
710 	ASSERT(i40e->i40e_pf_kstat != NULL);
711 	ips = &i40e->i40e_pf_stat;
712 	ipk = i40e->i40e_pf_kstat->ks_data;
713 
714 	/*
715 	 * We need both locks, as various stats are protected by different
716 	 * things here.
717 	 */
718 	mutex_enter(&i40e->i40e_general_lock);
719 
720 	if (i40e->i40e_state & I40E_SUSPENDED) {
721 		mutex_exit(&i40e->i40e_general_lock);
722 		return (ECANCELED);
723 	}
724 
725 	mutex_enter(&i40e->i40e_stat_lock);
726 
727 	/*
728 	 * Unfortunately the GLDv3 conflates two rather different things here.
729 	 * We're combining statistics about the physical port represented by
730 	 * this instance with statistics that describe the properties of the
731 	 * logical interface. As such, we're going to use the various aspects of
732 	 * the port to describe these stats as they represent what the physical
733 	 * instance is doing, even though that that means some tools may be
734 	 * confused and that to see the logical traffic on the interface itself
735 	 * sans VNICs and the like will require more work.
736 	 *
737 	 * Stats which are not listed in this switch statement are unimplemented
738 	 * at this time in hardware or don't currently apply to the device.
739 	 */
740 	switch (stat) {
741 	/* MIB-II stats (RFC 1213 and RFC 1573) */
742 	case MAC_STAT_IFSPEED:
743 		*val = i40e->i40e_link_speed * 1000000ull;
744 		break;
745 	case MAC_STAT_MULTIRCV:
746 		i40e_stat_get_uint48(i40e, I40E_GLPRT_MPRCL(port),
747 		    &ipk->ipk_rx_multicast, &ips->ips_rx_multicast, B_FALSE);
748 		*val = ipk->ipk_rx_multicast.value.ui64;
749 		break;
750 	case MAC_STAT_BRDCSTRCV:
751 		i40e_stat_get_uint48(i40e, I40E_GLPRT_BPRCL(port),
752 		    &ipk->ipk_rx_broadcast, &ips->ips_rx_broadcast, B_FALSE);
753 		*val = ipk->ipk_rx_broadcast.value.ui64;
754 		break;
755 	case MAC_STAT_MULTIXMT:
756 		i40e_stat_get_uint48(i40e, I40E_GLPRT_MPTCL(port),
757 		    &ipk->ipk_tx_multicast, &ips->ips_tx_multicast, B_FALSE);
758 		*val = ipk->ipk_tx_multicast.value.ui64;
759 		break;
760 	case MAC_STAT_BRDCSTXMT:
761 		i40e_stat_get_uint48(i40e, I40E_GLPRT_BPTCL(port),
762 		    &ipk->ipk_tx_broadcast, &ips->ips_tx_broadcast, B_FALSE);
763 		*val = ipk->ipk_tx_broadcast.value.ui64;
764 		break;
765 	case MAC_STAT_NORCVBUF:
766 		i40e_stat_get_uint32(i40e, I40E_GLPRT_RDPC(port),
767 		    &ipk->ipk_rx_discards, &ips->ips_rx_discards, B_FALSE);
768 		i40e_stat_get_uint32(i40e, I40E_GLPRT_LDPC(port),
769 		    &ipk->ipk_rx_vm_discards, &ips->ips_rx_vm_discards,
770 		    B_FALSE);
771 		*val = ipk->ipk_rx_discards.value.ui64 +
772 		    ipk->ipk_rx_vm_discards.value.ui64;
773 		break;
774 	/*
775 	 * Note, that some RXERR2 stats are also duplicated by the switch filter
776 	 * stats; however, since we're not using those at this time, it seems
777 	 * reasonable to include them.
778 	 */
779 	case MAC_STAT_IERRORS:
780 		i40e_stat_get_uint32(i40e, I40E_GLPRT_CRCERRS(port),
781 		    &ipk->ipk_crc_errors, &ips->ips_crc_errors, B_FALSE);
782 		i40e_stat_get_uint32(i40e, I40E_GLPRT_ILLERRC(port),
783 		    &ipk->ipk_illegal_bytes, &ips->ips_illegal_bytes, B_FALSE);
784 		i40e_stat_get_uint32(i40e, I40E_GLPRT_RLEC(port),
785 		    &ipk->ipk_rx_length_errors, &ips->ips_rx_length_errors,
786 		    B_FALSE);
787 		i40e_stat_get_uint48(i40e, I40E_GL_RXERR1_L(port),
788 		    &ipk->ipk_rx_err1, &ips->ips_rx_err1, B_FALSE);
789 		i40e_stat_get_uint48(i40e, I40E_GL_RXERR2_L(port),
790 		    &ipk->ipk_rx_err2, &ips->ips_rx_err2, B_FALSE);
791 
792 		*val = ipk->ipk_crc_errors.value.ui64 +
793 		    ipk->ipk_illegal_bytes.value.ui64 +
794 		    ipk->ipk_rx_length_errors.value.ui64 +
795 		    ipk->ipk_rx_err1.value.ui64 +
796 		    ipk->ipk_rx_err2.value.ui64;
797 		break;
798 	case MAC_STAT_UNKNOWNS:
799 		i40e_stat_get_uint32(i40e, I40E_GLPRT_RUPP(port),
800 		    &ipk->ipk_rx_unknown_protocol,
801 		    &ips->ips_rx_unknown_protocol,
802 		    B_FALSE);
803 		*val = ipk->ipk_rx_unknown_protocol.value.ui64;
804 		break;
805 	case MAC_STAT_RBYTES:
806 		i40e_stat_get_uint48(i40e, I40E_GLPRT_GORCL(port),
807 		    &ipk->ipk_rx_bytes, &ips->ips_rx_bytes, B_FALSE);
808 		*val = ipk->ipk_rx_bytes.value.ui64;
809 		break;
810 	case MAC_STAT_IPACKETS:
811 		i40e_stat_get_uint48(i40e, I40E_GLPRT_UPRCL(port),
812 		    &ipk->ipk_rx_unicast, &ips->ips_rx_unicast, B_FALSE);
813 		i40e_stat_get_uint48(i40e, I40E_GLPRT_MPRCL(port),
814 		    &ipk->ipk_rx_multicast, &ips->ips_rx_multicast, B_FALSE);
815 		i40e_stat_get_uint48(i40e, I40E_GLPRT_BPRCL(port),
816 		    &ipk->ipk_rx_broadcast, &ips->ips_rx_broadcast, B_FALSE);
817 		*val = ipk->ipk_rx_unicast.value.ui64 +
818 		    ipk->ipk_rx_multicast.value.ui64 +
819 		    ipk->ipk_rx_broadcast.value.ui64;
820 		break;
821 	case MAC_STAT_OBYTES:
822 		i40e_stat_get_uint48(i40e, I40E_GLPRT_GOTCL(port),
823 		    &ipk->ipk_tx_bytes, &ips->ips_tx_bytes, B_FALSE);
824 		*val = ipk->ipk_tx_bytes.value.ui64;
825 		break;
826 	case MAC_STAT_OPACKETS:
827 		i40e_stat_get_uint48(i40e, I40E_GLPRT_UPTCL(port),
828 		    &ipk->ipk_tx_unicast, &ips->ips_tx_unicast, B_FALSE);
829 		i40e_stat_get_uint48(i40e, I40E_GLPRT_MPTCL(port),
830 		    &ipk->ipk_tx_multicast, &ips->ips_tx_multicast, B_FALSE);
831 		i40e_stat_get_uint48(i40e, I40E_GLPRT_BPTCL(port),
832 		    &ipk->ipk_tx_broadcast, &ips->ips_tx_broadcast, B_FALSE);
833 		*val = ipk->ipk_tx_unicast.value.ui64 +
834 		    ipk->ipk_tx_multicast.value.ui64 +
835 		    ipk->ipk_tx_broadcast.value.ui64;
836 		break;
837 	case MAC_STAT_UNDERFLOWS:
838 		i40e_stat_get_uint32(i40e, I40E_GLPRT_RUC(port),
839 		    &ipk->ipk_rx_undersize, &ips->ips_rx_undersize, B_FALSE);
840 		i40e_stat_get_uint32(i40e, I40E_GLPRT_RFC(port),
841 		    &ipk->ipk_rx_fragments, &ips->ips_rx_fragments, B_FALSE);
842 		i40e_stat_get_uint32(i40e, I40E_GLPRT_MSPDC(port),
843 		    &ipk->ipk_rx_short_discards, &ips->ips_rx_short_discards,
844 		    B_FALSE);
845 		*val = ipk->ipk_rx_undersize.value.ui64 +
846 		    ipk->ipk_rx_fragments.value.ui64 +
847 		    ipk->ipk_rx_short_discards.value.ui64;
848 		break;
849 	case MAC_STAT_OVERFLOWS:
850 		i40e_stat_get_uint32(i40e, I40E_GLPRT_ROC(port),
851 		    &ipk->ipk_rx_oversize, &ips->ips_rx_oversize, B_FALSE);
852 		i40e_stat_get_uint32(i40e, I40E_GLPRT_RJC(port),
853 		    &ipk->ipk_rx_jabber, &ips->ips_rx_jabber, B_FALSE);
854 		*val = ipk->ipk_rx_oversize.value.ui64 +
855 		    ipk->ipk_rx_fragments.value.ui64;
856 		break;
857 
858 	/* RFC 1643 stats */
859 	case ETHER_STAT_FCS_ERRORS:
860 		i40e_stat_get_uint32(i40e, I40E_GLPRT_CRCERRS(port),
861 		    &ipk->ipk_crc_errors, &ips->ips_crc_errors, B_FALSE);
862 		*val = ipk->ipk_crc_errors.value.ui64;
863 		break;
864 	case ETHER_STAT_TOOLONG_ERRORS:
865 		i40e_stat_get_uint32(i40e, I40E_GLPRT_ROC(port),
866 		    &ipk->ipk_rx_oversize, &ips->ips_rx_oversize, B_FALSE);
867 		*val = ipk->ipk_rx_oversize.value.ui64;
868 		break;
869 	case ETHER_STAT_MACRCV_ERRORS:
870 		i40e_stat_get_uint32(i40e, I40E_GLPRT_ILLERRC(port),
871 		    &ipk->ipk_illegal_bytes, &ips->ips_illegal_bytes, B_FALSE);
872 		i40e_stat_get_uint32(i40e, I40E_GLPRT_RLEC(port),
873 		    &ipk->ipk_rx_length_errors, &ips->ips_rx_length_errors,
874 		    B_FALSE);
875 		i40e_stat_get_uint32(i40e, I40E_GLPRT_RFC(port),
876 		    &ipk->ipk_rx_fragments, &ips->ips_rx_fragments, B_FALSE);
877 		*val = ipk->ipk_illegal_bytes.value.ui64 +
878 		    ipk->ipk_rx_length_errors.value.ui64 +
879 		    ipk->ipk_rx_fragments.value.ui64;
880 		break;
881 	/* MII/GMII stats */
882 
883 	/*
884 	 * The receiver address is apparently the same as the port number.
885 	 */
886 	case ETHER_STAT_XCVR_ADDR:
887 		/* The Receiver address is apparently the same as the port */
888 		*val = i40e->i40e_hw_space.port;
889 		break;
890 	case ETHER_STAT_XCVR_ID:
891 		switch (hw->phy.media_type) {
892 		case I40E_MEDIA_TYPE_BASET:
893 			/*
894 			 * Transform the data here into the ID. Note, generally
895 			 * the revision is left out.
896 			 */
897 			*val = i40e->i40e_phy.phy_id[3] << 24 |
898 			    i40e->i40e_phy.phy_id[2] << 16 |
899 			    i40e->i40e_phy.phy_id[1] << 8;
900 			break;
901 		case I40E_MEDIA_TYPE_FIBER:
902 		case I40E_MEDIA_TYPE_BACKPLANE:
903 		case I40E_MEDIA_TYPE_CX4:
904 		case I40E_MEDIA_TYPE_DA:
905 		case I40E_MEDIA_TYPE_VIRTUAL:
906 			*val = i40e->i40e_phy.phy_id[0] |
907 			    i40e->i40e_phy.phy_id[1] << 8 |
908 			    i40e->i40e_phy.phy_id[2] << 16;
909 			break;
910 		case I40E_MEDIA_TYPE_UNKNOWN:
911 		default:
912 			goto unimpl;
913 		}
914 		break;
915 	case ETHER_STAT_XCVR_INUSE:
916 		switch (hw->phy.link_info.phy_type) {
917 		case I40E_PHY_TYPE_100BASE_TX:
918 			*val = XCVR_100T2;
919 			break;
920 		case I40E_PHY_TYPE_1000BASE_T:
921 			*val = XCVR_1000T;
922 			break;
923 		default:
924 			*val = XCVR_UNDEFINED;
925 			break;
926 		}
927 		break;
928 
929 	/*
930 	 * This group answers the question of do we support a given speed in
931 	 * theory.
932 	 */
933 	case ETHER_STAT_CAP_100FDX:
934 		*val = (i40e->i40e_phy.link_speed & I40E_LINK_SPEED_100MB) != 0;
935 		break;
936 	case ETHER_STAT_CAP_1000FDX:
937 		*val = (i40e->i40e_phy.link_speed & I40E_LINK_SPEED_1GB) != 0;
938 		break;
939 	case ETHER_STAT_CAP_2500FDX:
940 		*val = (i40e->i40e_phy.link_speed & I40E_LINK_SPEED_2_5GB) != 0;
941 		break;
942 	case ETHER_STAT_CAP_5000FDX:
943 		*val = (i40e->i40e_phy.link_speed & I40E_LINK_SPEED_5GB) != 0;
944 		break;
945 	case ETHER_STAT_CAP_10GFDX:
946 		*val = (i40e->i40e_phy.link_speed & I40E_LINK_SPEED_10GB) != 0;
947 		break;
948 	case ETHER_STAT_CAP_25GFDX:
949 		*val = (i40e->i40e_phy.link_speed & I40E_LINK_SPEED_25GB) != 0;
950 		break;
951 	case ETHER_STAT_CAP_40GFDX:
952 		*val = (i40e->i40e_phy.link_speed & I40E_LINK_SPEED_40GB) != 0;
953 		break;
954 
955 	/*
956 	 * These ask are we currently advertising these speeds and abilities.
957 	 * Until we support setting these because we're working with a copper
958 	 * PHY, then the only things we advertise are based on the link PHY
959 	 * speeds. In other words, we advertise everything we support.
960 	 */
961 	case ETHER_STAT_ADV_CAP_100FDX:
962 		*val = (i40e->i40e_phy.link_speed & I40E_LINK_SPEED_100MB) != 0;
963 		break;
964 	case ETHER_STAT_ADV_CAP_1000FDX:
965 		*val = (i40e->i40e_phy.link_speed & I40E_LINK_SPEED_1GB) != 0;
966 		break;
967 	case ETHER_STAT_ADV_CAP_2500FDX:
968 		*val = (i40e->i40e_phy.link_speed & I40E_LINK_SPEED_2_5GB) != 0;
969 		break;
970 	case ETHER_STAT_ADV_CAP_5000FDX:
971 		*val = (i40e->i40e_phy.link_speed & I40E_LINK_SPEED_5GB) != 0;
972 		break;
973 	case ETHER_STAT_ADV_CAP_10GFDX:
974 		*val = (i40e->i40e_phy.link_speed & I40E_LINK_SPEED_10GB) != 0;
975 		break;
976 	case ETHER_STAT_ADV_CAP_25GFDX:
977 		*val = (i40e->i40e_phy.link_speed & I40E_LINK_SPEED_25GB) != 0;
978 		break;
979 	case ETHER_STAT_ADV_CAP_40GFDX:
980 		*val = (i40e->i40e_phy.link_speed & I40E_LINK_SPEED_40GB) != 0;
981 		break;
982 
983 	/*
984 	 * These ask if the peer supports these speeds, e.g. what did they tell
985 	 * us in auto-negotiation. Unfortunately, hardware doesn't appear to
986 	 * give us a way to determine whether or not they actually support
987 	 * something, only what they have enabled. This means that all we can
988 	 * tell the user is the speed that we're currently at, unfortunately.
989 	 */
990 	case ETHER_STAT_LP_CAP_100FDX:
991 		*val = i40e->i40e_link_speed == 100;
992 		break;
993 	case ETHER_STAT_LP_CAP_1000FDX:
994 		*val = i40e->i40e_link_speed == 1000;
995 		break;
996 	case ETHER_STAT_LP_CAP_2500FDX:
997 		*val = i40e->i40e_link_speed == 2500;
998 		break;
999 	case ETHER_STAT_LP_CAP_5000FDX:
1000 		*val = i40e->i40e_link_speed == 5000;
1001 		break;
1002 	case ETHER_STAT_LP_CAP_10GFDX:
1003 		*val = i40e->i40e_link_speed == 10000;
1004 		break;
1005 	case ETHER_STAT_LP_CAP_25GFDX:
1006 		*val = i40e->i40e_link_speed == 25000;
1007 		break;
1008 	case ETHER_STAT_LP_CAP_40GFDX:
1009 		*val = i40e->i40e_link_speed == 40000;
1010 		break;
1011 
1012 	/*
1013 	 * Statistics for unsupported speeds. Note that these often have the
1014 	 * same constraints as the other ones. For example, we can't answer the
1015 	 * question of the ETHER_STAT_LP_CAP family because hardware doesn't
1016 	 * give us any way of knowing whether or not it does.
1017 	 */
1018 	case ETHER_STAT_CAP_100HDX:
1019 	case ETHER_STAT_CAP_1000HDX:
1020 	case ETHER_STAT_CAP_10FDX:
1021 	case ETHER_STAT_CAP_10HDX:
1022 	case ETHER_STAT_CAP_100T4:
1023 	case ETHER_STAT_CAP_100GFDX:
1024 	case ETHER_STAT_CAP_50GFDX:
1025 	case ETHER_STAT_ADV_CAP_1000HDX:
1026 	case ETHER_STAT_ADV_CAP_100HDX:
1027 	case ETHER_STAT_ADV_CAP_10FDX:
1028 	case ETHER_STAT_ADV_CAP_10HDX:
1029 	case ETHER_STAT_ADV_CAP_100T4:
1030 	case ETHER_STAT_ADV_CAP_100GFDX:
1031 	case ETHER_STAT_ADV_CAP_50GFDX:
1032 	case ETHER_STAT_LP_CAP_1000HDX:
1033 	case ETHER_STAT_LP_CAP_100HDX:
1034 	case ETHER_STAT_LP_CAP_10FDX:
1035 	case ETHER_STAT_LP_CAP_10HDX:
1036 	case ETHER_STAT_LP_CAP_100T4:
1037 	case ETHER_STAT_LP_CAP_100GFDX:
1038 	case ETHER_STAT_LP_CAP_50GFDX:
1039 		*val = 0;
1040 		break;
1041 
1042 	case ETHER_STAT_LINK_DUPLEX:
1043 		*val = i40e->i40e_link_duplex;
1044 		break;
1045 	case ETHER_STAT_TOOSHORT_ERRORS:
1046 		i40e_stat_get_uint32(i40e, I40E_GLPRT_RUC(port),
1047 		    &ipk->ipk_rx_undersize, &ips->ips_rx_undersize, B_FALSE);
1048 
1049 		i40e_stat_get_uint32(i40e, I40E_GLPRT_MSPDC(port),
1050 		    &ipk->ipk_rx_short_discards, &ips->ips_rx_short_discards,
1051 		    B_FALSE);
1052 		*val = ipk->ipk_rx_undersize.value.ui64 +
1053 		    ipk->ipk_rx_short_discards.value.ui64;
1054 		break;
1055 	case ETHER_STAT_JABBER_ERRORS:
1056 		i40e_stat_get_uint32(i40e, I40E_GLPRT_RJC(port),
1057 		    &ipk->ipk_rx_jabber, &ips->ips_rx_jabber, B_FALSE);
1058 		*val = ipk->ipk_rx_jabber.value.ui64;
1059 		break;
1060 
1061 	/*
1062 	 * Non-Link speed related capabilities.
1063 	 */
1064 	case ETHER_STAT_CAP_AUTONEG:
1065 		*val = 1;
1066 		break;
1067 
1068 	case ETHER_STAT_ADV_CAP_AUTONEG:
1069 		*val = 1;
1070 		break;
1071 
1072 	case ETHER_STAT_LP_CAP_AUTONEG:
1073 		*val = (hw->phy.link_info.an_info & I40E_AQ_LP_AN_ABILITY) != 0;
1074 		break;
1075 
1076 	case ETHER_STAT_LINK_AUTONEG:
1077 		*val = 1;
1078 		break;
1079 
1080 	/*
1081 	 * Note that while the hardware does support the pause functionality, at
1082 	 * this time we do not use it at all and effectively disable it.
1083 	 */
1084 	case ETHER_STAT_CAP_ASMPAUSE:
1085 		*val = (i40e->i40e_phy.abilities &
1086 		    I40E_AQ_PHY_FLAG_PAUSE_RX) != 0;
1087 		break;
1088 	case ETHER_STAT_CAP_PAUSE:
1089 		*val = (i40e->i40e_phy.abilities &
1090 		    I40E_AQ_PHY_FLAG_PAUSE_TX) != 0;
1091 		break;
1092 
1093 	/*
1094 	 * Because we don't support these at this time, they are always
1095 	 * hard-coded to zero.
1096 	 */
1097 	case ETHER_STAT_ADV_CAP_ASMPAUSE:
1098 	case ETHER_STAT_ADV_CAP_PAUSE:
1099 		*val = 0;
1100 		break;
1101 
1102 	/*
1103 	 * Like the other LP fields, we can only answer the question have we
1104 	 * enabled it, not whether the other end actually supports it.
1105 	 */
1106 	case ETHER_STAT_LP_CAP_ASMPAUSE:
1107 	case ETHER_STAT_LINK_ASMPAUSE:
1108 		*val = (hw->phy.link_info.an_info & I40E_AQ_LINK_PAUSE_RX) != 0;
1109 		break;
1110 	case ETHER_STAT_LP_CAP_PAUSE:
1111 	case ETHER_STAT_LINK_PAUSE:
1112 		*val = (hw->phy.link_info.an_info & I40E_AQ_LINK_PAUSE_TX) != 0;
1113 		break;
1114 
1115 	default:
1116 	unimpl:
1117 		mutex_exit(&i40e->i40e_stat_lock);
1118 		mutex_exit(&i40e->i40e_general_lock);
1119 		return (ENOTSUP);
1120 	}
1121 
1122 	mutex_exit(&i40e->i40e_stat_lock);
1123 	mutex_exit(&i40e->i40e_general_lock);
1124 
1125 	if (i40e_check_acc_handle(i40e->i40e_osdep_space.ios_reg_handle) !=
1126 	    DDI_FM_OK) {
1127 		ddi_fm_service_impact(i40e->i40e_dip, DDI_SERVICE_DEGRADED);
1128 		return (EIO);
1129 	}
1130 
1131 	return (0);
1132 }
1133 
1134 int
1135 i40e_rx_ring_stat(mac_ring_driver_t rh, uint_t stat, uint64_t *val)
1136 {
1137 	i40e_trqpair_t *itrq = (i40e_trqpair_t *)rh;
1138 	i40e_t *i40e = itrq->itrq_i40e;
1139 
1140 	if (i40e->i40e_state & I40E_SUSPENDED) {
1141 		return (ECANCELED);
1142 	}
1143 
1144 	switch (stat) {
1145 	case MAC_STAT_RBYTES:
1146 		*val = itrq->itrq_rxstat.irxs_bytes.value.ui64;
1147 		break;
1148 	case MAC_STAT_IPACKETS:
1149 		*val = itrq->itrq_rxstat.irxs_packets.value.ui64;
1150 		break;
1151 	default:
1152 		*val = 0;
1153 		return (ENOTSUP);
1154 	}
1155 
1156 	return (0);
1157 }
1158 
1159 int
1160 i40e_tx_ring_stat(mac_ring_driver_t rh, uint_t stat, uint64_t *val)
1161 {
1162 	i40e_trqpair_t *itrq = (i40e_trqpair_t *)rh;
1163 	i40e_t *i40e = itrq->itrq_i40e;
1164 
1165 	if (i40e->i40e_state & I40E_SUSPENDED) {
1166 		return (ECANCELED);
1167 	}
1168 
1169 	switch (stat) {
1170 	case MAC_STAT_OBYTES:
1171 		*val = itrq->itrq_txstat.itxs_bytes.value.ui64;
1172 		break;
1173 	case MAC_STAT_OPACKETS:
1174 		*val = itrq->itrq_txstat.itxs_packets.value.ui64;
1175 		break;
1176 	default:
1177 		*val = 0;
1178 		return (ENOTSUP);
1179 	}
1180 
1181 	return (0);
1182 }
1183 
1184 /*
1185  * When we end up refactoring all off the queue assignments and have non-static
1186  * queue to VSI mappings, then we may need to revisit the general locking
1187  * strategy that we employ and have the kstat creation / deletion be part of the
1188  * ring start and stop routines.
1189  */
1190 void
1191 i40e_stats_trqpair_fini(i40e_trqpair_t *itrq)
1192 {
1193 	if (itrq->itrq_txkstat != NULL) {
1194 		kstat_delete(itrq->itrq_txkstat);
1195 		itrq->itrq_txkstat = NULL;
1196 	}
1197 
1198 	if (itrq->itrq_rxkstat != NULL) {
1199 		kstat_delete(itrq->itrq_rxkstat);
1200 		itrq->itrq_rxkstat = NULL;
1201 	}
1202 }
1203 
1204 boolean_t
1205 i40e_stats_trqpair_init(i40e_trqpair_t *itrq)
1206 {
1207 	char buf[128];
1208 	i40e_t *i40e = itrq->itrq_i40e;
1209 	i40e_txq_stat_t *tsp = &itrq->itrq_txstat;
1210 	i40e_rxq_stat_t *rsp = &itrq->itrq_rxstat;
1211 
1212 	(void) snprintf(buf, sizeof (buf), "trqpair_tx_%d", itrq->itrq_index);
1213 	itrq->itrq_txkstat = kstat_create(I40E_MODULE_NAME,
1214 	    ddi_get_instance(i40e->i40e_dip), buf, "net", KSTAT_TYPE_NAMED,
1215 	    sizeof (i40e_txq_stat_t) / sizeof (kstat_named_t),
1216 	    KSTAT_FLAG_VIRTUAL);
1217 
1218 	if (itrq->itrq_txkstat == NULL)
1219 		return (B_FALSE);
1220 
1221 	(void) snprintf(buf, sizeof (buf), "trqpair_rx_%d", itrq->itrq_index);
1222 	itrq->itrq_rxkstat = kstat_create(I40E_MODULE_NAME,
1223 	    ddi_get_instance(i40e->i40e_dip), buf, "net", KSTAT_TYPE_NAMED,
1224 	    sizeof (i40e_rxq_stat_t) / sizeof (kstat_named_t),
1225 	    KSTAT_FLAG_VIRTUAL);
1226 
1227 	if (itrq->itrq_rxkstat == NULL) {
1228 		kstat_delete(itrq->itrq_txkstat);
1229 		itrq->itrq_txkstat = NULL;
1230 		return (B_FALSE);
1231 	}
1232 
1233 	itrq->itrq_txkstat->ks_data = &itrq->itrq_txstat;
1234 	itrq->itrq_rxkstat->ks_data = &itrq->itrq_rxstat;
1235 
1236 	kstat_named_init(&tsp->itxs_bytes, "tx_bytes",
1237 	    KSTAT_DATA_UINT64);
1238 	tsp->itxs_bytes.value.ui64 = 0;
1239 	kstat_named_init(&tsp->itxs_packets, "tx_packets",
1240 	    KSTAT_DATA_UINT64);
1241 	tsp->itxs_packets.value.ui64 = 0;
1242 	kstat_named_init(&tsp->itxs_descriptors, "tx_descriptors",
1243 	    KSTAT_DATA_UINT64);
1244 	tsp->itxs_descriptors.value.ui64 = 0;
1245 	kstat_named_init(&tsp->itxs_recycled, "tx_recycled",
1246 	    KSTAT_DATA_UINT64);
1247 	tsp->itxs_recycled.value.ui64 = 0;
1248 	kstat_named_init(&tsp->itxs_force_copy, "tx_force_copy",
1249 	    KSTAT_DATA_UINT64);
1250 	tsp->itxs_force_copy.value.ui64 = 0;
1251 	kstat_named_init(&tsp->itxs_tso_force_copy, "tx_tso_force_copy",
1252 	    KSTAT_DATA_UINT64);
1253 	tsp->itxs_tso_force_copy.value.ui64 = 0;
1254 
1255 	kstat_named_init(&tsp->itxs_hck_meoifail, "tx_hck_meoifail",
1256 	    KSTAT_DATA_UINT64);
1257 	tsp->itxs_hck_meoifail.value.ui64 = 0;
1258 	kstat_named_init(&tsp->itxs_hck_nol2info, "tx_hck_nol2info",
1259 	    KSTAT_DATA_UINT64);
1260 	tsp->itxs_hck_nol2info.value.ui64 = 0;
1261 	kstat_named_init(&tsp->itxs_hck_nol3info, "tx_hck_nol3info",
1262 	    KSTAT_DATA_UINT64);
1263 	tsp->itxs_hck_nol3info.value.ui64 = 0;
1264 	kstat_named_init(&tsp->itxs_hck_nol4info, "tx_hck_nol4info",
1265 	    KSTAT_DATA_UINT64);
1266 	tsp->itxs_hck_nol4info.value.ui64 = 0;
1267 	kstat_named_init(&tsp->itxs_hck_badl3, "tx_hck_badl3",
1268 	    KSTAT_DATA_UINT64);
1269 	tsp->itxs_hck_badl3.value.ui64 = 0;
1270 	kstat_named_init(&tsp->itxs_hck_badl4, "tx_hck_badl4",
1271 	    KSTAT_DATA_UINT64);
1272 	tsp->itxs_hck_badl4.value.ui64 = 0;
1273 	kstat_named_init(&tsp->itxs_lso_nohck, "tx_lso_nohck",
1274 	    KSTAT_DATA_UINT64);
1275 	tsp->itxs_lso_nohck.value.ui64 = 0;
1276 	kstat_named_init(&tsp->itxs_bind_fails, "tx_bind_fails",
1277 	    KSTAT_DATA_UINT64);
1278 	tsp->itxs_bind_fails.value.ui64 = 0;
1279 	kstat_named_init(&tsp->itxs_tx_short, "tx_short",
1280 	    KSTAT_DATA_UINT64);
1281 	tsp->itxs_tx_short.value.ui64 = 0;
1282 	kstat_named_init(&tsp->itxs_err_notcb, "tx_err_notcb",
1283 	    KSTAT_DATA_UINT64);
1284 	tsp->itxs_err_notcb.value.ui64 = 0;
1285 	kstat_named_init(&tsp->itxs_err_nodescs, "tx_err_nodescs",
1286 	    KSTAT_DATA_UINT64);
1287 	tsp->itxs_err_nodescs.value.ui64 = 0;
1288 	kstat_named_init(&tsp->itxs_err_context, "tx_err_context",
1289 	    KSTAT_DATA_UINT64);
1290 	tsp->itxs_err_context.value.ui64 = 0;
1291 	kstat_named_init(&tsp->itxs_num_unblocked, "tx_num_unblocked",
1292 	    KSTAT_DATA_UINT64);
1293 	tsp->itxs_num_unblocked.value.ui64 = 0;
1294 
1295 
1296 	kstat_named_init(&rsp->irxs_bytes, "rx_bytes",
1297 	    KSTAT_DATA_UINT64);
1298 	rsp->irxs_bytes.value.ui64 = 0;
1299 	kstat_named_init(&rsp->irxs_packets, "rx_packets",
1300 	    KSTAT_DATA_UINT64);
1301 	rsp->irxs_packets.value.ui64 = 0;
1302 	kstat_named_init(&rsp->irxs_rx_desc_error, "rx_desc_error",
1303 	    KSTAT_DATA_UINT64);
1304 	rsp->irxs_rx_desc_error.value.ui64 = 0;
1305 	kstat_named_init(&rsp->irxs_rx_intr_limit, "rx_intr_limit",
1306 	    KSTAT_DATA_UINT64);
1307 	rsp->irxs_rx_intr_limit.value.ui64 = 0;
1308 	kstat_named_init(&rsp->irxs_rx_bind_norcb, "rx_bind_norcb",
1309 	    KSTAT_DATA_UINT64);
1310 	rsp->irxs_rx_bind_norcb.value.ui64 = 0;
1311 	kstat_named_init(&rsp->irxs_rx_bind_nomp, "rx_bind_nomp",
1312 	    KSTAT_DATA_UINT64);
1313 	rsp->irxs_rx_bind_nomp.value.ui64 = 0;
1314 	kstat_named_init(&rsp->irxs_rx_copy_nomem, "rx_copy_nomem",
1315 	    KSTAT_DATA_UINT64);
1316 	rsp->irxs_rx_copy_nomem.value.ui64 = 0;
1317 	kstat_named_init(&rsp->irxs_hck_v4hdrok, "rx_hck_v4hdrok",
1318 	    KSTAT_DATA_UINT64);
1319 	rsp->irxs_hck_v4hdrok.value.ui64 = 0;
1320 	kstat_named_init(&rsp->irxs_hck_l4hdrok, "rx_hck_l4hdrok",
1321 	    KSTAT_DATA_UINT64);
1322 	rsp->irxs_hck_l4hdrok.value.ui64 = 0;
1323 	kstat_named_init(&rsp->irxs_hck_unknown, "rx_hck_unknown",
1324 	    KSTAT_DATA_UINT64);
1325 	rsp->irxs_hck_unknown.value.ui64 = 0;
1326 	kstat_named_init(&rsp->irxs_hck_nol3l4p, "rx_hck_nol3l4p",
1327 	    KSTAT_DATA_UINT64);
1328 	rsp->irxs_hck_nol3l4p.value.ui64 = 0;
1329 	kstat_named_init(&rsp->irxs_hck_iperr, "rx_hck_iperr",
1330 	    KSTAT_DATA_UINT64);
1331 	rsp->irxs_hck_iperr.value.ui64 = 0;
1332 	kstat_named_init(&rsp->irxs_hck_eiperr, "rx_hck_eiperr",
1333 	    KSTAT_DATA_UINT64);
1334 	rsp->irxs_hck_eiperr.value.ui64 = 0;
1335 	kstat_named_init(&rsp->irxs_hck_l4err, "rx_hck_l4err",
1336 	    KSTAT_DATA_UINT64);
1337 	rsp->irxs_hck_l4err.value.ui64 = 0;
1338 	kstat_named_init(&rsp->irxs_hck_v6skip, "rx_hck_v6skip",
1339 	    KSTAT_DATA_UINT64);
1340 	rsp->irxs_hck_v6skip.value.ui64 = 0;
1341 	kstat_named_init(&rsp->irxs_hck_set, "rx_hck_set",
1342 	    KSTAT_DATA_UINT64);
1343 	rsp->irxs_hck_set.value.ui64 = 0;
1344 	kstat_named_init(&rsp->irxs_hck_miss, "rx_hck_miss",
1345 	    KSTAT_DATA_UINT64);
1346 	rsp->irxs_hck_miss.value.ui64 = 0;
1347 
1348 	kstat_install(itrq->itrq_txkstat);
1349 	kstat_install(itrq->itrq_rxkstat);
1350 
1351 	return (B_TRUE);
1352 }
1353