xref: /linux/drivers/scsi/elx/efct/efct_hw.h (revision 762f99f4f3cb41a775b5157dd761217beba65873)
1 /* SPDX-License-Identifier: GPL-2.0 */
2 /*
3  * Copyright (C) 2021 Broadcom. All Rights Reserved. The term
4  * “Broadcom” refers to Broadcom Inc. and/or its subsidiaries.
5  */
6 
7 #ifndef _EFCT_HW_H
8 #define _EFCT_HW_H
9 
10 #include "../libefc_sli/sli4.h"
11 
12 /*
13  * EFCT PCI IDs
14  */
15 #define EFCT_VENDOR_ID			0x10df
16 /* LightPulse 16Gb x 4 FC (lancer-g6) */
17 #define EFCT_DEVICE_LANCER_G6		0xe307
18 /* LightPulse 32Gb x 4 FC (lancer-g7) */
19 #define EFCT_DEVICE_LANCER_G7		0xf407
20 
21 /*Default RQ entries len used by driver*/
22 #define EFCT_HW_RQ_ENTRIES_MIN		512
23 #define EFCT_HW_RQ_ENTRIES_DEF		1024
24 #define EFCT_HW_RQ_ENTRIES_MAX		4096
25 
26 /*Defines the size of the RQ buffers used for each RQ*/
27 #define EFCT_HW_RQ_SIZE_HDR             128
28 #define EFCT_HW_RQ_SIZE_PAYLOAD         1024
29 
30 /*Define the maximum number of multi-receive queues*/
31 #define EFCT_HW_MAX_MRQS		8
32 
33 /*
34  * Define count of when to set the WQEC bit in a submitted
35  * WQE, causing a consummed/released completion to be posted.
36  */
37 #define EFCT_HW_WQEC_SET_COUNT		32
38 
39 /*Send frame timeout in seconds*/
40 #define EFCT_HW_SEND_FRAME_TIMEOUT	10
41 
42 /*
43  * FDT Transfer Hint value, reads greater than this value
44  * will be segmented to implement fairness. A value of zero disables
45  * the feature.
46  */
47 #define EFCT_HW_FDT_XFER_HINT		8192
48 
49 #define EFCT_HW_TIMECHECK_ITERATIONS	100
50 #define EFCT_HW_MAX_NUM_MQ		1
51 #define EFCT_HW_MAX_NUM_RQ		32
52 #define EFCT_HW_MAX_NUM_EQ		16
53 #define EFCT_HW_MAX_NUM_WQ		32
54 #define EFCT_HW_DEF_NUM_EQ		1
55 
56 #define OCE_HW_MAX_NUM_MRQ_PAIRS	16
57 
58 #define EFCT_HW_MQ_DEPTH		128
59 #define EFCT_HW_EQ_DEPTH		1024
60 
61 /*
62  * A CQ will be assinged to each WQ
63  * (CQ must have 2X entries of the WQ for abort
64  * processing), plus a separate one for each RQ PAIR and one for MQ
65  */
66 #define EFCT_HW_MAX_NUM_CQ \
67 	((EFCT_HW_MAX_NUM_WQ * 2) + 1 + (OCE_HW_MAX_NUM_MRQ_PAIRS * 2))
68 
69 #define EFCT_HW_Q_HASH_SIZE		128
70 #define EFCT_HW_RQ_HEADER_SIZE		128
71 #define EFCT_HW_RQ_HEADER_INDEX		0
72 
73 #define EFCT_HW_REQUE_XRI_REGTAG	65534
74 
75 /* Options for efct_hw_command() */
76 enum efct_cmd_opts {
77 	/* command executes synchronously and busy-waits for completion */
78 	EFCT_CMD_POLL,
79 	/* command executes asynchronously. Uses callback */
80 	EFCT_CMD_NOWAIT,
81 };
82 
83 enum efct_hw_reset {
84 	EFCT_HW_RESET_FUNCTION,
85 	EFCT_HW_RESET_FIRMWARE,
86 	EFCT_HW_RESET_MAX
87 };
88 
89 enum efct_hw_topo {
90 	EFCT_HW_TOPOLOGY_AUTO,
91 	EFCT_HW_TOPOLOGY_NPORT,
92 	EFCT_HW_TOPOLOGY_LOOP,
93 	EFCT_HW_TOPOLOGY_NONE,
94 	EFCT_HW_TOPOLOGY_MAX
95 };
96 
97 /* pack fw revision values into a single uint64_t */
98 #define HW_FWREV(a, b, c, d) (((uint64_t)(a) << 48) | ((uint64_t)(b) << 32) \
99 			| ((uint64_t)(c) << 16) | ((uint64_t)(d)))
100 
101 #define EFCT_FW_VER_STR(a, b, c, d) (#a "." #b "." #c "." #d)
102 
103 enum efct_hw_io_type {
104 	EFCT_HW_ELS_REQ,
105 	EFCT_HW_ELS_RSP,
106 	EFCT_HW_FC_CT,
107 	EFCT_HW_FC_CT_RSP,
108 	EFCT_HW_BLS_ACC,
109 	EFCT_HW_BLS_RJT,
110 	EFCT_HW_IO_TARGET_READ,
111 	EFCT_HW_IO_TARGET_WRITE,
112 	EFCT_HW_IO_TARGET_RSP,
113 	EFCT_HW_IO_DNRX_REQUEUE,
114 	EFCT_HW_IO_MAX,
115 };
116 
117 enum efct_hw_io_state {
118 	EFCT_HW_IO_STATE_FREE,
119 	EFCT_HW_IO_STATE_INUSE,
120 	EFCT_HW_IO_STATE_WAIT_FREE,
121 	EFCT_HW_IO_STATE_WAIT_SEC_HIO,
122 };
123 
124 #define EFCT_TARGET_WRITE_SKIPS	1
125 #define EFCT_TARGET_READ_SKIPS	2
126 
127 struct efct_hw;
128 struct efct_io;
129 
130 #define EFCT_CMD_CTX_POOL_SZ	32
131 /**
132  * HW command context.
133  * Stores the state for the asynchronous commands sent to the hardware.
134  */
135 struct efct_command_ctx {
136 	struct list_head	list_entry;
137 	int (*cb)(struct efct_hw *hw, int status, u8 *mqe, void *arg);
138 	void			*arg;	/* Argument for callback */
139 	/* buffer holding command / results */
140 	u8			buf[SLI4_BMBX_SIZE];
141 	void			*ctx;	/* upper layer context */
142 };
143 
144 struct efct_hw_sgl {
145 	uintptr_t		addr;
146 	size_t			len;
147 };
148 
149 union efct_hw_io_param_u {
150 	struct sli_bls_params bls;
151 	struct sli_els_params els;
152 	struct sli_ct_params fc_ct;
153 	struct sli_fcp_tgt_params fcp_tgt;
154 };
155 
156 /* WQ steering mode */
157 enum efct_hw_wq_steering {
158 	EFCT_HW_WQ_STEERING_CLASS,
159 	EFCT_HW_WQ_STEERING_REQUEST,
160 	EFCT_HW_WQ_STEERING_CPU,
161 };
162 
163 /* HW wqe object */
164 struct efct_hw_wqe {
165 	struct list_head	list_entry;
166 	bool			abort_wqe_submit_needed;
167 	bool			send_abts;
168 	u32			id;
169 	u32			abort_reqtag;
170 	u8			*wqebuf;
171 };
172 
173 struct efct_hw_io;
174 /* Typedef for HW "done" callback */
175 typedef int (*efct_hw_done_t)(struct efct_hw_io *, u32 len, int status,
176 			      u32 ext, void *ul_arg);
177 
178 /**
179  * HW IO object.
180  *
181  * Stores the per-IO information necessary
182  * for both SLI and efct.
183  * @ref:		reference counter for hw io object
184  * @state:		state of IO: free, busy, wait_free
185  * @list_entry		used for busy, wait_free, free lists
186  * @wqe			Work queue object, with link for pending
187  * @hw			pointer back to hardware context
188  * @xfer_rdy		transfer ready data
189  * @type		IO type
190  * @xbusy		Exchange is active in FW
191  * @abort_in_progress	if TRUE, abort is in progress
192  * @status_saved	if TRUE, latched status should be returned
193  * @wq_class		WQ class if steering mode is Class
194  * @reqtag		request tag for this HW IO
195  * @wq			WQ assigned to the exchange
196  * @done		Function called on IO completion
197  * @arg			argument passed to IO done callback
198  * @abort_done		Function called on abort completion
199  * @abort_arg		argument passed to abort done callback
200  * @wq_steering		WQ steering mode request
201  * @saved_status	Saved status
202  * @saved_len		Status length
203  * @saved_ext		Saved extended status
204  * @eq			EQ on which this HIO came up
205  * @sge_offset		SGE data offset
206  * @def_sgl_count	Count of SGEs in default SGL
207  * @abort_reqtag	request tag for an abort of this HW IO
208  * @indicator		Exchange indicator
209  * @def_sgl		default SGL
210  * @sgl			pointer to current active SGL
211  * @sgl_count		count of SGEs in io->sgl
212  * @first_data_sge	index of first data SGE
213  * @n_sge		number of active SGEs
214  */
215 struct efct_hw_io {
216 	struct kref		ref;
217 	enum efct_hw_io_state	state;
218 	void			(*release)(struct kref *arg);
219 	struct list_head	list_entry;
220 	struct efct_hw_wqe	wqe;
221 
222 	struct efct_hw		*hw;
223 	struct efc_dma		xfer_rdy;
224 	u16			type;
225 	bool			xbusy;
226 	int			abort_in_progress;
227 	bool			status_saved;
228 	u8			wq_class;
229 	u16			reqtag;
230 
231 	struct hw_wq		*wq;
232 	efct_hw_done_t		done;
233 	void			*arg;
234 	efct_hw_done_t		abort_done;
235 	void			*abort_arg;
236 
237 	enum efct_hw_wq_steering wq_steering;
238 
239 	u32			saved_status;
240 	u32			saved_len;
241 	u32			saved_ext;
242 
243 	struct hw_eq		*eq;
244 	u32			sge_offset;
245 	u32			def_sgl_count;
246 	u32			abort_reqtag;
247 	u32			indicator;
248 	struct efc_dma		def_sgl;
249 	struct efc_dma		*sgl;
250 	u32			sgl_count;
251 	u32			first_data_sge;
252 	u32			n_sge;
253 };
254 
255 enum efct_hw_port {
256 	EFCT_HW_PORT_INIT,
257 	EFCT_HW_PORT_SHUTDOWN,
258 };
259 
260 /* Node group rpi reference */
261 struct efct_hw_rpi_ref {
262 	atomic_t rpi_count;
263 	atomic_t rpi_attached;
264 };
265 
266 enum efct_hw_link_stat {
267 	EFCT_HW_LINK_STAT_LINK_FAILURE_COUNT,
268 	EFCT_HW_LINK_STAT_LOSS_OF_SYNC_COUNT,
269 	EFCT_HW_LINK_STAT_LOSS_OF_SIGNAL_COUNT,
270 	EFCT_HW_LINK_STAT_PRIMITIVE_SEQ_COUNT,
271 	EFCT_HW_LINK_STAT_INVALID_XMIT_WORD_COUNT,
272 	EFCT_HW_LINK_STAT_CRC_COUNT,
273 	EFCT_HW_LINK_STAT_PRIMITIVE_SEQ_TIMEOUT_COUNT,
274 	EFCT_HW_LINK_STAT_ELASTIC_BUFFER_OVERRUN_COUNT,
275 	EFCT_HW_LINK_STAT_ARB_TIMEOUT_COUNT,
276 	EFCT_HW_LINK_STAT_ADVERTISED_RCV_B2B_CREDIT,
277 	EFCT_HW_LINK_STAT_CURR_RCV_B2B_CREDIT,
278 	EFCT_HW_LINK_STAT_ADVERTISED_XMIT_B2B_CREDIT,
279 	EFCT_HW_LINK_STAT_CURR_XMIT_B2B_CREDIT,
280 	EFCT_HW_LINK_STAT_RCV_EOFA_COUNT,
281 	EFCT_HW_LINK_STAT_RCV_EOFDTI_COUNT,
282 	EFCT_HW_LINK_STAT_RCV_EOFNI_COUNT,
283 	EFCT_HW_LINK_STAT_RCV_SOFF_COUNT,
284 	EFCT_HW_LINK_STAT_RCV_DROPPED_NO_AER_COUNT,
285 	EFCT_HW_LINK_STAT_RCV_DROPPED_NO_RPI_COUNT,
286 	EFCT_HW_LINK_STAT_RCV_DROPPED_NO_XRI_COUNT,
287 	EFCT_HW_LINK_STAT_MAX,
288 };
289 
290 enum efct_hw_host_stat {
291 	EFCT_HW_HOST_STAT_TX_KBYTE_COUNT,
292 	EFCT_HW_HOST_STAT_RX_KBYTE_COUNT,
293 	EFCT_HW_HOST_STAT_TX_FRAME_COUNT,
294 	EFCT_HW_HOST_STAT_RX_FRAME_COUNT,
295 	EFCT_HW_HOST_STAT_TX_SEQ_COUNT,
296 	EFCT_HW_HOST_STAT_RX_SEQ_COUNT,
297 	EFCT_HW_HOST_STAT_TOTAL_EXCH_ORIG,
298 	EFCT_HW_HOST_STAT_TOTAL_EXCH_RESP,
299 	EFCT_HW_HOSY_STAT_RX_P_BSY_COUNT,
300 	EFCT_HW_HOST_STAT_RX_F_BSY_COUNT,
301 	EFCT_HW_HOST_STAT_DROP_FRM_DUE_TO_NO_RQ_BUF_COUNT,
302 	EFCT_HW_HOST_STAT_EMPTY_RQ_TIMEOUT_COUNT,
303 	EFCT_HW_HOST_STAT_DROP_FRM_DUE_TO_NO_XRI_COUNT,
304 	EFCT_HW_HOST_STAT_EMPTY_XRI_POOL_COUNT,
305 	EFCT_HW_HOST_STAT_MAX,
306 };
307 
308 enum efct_hw_state {
309 	EFCT_HW_STATE_UNINITIALIZED,
310 	EFCT_HW_STATE_QUEUES_ALLOCATED,
311 	EFCT_HW_STATE_ACTIVE,
312 	EFCT_HW_STATE_RESET_IN_PROGRESS,
313 	EFCT_HW_STATE_TEARDOWN_IN_PROGRESS,
314 };
315 
316 struct efct_hw_link_stat_counts {
317 	u8		overflow;
318 	u32		counter;
319 };
320 
321 struct efct_hw_host_stat_counts {
322 	u32		counter;
323 };
324 
325 /* Structure used for the hash lookup of queue IDs */
326 struct efct_queue_hash {
327 	bool		in_use;
328 	u16		id;
329 	u16		index;
330 };
331 
332 /* WQ callback object */
333 struct hw_wq_callback {
334 	u16		instance_index;	/* use for request tag */
335 	void (*callback)(void *arg, u8 *cqe, int status);
336 	void		*arg;
337 	struct list_head list_entry;
338 };
339 
340 struct reqtag_pool {
341 	spinlock_t lock;	/* pool lock */
342 	struct hw_wq_callback *tags[U16_MAX];
343 	struct list_head freelist;
344 };
345 
346 struct efct_hw_config {
347 	u32		n_eq;
348 	u32		n_cq;
349 	u32		n_mq;
350 	u32		n_rq;
351 	u32		n_wq;
352 	u32		n_io;
353 	u32		n_sgl;
354 	u32		speed;
355 	u32		topology;
356 	/* size of the buffers for first burst */
357 	u32		rq_default_buffer_size;
358 	u8		esoc;
359 	/* MRQ RQ selection policy */
360 	u8		rq_selection_policy;
361 	/* RQ quanta if rq_selection_policy == 2 */
362 	u8		rr_quanta;
363 	u32		filter_def[SLI4_CMD_REG_FCFI_NUM_RQ_CFG];
364 };
365 
366 struct efct_hw {
367 	struct efct		*os;
368 	struct sli4		sli;
369 	u16			ulp_start;
370 	u16			ulp_max;
371 	u32			dump_size;
372 	enum efct_hw_state	state;
373 	bool			hw_setup_called;
374 	u8			sliport_healthcheck;
375 	u16			fcf_indicator;
376 
377 	/* HW configuration */
378 	struct efct_hw_config	config;
379 
380 	/* calculated queue sizes for each type */
381 	u32			num_qentries[SLI4_QTYPE_MAX];
382 
383 	/* Storage for SLI queue objects */
384 	struct sli4_queue	wq[EFCT_HW_MAX_NUM_WQ];
385 	struct sli4_queue	rq[EFCT_HW_MAX_NUM_RQ];
386 	u16			hw_rq_lookup[EFCT_HW_MAX_NUM_RQ];
387 	struct sli4_queue	mq[EFCT_HW_MAX_NUM_MQ];
388 	struct sli4_queue	cq[EFCT_HW_MAX_NUM_CQ];
389 	struct sli4_queue	eq[EFCT_HW_MAX_NUM_EQ];
390 
391 	/* HW queue */
392 	u32			eq_count;
393 	u32			cq_count;
394 	u32			mq_count;
395 	u32			wq_count;
396 	u32			rq_count;
397 	u32			cmd_head_count;
398 	struct list_head	eq_list;
399 
400 	struct efct_queue_hash	cq_hash[EFCT_HW_Q_HASH_SIZE];
401 	struct efct_queue_hash	rq_hash[EFCT_HW_Q_HASH_SIZE];
402 	struct efct_queue_hash	wq_hash[EFCT_HW_Q_HASH_SIZE];
403 
404 	/* Storage for HW queue objects */
405 	struct hw_wq		*hw_wq[EFCT_HW_MAX_NUM_WQ];
406 	struct hw_rq		*hw_rq[EFCT_HW_MAX_NUM_RQ];
407 	struct hw_mq		*hw_mq[EFCT_HW_MAX_NUM_MQ];
408 	struct hw_cq		*hw_cq[EFCT_HW_MAX_NUM_CQ];
409 	struct hw_eq		*hw_eq[EFCT_HW_MAX_NUM_EQ];
410 	/* count of hw_rq[] entries */
411 	u32			hw_rq_count;
412 	/* count of multirq RQs */
413 	u32			hw_mrq_count;
414 
415 	struct hw_wq		**wq_cpu_array;
416 
417 	/* Sequence objects used in incoming frame processing */
418 	struct efc_hw_sequence	*seq_pool;
419 
420 	/* Maintain an ordered, linked list of outstanding HW commands. */
421 	struct mutex            bmbx_lock;
422 	spinlock_t		cmd_lock;
423 	struct list_head	cmd_head;
424 	struct list_head	cmd_pending;
425 	mempool_t		*cmd_ctx_pool;
426 	mempool_t		*mbox_rqst_pool;
427 
428 	struct sli4_link_event	link;
429 
430 	/* pointer array of IO objects */
431 	struct efct_hw_io	**io;
432 	/* array of WQE buffs mapped to IO objects */
433 	u8			*wqe_buffs;
434 
435 	/* IO lock to synchronize list access */
436 	spinlock_t		io_lock;
437 	/* List of IO objects in use */
438 	struct list_head	io_inuse;
439 	/* List of IO objects waiting to be freed */
440 	struct list_head	io_wait_free;
441 	/* List of IO objects available for allocation */
442 	struct list_head	io_free;
443 
444 	struct efc_dma		loop_map;
445 
446 	struct efc_dma		xfer_rdy;
447 
448 	struct efc_dma		rnode_mem;
449 
450 	atomic_t		io_alloc_failed_count;
451 
452 	/* stat: wq sumbit count */
453 	u32			tcmd_wq_submit[EFCT_HW_MAX_NUM_WQ];
454 	/* stat: wq complete count */
455 	u32			tcmd_wq_complete[EFCT_HW_MAX_NUM_WQ];
456 
457 	atomic_t		send_frame_seq_id;
458 	struct reqtag_pool	*wq_reqtag_pool;
459 };
460 
461 enum efct_hw_io_count_type {
462 	EFCT_HW_IO_INUSE_COUNT,
463 	EFCT_HW_IO_FREE_COUNT,
464 	EFCT_HW_IO_WAIT_FREE_COUNT,
465 	EFCT_HW_IO_N_TOTAL_IO_COUNT,
466 };
467 
468 /* HW queue data structures */
469 struct hw_eq {
470 	struct list_head	list_entry;
471 	enum sli4_qtype		type;
472 	u32			instance;
473 	u32			entry_count;
474 	u32			entry_size;
475 	struct efct_hw		*hw;
476 	struct sli4_queue	*queue;
477 	struct list_head	cq_list;
478 	u32			use_count;
479 };
480 
481 struct hw_cq {
482 	struct list_head	list_entry;
483 	enum sli4_qtype		type;
484 	u32			instance;
485 	u32			entry_count;
486 	u32			entry_size;
487 	struct hw_eq		*eq;
488 	struct sli4_queue	*queue;
489 	struct list_head	q_list;
490 	u32			use_count;
491 };
492 
493 struct hw_q {
494 	struct list_head	list_entry;
495 	enum sli4_qtype		type;
496 };
497 
498 struct hw_mq {
499 	struct list_head	list_entry;
500 	enum sli4_qtype		type;
501 	u32			instance;
502 
503 	u32			entry_count;
504 	u32			entry_size;
505 	struct hw_cq		*cq;
506 	struct sli4_queue	*queue;
507 
508 	u32			use_count;
509 };
510 
511 struct hw_wq {
512 	struct list_head	list_entry;
513 	enum sli4_qtype		type;
514 	u32			instance;
515 	struct efct_hw		*hw;
516 
517 	u32			entry_count;
518 	u32			entry_size;
519 	struct hw_cq		*cq;
520 	struct sli4_queue	*queue;
521 	u32			class;
522 
523 	/* WQ consumed */
524 	u32			wqec_set_count;
525 	u32			wqec_count;
526 	u32			free_count;
527 	u32			total_submit_count;
528 	struct list_head	pending_list;
529 
530 	/* HW IO allocated for use with Send Frame */
531 	struct efct_hw_io	*send_frame_io;
532 
533 	/* Stats */
534 	u32			use_count;
535 	u32			wq_pending_count;
536 };
537 
538 struct hw_rq {
539 	struct list_head	list_entry;
540 	enum sli4_qtype		type;
541 	u32			instance;
542 
543 	u32			entry_count;
544 	u32			use_count;
545 	u32			hdr_entry_size;
546 	u32			first_burst_entry_size;
547 	u32			data_entry_size;
548 	bool			is_mrq;
549 	u32			base_mrq_id;
550 
551 	struct hw_cq		*cq;
552 
553 	u8			filter_mask;
554 	struct sli4_queue	*hdr;
555 	struct sli4_queue	*first_burst;
556 	struct sli4_queue	*data;
557 
558 	struct efc_hw_rq_buffer	*hdr_buf;
559 	struct efc_hw_rq_buffer	*fb_buf;
560 	struct efc_hw_rq_buffer	*payload_buf;
561 	/* RQ tracker for this RQ */
562 	struct efc_hw_sequence	**rq_tracker;
563 };
564 
565 struct efct_hw_send_frame_context {
566 	struct efct_hw		*hw;
567 	struct hw_wq_callback	*wqcb;
568 	struct efct_hw_wqe	wqe;
569 	void (*callback)(int status, void *arg);
570 	void			*arg;
571 
572 	/* General purpose elements */
573 	struct efc_hw_sequence	*seq;
574 	struct efc_dma		payload;
575 };
576 
577 struct efct_hw_grp_hdr {
578 	u32			size;
579 	__be32			magic_number;
580 	u32			word2;
581 	u8			rev_name[128];
582 	u8			date[12];
583 	u8			revision[32];
584 };
585 
586 static inline int
efct_hw_get_link_speed(struct efct_hw * hw)587 efct_hw_get_link_speed(struct efct_hw *hw) {
588 	return hw->link.speed;
589 }
590 
591 int
592 efct_hw_setup(struct efct_hw *hw, void *os, struct pci_dev *pdev);
593 int efct_hw_init(struct efct_hw *hw);
594 int
595 efct_hw_parse_filter(struct efct_hw *hw, void *value);
596 int
597 efct_hw_init_queues(struct efct_hw *hw);
598 int
599 efct_hw_map_wq_cpu(struct efct_hw *hw);
600 uint64_t
601 efct_get_wwnn(struct efct_hw *hw);
602 uint64_t
603 efct_get_wwpn(struct efct_hw *hw);
604 
605 int efct_hw_rx_allocate(struct efct_hw *hw);
606 int efct_hw_rx_post(struct efct_hw *hw);
607 void efct_hw_rx_free(struct efct_hw *hw);
608 int
609 efct_hw_command(struct efct_hw *hw, u8 *cmd, u32 opts, void *cb,
610 		void *arg);
611 int
612 efct_issue_mbox_rqst(void *base, void *cmd, void *cb, void *arg);
613 
614 struct efct_hw_io *efct_hw_io_alloc(struct efct_hw *hw);
615 int efct_hw_io_free(struct efct_hw *hw, struct efct_hw_io *io);
616 u8 efct_hw_io_inuse(struct efct_hw *hw, struct efct_hw_io *io);
617 int
618 efct_hw_io_send(struct efct_hw *hw, enum efct_hw_io_type type,
619 		struct efct_hw_io *io, union efct_hw_io_param_u *iparam,
620 		void *cb, void *arg);
621 int
622 efct_hw_io_register_sgl(struct efct_hw *hw, struct efct_hw_io *io,
623 			struct efc_dma *sgl,
624 			u32 sgl_count);
625 int
626 efct_hw_io_init_sges(struct efct_hw *hw,
627 		     struct efct_hw_io *io, enum efct_hw_io_type type);
628 
629 int
630 efct_hw_io_add_sge(struct efct_hw *hw, struct efct_hw_io *io,
631 		   uintptr_t addr, u32 length);
632 int
633 efct_hw_io_abort(struct efct_hw *hw, struct efct_hw_io *io_to_abort,
634 		 bool send_abts, void *cb, void *arg);
635 u32
636 efct_hw_io_get_count(struct efct_hw *hw,
637 		     enum efct_hw_io_count_type io_count_type);
638 struct efct_hw_io
639 *efct_hw_io_lookup(struct efct_hw *hw, u32 indicator);
640 void efct_hw_io_abort_all(struct efct_hw *hw);
641 void efct_hw_io_free_internal(struct kref *arg);
642 
643 /* HW WQ request tag API */
644 struct reqtag_pool *efct_hw_reqtag_pool_alloc(struct efct_hw *hw);
645 void efct_hw_reqtag_pool_free(struct efct_hw *hw);
646 struct hw_wq_callback
647 *efct_hw_reqtag_alloc(struct efct_hw *hw,
648 			void (*callback)(void *arg, u8 *cqe,
649 					 int status), void *arg);
650 void
651 efct_hw_reqtag_free(struct efct_hw *hw, struct hw_wq_callback *wqcb);
652 struct hw_wq_callback
653 *efct_hw_reqtag_get_instance(struct efct_hw *hw, u32 instance_index);
654 
655 /* RQ completion handlers for RQ pair mode */
656 int
657 efct_hw_rqpair_process_rq(struct efct_hw *hw,
658 			  struct hw_cq *cq, u8 *cqe);
659 int
660 efct_hw_rqpair_sequence_free(struct efct_hw *hw, struct efc_hw_sequence *seq);
661 static inline void
efct_hw_sequence_copy(struct efc_hw_sequence * dst,struct efc_hw_sequence * src)662 efct_hw_sequence_copy(struct efc_hw_sequence *dst,
663 		      struct efc_hw_sequence *src)
664 {
665 	/* Copy src to dst, then zero out the linked list link */
666 	*dst = *src;
667 }
668 
669 int
670 efct_efc_hw_sequence_free(struct efc *efc, struct efc_hw_sequence *seq);
671 
672 static inline int
efct_hw_sequence_free(struct efct_hw * hw,struct efc_hw_sequence * seq)673 efct_hw_sequence_free(struct efct_hw *hw, struct efc_hw_sequence *seq)
674 {
675 	/* Only RQ pair mode is supported */
676 	return efct_hw_rqpair_sequence_free(hw, seq);
677 }
678 
679 int
680 efct_hw_eq_process(struct efct_hw *hw, struct hw_eq *eq,
681 		   u32 max_isr_time_msec);
682 void efct_hw_cq_process(struct efct_hw *hw, struct hw_cq *cq);
683 void
684 efct_hw_wq_process(struct efct_hw *hw, struct hw_cq *cq,
685 		   u8 *cqe, int status, u16 rid);
686 void
687 efct_hw_xabt_process(struct efct_hw *hw, struct hw_cq *cq,
688 		     u8 *cqe, u16 rid);
689 int
690 efct_hw_process(struct efct_hw *hw, u32 vector, u32 max_isr_time_msec);
691 int
692 efct_hw_queue_hash_find(struct efct_queue_hash *hash, u16 id);
693 int efct_hw_wq_write(struct hw_wq *wq, struct efct_hw_wqe *wqe);
694 int
695 efct_hw_send_frame(struct efct_hw *hw, struct fc_frame_header *hdr,
696 		   u8 sof, u8 eof, struct efc_dma *payload,
697 		struct efct_hw_send_frame_context *ctx,
698 		void (*callback)(void *arg, u8 *cqe, int status),
699 		void *arg);
700 int
701 efct_els_hw_srrs_send(struct efc *efc, struct efc_disc_io *io);
702 int
703 efct_efc_bls_send(struct efc *efc, u32 type, struct sli_bls_params *bls);
704 int
705 efct_hw_bls_send(struct efct *efct, u32 type, struct sli_bls_params *bls_params,
706 		 void *cb, void *arg);
707 
708 /* Function for retrieving link statistics */
709 int
710 efct_hw_get_link_stats(struct efct_hw *hw,
711 		       u8 req_ext_counters,
712 		       u8 clear_overflow_flags,
713 		       u8 clear_all_counters,
714 		       void (*efct_hw_link_stat_cb_t)(int status,
715 						      u32 num_counters,
716 		       struct efct_hw_link_stat_counts *counters, void *arg),
717 		       void *arg);
718 /* Function for retrieving host statistics */
719 int
720 efct_hw_get_host_stats(struct efct_hw *hw,
721 		       u8 cc,
722 		       void (*efct_hw_host_stat_cb_t)(int status,
723 						      u32 num_counters,
724 		       struct efct_hw_host_stat_counts *counters, void *arg),
725 		       void *arg);
726 int
727 efct_hw_firmware_write(struct efct_hw *hw, struct efc_dma *dma,
728 		       u32 size, u32 offset, int last,
729 		       void (*cb)(int status, u32 bytes_written,
730 				  u32 change_status, void *arg),
731 		       void *arg);
732 typedef void (*efct_hw_async_cb_t)(struct efct_hw *hw, int status,
733 				  u8 *mqe, void *arg);
734 int
735 efct_hw_async_call(struct efct_hw *hw, efct_hw_async_cb_t callback, void *arg);
736 
737 struct hw_eq *efct_hw_new_eq(struct efct_hw *hw, u32 entry_count);
738 struct hw_cq *efct_hw_new_cq(struct hw_eq *eq, u32 entry_count);
739 u32
740 efct_hw_new_cq_set(struct hw_eq *eqs[], struct hw_cq *cqs[],
741 		   u32 num_cqs, u32 entry_count);
742 struct hw_mq *efct_hw_new_mq(struct hw_cq *cq, u32 entry_count);
743 struct hw_wq
744 *efct_hw_new_wq(struct hw_cq *cq, u32 entry_count);
745 u32
746 efct_hw_new_rq_set(struct hw_cq *cqs[], struct hw_rq *rqs[],
747 		   u32 num_rq_pairs, u32 entry_count);
748 void efct_hw_del_eq(struct hw_eq *eq);
749 void efct_hw_del_cq(struct hw_cq *cq);
750 void efct_hw_del_mq(struct hw_mq *mq);
751 void efct_hw_del_wq(struct hw_wq *wq);
752 void efct_hw_del_rq(struct hw_rq *rq);
753 void efct_hw_queue_teardown(struct efct_hw *hw);
754 void efct_hw_teardown(struct efct_hw *hw);
755 int
756 efct_hw_reset(struct efct_hw *hw, enum efct_hw_reset reset);
757 
758 int
759 efct_hw_port_control(struct efct_hw *hw, enum efct_hw_port ctrl,
760 		     uintptr_t value,
761 		void (*cb)(int status, uintptr_t value, void *arg),
762 		void *arg);
763 
764 #endif /* __EFCT_H__ */
765