xref: /freebsd/sys/dev/dpaa2/dpaa2_swp.c (revision 608da65de9552d5678c1000776ed69da04a45983)
1 /*-
2  * SPDX-License-Identifier: BSD-3-Clause AND BSD-2-Clause
3  *
4  * Copyright © 2014-2016 Freescale Semiconductor, Inc.
5  * Copyright © 2016-2019 NXP
6  * All rights reserved.
7  *
8  * Redistribution and use in source and binary forms, with or without
9  * modification, are permitted provided that the following conditions are met:
10  *
11  * 1. Redistributions of source code must retain the above copyright notice,
12  *    this list of conditions and the following disclaimer.
13  *
14  * 2. Redistributions in binary form must reproduce the above copyright
15  *    notice, this list of conditions and the following disclaimer in the
16  *    documentation and/or other materials provided with the distribution.
17  *
18  * 3. Neither the name of the copyright holder nor the names of its
19  *    contributors may be used to endorse or promote products derived from this
20  *    software without specific prior written permission.
21  *
22  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
23  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
24  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
25  * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
26  * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
27  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
28  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
29  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
30  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
31  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
32  * POSSIBILITY OF SUCH DAMAGE.
33  *
34  * Original source file obtained from:
35  * drivers/soc/fsl/dpio/qbman-portal.c
36  *
37  * Commit: 4c86114194e644b6da9107d75910635c9e87179e
38  * Repository: https://git.kernel.org/pub/scm/linux/kernel/git/stable/linux.git
39  */
40 
41 /*
42  * Copyright © 2021-2022 Dmitry Salychev
43  *
44  * Redistribution and use in source and binary forms, with or without
45  * modification, are permitted provided that the following conditions
46  * are met:
47  * 1. Redistributions of source code must retain the above copyright
48  *    notice, this list of conditions and the following disclaimer.
49  * 2. Redistributions in binary form must reproduce the above copyright
50  *    notice, this list of conditions and the following disclaimer in the
51  *    documentation and/or other materials provided with the distribution.
52  *
53  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
54  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
55  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
56  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
57  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
58  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
59  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
60  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
61  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
62  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
63  * SUCH DAMAGE.
64  */
65 
66 #include <sys/cdefs.h>
67 /*
68  * DPAA2 QBMan software portal.
69  */
70 
71 #include <sys/param.h>
72 #include <sys/kernel.h>
73 #include <sys/bus.h>
74 #include <sys/rman.h>
75 #include <sys/module.h>
76 #include <sys/malloc.h>
77 #include <sys/mutex.h>
78 #include <sys/time.h>
79 #include <sys/types.h>
80 #include <sys/systm.h>
81 #include <sys/lock.h>
82 
83 #include <machine/bus.h>
84 #include <machine/resource.h>
85 #include <machine/atomic.h>
86 
87 #include "pcib_if.h"
88 #include "pci_if.h"
89 
90 #include "dpaa2_swp.h"
91 #include "dpaa2_mc.h"
92 #include "dpaa2_bp.h"
93 
94 #define CMD_SPIN_TIMEOUT		100u	/* us */
95 #define CMD_SPIN_ATTEMPTS		2000u	/* 200 ms max. */
96 
97 #define CMD_VERB_MASK			0x7Fu
98 
99 /* Shifts in the VERB byte of the enqueue command descriptor. */
100 #define ENQ_CMD_ORP_ENABLE_SHIFT	2
101 #define ENQ_CMD_IRQ_ON_DISPATCH_SHIFT	3
102 #define ENQ_CMD_TARGET_TYPE_SHIFT	4
103 #define ENQ_CMD_DCA_EN_SHIFT		7
104 /* VERB byte options of the enqueue command descriptor. */
105 #define ENQ_CMD_EMPTY			0u
106 #define ENQ_CMD_RESPONSE_ALWAYS		1u
107 #define ENQ_CMD_REJECTS_TO_FQ		2u
108 
109 #define ENQ_DESC_FD_OFFSET		32u
110 
111 #define ENQ_DCA_IDXMASK			0x0Fu
112 #define ENQ_FLAG_DCA			(1ull << 31)
113 
114 /* QBMan portal command codes. */
115 #define CMDID_SWP_MC_ACQUIRE		0x30
116 #define CMDID_SWP_BP_QUERY		0x32
117 #define CMDID_SWP_WQCHAN_CONFIGURE	0x46
118 
119 /* QBMan portal command result codes. */
120 #define QBMAN_CMD_RC_OK			0xF0
121 
122 /* SDQCR attribute codes */
123 #define QB_SDQCR_FC_SHIFT 		29u
124 #define QB_SDQCR_FC_MASK		0x1u
125 #define QB_SDQCR_DCT_SHIFT		24u
126 #define QB_SDQCR_DCT_MASK		0x3u
127 #define QB_SDQCR_TOK_SHIFT		16u
128 #define QB_SDQCR_TOK_MASK		0xFFu
129 #define QB_SDQCR_SRC_SHIFT		0u
130 #define QB_SDQCR_SRC_MASK		0xFFFFu
131 
132 /* Shifts in the VERB byte of the volatile dequeue command. */
133 #define QB_VDQCR_VERB_DCT0_SHIFT	0
134 #define QB_VDQCR_VERB_DCT1_SHIFT	1
135 #define QB_VDQCR_VERB_DT0_SHIFT		2
136 #define QB_VDQCR_VERB_DT1_SHIFT		3
137 #define QB_VDQCR_VERB_RLS_SHIFT		4
138 #define QB_VDQCR_VERB_WAE_SHIFT		5
139 #define QB_VDQCR_VERB_RAD_SHIFT		6
140 
141 /* Maximum timeout period for the DQRR interrupt. */
142 #define DQRR_MAX_ITP			4096u
143 #define DQRR_PI_MASK			0x0Fu
144 
145 /* Release Array Allocation register helpers. */
146 #define RAR_IDX(rar)			((rar) & 0x7u)
147 #define RAR_VB(rar)			((rar) & 0x80u)
148 #define RAR_SUCCESS(rar)		((rar) & 0x100u)
149 
150 MALLOC_DEFINE(M_DPAA2_SWP, "dpaa2_swp", "DPAA2 QBMan Software Portal");
151 
152 enum qbman_sdqcr_dct {
153 	qbman_sdqcr_dct_null = 0,
154 	qbman_sdqcr_dct_prio_ics,
155 	qbman_sdqcr_dct_active_ics,
156 	qbman_sdqcr_dct_active
157 };
158 
159 enum qbman_sdqcr_fc {
160 	qbman_sdqcr_fc_one = 0,
161 	qbman_sdqcr_fc_up_to_3 = 1
162 };
163 
164 /* Routines to execute software portal commands. */
165 static int dpaa2_swp_exec_mgmt_command(struct dpaa2_swp *,
166     struct dpaa2_swp_cmd *, struct dpaa2_swp_rsp *, uint8_t);
167 static int dpaa2_swp_exec_br_command(struct dpaa2_swp *, struct dpaa2_swp_cmd *,
168     uint32_t);
169 static int dpaa2_swp_exec_vdc_command_locked(struct dpaa2_swp *,
170     struct dpaa2_swp_cmd *);
171 
172 /* Management Commands helpers. */
173 static int dpaa2_swp_send_mgmt_command(struct dpaa2_swp *,
174     struct dpaa2_swp_cmd *, uint8_t);
175 static int dpaa2_swp_wait_for_mgmt_response(struct dpaa2_swp *,
176     struct dpaa2_swp_rsp *);
177 
178 /* Helper subroutines. */
179 static int dpaa2_swp_cyc_diff(uint8_t, uint8_t, uint8_t);
180 
181 int
182 dpaa2_swp_init_portal(struct dpaa2_swp **swp, struct dpaa2_swp_desc *desc,
183     uint16_t flags)
184 {
185 	struct dpaa2_swp *p;
186 	uint32_t reg, mask_size, eqcr_pi; /* EQCR producer index */
187 
188 	if (!swp || !desc)
189 		return (DPAA2_SWP_STAT_EINVAL);
190 
191 	p = malloc(sizeof(struct dpaa2_swp), M_DPAA2_SWP,
192 	    flags & DPAA2_SWP_NOWAIT_ALLOC
193 	    ? (M_NOWAIT | M_ZERO)
194 	    : (M_WAITOK | M_ZERO));
195 	if (!p)
196 		return (DPAA2_SWP_STAT_NO_MEMORY);
197 
198 	mtx_init(&p->lock, "swp_sleep_lock", NULL, MTX_DEF);
199 
200 	p->cfg.mem_backed = false;
201 	p->cfg.writes_cinh = true;
202 
203 	p->desc = desc;
204 	p->flags = flags;
205 	p->mc.valid_bit = DPAA2_SWP_VALID_BIT;
206 	p->mr.valid_bit = DPAA2_SWP_VALID_BIT;
207 
208 	/* FIXME: Memory-backed mode doesn't work now. Why? */
209 	p->cena_res = desc->cena_res;
210 	p->cena_map = desc->cena_map;
211 	p->cinh_res = desc->cinh_res;
212 	p->cinh_map = desc->cinh_map;
213 
214 	/* Static Dequeue Command Register configuration. */
215 	p->sdq = 0;
216 	p->sdq |= qbman_sdqcr_dct_prio_ics << QB_SDQCR_DCT_SHIFT;
217 	p->sdq |= qbman_sdqcr_fc_up_to_3 << QB_SDQCR_FC_SHIFT;
218 	p->sdq |= DPAA2_SWP_SDQCR_TOKEN << QB_SDQCR_TOK_SHIFT;
219 
220 	/* Volatile Dequeue Command configuration. */
221 	p->vdq.valid_bit = DPAA2_SWP_VALID_BIT;
222 
223 	/* Dequeue Response Ring configuration */
224 	p->dqrr.next_idx = 0;
225 	p->dqrr.valid_bit = DPAA2_SWP_VALID_BIT;
226 	if ((desc->swp_version & DPAA2_SWP_REV_MASK) < DPAA2_SWP_REV_4100) {
227 		p->dqrr.ring_size = 4;
228 		p->dqrr.reset_bug = 1;
229 	} else {
230 		p->dqrr.ring_size = 8;
231 		p->dqrr.reset_bug = 0;
232 	}
233 
234 	if ((desc->swp_version & DPAA2_SWP_REV_MASK) < DPAA2_SWP_REV_5000) {
235 		reg = dpaa2_swp_set_cfg(
236 		    p->dqrr.ring_size, /* max. entries QMan writes to DQRR */
237 		    1, /* writes enabled in the CINH memory only */
238 		    0, /* EQCR_CI stashing threshold */
239 		    3, /* RPM: RCR in array mode */
240 		    2, /* DCM: Discrete consumption ack */
241 		    2, /* EPM: EQCR in ring mode (FIFO) */
242 		    1, /* mem stashing drop enable enable */
243 		    1, /* mem stashing priority enable */
244 		    1, /* mem stashing enable */
245 		    1, /* dequeue stashing priority enable */
246 		    0, /* dequeue stashing enable enable */
247 		    0  /* EQCR_CI stashing priority enable */
248 		);
249 		reg &= ~(1 << DPAA2_SWP_CFG_CPBS_SHIFT); /* QMan-backed mode */
250 	} else {
251 		bus_set_region_4(p->cena_map, 0, 0,
252 		    rman_get_size(p->cena_res) / 4);
253 
254 		reg = dpaa2_swp_set_cfg(
255 		    p->dqrr.ring_size, /* max. entries QMan writes to DQRR */					/* DQRR_MF */
256 		    1, /* writes enabled in the CINH memory only */						/* WN */
257 		    0, /* EQCR_CI stashing is disabled */							/* EST */
258 		    3, /* RPM: RCR in array mode */								/* RPM */
259 		    2, /* DCM: Discrete consumption ack */							/* DCM */
260 		    2, /* EPM: EQCR in ring mode (FIFO) */							/* EPM */
261 		    1, /* Dequeued frame data, annotation, and FQ context stashing drop enable */		/* SD */
262 		    1, /* Dequeued frame data, annotation, and FQ context stashing priority */			/* SP */
263 		    1, /* Dequeued frame data, annotation, and FQ context stashing enable */			/* SE */
264 		    1, /* Dequeue response ring (DQRR) entry stashing priority */				/* DP */
265 		    0, /* Dequeue response ring (DQRR) entry, or cacheable portal area, stashing enable. */	/* DE */
266 		    0  /* EQCR_CI stashing priority */								/* EP */
267 		);
268 		/* TODO: Switch to memory-backed mode. */
269 		reg &= ~(1 << DPAA2_SWP_CFG_CPBS_SHIFT); /* QMan-backed mode */
270 	}
271 	dpaa2_swp_write_reg(p, DPAA2_SWP_CINH_CFG, reg);
272 	reg = dpaa2_swp_read_reg(p, DPAA2_SWP_CINH_CFG);
273 	if (!reg) {
274 		free(p, M_DPAA2_SWP);
275 		return (DPAA2_SWP_STAT_PORTAL_DISABLED);
276 	}
277 
278 	/*
279 	 * Static Dequeue Command Register needs to be initialized to 0 when no
280 	 * channels are being dequeued from or else the QMan HW will indicate an
281 	 * error. The values that were calculated above will be applied when
282 	 * dequeues from a specific channel are enabled.
283 	 */
284 	dpaa2_swp_write_reg(p, DPAA2_SWP_CINH_SDQCR, 0);
285 
286 	p->eqcr.pi_ring_size = 8;
287 	/* if ((desc->swp_version & DPAA2_SWP_REV_MASK) >= DPAA2_SWP_REV_5000) */
288 	/* 	p->eqcr.pi_ring_size = 32; */
289 
290 	for (mask_size = p->eqcr.pi_ring_size; mask_size > 0; mask_size >>= 1)
291 		p->eqcr.pi_ci_mask = (p->eqcr.pi_ci_mask << 1) + 1;
292 
293 	eqcr_pi = dpaa2_swp_read_reg(p, DPAA2_SWP_CINH_EQCR_PI);
294 	p->eqcr.pi = eqcr_pi & p->eqcr.pi_ci_mask;
295 	p->eqcr.pi_vb = eqcr_pi & DPAA2_SWP_VALID_BIT;
296 	p->eqcr.ci = dpaa2_swp_read_reg(p, DPAA2_SWP_CINH_EQCR_CI)
297 	    & p->eqcr.pi_ci_mask;
298 	p->eqcr.available = p->eqcr.pi_ring_size;
299 
300 	/* TODO: sysctl(9) for the IRQ timeout? */
301 	/* Initialize the portal with an IRQ threshold and timeout of 120us. */
302 	dpaa2_swp_set_irq_coalescing(p, p->dqrr.ring_size - 1, 120);
303 
304 	*swp = p;
305 
306 	return (0);
307 }
308 
309 void
310 dpaa2_swp_free_portal(struct dpaa2_swp *swp)
311 {
312 	uint16_t flags;
313 
314 	KASSERT(swp != NULL, ("%s: swp is NULL", __func__));
315 
316 	DPAA2_SWP_LOCK(swp, &flags);
317 	swp->flags |= DPAA2_SWP_DESTROYED;
318 	DPAA2_SWP_UNLOCK(swp);
319 
320 	/* Let threads stop using this portal. */
321 	DELAY(DPAA2_SWP_TIMEOUT);
322 
323 	mtx_destroy(&swp->lock);
324 	free(swp, M_DPAA2_SWP);
325 }
326 
327 uint32_t
328 dpaa2_swp_set_cfg(uint8_t max_fill, uint8_t wn, uint8_t est, uint8_t rpm,
329     uint8_t dcm, uint8_t epm, int sd, int sp, int se, int dp, int de, int ep)
330 {
331 	return (
332 	    max_fill	<< DPAA2_SWP_CFG_DQRR_MF_SHIFT |
333 	    est		<< DPAA2_SWP_CFG_EST_SHIFT |
334 	    wn		<< DPAA2_SWP_CFG_WN_SHIFT |
335 	    rpm		<< DPAA2_SWP_CFG_RPM_SHIFT |
336 	    dcm		<< DPAA2_SWP_CFG_DCM_SHIFT |
337 	    epm		<< DPAA2_SWP_CFG_EPM_SHIFT |
338 	    sd		<< DPAA2_SWP_CFG_SD_SHIFT |
339 	    sp		<< DPAA2_SWP_CFG_SP_SHIFT |
340 	    se		<< DPAA2_SWP_CFG_SE_SHIFT |
341 	    dp		<< DPAA2_SWP_CFG_DP_SHIFT |
342 	    de		<< DPAA2_SWP_CFG_DE_SHIFT |
343 	    ep		<< DPAA2_SWP_CFG_EP_SHIFT
344 	);
345 }
346 
347 /* Read/write registers of a software portal. */
348 
349 void
350 dpaa2_swp_write_reg(struct dpaa2_swp *swp, uint32_t o, uint32_t v)
351 {
352 	bus_write_4(swp->cinh_map, o, v);
353 }
354 
355 uint32_t
356 dpaa2_swp_read_reg(struct dpaa2_swp *swp, uint32_t o)
357 {
358 	return (bus_read_4(swp->cinh_map, o));
359 }
360 
361 /* Helper routines. */
362 
363 /**
364  * @brief Set enqueue descriptor without Order Point Record ID.
365  *
366  * ed:		Enqueue descriptor.
367  * resp_always:	Enqueue with response always (1); FD from a rejected enqueue
368  *		will be returned on a FQ (0).
369  */
370 void
371 dpaa2_swp_set_ed_norp(struct dpaa2_eq_desc *ed, bool resp_always)
372 {
373 	ed->verb &= ~(1 << ENQ_CMD_ORP_ENABLE_SHIFT);
374 	if (resp_always)
375 		ed->verb |= ENQ_CMD_RESPONSE_ALWAYS;
376 	else
377 		ed->verb |= ENQ_CMD_REJECTS_TO_FQ;
378 }
379 
380 /**
381  * @brief Set FQ of the enqueue descriptor.
382  */
383 void
384 dpaa2_swp_set_ed_fq(struct dpaa2_eq_desc *ed, uint32_t fqid)
385 {
386 	ed->verb &= ~(1 << ENQ_CMD_TARGET_TYPE_SHIFT);
387 	ed->tgtid = fqid;
388 }
389 
390 /**
391  * @brief Enable interrupts for a software portal.
392  */
393 void
394 dpaa2_swp_set_intr_trigger(struct dpaa2_swp *swp, uint32_t mask)
395 {
396 	if (swp != NULL)
397 		dpaa2_swp_write_reg(swp, DPAA2_SWP_CINH_IER, mask);
398 }
399 
400 /**
401  * @brief Return the value in the SWP_IER register.
402  */
403 uint32_t
404 dpaa2_swp_get_intr_trigger(struct dpaa2_swp *swp)
405 {
406 	if (swp != NULL)
407 		return dpaa2_swp_read_reg(swp, DPAA2_SWP_CINH_IER);
408 	return (0);
409 }
410 
411 /**
412  * @brief Return the value in the SWP_ISR register.
413  */
414 uint32_t
415 dpaa2_swp_read_intr_status(struct dpaa2_swp *swp)
416 {
417 	if (swp != NULL)
418 		return dpaa2_swp_read_reg(swp, DPAA2_SWP_CINH_ISR);
419 	return (0);
420 }
421 
422 /**
423  * @brief Clear SWP_ISR register according to the given mask.
424  */
425 void
426 dpaa2_swp_clear_intr_status(struct dpaa2_swp *swp, uint32_t mask)
427 {
428 	if (swp != NULL)
429 		dpaa2_swp_write_reg(swp, DPAA2_SWP_CINH_ISR, mask);
430 }
431 
432 /**
433  * @brief Enable or disable push dequeue.
434  *
435  * swp:		the software portal object
436  * chan_idx:	the channel index (0 to 15)
437  * en:		enable or disable push dequeue
438  */
439 void
440 dpaa2_swp_set_push_dequeue(struct dpaa2_swp *swp, uint8_t chan_idx, bool en)
441 {
442 	uint16_t dqsrc;
443 
444 	if (swp != NULL) {
445 		if (chan_idx > 15u) {
446 			device_printf(swp->desc->dpio_dev, "channel index "
447 			    "should be <= 15: chan_idx=%d\n", chan_idx);
448 			return;
449 		}
450 
451 		if (en)
452 			swp->sdq |= 1 << chan_idx;
453 		else
454 			swp->sdq &= ~(1 << chan_idx);
455 		/*
456 		 * Read make the complete src map. If no channels are enabled
457 		 * the SDQCR must be 0 or else QMan will assert errors.
458 		 */
459 		dqsrc = (swp->sdq >> DPAA2_SDQCR_SRC_SHIFT) &
460 		    DPAA2_SDQCR_SRC_MASK;
461 		dpaa2_swp_write_reg(swp, DPAA2_SWP_CINH_SDQCR, dqsrc != 0
462 		    ? swp->sdq : 0);
463 	}
464 }
465 
466 /**
467  * @brief Set new IRQ coalescing values.
468  *
469  * swp:		The software portal object.
470  * threshold:	Threshold for DQRR interrupt generation. The DQRR interrupt
471  *		asserts when the ring contains greater than "threshold" entries.
472  * holdoff:	DQRR interrupt holdoff (timeout) period in us.
473  */
474 int dpaa2_swp_set_irq_coalescing(struct dpaa2_swp *swp, uint32_t threshold,
475     uint32_t holdoff)
476 {
477 	uint32_t itp; /* Interrupt Timeout Period */
478 
479 	if (swp == NULL)
480 		return (EINVAL);
481 
482 	/*
483 	 * Convert "holdoff" value from us to 256 QBMAN clock cycles
484 	 * increments. This depends on the QBMAN internal frequency.
485 	 */
486 	itp = (holdoff * 1000u) / swp->desc->swp_cycles_ratio;
487 	if (itp > DQRR_MAX_ITP)
488 		itp = DQRR_MAX_ITP;
489 	if (threshold >= swp->dqrr.ring_size)
490 		threshold = swp->dqrr.ring_size - 1;
491 
492 	swp->dqrr.irq_threshold = threshold;
493 	swp->dqrr.irq_itp = itp;
494 
495 	dpaa2_swp_write_reg(swp, DPAA2_SWP_CINH_DQRR_ITR, threshold);
496 	dpaa2_swp_write_reg(swp, DPAA2_SWP_CINH_ITPR, itp);
497 
498 	return (0);
499 }
500 
501 /*
502  * Software portal commands.
503  */
504 
505 /**
506  * @brief Configure the channel data availability notification (CDAN)
507  * in a particular WQ channel.
508  */
509 int
510 dpaa2_swp_conf_wq_channel(struct dpaa2_swp *swp, uint16_t chan_id,
511     uint8_t we_mask, bool cdan_en, uint64_t ctx)
512 {
513 	/* NOTE: 64 bytes command. */
514 	struct __packed {
515 		uint8_t		verb;
516 		uint8_t		result; /* in response only! */
517 		uint16_t	chan_id;
518 		uint8_t		we;
519 		uint8_t		ctrl;
520 		uint16_t	_reserved2;
521 		uint64_t	ctx;
522 		uint8_t		_reserved3[48];
523 	} cmd = {0};
524 	struct __packed {
525 		uint8_t		verb;
526 		uint8_t		result;
527 		uint16_t	chan_id;
528 		uint8_t		_reserved[60];
529 	} rsp;
530 	int error;
531 
532 	if (swp == NULL)
533 		return (EINVAL);
534 
535 	cmd.chan_id = chan_id;
536 	cmd.we = we_mask;
537 	cmd.ctrl = cdan_en ? 1u : 0u;
538 	cmd.ctx = ctx;
539 
540 	error = dpaa2_swp_exec_mgmt_command(swp, (struct dpaa2_swp_cmd *) &cmd,
541 	    (struct dpaa2_swp_rsp *) &rsp, CMDID_SWP_WQCHAN_CONFIGURE);
542 	if (error)
543 		return (error);
544 
545 	if (rsp.result != QBMAN_CMD_RC_OK) {
546 		device_printf(swp->desc->dpio_dev, "WQ channel configuration "
547 		    "error: channel_id=%d, result=0x%02x\n", chan_id,
548 		    rsp.result);
549 		return (EIO);
550 	}
551 
552 	return (0);
553 }
554 
555 /**
556  * @brief Query current configuration/state of the buffer pool.
557  */
558 int
559 dpaa2_swp_query_bp(struct dpaa2_swp *swp, uint16_t bpid,
560     struct dpaa2_bp_conf *conf)
561 {
562 	/* NOTE: 64 bytes command. */
563 	struct __packed {
564 		uint8_t		verb;
565 		uint8_t		_reserved1;
566 		uint16_t	bpid;
567 		uint8_t		_reserved2[60];
568 	} cmd = {0};
569 	struct __packed {
570 		uint8_t		verb;
571 		uint8_t		result;
572 		uint32_t	_reserved1;
573 		uint8_t		bdi;
574 		uint8_t		state;
575 		uint32_t	fill;
576 		/* TODO: Support the other fields as well. */
577 		uint8_t		_reserved2[52];
578 	} rsp;
579 	int error;
580 
581 	if (swp == NULL || conf == NULL)
582 		return (EINVAL);
583 
584 	cmd.bpid = bpid;
585 
586 	error = dpaa2_swp_exec_mgmt_command(swp, (struct dpaa2_swp_cmd *) &cmd,
587 	    (struct dpaa2_swp_rsp *) &rsp, CMDID_SWP_BP_QUERY);
588 	if (error)
589 		return (error);
590 
591 	if (rsp.result != QBMAN_CMD_RC_OK) {
592 		device_printf(swp->desc->dpio_dev, "BP query error: bpid=%d, "
593 		    "result=0x%02x\n", bpid, rsp.result);
594 		return (EIO);
595 	}
596 
597 	conf->bdi = rsp.bdi;
598 	conf->state = rsp.state;
599 	conf->free_bufn = rsp.fill;
600 
601 	return (0);
602 }
603 
604 int
605 dpaa2_swp_release_bufs(struct dpaa2_swp *swp, uint16_t bpid, bus_addr_t *buf,
606     uint32_t buf_num)
607 {
608 	/* NOTE: 64 bytes command. */
609 	struct __packed {
610 		uint8_t		verb;
611 		uint8_t		_reserved1;
612 		uint16_t	bpid;
613 		uint32_t	_reserved2;
614 		uint64_t	buf[DPAA2_SWP_BUFS_PER_CMD];
615 	} cmd = {0};
616 	int error;
617 
618 	if (swp == NULL || buf == NULL || buf_num == 0u ||
619 	    buf_num > DPAA2_SWP_BUFS_PER_CMD)
620 		return (EINVAL);
621 
622 	for (uint32_t i = 0; i < buf_num; i++)
623 		cmd.buf[i] = buf[i];
624 	cmd.bpid = bpid;
625 	cmd.verb |= 1 << 5; /* Switch release buffer command to valid. */
626 
627 	error = dpaa2_swp_exec_br_command(swp, (struct dpaa2_swp_cmd *) &cmd,
628 	    buf_num);
629 	if (error) {
630 		device_printf(swp->desc->dpio_dev, "buffers release command "
631 		    "failed\n");
632 		return (error);
633 	}
634 
635 	return (0);
636 }
637 
638 int
639 dpaa2_swp_dqrr_next_locked(struct dpaa2_swp *swp, struct dpaa2_dq *dq,
640     uint32_t *idx)
641 {
642 	struct resource_map *map = swp->cinh_map;
643 	struct dpaa2_swp_rsp *rsp = (struct dpaa2_swp_rsp *) dq;
644 	uint32_t verb, pi; /* producer index */
645 	uint32_t offset = swp->cfg.mem_backed
646 	    ? DPAA2_SWP_CENA_DQRR_MEM(swp->dqrr.next_idx)
647 	    : DPAA2_SWP_CENA_DQRR(swp->dqrr.next_idx);
648 
649 	if (swp == NULL || dq == NULL)
650 		return (EINVAL);
651 
652 	/*
653 	 * Before using valid-bit to detect if something is there, we have to
654 	 * handle the case of the DQRR reset bug...
655 	 */
656 	if (swp->dqrr.reset_bug) {
657 		/*
658 		 * We pick up new entries by cache-inhibited producer index,
659 		 * which means that a non-coherent mapping would require us to
660 		 * invalidate and read *only* once that PI has indicated that
661 		 * there's an entry here. The first trip around the DQRR ring
662 		 * will be much less efficient than all subsequent trips around
663 		 * it...
664 		 */
665 		pi = dpaa2_swp_read_reg(swp, DPAA2_SWP_CINH_DQPI) & DQRR_PI_MASK;
666 
667 		/* There are new entries if pi != next_idx */
668 		if (pi == swp->dqrr.next_idx)
669 			return (ENOENT);
670 
671 		/*
672 		 * If next_idx is/was the last ring index, and 'pi' is
673 		 * different, we can disable the workaround as all the ring
674 		 * entries have now been DMA'd to so valid-bit checking is
675 		 * repaired.
676 		 *
677 		 * NOTE: This logic needs to be based on next_idx (which
678 		 *	 increments one at a time), rather than on pi (which
679 		 *	 can burst and wrap-around between our snapshots of it).
680 		 */
681 		if (swp->dqrr.next_idx == (swp->dqrr.ring_size - 1))
682 			swp->dqrr.reset_bug = 0;
683 	}
684 
685 	verb = bus_read_4(map, offset);
686 	if ((verb & DPAA2_SWP_VALID_BIT) != swp->dqrr.valid_bit)
687 		return (ENOENT);
688 
689 	/* Read dequeue response message. */
690 	for (int i = 0; i < DPAA2_SWP_RSP_PARAMS_N; i++)
691 		rsp->params[i] = bus_read_8(map, offset + i * sizeof(uint64_t));
692 
693 	/* Return index of the current entry (if requested). */
694 	if (idx != NULL)
695 		*idx = swp->dqrr.next_idx;
696 
697 	/*
698 	 * There's something there. Move "next_idx" attention to the next ring
699 	 * entry before returning what we found.
700 	 */
701 	swp->dqrr.next_idx++;
702 	swp->dqrr.next_idx &= swp->dqrr.ring_size - 1; /* wrap around */
703 	if (swp->dqrr.next_idx == 0u)
704 		swp->dqrr.valid_bit ^= DPAA2_SWP_VALID_BIT;
705 
706 	return (0);
707 }
708 
709 int
710 dpaa2_swp_pull(struct dpaa2_swp *swp, uint16_t chan_id, struct dpaa2_buf *buf,
711     uint32_t frames_n)
712 {
713 	/* NOTE: 64 bytes command. */
714 	struct __packed {
715 		uint8_t		verb;
716 		uint8_t		numf;
717 		uint8_t		tok;
718 		uint8_t		_reserved;
719 		uint32_t	dq_src;
720 		uint64_t	rsp_addr;
721 		uint64_t	_reserved1[6];
722 	} cmd = {0};
723 	struct dpaa2_dq *msg;
724 	uint16_t flags;
725 	int i, error;
726 
727 	KASSERT(frames_n != 0u, ("%s: cannot pull zero frames", __func__));
728 	KASSERT(frames_n <= 16u, ("%s: too much frames to pull", __func__));
729 
730 	cmd.numf = frames_n - 1;
731 	cmd.tok = DPAA2_SWP_VDQCR_TOKEN;
732 	cmd.dq_src = chan_id;
733 	cmd.rsp_addr = (uint64_t)buf->paddr;
734 
735 	/* Dequeue command type */
736 	cmd.verb &= ~(1 << QB_VDQCR_VERB_DCT0_SHIFT);
737 	cmd.verb |=  (1 << QB_VDQCR_VERB_DCT1_SHIFT);
738 	/* Dequeue from a specific software portal channel (ID's in DQ_SRC). */
739 	cmd.verb &= ~(1 << QB_VDQCR_VERB_DT0_SHIFT);
740 	cmd.verb &= ~(1 << QB_VDQCR_VERB_DT1_SHIFT);
741 	/* Write the response to this command into memory (at the RSP_ADDR). */
742 	cmd.verb |=  (1 << QB_VDQCR_VERB_RLS_SHIFT);
743 	/* Response writes won't attempt to allocate into a cache. */
744 	cmd.verb &= ~(1 << QB_VDQCR_VERB_WAE_SHIFT);
745 	/* Allow the FQ to remain active in the portal after dequeue. */
746 	cmd.verb &= ~(1 << QB_VDQCR_VERB_RAD_SHIFT);
747 
748 	DPAA2_SWP_LOCK(swp, &flags);
749 	if (flags & DPAA2_SWP_DESTROYED) {
750 		/* Terminate operation if portal is destroyed. */
751 		DPAA2_SWP_UNLOCK(swp);
752 		return (ENOENT);
753 	}
754 
755 	error = dpaa2_swp_exec_vdc_command_locked(swp,
756 	    (struct dpaa2_swp_cmd *) &cmd);
757 	if (error != 0) {
758 		DPAA2_SWP_UNLOCK(swp);
759 		return (error);
760 	}
761 
762 	/* Let's sync before reading VDQ response from QBMan. */
763 	bus_dmamap_sync(buf->dmat, buf->dmap, BUS_DMASYNC_POSTREAD);
764 
765 	/* Read VDQ response from QBMan. */
766 	msg = (struct dpaa2_dq *)buf->vaddr;
767 	for (i = 1; i <= CMD_SPIN_ATTEMPTS; i++) {
768 		if ((msg->fdr.desc.stat & DPAA2_DQ_STAT_VOLATILE) &&
769 		    (msg->fdr.desc.tok == DPAA2_SWP_VDQCR_TOKEN)) {
770 			/* Reset token. */
771 			msg->fdr.desc.tok = 0;
772 			break;
773 		}
774 		DELAY(CMD_SPIN_TIMEOUT);
775 	}
776 	DPAA2_SWP_UNLOCK(swp);
777 
778 	/* Return an error on expired timeout. */
779 	return (i > CMD_SPIN_ATTEMPTS ? ETIMEDOUT : 0);
780 }
781 
782 /**
783  * @brief Issue a command to enqueue a frame using one enqueue descriptor.
784  *
785  * swp:		Software portal used to send this command to.
786  * ed:		Enqueue command descriptor.
787  * fd:		Frame descriptor to enqueue.
788  */
789 int
790 dpaa2_swp_enq(struct dpaa2_swp *swp, struct dpaa2_eq_desc *ed,
791     struct dpaa2_fd *fd)
792 {
793 	uint32_t flags = 0;
794 	int rc = dpaa2_swp_enq_mult(swp, ed, fd, &flags, 1);
795 
796 	return (rc >= 0 ? 0 : EBUSY);
797 }
798 
799 /**
800  * @brief Issue a command to enqueue frames using one enqueue descriptor.
801  *
802  * swp:		Software portal used to send this command to.
803  * ed:		Enqueue command descriptor.
804  * fd:		Frame descriptor to enqueue.
805  * flags:	Table pointer of QBMAN_ENQUEUE_FLAG_DCA flags, not used if NULL.
806  * frames_n:	Number of FDs to enqueue.
807  *
808  * NOTE: Enqueue command (64 bytes): 32 (eq. descriptor) + 32 (frame descriptor).
809  */
810 int
811 dpaa2_swp_enq_mult(struct dpaa2_swp *swp, struct dpaa2_eq_desc *ed,
812     struct dpaa2_fd *fd, uint32_t *flags, int frames_n)
813 {
814 	const uint8_t  *ed_pdat8 =  (const uint8_t *) ed;
815 	const uint32_t *ed_pdat32 = (const uint32_t *) ed;
816 	const uint64_t *ed_pdat64 = (const uint64_t *) ed;
817 	const uint64_t *fd_pdat64 = (const uint64_t *) fd;
818 	struct resource_map *map;
819 	uint32_t eqcr_ci, eqcr_pi; /* EQCR consumer/producer index */
820 	uint32_t half_mask, full_mask, val, ci_offset;
821 	uint16_t swp_flags;
822 	int num_enq = 0;
823 
824 	if (swp == NULL || ed == NULL || fd == NULL || flags == NULL ||
825 	    frames_n == 0)
826 		return (EINVAL);
827 
828 	DPAA2_SWP_LOCK(swp, &swp_flags);
829 	if (swp_flags & DPAA2_SWP_DESTROYED) {
830 		/* Terminate operation if portal is destroyed. */
831 		DPAA2_SWP_UNLOCK(swp);
832 		return (ENOENT);
833 	}
834 
835 	map = swp->cfg.writes_cinh ? swp->cinh_map : swp->cena_map;
836 	ci_offset = swp->cfg.mem_backed
837 	    ? DPAA2_SWP_CENA_EQCR_CI_MEMBACK
838 	    : DPAA2_SWP_CENA_EQCR_CI;
839 
840 	half_mask = swp->eqcr.pi_ci_mask >> 1;
841 	full_mask = swp->eqcr.pi_ci_mask;
842 
843 	if (swp->eqcr.available == 0) {
844 		val = dpaa2_swp_read_reg(swp, ci_offset);
845 		eqcr_ci = swp->eqcr.ci;
846 		swp->eqcr.ci = val & full_mask;
847 
848 		swp->eqcr.available = dpaa2_swp_cyc_diff(swp->eqcr.pi_ring_size,
849 		    eqcr_ci, swp->eqcr.ci);
850 
851 		if (swp->eqcr.available == 0) {
852 			DPAA2_SWP_UNLOCK(swp);
853 			return (0);
854 		}
855 	}
856 
857 	eqcr_pi = swp->eqcr.pi;
858 	num_enq = swp->eqcr.available < frames_n
859 	    ? swp->eqcr.available : frames_n;
860 	swp->eqcr.available -= num_enq;
861 
862 	KASSERT(num_enq >= 0 && num_enq <= swp->eqcr.pi_ring_size,
863 	    ("%s: unexpected num_enq=%d", __func__, num_enq));
864 	KASSERT(swp->eqcr.available >= 0 &&
865 	    swp->eqcr.available <= swp->eqcr.pi_ring_size,
866 	    ("%s: unexpected eqcr.available=%d", __func__, swp->eqcr.available));
867 
868 	/* Fill in the EQCR ring. */
869 	for (int i = 0; i < num_enq; i++) {
870 		/* Write enq. desc. without the VERB, DCA, SEQNUM and OPRID. */
871 		for (int j = 1; j <= 3; j++)
872 			bus_write_8(map,
873 			    DPAA2_SWP_CENA_EQCR(eqcr_pi & half_mask) +
874 			    sizeof(uint64_t) * j, ed_pdat64[j]);
875 		/* Write OPRID. */
876 		bus_write_4(map,
877 		    DPAA2_SWP_CENA_EQCR(eqcr_pi & half_mask) + sizeof(uint32_t),
878 		    ed_pdat32[1]);
879 		/* Write DCA and SEQNUM without VERB byte. */
880 		for (int j = 1; j <= 3; j++)
881 			bus_write_1(map,
882 			    DPAA2_SWP_CENA_EQCR(eqcr_pi & half_mask) +
883 			    sizeof(uint8_t) * j, ed_pdat8[j]);
884 
885 		/* Write frame descriptor. */
886 		for (int j = 0; j <= 3; j++)
887 			bus_write_8(map,
888 			    DPAA2_SWP_CENA_EQCR(eqcr_pi & half_mask) +
889 			    ENQ_DESC_FD_OFFSET +
890 			    sizeof(uint64_t) * j, fd_pdat64[j]);
891 		eqcr_pi++;
892 	}
893 
894 	wmb();
895 
896 	/* Write the VERB byte of enqueue descriptor. */
897 	eqcr_pi = swp->eqcr.pi;
898 	for (int i = 0; i < num_enq; i++) {
899 		bus_write_1(map,
900 		    DPAA2_SWP_CENA_EQCR(eqcr_pi & half_mask),
901 		    ed_pdat8[0] | swp->eqcr.pi_vb);
902 
903 		if (flags && (flags[i] & ENQ_FLAG_DCA)) {
904 			/* Update DCA byte. */
905 			bus_write_1(map,
906 			    DPAA2_SWP_CENA_EQCR(eqcr_pi & half_mask) + 1,
907 			    (1 << ENQ_CMD_DCA_EN_SHIFT) |
908 			    (flags[i] & ENQ_DCA_IDXMASK));
909 		}
910 		eqcr_pi++;
911 		if (!(eqcr_pi & half_mask))
912 			swp->eqcr.pi_vb ^= DPAA2_SWP_VALID_BIT;
913 	}
914 	swp->eqcr.pi = eqcr_pi & full_mask;
915 
916 	DPAA2_SWP_UNLOCK(swp);
917 
918 	return (num_enq);
919 }
920 
921 static int
922 dpaa2_swp_cyc_diff(uint8_t ringsize, uint8_t first, uint8_t last)
923 {
924 	/* 'first' is included, 'last' is excluded */
925 	return ((first <= last)
926 	    ? (last - first) : ((2 * ringsize) - (first - last)));
927 }
928 
929 /**
930  * @brief Execute Buffer Release Command (BRC).
931  */
932 static int
933 dpaa2_swp_exec_br_command(struct dpaa2_swp *swp, struct dpaa2_swp_cmd *cmd,
934     uint32_t buf_num)
935 {
936 	struct __packed with_verb {
937 		uint8_t	verb;
938 		uint8_t	_reserved[63];
939 	} *c;
940 	const uint8_t *cmd_pdat8 = (const uint8_t *) cmd->params;
941 	const uint32_t *cmd_pdat32 = (const uint32_t *) cmd->params;
942 	struct resource_map *map;
943 	uint32_t offset, rar; /* Release Array Allocation register */
944 	uint16_t flags;
945 
946 	if (!swp || !cmd)
947 		return (EINVAL);
948 
949 	DPAA2_SWP_LOCK(swp, &flags);
950 	if (flags & DPAA2_SWP_DESTROYED) {
951 		/* Terminate operation if portal is destroyed. */
952 		DPAA2_SWP_UNLOCK(swp);
953 		return (ENOENT);
954 	}
955 
956 	rar = dpaa2_swp_read_reg(swp, DPAA2_SWP_CINH_RAR);
957 	if (!RAR_SUCCESS(rar)) {
958 		DPAA2_SWP_UNLOCK(swp);
959 		return (EBUSY);
960 	}
961 
962 	map = swp->cfg.writes_cinh ? swp->cinh_map : swp->cena_map;
963 	offset = swp->cfg.mem_backed
964 	    ? DPAA2_SWP_CENA_RCR_MEM(RAR_IDX(rar))
965 	    : DPAA2_SWP_CENA_RCR(RAR_IDX(rar));
966 	c = (struct with_verb *) cmd;
967 
968 	/* Write command bytes (without VERB byte). */
969 	for (uint32_t i = 1; i < DPAA2_SWP_CMD_PARAMS_N; i++)
970 		bus_write_8(map, offset + sizeof(uint64_t) * i, cmd->params[i]);
971 	bus_write_4(map, offset + 4, cmd_pdat32[1]);
972 	for (uint32_t i = 1; i <= 3; i++)
973 		bus_write_1(map, offset + i, cmd_pdat8[i]);
974 
975 	/* Write VERB byte and trigger command execution. */
976 	if (swp->cfg.mem_backed) {
977 		bus_write_1(map, offset, c->verb | RAR_VB(rar) | buf_num);
978 		wmb();
979 		dpaa2_swp_write_reg(swp, DPAA2_SWP_CINH_RCR_AM_RT +
980 		    RAR_IDX(rar) * 4, DPAA2_SWP_RT_MODE);
981 	} else {
982 		wmb();
983 		bus_write_1(map, offset, c->verb | RAR_VB(rar) | buf_num);
984 	}
985 
986 	DPAA2_SWP_UNLOCK(swp);
987 
988 	return (0);
989 }
990 
991 /**
992  * @brief Execute Volatile Dequeue Command (VDC).
993  *
994  * This command will be executed by QBMan only once in order to deliver requested
995  * number of frames (1-16 or 1-32 depending on QBMan version) to the driver via
996  * DQRR or arbitrary DMA-mapped memory.
997  *
998  * NOTE: There is a counterpart to the volatile dequeue command called static
999  *	 dequeue command (SDQC) which is executed periodically all the time the
1000  *	 command is present in the SDQCR register.
1001  */
1002 static int
1003 dpaa2_swp_exec_vdc_command_locked(struct dpaa2_swp *swp,
1004     struct dpaa2_swp_cmd *cmd)
1005 {
1006 	struct __packed with_verb {
1007 		uint8_t	verb;
1008 		uint8_t	_reserved[63];
1009 	} *c;
1010 	const uint8_t *p8 = (const uint8_t *) cmd->params;
1011 	const uint32_t *p32 = (const uint32_t *) cmd->params;
1012 	struct resource_map *map;
1013 	uint32_t offset;
1014 
1015 	map = swp->cfg.writes_cinh ? swp->cinh_map : swp->cena_map;
1016 	offset = swp->cfg.mem_backed
1017 	    ? DPAA2_SWP_CENA_VDQCR_MEM : DPAA2_SWP_CENA_VDQCR;
1018 	c = (struct with_verb *) cmd;
1019 
1020 	/* Write command bytes (without VERB byte). */
1021 	for (uint32_t i = 1; i < DPAA2_SWP_CMD_PARAMS_N; i++)
1022 		bus_write_8(map, offset + sizeof(uint64_t) * i, cmd->params[i]);
1023 	bus_write_4(map, offset + 4, p32[1]);
1024 	for (uint32_t i = 1; i <= 3; i++)
1025 		bus_write_1(map, offset + i, p8[i]);
1026 
1027 	/* Write VERB byte and trigger command execution. */
1028 	if (swp->cfg.mem_backed) {
1029 		bus_write_1(map, offset, c->verb | swp->vdq.valid_bit);
1030 		swp->vdq.valid_bit ^= DPAA2_SWP_VALID_BIT;
1031 		wmb();
1032 		dpaa2_swp_write_reg(swp, DPAA2_SWP_CINH_VDQCR_RT,
1033 		    DPAA2_SWP_RT_MODE);
1034 	} else {
1035 		wmb();
1036 		bus_write_1(map, offset, c->verb | swp->vdq.valid_bit);
1037 		swp->vdq.valid_bit ^= DPAA2_SWP_VALID_BIT;
1038 	}
1039 
1040 	return (0);
1041 }
1042 
1043 /**
1044  * @brief Execute a QBMan management command.
1045  */
1046 static int
1047 dpaa2_swp_exec_mgmt_command(struct dpaa2_swp *swp, struct dpaa2_swp_cmd *cmd,
1048     struct dpaa2_swp_rsp *rsp, uint8_t cmdid)
1049 {
1050 #if (defined(_KERNEL) && defined(INVARIANTS))
1051 	struct __packed with_verb {
1052 		uint8_t	verb;
1053 		uint8_t	_reserved[63];
1054 	} *r;
1055 #endif
1056 	uint16_t flags;
1057 	int error;
1058 
1059 	if (swp == NULL || cmd == NULL || rsp == NULL)
1060 		return (EINVAL);
1061 
1062 	DPAA2_SWP_LOCK(swp, &flags);
1063 	if (flags & DPAA2_SWP_DESTROYED) {
1064 		/* Terminate operation if portal is destroyed. */
1065 		DPAA2_SWP_UNLOCK(swp);
1066 		return (ENOENT);
1067 	}
1068 
1069 	/*
1070 	 * Send a command to QBMan using Management Command register and wait
1071 	 * for response from the Management Response registers.
1072 	 */
1073 	dpaa2_swp_send_mgmt_command(swp, cmd, cmdid);
1074 	error = dpaa2_swp_wait_for_mgmt_response(swp, rsp);
1075 	if (error) {
1076 		DPAA2_SWP_UNLOCK(swp);
1077 		return (error);
1078 	}
1079 	DPAA2_SWP_UNLOCK(swp);
1080 
1081 #if (defined(_KERNEL) && defined(INVARIANTS))
1082 	r = (struct with_verb *) rsp;
1083 	KASSERT((r->verb & CMD_VERB_MASK) == cmdid,
1084 	    ("wrong VERB byte in response: resp=0x%02x, expected=0x%02x",
1085 	    r->verb, cmdid));
1086 #endif
1087 
1088 	return (0);
1089 }
1090 
1091 static int
1092 dpaa2_swp_send_mgmt_command(struct dpaa2_swp *swp, struct dpaa2_swp_cmd *cmd,
1093     uint8_t cmdid)
1094 {
1095 	const uint8_t *cmd_pdat8 = (const uint8_t *) cmd->params;
1096 	const uint32_t *cmd_pdat32 = (const uint32_t *) cmd->params;
1097 	struct resource_map *map;
1098 	uint32_t offset;
1099 
1100 	map = swp->cfg.writes_cinh ? swp->cinh_map : swp->cena_map;
1101 	offset = swp->cfg.mem_backed ? DPAA2_SWP_CENA_CR_MEM : DPAA2_SWP_CENA_CR;
1102 
1103 	/* Write command bytes (without VERB byte). */
1104 	for (uint32_t i = 1; i < DPAA2_SWP_CMD_PARAMS_N; i++)
1105 		bus_write_8(map, offset + sizeof(uint64_t) * i, cmd->params[i]);
1106 	bus_write_4(map, offset + 4, cmd_pdat32[1]);
1107 	for (uint32_t i = 1; i <= 3; i++)
1108 		bus_write_1(map, offset + i, cmd_pdat8[i]);
1109 
1110 	/* Write VERB byte and trigger command execution. */
1111 	if (swp->cfg.mem_backed) {
1112 		bus_write_1(map, offset, cmdid | swp->mr.valid_bit);
1113 		wmb();
1114 		dpaa2_swp_write_reg(swp, DPAA2_SWP_CINH_CR_RT,
1115 		    DPAA2_SWP_RT_MODE);
1116 	} else {
1117 		wmb();
1118 		bus_write_1(map, offset, cmdid | swp->mc.valid_bit);
1119 	}
1120 
1121 	return (0);
1122 }
1123 
1124 static int
1125 dpaa2_swp_wait_for_mgmt_response(struct dpaa2_swp *swp, struct dpaa2_swp_rsp *rsp)
1126 {
1127 	struct resource_map *map = swp->cfg.mem_backed
1128 	    ? swp->cena_map : swp->cinh_map;
1129 	/* Management command response to be read from the only RR or RR0/RR1. */
1130 	const uint32_t offset = swp->cfg.mem_backed
1131 	    ? DPAA2_SWP_CENA_RR_MEM
1132 	    : DPAA2_SWP_CENA_RR(swp->mc.valid_bit);
1133 	uint32_t i, verb, ret;
1134 	int rc;
1135 
1136 	/* Wait for a command response from QBMan. */
1137 	for (i = 1; i <= CMD_SPIN_ATTEMPTS; i++) {
1138 		if (swp->cfg.mem_backed) {
1139 			verb = (uint32_t) (bus_read_4(map, offset) & 0xFFu);
1140 			if (swp->mr.valid_bit != (verb & DPAA2_SWP_VALID_BIT))
1141 				goto wait;
1142 			if (!(verb & ~DPAA2_SWP_VALID_BIT))
1143 				goto wait;
1144 			swp->mr.valid_bit ^= DPAA2_SWP_VALID_BIT;
1145 		} else {
1146 			ret = bus_read_4(map, offset);
1147 			verb = ret & ~DPAA2_SWP_VALID_BIT; /* remove valid bit */
1148 			if (verb == 0u)
1149 				goto wait;
1150 			swp->mc.valid_bit ^= DPAA2_SWP_VALID_BIT;
1151 		}
1152 		break;
1153  wait:
1154 		DELAY(CMD_SPIN_TIMEOUT);
1155 	}
1156 	/* Return an error on expired timeout. */
1157 	rc = i > CMD_SPIN_ATTEMPTS ? ETIMEDOUT : 0;
1158 
1159 	/* Read command response. */
1160 	for (i = 0; i < DPAA2_SWP_RSP_PARAMS_N; i++)
1161 		rsp->params[i] = bus_read_8(map, offset + i * sizeof(uint64_t));
1162 
1163 	return (rc);
1164 }
1165