xref: /freebsd/sys/dev/irdma/icrdma.c (revision 2e3f49888ec8851bafb22011533217487764fdb0)
1 /*-
2  * SPDX-License-Identifier: GPL-2.0 or Linux-OpenIB
3  *
4  * Copyright (c) 2021 - 2023 Intel Corporation
5  *
6  * This software is available to you under a choice of one of two
7  * licenses.  You may choose to be licensed under the terms of the GNU
8  * General Public License (GPL) Version 2, available from the file
9  * COPYING in the main directory of this source tree, or the
10  * OpenFabrics.org BSD license below:
11  *
12  *   Redistribution and use in source and binary forms, with or
13  *   without modification, are permitted provided that the following
14  *   conditions are met:
15  *
16  *    - Redistributions of source code must retain the above
17  *	copyright notice, this list of conditions and the following
18  *	disclaimer.
19  *
20  *    - Redistributions in binary form must reproduce the above
21  *	copyright notice, this list of conditions and the following
22  *	disclaimer in the documentation and/or other materials
23  *	provided with the distribution.
24  *
25  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
26  * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
27  * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
28  * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
29  * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
30  * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
31  * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
32  * SOFTWARE.
33  */
34 
35 #include <sys/param.h>
36 #include <sys/systm.h>
37 #include <sys/bus.h>
38 #include <sys/kernel.h>
39 #include <sys/module.h>
40 #include <sys/sysctl.h>
41 #include <machine/bus.h>
42 #include <linux/device.h>
43 #include <sys/rman.h>
44 
45 #include "ice_rdma.h"
46 #include "irdma_main.h"
47 #include "icrdma_hw.h"
48 
49 #include "irdma_if.h"
50 #include "irdma_di_if.h"
51 
52 /**
53  *  Driver version
54  */
55 char irdma_driver_version[] = "1.2.17-k";
56 
57 /**
58  * irdma_init_tunable - prepare tunables
59  * @rf: RDMA PCI function
60  * @pf_id: id of the pf
61  */
62 static void
63 irdma_init_tunable(struct irdma_pci_f *rf, uint8_t pf_id)
64 {
65 	struct sysctl_oid_list *irdma_oid_list;
66 	struct irdma_tunable_info *t_info = &rf->tun_info;
67 	char pf_name[16];
68 
69 	snprintf(pf_name, 15, "irdma%d", pf_id);
70 	sysctl_ctx_init(&t_info->irdma_sysctl_ctx);
71 
72 	t_info->irdma_sysctl_tree = SYSCTL_ADD_NODE(&t_info->irdma_sysctl_ctx,
73 						    SYSCTL_STATIC_CHILDREN(_dev),
74 						    OID_AUTO, pf_name,
75 						    CTLFLAG_RD, NULL, "");
76 
77 	irdma_oid_list = SYSCTL_CHILDREN(t_info->irdma_sysctl_tree);
78 
79 	t_info->sws_sysctl_tree = SYSCTL_ADD_NODE(&t_info->irdma_sysctl_ctx,
80 						  irdma_oid_list, OID_AUTO,
81 						  "sw_stats", CTLFLAG_RD,
82 						  NULL, "");
83 	/*
84 	 * debug mask setting
85 	 */
86 	SYSCTL_ADD_S32(&t_info->irdma_sysctl_ctx, irdma_oid_list,
87 		       OID_AUTO, "debug", CTLFLAG_RWTUN, &rf->sc_dev.debug_mask,
88 		       0, "irdma debug");
89 
90 	/*
91 	 * RoCEv2/iWARP setting RoCEv2 the default mode
92 	 */
93 	t_info->roce_ena = 1;
94 	SYSCTL_ADD_U8(&t_info->irdma_sysctl_ctx, irdma_oid_list, OID_AUTO,
95 		      "roce_enable", CTLFLAG_RDTUN, &t_info->roce_ena, 0,
96 		      "RoCEv2 mode enable");
97 
98 	rf->protocol_used = IRDMA_IWARP_PROTOCOL_ONLY;
99 	if (t_info->roce_ena == 1)
100 		rf->protocol_used = IRDMA_ROCE_PROTOCOL_ONLY;
101 	else if (t_info->roce_ena != 0)
102 		printf("%s:%d wrong roce_enable value (%d), using iWARP\n",
103 		       __func__, __LINE__, t_info->roce_ena);
104 	printf("%s:%d protocol: %s, roce_enable value: %d\n", __func__, __LINE__,
105 	       (rf->protocol_used == IRDMA_IWARP_PROTOCOL_ONLY) ? "iWARP" : "RoCEv2",
106 	       t_info->roce_ena);
107 
108 	snprintf(t_info->drv_ver, IRDMA_VER_LEN, "%s", irdma_driver_version);
109 	SYSCTL_ADD_STRING(&t_info->irdma_sysctl_ctx, irdma_oid_list,
110 			  OID_AUTO, "drv_ver", CTLFLAG_RDTUN, t_info->drv_ver,
111 			  IRDMA_VER_LEN, "driver version");
112 
113 	irdma_dcqcn_tunables_init(rf);
114 	irdma_sysctl_settings(rf);
115 }
116 
117 /**
118  * irdma_find_handler - obtain hdl object to identify pf
119  * @p_dev: the peer interface structure
120  */
121 static struct irdma_handler *
122 irdma_find_handler(struct ice_rdma_peer *p_dev)
123 {
124 	struct irdma_handler *hdl;
125 	unsigned long flags;
126 
127 	spin_lock_irqsave(&irdma_handler_lock, flags);
128 	list_for_each_entry(hdl, &irdma_handlers, list) {
129 		if (!hdl->iwdev->rf->peer_info)
130 			continue;
131 		if (hdl->iwdev->rf->peer_info->dev == p_dev->dev) {
132 			spin_unlock_irqrestore(&irdma_handler_lock, flags);
133 			return hdl;
134 		}
135 	}
136 	spin_unlock_irqrestore(&irdma_handler_lock, flags);
137 
138 	return NULL;
139 }
140 
141 /**
142  * peer_to_iwdev - return iwdev based on peer
143  * @peer: the peer interface structure
144  */
145 static struct irdma_device *
146 peer_to_iwdev(struct ice_rdma_peer *peer)
147 {
148 	struct irdma_handler *hdl;
149 
150 	hdl = irdma_find_handler(peer);
151 	if (!hdl) {
152 		printf("%s:%d rdma handler not found\n", __func__, __LINE__);
153 		return NULL;
154 	}
155 
156 	return hdl->iwdev;
157 }
158 
159 /**
160  * irdma_get_qos_info - save qos info from parameters to internal struct
161  * @l2params: destination, qos, tc, mtu info structure
162  * @qos_info: source, DCB settings structure
163  */
164 static void
165 irdma_get_qos_info(struct irdma_pci_f *rf, struct irdma_l2params *l2params,
166 		   struct ice_qos_params *qos_info)
167 {
168 	int i;
169 	char txt[7][128] = {"", "", "", "", "", "", ""};
170 	u8 len;
171 
172 	l2params->num_tc = qos_info->num_tc;
173 	l2params->num_apps = qos_info->num_apps;
174 	l2params->vsi_prio_type = qos_info->vsi_priority_type;
175 	l2params->vsi_rel_bw = qos_info->vsi_relative_bw;
176 	for (i = 0; i < l2params->num_tc; i++) {
177 		l2params->tc_info[i].egress_virt_up =
178 		    qos_info->tc_info[i].egress_virt_up;
179 		l2params->tc_info[i].ingress_virt_up =
180 		    qos_info->tc_info[i].ingress_virt_up;
181 		l2params->tc_info[i].prio_type = qos_info->tc_info[i].prio_type;
182 		l2params->tc_info[i].rel_bw = qos_info->tc_info[i].rel_bw;
183 		l2params->tc_info[i].tc_ctx = qos_info->tc_info[i].tc_ctx;
184 	}
185 	for (i = 0; i < IRDMA_MAX_USER_PRIORITY; i++)
186 		l2params->up2tc[i] = qos_info->up2tc[i];
187 
188 	if (qos_info->pfc_mode == IRDMA_QOS_MODE_DSCP) {
189 		l2params->dscp_mode = true;
190 		memcpy(l2params->dscp_map, qos_info->dscp_map, sizeof(l2params->dscp_map));
191 	}
192 	if (!(rf->sc_dev.debug_mask & IRDMA_DEBUG_DCB))
193 		return;
194 	for (i = 0; i < l2params->num_tc; i++) {
195 		len = strlen(txt[0]);
196 		snprintf(txt[0] + len, sizeof(txt[0]) - 5, " %d",
197 			 l2params->tc_info[i].egress_virt_up);
198 		len = strlen(txt[1]);
199 		snprintf(txt[1] + len, sizeof(txt[1]) - 5, " %d",
200 			 l2params->tc_info[i].ingress_virt_up);
201 		len = strlen(txt[2]);
202 		snprintf(txt[2] + len, sizeof(txt[2]) - 5, " %d",
203 			 l2params->tc_info[i].prio_type);
204 		len = strlen(txt[3]);
205 		snprintf(txt[3] + len, sizeof(txt[3]) - 5, " %d",
206 			 l2params->tc_info[i].rel_bw);
207 		len = strlen(txt[4]);
208 		snprintf(txt[4] + len, sizeof(txt[4]) - 5, " %lu",
209 			 l2params->tc_info[i].tc_ctx);
210 	}
211 	len = strlen(txt[5]);
212 	for (i = 0; i < IRDMA_MAX_USER_PRIORITY; i++)
213 		len += snprintf(txt[5] + len, sizeof(txt[5]) - 5, " %d",
214 				l2params->up2tc[i]);
215 	len = strlen(txt[6]);
216 	for (i = 0; i < IRDMA_DSCP_NUM_VAL; i++)
217 		len += snprintf(txt[6] + len, sizeof(txt[6]) - 5, " %d",
218 				l2params->dscp_map[i]);
219 	irdma_debug(&rf->sc_dev, IRDMA_DEBUG_DCB, "num_tc:          %d\n", l2params->num_tc);
220 	irdma_debug(&rf->sc_dev, IRDMA_DEBUG_DCB, "num_apps:        %d\n", l2params->num_apps);
221 	irdma_debug(&rf->sc_dev, IRDMA_DEBUG_DCB, "vsi_prio_type:   %d\n", l2params->vsi_prio_type);
222 	irdma_debug(&rf->sc_dev, IRDMA_DEBUG_DCB, "vsi_rel_bw:      %d\n", l2params->vsi_rel_bw);
223 	irdma_debug(&rf->sc_dev, IRDMA_DEBUG_DCB, "egress_virt_up: %s\n", txt[0]);
224 	irdma_debug(&rf->sc_dev, IRDMA_DEBUG_DCB, "ingress_virt_up:%s\n", txt[1]);
225 	irdma_debug(&rf->sc_dev, IRDMA_DEBUG_DCB, "prio_type: %s\n", txt[2]);
226 	irdma_debug(&rf->sc_dev, IRDMA_DEBUG_DCB, "rel_bw:    %s\n", txt[3]);
227 	irdma_debug(&rf->sc_dev, IRDMA_DEBUG_DCB, "tc_ctx:    %s\n", txt[4]);
228 	irdma_debug(&rf->sc_dev, IRDMA_DEBUG_DCB, "up2tc:     %s\n", txt[5]);
229 	irdma_debug(&rf->sc_dev, IRDMA_DEBUG_DCB, "dscp_mode: %s\n", txt[6]);
230 
231 	irdma_debug_buf(&rf->sc_dev, IRDMA_DEBUG_DCB, "l2params", l2params, sizeof(*l2params));
232 }
233 
234 /**
235  * irdma_log_invalid_mtu - check mtu setting validity
236  * @mtu: mtu value
237  * @dev: hardware control device structure
238  */
239 static void
240 irdma_log_invalid_mtu(u16 mtu, struct irdma_sc_dev *dev)
241 {
242 	if (mtu < IRDMA_MIN_MTU_IPV4)
243 		irdma_dev_warn(to_ibdev(dev),
244 			       "MTU setting [%d] too low for RDMA traffic. Minimum MTU is 576 for IPv4\n",
245 			       mtu);
246 	else if (mtu < IRDMA_MIN_MTU_IPV6)
247 		irdma_dev_warn(to_ibdev(dev),
248 			       "MTU setting [%d] too low for RDMA traffic. Minimum MTU is 1280 for IPv6\\n",
249 			       mtu);
250 }
251 
252 /**
253  * irdma_get_event_name - convert type enum to string
254  * @type: event type enum
255  */
256 static const char *
257 irdma_get_event_name(enum ice_rdma_event_type type)
258 {
259 	switch (type) {
260 	case ICE_RDMA_EVENT_LINK_CHANGE:
261 		return "LINK CHANGE";
262 	case ICE_RDMA_EVENT_MTU_CHANGE:
263 		return "MTU CHANGE";
264 	case ICE_RDMA_EVENT_TC_CHANGE:
265 		return "TC CHANGE";
266 	case ICE_RDMA_EVENT_API_CHANGE:
267 		return "API CHANGE";
268 	case ICE_RDMA_EVENT_CRIT_ERR:
269 		return "CRITICAL ERROR";
270 	case ICE_RDMA_EVENT_RESET:
271 		return "RESET";
272 	case ICE_RDMA_EVENT_QSET_REGISTER:
273 		return "QSET REGISTER";
274 	case ICE_RDMA_EVENT_VSI_FILTER_UPDATE:
275 		return "VSI FILTER UPDATE";
276 	default:
277 		return "UNKNOWN";
278 	}
279 }
280 
281 /**
282  * irdma_event_handler - handling events from lan driver
283  * @peer: the peer interface structure
284  * @event: event info structure
285  */
286 static void
287 irdma_event_handler(struct ice_rdma_peer *peer, struct ice_rdma_event *event)
288 {
289 	struct irdma_device *iwdev;
290 	struct irdma_l2params l2params = {};
291 
292 	printf("%s:%d event_handler %s (%x) on pf %d (%d)\n", __func__, __LINE__,
293 	       irdma_get_event_name(event->type),
294 	       event->type, peer->pf_id, if_getdunit(peer->ifp));
295 	iwdev = peer_to_iwdev(peer);
296 	if (!iwdev) {
297 		printf("%s:%d rdma device not found\n", __func__, __LINE__);
298 		return;
299 	}
300 
301 	switch (event->type) {
302 	case ICE_RDMA_EVENT_LINK_CHANGE:
303 		printf("%s:%d PF: %x (%x), state: %d, speed: %lu\n", __func__, __LINE__,
304 		       peer->pf_id, if_getdunit(peer->ifp), event->linkstate,
305 		       event->baudrate);
306 		break;
307 	case ICE_RDMA_EVENT_MTU_CHANGE:
308 		if (iwdev->vsi.mtu != event->mtu) {
309 			l2params.mtu = event->mtu;
310 			l2params.mtu_changed = true;
311 			irdma_log_invalid_mtu(l2params.mtu, &iwdev->rf->sc_dev);
312 			irdma_change_l2params(&iwdev->vsi, &l2params);
313 		}
314 		break;
315 	case ICE_RDMA_EVENT_TC_CHANGE:
316 		/*
317 		 * 1. check if it is pre or post 2. check if it is currently being done
318 		 */
319 		if (event->prep == iwdev->vsi.tc_change_pending) {
320 			printf("%s:%d can't process %s TC change if TC change is %spending\n",
321 			       __func__, __LINE__,
322 			       event->prep ? "pre" : "post",
323 			       event->prep ? " " : "not ");
324 			goto done;
325 		}
326 		if (!atomic_inc_not_zero(&iwdev->rf->dev_ctx.event_rfcnt)) {
327 			printf("%s:%d (%d) EVENT_TC_CHANGE received, but not processed %d\n",
328 			       __func__, __LINE__, if_getdunit(peer->ifp),
329 			       atomic_read(&iwdev->rf->dev_ctx.event_rfcnt));
330 			break;
331 		}
332 		if (event->prep) {
333 			iwdev->vsi.tc_change_pending = true;
334 			irdma_sc_suspend_resume_qps(&iwdev->vsi, IRDMA_OP_SUSPEND);
335 			wait_event_timeout(iwdev->suspend_wq,
336 					   !atomic_read(&iwdev->vsi.qp_suspend_reqs),
337 					   IRDMA_EVENT_TIMEOUT_MS * 10);
338 			irdma_ws_reset(&iwdev->vsi);
339 			printf("%s:%d TC change preparation done\n", __func__, __LINE__);
340 		} else {
341 			l2params.tc_changed = true;
342 			irdma_get_qos_info(iwdev->rf, &l2params, &event->port_qos);
343 			if (iwdev->rf->protocol_used != IRDMA_IWARP_PROTOCOL_ONLY)
344 				iwdev->dcb_vlan_mode = l2params.num_tc > 1 && !l2params.dscp_mode;
345 
346 			irdma_check_fc_for_tc_update(&iwdev->vsi, &l2params);
347 			irdma_change_l2params(&iwdev->vsi, &l2params);
348 			printf("%s:%d TC change done\n", __func__, __LINE__);
349 		}
350 		atomic_dec(&iwdev->rf->dev_ctx.event_rfcnt);
351 		break;
352 	case ICE_RDMA_EVENT_CRIT_ERR:
353 		if (event->oicr_reg & IRDMAPFINT_OICR_PE_CRITERR_M) {
354 			u32 pe_criterr;
355 
356 #define IRDMA_Q1_RESOURCE_ERR  0x0001024d
357 			pe_criterr = readl(iwdev->rf->sc_dev.hw_regs[IRDMA_GLPE_CRITERR]);
358 			if (pe_criterr != IRDMA_Q1_RESOURCE_ERR) {
359 				irdma_pr_err("critical PE Error, GLPE_CRITERR=0x%08x\n",
360 					     pe_criterr);
361 				iwdev->rf->reset = true;
362 			} else {
363 				irdma_dev_warn(to_ibdev(&iwdev->rf->sc_dev),
364 					       "Q1 Resource Check\n");
365 			}
366 		}
367 		if (event->oicr_reg & IRDMAPFINT_OICR_HMC_ERR_M) {
368 			irdma_pr_err("HMC Error\n");
369 			iwdev->rf->reset = true;
370 		}
371 		if (iwdev->rf->reset)
372 			iwdev->rf->gen_ops.request_reset(iwdev->rf);
373 		break;
374 	case ICE_RDMA_EVENT_RESET:
375 		iwdev->rf->reset = true;
376 		break;
377 	default:
378 		printf("%s:%d event type unsupported: %d\n", __func__, __LINE__, event->type);
379 	}
380 done:
381 	return;
382 }
383 
384 /**
385  * irdma_link_change - Callback for link state change
386  * @peer: the peer interface structure
387  * @linkstate: state of the link
388  * @baudrate: speed of the link
389  */
390 static void
391 irdma_link_change(struct ice_rdma_peer *peer, int linkstate, uint64_t baudrate)
392 {
393 	printf("%s:%d PF: %x (%x), state: %d, speed: %lu\n", __func__, __LINE__,
394 	       peer->pf_id, if_getdunit(peer->ifp), linkstate, baudrate);
395 }
396 
397 /**
398  * irdma_finalize_task - Finish open or close phase in a separate thread
399  * @context: instance holding peer and iwdev information
400  *
401  * Triggered from irdma_open or irdma_close to perform rt_init_hw or
402  * rt_deinit_hw respectively. Does registration and unregistration of
403  * the device.
404  */
405 static void
406 irdma_finalize_task(void *context, int pending)
407 {
408 	struct irdma_task_arg *task_arg = (struct irdma_task_arg *)context;
409 	struct irdma_device *iwdev = task_arg->iwdev;
410 	struct irdma_pci_f *rf = iwdev->rf;
411 	struct ice_rdma_peer *peer = task_arg->peer;
412 	struct irdma_l2params l2params = {{{0}}};
413 	struct ice_rdma_request req = {0};
414 	int status = 0;
415 
416 	if (iwdev->iw_status) {
417 		irdma_debug(&rf->sc_dev, IRDMA_DEBUG_INIT,
418 			    "Starting deferred closing %d (%d)\n",
419 			    rf->peer_info->pf_id, if_getdunit(peer->ifp));
420 		atomic_dec(&rf->dev_ctx.event_rfcnt);
421 		wait_event_timeout(iwdev->suspend_wq,
422 				   !atomic_read(&rf->dev_ctx.event_rfcnt),
423 				   IRDMA_MAX_TIMEOUT);
424 		if (atomic_read(&rf->dev_ctx.event_rfcnt) != 0) {
425 			printf("%s:%d (%d) waiting for event_rfcnt (%d) timeout, proceed with unload\n",
426 			       __func__, __LINE__, if_getdunit(peer->ifp),
427 			       atomic_read(&rf->dev_ctx.event_rfcnt));
428 		}
429 		irdma_dereg_ipaddr_event_cb(rf);
430 		irdma_ib_unregister_device(iwdev);
431 		req.type = ICE_RDMA_EVENT_VSI_FILTER_UPDATE;
432 		req.enable_filter = false;
433 		IRDMA_DI_REQ_HANDLER(peer, &req);
434 		irdma_cleanup_dead_qps(&iwdev->vsi);
435 		irdma_rt_deinit_hw(iwdev);
436 	} else {
437 		irdma_debug(&rf->sc_dev, IRDMA_DEBUG_INIT,
438 			    "Starting deferred opening %d (%d)\n",
439 			    rf->peer_info->pf_id, if_getdunit(peer->ifp));
440 		irdma_get_qos_info(iwdev->rf, &l2params, &peer->initial_qos_info);
441 		if (iwdev->rf->protocol_used != IRDMA_IWARP_PROTOCOL_ONLY)
442 			iwdev->dcb_vlan_mode = l2params.num_tc > 1 && !l2params.dscp_mode;
443 
444 		l2params.mtu = peer->mtu;
445 		status = irdma_rt_init_hw(iwdev, &l2params);
446 		if (status) {
447 			irdma_pr_err("RT init failed %d\n", status);
448 			ib_dealloc_device(&iwdev->ibdev);
449 			return;
450 		}
451 		status = irdma_ib_register_device(iwdev);
452 		if (status) {
453 			irdma_pr_err("Registration failed %d\n", status);
454 			irdma_rt_deinit_hw(iwdev);
455 			ib_dealloc_device(&iwdev->ibdev);
456 		}
457 		irdma_sw_stats_tunables_init(rf);
458 		req.type = ICE_RDMA_EVENT_VSI_FILTER_UPDATE;
459 		req.enable_filter = true;
460 		IRDMA_DI_REQ_HANDLER(peer, &req);
461 		irdma_reg_ipaddr_event_cb(rf);
462 		atomic_inc(&rf->dev_ctx.event_rfcnt);
463 		irdma_debug(&rf->sc_dev, IRDMA_DEBUG_INIT,
464 			    "Deferred opening finished %d (%d)\n",
465 			    rf->peer_info->pf_id, if_getdunit(peer->ifp));
466 	}
467 }
468 
469 /**
470  * irdma_alloc_pcidev - allocate memory for pcidev and populate data
471  * @peer: the new peer interface structure
472  * @rf: RDMA PCI function
473  */
474 static int
475 irdma_alloc_pcidev(struct ice_rdma_peer *peer, struct irdma_pci_f *rf)
476 {
477 	rf->pcidev = kzalloc(sizeof(struct pci_dev), GFP_KERNEL);
478 	if (!rf->pcidev) {
479 		return -ENOMEM;
480 	}
481 	if (linux_pci_attach_device(rf->dev_ctx.dev, NULL, NULL, rf->pcidev))
482 		return -ENOMEM;
483 
484 	return 0;
485 }
486 
487 /**
488  * irdma_dealloc_pcidev - deallocate memory for pcidev
489  * @rf: RDMA PCI function
490  */
491 static void
492 irdma_dealloc_pcidev(struct irdma_pci_f *rf)
493 {
494 	linux_pci_detach_device(rf->pcidev);
495 	kfree(rf->pcidev);
496 }
497 
498 /**
499  * irdma_fill_device_info - assign initial values to rf variables
500  * @iwdev: irdma device
501  * @peer: the peer interface structure
502  */
503 static void
504 irdma_fill_device_info(struct irdma_device *iwdev,
505 		       struct ice_rdma_peer *peer)
506 {
507 	struct irdma_pci_f *rf = iwdev->rf;
508 
509 	rf->peer_info = peer;
510 	rf->gen_ops.register_qset = irdma_register_qset;
511 	rf->gen_ops.unregister_qset = irdma_unregister_qset;
512 
513 	rf->rdma_ver = IRDMA_GEN_2;
514 	rf->sc_dev.hw_attrs.uk_attrs.hw_rev = IRDMA_GEN_2;
515 	rf->rsrc_profile = IRDMA_HMC_PROFILE_DEFAULT;
516 	rf->rst_to = IRDMA_RST_TIMEOUT_HZ;
517 	rf->check_fc = irdma_check_fc_for_qp;
518 	rf->gen_ops.request_reset = irdma_request_reset;
519 	irdma_set_rf_user_cfg_params(rf);
520 
521 	rf->default_vsi.vsi_idx = peer->pf_vsi_num;
522 	rf->dev_ctx.dev = peer->dev;
523 	rf->dev_ctx.mem_bus_space_tag = rman_get_bustag(peer->pci_mem);
524 	rf->dev_ctx.mem_bus_space_handle = rman_get_bushandle(peer->pci_mem);
525 	rf->dev_ctx.mem_bus_space_size = rman_get_size(peer->pci_mem);
526 
527 	rf->hw.dev_context = &rf->dev_ctx;
528 	rf->hw.hw_addr = (u8 *)rman_get_virtual(peer->pci_mem);
529 	rf->msix_count = peer->msix.count;
530 	rf->msix_info.entry = peer->msix.base;
531 	rf->msix_info.vector = peer->msix.count;
532 	printf("%s:%d msix_info: %d %d %d\n", __func__, __LINE__,
533 	       rf->msix_count, rf->msix_info.entry, rf->msix_info.vector);
534 
535 	rf->iwdev = iwdev;
536 	iwdev->netdev = peer->ifp;
537 	iwdev->init_state = INITIAL_STATE;
538 	iwdev->vsi_num = peer->pf_vsi_num;
539 	iwdev->rcv_wnd = IRDMA_CM_DEFAULT_RCV_WND_SCALED;
540 	iwdev->rcv_wscale = IRDMA_CM_DEFAULT_RCV_WND_SCALE;
541 	iwdev->roce_cwnd = IRDMA_ROCE_CWND_DEFAULT;
542 	iwdev->roce_ackcreds = IRDMA_ROCE_ACKCREDS_DEFAULT;
543 	iwdev->roce_rtomin = 5;
544 
545 	if (rf->protocol_used == IRDMA_ROCE_PROTOCOL_ONLY) {
546 		iwdev->roce_mode = true;
547 	}
548 }
549 
550 /**
551  * irdma_probe - Callback to probe a new RDMA peer device
552  * @peer: the new peer interface structure
553  *
554  * Callback implementing the RDMA_PROBE function. Called by the ice driver to
555  * notify the RDMA client driver that a new device has been created
556  */
557 static int
558 irdma_probe(struct ice_rdma_peer *peer)
559 {
560 	struct irdma_device *iwdev;
561 	struct irdma_pci_f *rf;
562 	struct irdma_handler *hdl;
563 	int err = 0;
564 
565 	irdma_pr_info("probe: irdma-%s peer=%p, peer->pf_id=%d, peer->ifp=%p, peer->ifp->if_dunit=%d, peer->pci_mem->r_bustag=%p\n",
566 		      irdma_driver_version, peer, peer->pf_id, peer->ifp,
567 		      if_getdunit(peer->ifp), (void *)(uintptr_t)peer->pci_mem->r_bustag);
568 
569 	hdl = irdma_find_handler(peer);
570 	if (hdl)
571 		return -EBUSY;
572 
573 	hdl = kzalloc(sizeof(*hdl), GFP_KERNEL);
574 	if (!hdl)
575 		return -ENOMEM;
576 
577 	iwdev = (struct irdma_device *)ib_alloc_device(sizeof(*iwdev));
578 	if (!iwdev) {
579 		kfree(hdl);
580 		return -ENOMEM;
581 	}
582 
583 	iwdev->rf = kzalloc(sizeof(*rf), GFP_KERNEL);
584 	if (!iwdev->rf) {
585 		ib_dealloc_device(&iwdev->ibdev);
586 		kfree(hdl);
587 		return -ENOMEM;
588 	}
589 	hdl->iwdev = iwdev;
590 	iwdev->hdl = hdl;
591 
592 	irdma_init_tunable(iwdev->rf, if_getdunit(peer->ifp));
593 	irdma_fill_device_info(iwdev, peer);
594 	rf = iwdev->rf;
595 
596 	if (irdma_alloc_pcidev(peer, rf))
597 		goto err_pcidev;
598 
599 	irdma_add_handler(hdl);
600 
601 	if (irdma_ctrl_init_hw(rf)) {
602 		err = -EIO;
603 		goto err_ctrl_init;
604 	}
605 
606 	rf->dev_ctx.task_arg.peer = peer;
607 	rf->dev_ctx.task_arg.iwdev = iwdev;
608 	rf->dev_ctx.task_arg.peer = peer;
609 
610 	TASK_INIT(&hdl->deferred_task, 0, irdma_finalize_task, &rf->dev_ctx.task_arg);
611 	hdl->deferred_tq = taskqueue_create_fast("irdma_defer",
612 						 M_NOWAIT, taskqueue_thread_enqueue,
613 						 &hdl->deferred_tq);
614 	taskqueue_start_threads(&hdl->deferred_tq, 1, PI_NET, "irdma_defer_t");
615 
616 	taskqueue_enqueue(hdl->deferred_tq, &hdl->deferred_task);
617 
618 	return 0;
619 
620 err_ctrl_init:
621 	irdma_del_handler(hdl);
622 	irdma_dealloc_pcidev(rf);
623 err_pcidev:
624 	kfree(iwdev->rf);
625 	ib_dealloc_device(&iwdev->ibdev);
626 	kfree(hdl);
627 
628 	return err;
629 }
630 
631 /**
632  * irdma_remove - Callback to remove an RDMA peer device
633  * @peer: the new peer interface structure
634  *
635  * Callback implementing the RDMA_REMOVE function. Called by the ice driver to
636  * notify the RDMA client driver that the device wille be delated
637  */
638 static int
639 irdma_remove(struct ice_rdma_peer *peer)
640 {
641 	struct irdma_handler *hdl;
642 	struct irdma_device *iwdev;
643 
644 	irdma_debug((struct irdma_sc_dev *)NULL, IRDMA_DEBUG_INIT,
645 		    "removing %s irdma%d\n", __func__, if_getdunit(peer->ifp));
646 
647 	hdl = irdma_find_handler(peer);
648 	if (!hdl)
649 		return 0;
650 
651 	iwdev = hdl->iwdev;
652 
653 	if (iwdev->vsi.tc_change_pending) {
654 		iwdev->vsi.tc_change_pending = false;
655 		irdma_sc_suspend_resume_qps(&iwdev->vsi, IRDMA_OP_RESUME);
656 	}
657 
658 	taskqueue_enqueue(hdl->deferred_tq, &hdl->deferred_task);
659 
660 	taskqueue_drain(hdl->deferred_tq, &hdl->deferred_task);
661 	taskqueue_free(hdl->deferred_tq);
662 	hdl->iwdev->rf->dev_ctx.task_arg.iwdev = NULL;
663 	hdl->iwdev->rf->dev_ctx.task_arg.peer = NULL;
664 
665 	sysctl_ctx_free(&iwdev->rf->tun_info.irdma_sysctl_ctx);
666 	hdl->iwdev->rf->tun_info.irdma_sysctl_tree = NULL;
667 	hdl->iwdev->rf->tun_info.sws_sysctl_tree = NULL;
668 
669 	irdma_ctrl_deinit_hw(iwdev->rf);
670 
671 	irdma_dealloc_pcidev(iwdev->rf);
672 
673 	irdma_del_handler(iwdev->hdl);
674 	kfree(iwdev->hdl);
675 	kfree(iwdev->rf);
676 	ib_dealloc_device(&iwdev->ibdev);
677 	irdma_pr_info("IRDMA hardware deinitialization complete irdma%d\n",
678 		      if_getdunit(peer->ifp));
679 
680 	return 0;
681 }
682 
683 /**
684  * irdma_open - Callback for operation open for RDMA device
685  * @peer: the new peer interface structure
686  *
687  * Callback implementing the RDMA_OPEN function. Called by the ice driver to
688  * notify the RDMA client driver that a new device has been initialized.
689  */
690 static int
691 irdma_open(struct ice_rdma_peer *peer)
692 {
693 	struct irdma_device *iwdev;
694 	struct ice_rdma_event event = {0};
695 
696 	iwdev = peer_to_iwdev(peer);
697 	if (iwdev) {
698 		event.type = ICE_RDMA_EVENT_MTU_CHANGE;
699 		event.mtu = peer->mtu;
700 
701 		irdma_event_handler(peer, &event);
702 	} else {
703 		irdma_probe(peer);
704 	}
705 
706 	return 0;
707 }
708 
709 /**
710  * irdma_close - Callback to notify that a peer device is down
711  * @peer: the RDMA peer device being stopped
712  *
713  * Callback implementing the RDMA_CLOSE function. Called by the ice driver to
714  * notify the RDMA client driver that a peer device is being stopped.
715  */
716 static int
717 irdma_close(struct ice_rdma_peer *peer)
718 {
719 	/*
720 	 * This is called when ifconfig down or pf-reset is about to happen.
721 	 */
722 	struct irdma_device *iwdev;
723 
724 	iwdev = peer_to_iwdev(peer);
725 	if (iwdev && iwdev->rf->reset)
726 		irdma_remove(peer);
727 
728 	return 0;
729 }
730 
731 /**
732  * irdma_prep_for_unregister - ensure the driver is ready to unregister
733  */
734 static void
735 irdma_prep_for_unregister(void)
736 {
737 	struct irdma_handler *hdl;
738 	unsigned long flags;
739 	bool hdl_valid;
740 
741 	do {
742 		hdl_valid = false;
743 		spin_lock_irqsave(&irdma_handler_lock, flags);
744 		list_for_each_entry(hdl, &irdma_handlers, list) {
745 			if (!hdl->iwdev->rf->peer_info)
746 				continue;
747 			hdl_valid = true;
748 			break;
749 		}
750 		spin_unlock_irqrestore(&irdma_handler_lock, flags);
751 		if (!hdl || !hdl_valid)
752 			break;
753 		IRDMA_CLOSE(hdl->iwdev->rf->peer_info);
754 		IRDMA_REMOVE(hdl->iwdev->rf->peer_info);
755 	} while (1);
756 }
757 
758 static kobj_method_t irdma_methods[] = {
759 	KOBJMETHOD(irdma_probe, irdma_probe),
760 	    KOBJMETHOD(irdma_open, irdma_open),
761 	    KOBJMETHOD(irdma_close, irdma_close),
762 	    KOBJMETHOD(irdma_remove, irdma_remove),
763 	    KOBJMETHOD(irdma_link_change, irdma_link_change),
764 	    KOBJMETHOD(irdma_event_handler, irdma_event_handler),
765 	    KOBJMETHOD_END
766 };
767 
768 /* declare irdma_class which extends the ice_rdma_di class */
769 DEFINE_CLASS_1(irdma, irdma_class, irdma_methods, sizeof(struct ice_rdma_peer), ice_rdma_di_class);
770 
771 static struct ice_rdma_info irdma_info = {
772 	.major_version = ICE_RDMA_MAJOR_VERSION,
773 	.minor_version = ICE_RDMA_MINOR_VERSION,
774 	.patch_version = ICE_RDMA_PATCH_VERSION,
775 	.rdma_class = &irdma_class,
776 };
777 
778 /**
779  * irdma_module_event_handler - Module event handler callback
780  * @mod: unused mod argument
781  * @what: the module event to handle
782  * @arg: unused module event argument
783  *
784  * Callback used by the FreeBSD module stack to notify the driver of module
785  * events. Used to implement custom handling for certain module events such as
786  * load and unload.
787  */
788 static int
789 irdma_module_event_handler(module_t __unused mod, int what, void __unused * arg)
790 {
791 	switch (what) {
792 	case MOD_LOAD:
793 		printf("Loading irdma module\n");
794 		return ice_rdma_register(&irdma_info);
795 	case MOD_UNLOAD:
796 		printf("Unloading irdma module\n");
797 		irdma_prep_for_unregister();
798 		ice_rdma_unregister();
799 		return (0);
800 	default:
801 		return (EOPNOTSUPP);
802 	}
803 
804 	return (0);
805 }
806 
807 static moduledata_t irdma_moduledata = {
808 	"irdma",
809 	    irdma_module_event_handler,
810 	    NULL
811 };
812 
813 DECLARE_MODULE(irdma, irdma_moduledata, SI_SUB_LAST, SI_ORDER_ANY);
814 MODULE_VERSION(irdma, 1);
815 MODULE_DEPEND(irdma, ice, 1, 1, 1);
816 MODULE_DEPEND(irdma, ibcore, 1, 1, 1);
817