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1 /*
2 * Copyright (C) 2017 Broadcom
3 *
4 * This program is free software; you can redistribute it and/or
5 * modify it under the terms of the GNU General Public License as
6 * published by the Free Software Foundation version 2.
7 *
8 * This program is distributed "as is" WITHOUT ANY WARRANTY of any
9 * kind, whether express or implied; without even the implied warranty
10 * of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
11 * GNU General Public License for more details.
12 */
13
14 /*
15 * Broadcom SBA RAID Driver
16 *
17 * The Broadcom stream buffer accelerator (SBA) provides offloading
18 * capabilities for RAID operations. The SBA offload engine is accessible
19 * via Broadcom SoC specific ring manager. Two or more offload engines
20 * can share same Broadcom SoC specific ring manager due to this Broadcom
21 * SoC specific ring manager driver is implemented as a mailbox controller
22 * driver and offload engine drivers are implemented as mallbox clients.
23 *
24 * Typically, Broadcom SoC specific ring manager will implement larger
25 * number of hardware rings over one or more SBA hardware devices. By
26 * design, the internal buffer size of SBA hardware device is limited
27 * but all offload operations supported by SBA can be broken down into
28 * multiple small size requests and executed parallely on multiple SBA
29 * hardware devices for achieving high through-put.
30 *
31 * The Broadcom SBA RAID driver does not require any register programming
32 * except submitting request to SBA hardware device via mailbox channels.
33 * This driver implements a DMA device with one DMA channel using a single
34 * mailbox channel provided by Broadcom SoC specific ring manager driver.
35 * For having more SBA DMA channels, we can create more SBA device nodes
36 * in Broadcom SoC specific DTS based on number of hardware rings supported
37 * by Broadcom SoC ring manager.
38 */
39
40 #include <linux/bitops.h>
41 #include <linux/debugfs.h>
42 #include <linux/dma-mapping.h>
43 #include <linux/dmaengine.h>
44 #include <linux/list.h>
45 #include <linux/mailbox_client.h>
46 #include <linux/mailbox/brcm-message.h>
47 #include <linux/module.h>
48 #include <linux/of_device.h>
49 #include <linux/slab.h>
50 #include <linux/raid/pq.h>
51
52 #include "dmaengine.h"
53
54 /* ====== Driver macros and defines ===== */
55
56 #define SBA_TYPE_SHIFT 48
57 #define SBA_TYPE_MASK GENMASK(1, 0)
58 #define SBA_TYPE_A 0x0
59 #define SBA_TYPE_B 0x2
60 #define SBA_TYPE_C 0x3
61 #define SBA_USER_DEF_SHIFT 32
62 #define SBA_USER_DEF_MASK GENMASK(15, 0)
63 #define SBA_R_MDATA_SHIFT 24
64 #define SBA_R_MDATA_MASK GENMASK(7, 0)
65 #define SBA_C_MDATA_MS_SHIFT 18
66 #define SBA_C_MDATA_MS_MASK GENMASK(1, 0)
67 #define SBA_INT_SHIFT 17
68 #define SBA_INT_MASK BIT(0)
69 #define SBA_RESP_SHIFT 16
70 #define SBA_RESP_MASK BIT(0)
71 #define SBA_C_MDATA_SHIFT 8
72 #define SBA_C_MDATA_MASK GENMASK(7, 0)
73 #define SBA_C_MDATA_BNUMx_SHIFT(__bnum) (2 * (__bnum))
74 #define SBA_C_MDATA_BNUMx_MASK GENMASK(1, 0)
75 #define SBA_C_MDATA_DNUM_SHIFT 5
76 #define SBA_C_MDATA_DNUM_MASK GENMASK(4, 0)
77 #define SBA_C_MDATA_LS(__v) ((__v) & 0xff)
78 #define SBA_C_MDATA_MS(__v) (((__v) >> 8) & 0x3)
79 #define SBA_CMD_SHIFT 0
80 #define SBA_CMD_MASK GENMASK(3, 0)
81 #define SBA_CMD_ZERO_BUFFER 0x4
82 #define SBA_CMD_ZERO_ALL_BUFFERS 0x8
83 #define SBA_CMD_LOAD_BUFFER 0x9
84 #define SBA_CMD_XOR 0xa
85 #define SBA_CMD_GALOIS_XOR 0xb
86 #define SBA_CMD_WRITE_BUFFER 0xc
87 #define SBA_CMD_GALOIS 0xe
88
89 #define SBA_MAX_REQ_PER_MBOX_CHANNEL 8192
90 #define SBA_MAX_MSG_SEND_PER_MBOX_CHANNEL 8
91
92 /* Driver helper macros */
93 #define to_sba_request(tx) \
94 container_of(tx, struct sba_request, tx)
95 #define to_sba_device(dchan) \
96 container_of(dchan, struct sba_device, dma_chan)
97
98 /* ===== Driver data structures ===== */
99
100 enum sba_request_flags {
101 SBA_REQUEST_STATE_FREE = 0x001,
102 SBA_REQUEST_STATE_ALLOCED = 0x002,
103 SBA_REQUEST_STATE_PENDING = 0x004,
104 SBA_REQUEST_STATE_ACTIVE = 0x008,
105 SBA_REQUEST_STATE_ABORTED = 0x010,
106 SBA_REQUEST_STATE_MASK = 0x0ff,
107 SBA_REQUEST_FENCE = 0x100,
108 };
109
110 struct sba_request {
111 /* Global state */
112 struct list_head node;
113 struct sba_device *sba;
114 u32 flags;
115 /* Chained requests management */
116 struct sba_request *first;
117 struct list_head next;
118 atomic_t next_pending_count;
119 /* BRCM message data */
120 struct brcm_message msg;
121 struct dma_async_tx_descriptor tx;
122 /* SBA commands */
123 struct brcm_sba_command cmds[0];
124 };
125
126 enum sba_version {
127 SBA_VER_1 = 0,
128 SBA_VER_2
129 };
130
131 struct sba_device {
132 /* Underlying device */
133 struct device *dev;
134 /* DT configuration parameters */
135 enum sba_version ver;
136 /* Derived configuration parameters */
137 u32 max_req;
138 u32 hw_buf_size;
139 u32 hw_resp_size;
140 u32 max_pq_coefs;
141 u32 max_pq_srcs;
142 u32 max_cmd_per_req;
143 u32 max_xor_srcs;
144 u32 max_resp_pool_size;
145 u32 max_cmds_pool_size;
146 /* Maibox client and Mailbox channels */
147 struct mbox_client client;
148 struct mbox_chan *mchan;
149 struct device *mbox_dev;
150 /* DMA device and DMA channel */
151 struct dma_device dma_dev;
152 struct dma_chan dma_chan;
153 /* DMA channel resources */
154 void *resp_base;
155 dma_addr_t resp_dma_base;
156 void *cmds_base;
157 dma_addr_t cmds_dma_base;
158 spinlock_t reqs_lock;
159 bool reqs_fence;
160 struct list_head reqs_alloc_list;
161 struct list_head reqs_pending_list;
162 struct list_head reqs_active_list;
163 struct list_head reqs_aborted_list;
164 struct list_head reqs_free_list;
165 /* DebugFS directory entries */
166 struct dentry *root;
167 struct dentry *stats;
168 };
169
170 /* ====== Command helper routines ===== */
171
172 static inline u64 __pure sba_cmd_enc(u64 cmd, u32 val, u32 shift, u32 mask)
173 {
174 cmd &= ~((u64)mask << shift);
175 cmd |= ((u64)(val & mask) << shift);
176 return cmd;
177 }
178
179 static inline u32 __pure sba_cmd_load_c_mdata(u32 b0)
180 {
181 return b0 & SBA_C_MDATA_BNUMx_MASK;
182 }
183
184 static inline u32 __pure sba_cmd_write_c_mdata(u32 b0)
185 {
186 return b0 & SBA_C_MDATA_BNUMx_MASK;
187 }
188
189 static inline u32 __pure sba_cmd_xor_c_mdata(u32 b1, u32 b0)
190 {
191 return (b0 & SBA_C_MDATA_BNUMx_MASK) |
192 ((b1 & SBA_C_MDATA_BNUMx_MASK) << SBA_C_MDATA_BNUMx_SHIFT(1));
193 }
194
195 static inline u32 __pure sba_cmd_pq_c_mdata(u32 d, u32 b1, u32 b0)
196 {
197 return (b0 & SBA_C_MDATA_BNUMx_MASK) |
198 ((b1 & SBA_C_MDATA_BNUMx_MASK) << SBA_C_MDATA_BNUMx_SHIFT(1)) |
199 ((d & SBA_C_MDATA_DNUM_MASK) << SBA_C_MDATA_DNUM_SHIFT);
200 }
201
202 /* ====== General helper routines ===== */
203
204 static struct sba_request *sba_alloc_request(struct sba_device *sba)
205 {
206 bool found = false;
207 unsigned long flags;
208 struct sba_request *req = NULL;
209
210 spin_lock_irqsave(&sba->reqs_lock, flags);
211 list_for_each_entry(req, &sba->reqs_free_list, node) {
212 if (async_tx_test_ack(&req->tx)) {
213 list_move_tail(&req->node, &sba->reqs_alloc_list);
214 found = true;
215 break;
216 }
217 }
218 spin_unlock_irqrestore(&sba->reqs_lock, flags);
219
220 if (!found) {
221 /*
222 * We have no more free requests so, we peek
223 * mailbox channels hoping few active requests
224 * would have completed which will create more
225 * room for new requests.
226 */
227 mbox_client_peek_data(sba->mchan);
228 return NULL;
229 }
230
231 req->flags = SBA_REQUEST_STATE_ALLOCED;
232 req->first = req;
233 INIT_LIST_HEAD(&req->next);
234 atomic_set(&req->next_pending_count, 1);
235
236 dma_async_tx_descriptor_init(&req->tx, &sba->dma_chan);
237 async_tx_ack(&req->tx);
238
239 return req;
240 }
241
242 /* Note: Must be called with sba->reqs_lock held */
243 static void _sba_pending_request(struct sba_device *sba,
244 struct sba_request *req)
245 {
246 lockdep_assert_held(&sba->reqs_lock);
247 req->flags &= ~SBA_REQUEST_STATE_MASK;
248 req->flags |= SBA_REQUEST_STATE_PENDING;
249 list_move_tail(&req->node, &sba->reqs_pending_list);
250 if (list_empty(&sba->reqs_active_list))
251 sba->reqs_fence = false;
252 }
253
254 /* Note: Must be called with sba->reqs_lock held */
255 static bool _sba_active_request(struct sba_device *sba,
256 struct sba_request *req)
257 {
258 lockdep_assert_held(&sba->reqs_lock);
259 if (list_empty(&sba->reqs_active_list))
260 sba->reqs_fence = false;
261 if (sba->reqs_fence)
262 return false;
263 req->flags &= ~SBA_REQUEST_STATE_MASK;
264 req->flags |= SBA_REQUEST_STATE_ACTIVE;
265 list_move_tail(&req->node, &sba->reqs_active_list);
266 if (req->flags & SBA_REQUEST_FENCE)
267 sba->reqs_fence = true;
268 return true;
269 }
270
271 /* Note: Must be called with sba->reqs_lock held */
272 static void _sba_abort_request(struct sba_device *sba,
273 struct sba_request *req)
274 {
275 lockdep_assert_held(&sba->reqs_lock);
276 req->flags &= ~SBA_REQUEST_STATE_MASK;
277 req->flags |= SBA_REQUEST_STATE_ABORTED;
278 list_move_tail(&req->node, &sba->reqs_aborted_list);
279 if (list_empty(&sba->reqs_active_list))
280 sba->reqs_fence = false;
281 }
282
283 /* Note: Must be called with sba->reqs_lock held */
284 static void _sba_free_request(struct sba_device *sba,
285 struct sba_request *req)
286 {
287 lockdep_assert_held(&sba->reqs_lock);
288 req->flags &= ~SBA_REQUEST_STATE_MASK;
289 req->flags |= SBA_REQUEST_STATE_FREE;
290 list_move_tail(&req->node, &sba->reqs_free_list);
291 if (list_empty(&sba->reqs_active_list))
292 sba->reqs_fence = false;
293 }
294
295 static void sba_free_chained_requests(struct sba_request *req)
296 {
297 unsigned long flags;
298 struct sba_request *nreq;
299 struct sba_device *sba = req->sba;
300
301 spin_lock_irqsave(&sba->reqs_lock, flags);
302
303 _sba_free_request(sba, req);
304 list_for_each_entry(nreq, &req->next, next)
305 _sba_free_request(sba, nreq);
306
307 spin_unlock_irqrestore(&sba->reqs_lock, flags);
308 }
309
310 static void sba_chain_request(struct sba_request *first,
311 struct sba_request *req)
312 {
313 unsigned long flags;
314 struct sba_device *sba = req->sba;
315
316 spin_lock_irqsave(&sba->reqs_lock, flags);
317
318 list_add_tail(&req->next, &first->next);
319 req->first = first;
320 atomic_inc(&first->next_pending_count);
321
322 spin_unlock_irqrestore(&sba->reqs_lock, flags);
323 }
324
325 static void sba_cleanup_nonpending_requests(struct sba_device *sba)
326 {
327 unsigned long flags;
328 struct sba_request *req, *req1;
329
330 spin_lock_irqsave(&sba->reqs_lock, flags);
331
332 /* Freeup all alloced request */
333 list_for_each_entry_safe(req, req1, &sba->reqs_alloc_list, node)
334 _sba_free_request(sba, req);
335
336 /* Set all active requests as aborted */
337 list_for_each_entry_safe(req, req1, &sba->reqs_active_list, node)
338 _sba_abort_request(sba, req);
339
340 /*
341 * Note: We expect that aborted request will be eventually
342 * freed by sba_receive_message()
343 */
344
345 spin_unlock_irqrestore(&sba->reqs_lock, flags);
346 }
347
348 static void sba_cleanup_pending_requests(struct sba_device *sba)
349 {
350 unsigned long flags;
351 struct sba_request *req, *req1;
352
353 spin_lock_irqsave(&sba->reqs_lock, flags);
354
355 /* Freeup all pending request */
356 list_for_each_entry_safe(req, req1, &sba->reqs_pending_list, node)
357 _sba_free_request(sba, req);
358
359 spin_unlock_irqrestore(&sba->reqs_lock, flags);
360 }
361
362 static int sba_send_mbox_request(struct sba_device *sba,
363 struct sba_request *req)
364 {
365 int ret = 0;
366
367 /* Send message for the request */
368 req->msg.error = 0;
369 ret = mbox_send_message(sba->mchan, &req->msg);
370 if (ret < 0) {
371 dev_err(sba->dev, "send message failed with error %d", ret);
372 return ret;
373 }
374
375 /* Check error returned by mailbox controller */
376 ret = req->msg.error;
377 if (ret < 0) {
378 dev_err(sba->dev, "message error %d", ret);
379 }
380
381 /* Signal txdone for mailbox channel */
382 mbox_client_txdone(sba->mchan, ret);
383
384 return ret;
385 }
386
387 /* Note: Must be called with sba->reqs_lock held */
388 static void _sba_process_pending_requests(struct sba_device *sba)
389 {
390 int ret;
391 u32 count;
392 struct sba_request *req;
393
394 /* Process few pending requests */
395 count = SBA_MAX_MSG_SEND_PER_MBOX_CHANNEL;
396 while (!list_empty(&sba->reqs_pending_list) && count) {
397 /* Get the first pending request */
398 req = list_first_entry(&sba->reqs_pending_list,
399 struct sba_request, node);
400
401 /* Try to make request active */
402 if (!_sba_active_request(sba, req))
403 break;
404
405 /* Send request to mailbox channel */
406 ret = sba_send_mbox_request(sba, req);
407 if (ret < 0) {
408 _sba_pending_request(sba, req);
409 break;
410 }
411
412 count--;
413 }
414 }
415
416 static void sba_process_received_request(struct sba_device *sba,
417 struct sba_request *req)
418 {
419 unsigned long flags;
420 struct dma_async_tx_descriptor *tx;
421 struct sba_request *nreq, *first = req->first;
422
423 /* Process only after all chained requests are received */
424 if (!atomic_dec_return(&first->next_pending_count)) {
425 tx = &first->tx;
426
427 WARN_ON(tx->cookie < 0);
428 if (tx->cookie > 0) {
429 spin_lock_irqsave(&sba->reqs_lock, flags);
430 dma_cookie_complete(tx);
431 spin_unlock_irqrestore(&sba->reqs_lock, flags);
432 dmaengine_desc_get_callback_invoke(tx, NULL);
433 dma_descriptor_unmap(tx);
434 tx->callback = NULL;
435 tx->callback_result = NULL;
436 }
437
438 dma_run_dependencies(tx);
439
440 spin_lock_irqsave(&sba->reqs_lock, flags);
441
442 /* Free all requests chained to first request */
443 list_for_each_entry(nreq, &first->next, next)
444 _sba_free_request(sba, nreq);
445 INIT_LIST_HEAD(&first->next);
446
447 /* Free the first request */
448 _sba_free_request(sba, first);
449
450 /* Process pending requests */
451 _sba_process_pending_requests(sba);
452
453 spin_unlock_irqrestore(&sba->reqs_lock, flags);
454 }
455 }
456
457 static void sba_write_stats_in_seqfile(struct sba_device *sba,
458 struct seq_file *file)
459 {
460 unsigned long flags;
461 struct sba_request *req;
462 u32 free_count = 0, alloced_count = 0;
463 u32 pending_count = 0, active_count = 0, aborted_count = 0;
464
465 spin_lock_irqsave(&sba->reqs_lock, flags);
466
467 list_for_each_entry(req, &sba->reqs_free_list, node)
468 if (async_tx_test_ack(&req->tx))
469 free_count++;
470
471 list_for_each_entry(req, &sba->reqs_alloc_list, node)
472 alloced_count++;
473
474 list_for_each_entry(req, &sba->reqs_pending_list, node)
475 pending_count++;
476
477 list_for_each_entry(req, &sba->reqs_active_list, node)
478 active_count++;
479
480 list_for_each_entry(req, &sba->reqs_aborted_list, node)
481 aborted_count++;
482
483 spin_unlock_irqrestore(&sba->reqs_lock, flags);
484
485 seq_printf(file, "maximum requests = %d\n", sba->max_req);
486 seq_printf(file, "free requests = %d\n", free_count);
487 seq_printf(file, "alloced requests = %d\n", alloced_count);
488 seq_printf(file, "pending requests = %d\n", pending_count);
489 seq_printf(file, "active requests = %d\n", active_count);
490 seq_printf(file, "aborted requests = %d\n", aborted_count);
491 }
492
493 /* ====== DMAENGINE callbacks ===== */
494
495 static void sba_free_chan_resources(struct dma_chan *dchan)
496 {
497 /*
498 * Channel resources are pre-alloced so we just free-up
499 * whatever we can so that we can re-use pre-alloced
500 * channel resources next time.
501 */
502 sba_cleanup_nonpending_requests(to_sba_device(dchan));
503 }
504
505 static int sba_device_terminate_all(struct dma_chan *dchan)
506 {
507 /* Cleanup all pending requests */
508 sba_cleanup_pending_requests(to_sba_device(dchan));
509
510 return 0;
511 }
512
513 static void sba_issue_pending(struct dma_chan *dchan)
514 {
515 unsigned long flags;
516 struct sba_device *sba = to_sba_device(dchan);
517
518 /* Process pending requests */
519 spin_lock_irqsave(&sba->reqs_lock, flags);
520 _sba_process_pending_requests(sba);
521 spin_unlock_irqrestore(&sba->reqs_lock, flags);
522 }
523
524 static dma_cookie_t sba_tx_submit(struct dma_async_tx_descriptor *tx)
525 {
526 unsigned long flags;
527 dma_cookie_t cookie;
528 struct sba_device *sba;
529 struct sba_request *req, *nreq;
530
531 if (unlikely(!tx))
532 return -EINVAL;
533
534 sba = to_sba_device(tx->chan);
535 req = to_sba_request(tx);
536
537 /* Assign cookie and mark all chained requests pending */
538 spin_lock_irqsave(&sba->reqs_lock, flags);
539 cookie = dma_cookie_assign(tx);
540 _sba_pending_request(sba, req);
541 list_for_each_entry(nreq, &req->next, next)
542 _sba_pending_request(sba, nreq);
543 spin_unlock_irqrestore(&sba->reqs_lock, flags);
544
545 return cookie;
546 }
547
548 static enum dma_status sba_tx_status(struct dma_chan *dchan,
549 dma_cookie_t cookie,
550 struct dma_tx_state *txstate)
551 {
552 enum dma_status ret;
553 struct sba_device *sba = to_sba_device(dchan);
554
555 ret = dma_cookie_status(dchan, cookie, txstate);
556 if (ret == DMA_COMPLETE)
557 return ret;
558
559 mbox_client_peek_data(sba->mchan);
560
561 return dma_cookie_status(dchan, cookie, txstate);
562 }
563
564 static void sba_fillup_interrupt_msg(struct sba_request *req,
565 struct brcm_sba_command *cmds,
566 struct brcm_message *msg)
567 {
568 u64 cmd;
569 u32 c_mdata;
570 dma_addr_t resp_dma = req->tx.phys;
571 struct brcm_sba_command *cmdsp = cmds;
572
573 /* Type-B command to load dummy data into buf0 */
574 cmd = sba_cmd_enc(0x0, SBA_TYPE_B,
575 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
576 cmd = sba_cmd_enc(cmd, req->sba->hw_resp_size,
577 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
578 c_mdata = sba_cmd_load_c_mdata(0);
579 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
580 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
581 cmd = sba_cmd_enc(cmd, SBA_CMD_LOAD_BUFFER,
582 SBA_CMD_SHIFT, SBA_CMD_MASK);
583 cmdsp->cmd = cmd;
584 *cmdsp->cmd_dma = cpu_to_le64(cmd);
585 cmdsp->flags = BRCM_SBA_CMD_TYPE_B;
586 cmdsp->data = resp_dma;
587 cmdsp->data_len = req->sba->hw_resp_size;
588 cmdsp++;
589
590 /* Type-A command to write buf0 to dummy location */
591 cmd = sba_cmd_enc(0x0, SBA_TYPE_A,
592 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
593 cmd = sba_cmd_enc(cmd, req->sba->hw_resp_size,
594 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
595 cmd = sba_cmd_enc(cmd, 0x1,
596 SBA_RESP_SHIFT, SBA_RESP_MASK);
597 c_mdata = sba_cmd_write_c_mdata(0);
598 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
599 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
600 cmd = sba_cmd_enc(cmd, SBA_CMD_WRITE_BUFFER,
601 SBA_CMD_SHIFT, SBA_CMD_MASK);
602 cmdsp->cmd = cmd;
603 *cmdsp->cmd_dma = cpu_to_le64(cmd);
604 cmdsp->flags = BRCM_SBA_CMD_TYPE_A;
605 if (req->sba->hw_resp_size) {
606 cmdsp->flags |= BRCM_SBA_CMD_HAS_RESP;
607 cmdsp->resp = resp_dma;
608 cmdsp->resp_len = req->sba->hw_resp_size;
609 }
610 cmdsp->flags |= BRCM_SBA_CMD_HAS_OUTPUT;
611 cmdsp->data = resp_dma;
612 cmdsp->data_len = req->sba->hw_resp_size;
613 cmdsp++;
614
615 /* Fillup brcm_message */
616 msg->type = BRCM_MESSAGE_SBA;
617 msg->sba.cmds = cmds;
618 msg->sba.cmds_count = cmdsp - cmds;
619 msg->ctx = req;
620 msg->error = 0;
621 }
622
623 static struct dma_async_tx_descriptor *
624 sba_prep_dma_interrupt(struct dma_chan *dchan, unsigned long flags)
625 {
626 struct sba_request *req = NULL;
627 struct sba_device *sba = to_sba_device(dchan);
628
629 /* Alloc new request */
630 req = sba_alloc_request(sba);
631 if (!req)
632 return NULL;
633
634 /*
635 * Force fence so that no requests are submitted
636 * until DMA callback for this request is invoked.
637 */
638 req->flags |= SBA_REQUEST_FENCE;
639
640 /* Fillup request message */
641 sba_fillup_interrupt_msg(req, req->cmds, &req->msg);
642
643 /* Init async_tx descriptor */
644 req->tx.flags = flags;
645 req->tx.cookie = -EBUSY;
646
647 return &req->tx;
648 }
649
650 static void sba_fillup_memcpy_msg(struct sba_request *req,
651 struct brcm_sba_command *cmds,
652 struct brcm_message *msg,
653 dma_addr_t msg_offset, size_t msg_len,
654 dma_addr_t dst, dma_addr_t src)
655 {
656 u64 cmd;
657 u32 c_mdata;
658 dma_addr_t resp_dma = req->tx.phys;
659 struct brcm_sba_command *cmdsp = cmds;
660
661 /* Type-B command to load data into buf0 */
662 cmd = sba_cmd_enc(0x0, SBA_TYPE_B,
663 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
664 cmd = sba_cmd_enc(cmd, msg_len,
665 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
666 c_mdata = sba_cmd_load_c_mdata(0);
667 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
668 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
669 cmd = sba_cmd_enc(cmd, SBA_CMD_LOAD_BUFFER,
670 SBA_CMD_SHIFT, SBA_CMD_MASK);
671 cmdsp->cmd = cmd;
672 *cmdsp->cmd_dma = cpu_to_le64(cmd);
673 cmdsp->flags = BRCM_SBA_CMD_TYPE_B;
674 cmdsp->data = src + msg_offset;
675 cmdsp->data_len = msg_len;
676 cmdsp++;
677
678 /* Type-A command to write buf0 */
679 cmd = sba_cmd_enc(0x0, SBA_TYPE_A,
680 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
681 cmd = sba_cmd_enc(cmd, msg_len,
682 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
683 cmd = sba_cmd_enc(cmd, 0x1,
684 SBA_RESP_SHIFT, SBA_RESP_MASK);
685 c_mdata = sba_cmd_write_c_mdata(0);
686 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
687 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
688 cmd = sba_cmd_enc(cmd, SBA_CMD_WRITE_BUFFER,
689 SBA_CMD_SHIFT, SBA_CMD_MASK);
690 cmdsp->cmd = cmd;
691 *cmdsp->cmd_dma = cpu_to_le64(cmd);
692 cmdsp->flags = BRCM_SBA_CMD_TYPE_A;
693 if (req->sba->hw_resp_size) {
694 cmdsp->flags |= BRCM_SBA_CMD_HAS_RESP;
695 cmdsp->resp = resp_dma;
696 cmdsp->resp_len = req->sba->hw_resp_size;
697 }
698 cmdsp->flags |= BRCM_SBA_CMD_HAS_OUTPUT;
699 cmdsp->data = dst + msg_offset;
700 cmdsp->data_len = msg_len;
701 cmdsp++;
702
703 /* Fillup brcm_message */
704 msg->type = BRCM_MESSAGE_SBA;
705 msg->sba.cmds = cmds;
706 msg->sba.cmds_count = cmdsp - cmds;
707 msg->ctx = req;
708 msg->error = 0;
709 }
710
711 static struct sba_request *
712 sba_prep_dma_memcpy_req(struct sba_device *sba,
713 dma_addr_t off, dma_addr_t dst, dma_addr_t src,
714 size_t len, unsigned long flags)
715 {
716 struct sba_request *req = NULL;
717
718 /* Alloc new request */
719 req = sba_alloc_request(sba);
720 if (!req)
721 return NULL;
722 if (flags & DMA_PREP_FENCE)
723 req->flags |= SBA_REQUEST_FENCE;
724
725 /* Fillup request message */
726 sba_fillup_memcpy_msg(req, req->cmds, &req->msg,
727 off, len, dst, src);
728
729 /* Init async_tx descriptor */
730 req->tx.flags = flags;
731 req->tx.cookie = -EBUSY;
732
733 return req;
734 }
735
736 static struct dma_async_tx_descriptor *
737 sba_prep_dma_memcpy(struct dma_chan *dchan, dma_addr_t dst, dma_addr_t src,
738 size_t len, unsigned long flags)
739 {
740 size_t req_len;
741 dma_addr_t off = 0;
742 struct sba_device *sba = to_sba_device(dchan);
743 struct sba_request *first = NULL, *req;
744
745 /* Create chained requests where each request is upto hw_buf_size */
746 while (len) {
747 req_len = (len < sba->hw_buf_size) ? len : sba->hw_buf_size;
748
749 req = sba_prep_dma_memcpy_req(sba, off, dst, src,
750 req_len, flags);
751 if (!req) {
752 if (first)
753 sba_free_chained_requests(first);
754 return NULL;
755 }
756
757 if (first)
758 sba_chain_request(first, req);
759 else
760 first = req;
761
762 off += req_len;
763 len -= req_len;
764 }
765
766 return (first) ? &first->tx : NULL;
767 }
768
769 static void sba_fillup_xor_msg(struct sba_request *req,
770 struct brcm_sba_command *cmds,
771 struct brcm_message *msg,
772 dma_addr_t msg_offset, size_t msg_len,
773 dma_addr_t dst, dma_addr_t *src, u32 src_cnt)
774 {
775 u64 cmd;
776 u32 c_mdata;
777 unsigned int i;
778 dma_addr_t resp_dma = req->tx.phys;
779 struct brcm_sba_command *cmdsp = cmds;
780
781 /* Type-B command to load data into buf0 */
782 cmd = sba_cmd_enc(0x0, SBA_TYPE_B,
783 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
784 cmd = sba_cmd_enc(cmd, msg_len,
785 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
786 c_mdata = sba_cmd_load_c_mdata(0);
787 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
788 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
789 cmd = sba_cmd_enc(cmd, SBA_CMD_LOAD_BUFFER,
790 SBA_CMD_SHIFT, SBA_CMD_MASK);
791 cmdsp->cmd = cmd;
792 *cmdsp->cmd_dma = cpu_to_le64(cmd);
793 cmdsp->flags = BRCM_SBA_CMD_TYPE_B;
794 cmdsp->data = src[0] + msg_offset;
795 cmdsp->data_len = msg_len;
796 cmdsp++;
797
798 /* Type-B commands to xor data with buf0 and put it back in buf0 */
799 for (i = 1; i < src_cnt; i++) {
800 cmd = sba_cmd_enc(0x0, SBA_TYPE_B,
801 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
802 cmd = sba_cmd_enc(cmd, msg_len,
803 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
804 c_mdata = sba_cmd_xor_c_mdata(0, 0);
805 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
806 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
807 cmd = sba_cmd_enc(cmd, SBA_CMD_XOR,
808 SBA_CMD_SHIFT, SBA_CMD_MASK);
809 cmdsp->cmd = cmd;
810 *cmdsp->cmd_dma = cpu_to_le64(cmd);
811 cmdsp->flags = BRCM_SBA_CMD_TYPE_B;
812 cmdsp->data = src[i] + msg_offset;
813 cmdsp->data_len = msg_len;
814 cmdsp++;
815 }
816
817 /* Type-A command to write buf0 */
818 cmd = sba_cmd_enc(0x0, SBA_TYPE_A,
819 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
820 cmd = sba_cmd_enc(cmd, msg_len,
821 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
822 cmd = sba_cmd_enc(cmd, 0x1,
823 SBA_RESP_SHIFT, SBA_RESP_MASK);
824 c_mdata = sba_cmd_write_c_mdata(0);
825 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
826 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
827 cmd = sba_cmd_enc(cmd, SBA_CMD_WRITE_BUFFER,
828 SBA_CMD_SHIFT, SBA_CMD_MASK);
829 cmdsp->cmd = cmd;
830 *cmdsp->cmd_dma = cpu_to_le64(cmd);
831 cmdsp->flags = BRCM_SBA_CMD_TYPE_A;
832 if (req->sba->hw_resp_size) {
833 cmdsp->flags |= BRCM_SBA_CMD_HAS_RESP;
834 cmdsp->resp = resp_dma;
835 cmdsp->resp_len = req->sba->hw_resp_size;
836 }
837 cmdsp->flags |= BRCM_SBA_CMD_HAS_OUTPUT;
838 cmdsp->data = dst + msg_offset;
839 cmdsp->data_len = msg_len;
840 cmdsp++;
841
842 /* Fillup brcm_message */
843 msg->type = BRCM_MESSAGE_SBA;
844 msg->sba.cmds = cmds;
845 msg->sba.cmds_count = cmdsp - cmds;
846 msg->ctx = req;
847 msg->error = 0;
848 }
849
850 static struct sba_request *
851 sba_prep_dma_xor_req(struct sba_device *sba,
852 dma_addr_t off, dma_addr_t dst, dma_addr_t *src,
853 u32 src_cnt, size_t len, unsigned long flags)
854 {
855 struct sba_request *req = NULL;
856
857 /* Alloc new request */
858 req = sba_alloc_request(sba);
859 if (!req)
860 return NULL;
861 if (flags & DMA_PREP_FENCE)
862 req->flags |= SBA_REQUEST_FENCE;
863
864 /* Fillup request message */
865 sba_fillup_xor_msg(req, req->cmds, &req->msg,
866 off, len, dst, src, src_cnt);
867
868 /* Init async_tx descriptor */
869 req->tx.flags = flags;
870 req->tx.cookie = -EBUSY;
871
872 return req;
873 }
874
875 static struct dma_async_tx_descriptor *
876 sba_prep_dma_xor(struct dma_chan *dchan, dma_addr_t dst, dma_addr_t *src,
877 u32 src_cnt, size_t len, unsigned long flags)
878 {
879 size_t req_len;
880 dma_addr_t off = 0;
881 struct sba_device *sba = to_sba_device(dchan);
882 struct sba_request *first = NULL, *req;
883
884 /* Sanity checks */
885 if (unlikely(src_cnt > sba->max_xor_srcs))
886 return NULL;
887
888 /* Create chained requests where each request is upto hw_buf_size */
889 while (len) {
890 req_len = (len < sba->hw_buf_size) ? len : sba->hw_buf_size;
891
892 req = sba_prep_dma_xor_req(sba, off, dst, src, src_cnt,
893 req_len, flags);
894 if (!req) {
895 if (first)
896 sba_free_chained_requests(first);
897 return NULL;
898 }
899
900 if (first)
901 sba_chain_request(first, req);
902 else
903 first = req;
904
905 off += req_len;
906 len -= req_len;
907 }
908
909 return (first) ? &first->tx : NULL;
910 }
911
912 static void sba_fillup_pq_msg(struct sba_request *req,
913 bool pq_continue,
914 struct brcm_sba_command *cmds,
915 struct brcm_message *msg,
916 dma_addr_t msg_offset, size_t msg_len,
917 dma_addr_t *dst_p, dma_addr_t *dst_q,
918 const u8 *scf, dma_addr_t *src, u32 src_cnt)
919 {
920 u64 cmd;
921 u32 c_mdata;
922 unsigned int i;
923 dma_addr_t resp_dma = req->tx.phys;
924 struct brcm_sba_command *cmdsp = cmds;
925
926 if (pq_continue) {
927 /* Type-B command to load old P into buf0 */
928 if (dst_p) {
929 cmd = sba_cmd_enc(0x0, SBA_TYPE_B,
930 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
931 cmd = sba_cmd_enc(cmd, msg_len,
932 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
933 c_mdata = sba_cmd_load_c_mdata(0);
934 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
935 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
936 cmd = sba_cmd_enc(cmd, SBA_CMD_LOAD_BUFFER,
937 SBA_CMD_SHIFT, SBA_CMD_MASK);
938 cmdsp->cmd = cmd;
939 *cmdsp->cmd_dma = cpu_to_le64(cmd);
940 cmdsp->flags = BRCM_SBA_CMD_TYPE_B;
941 cmdsp->data = *dst_p + msg_offset;
942 cmdsp->data_len = msg_len;
943 cmdsp++;
944 }
945
946 /* Type-B command to load old Q into buf1 */
947 if (dst_q) {
948 cmd = sba_cmd_enc(0x0, SBA_TYPE_B,
949 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
950 cmd = sba_cmd_enc(cmd, msg_len,
951 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
952 c_mdata = sba_cmd_load_c_mdata(1);
953 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
954 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
955 cmd = sba_cmd_enc(cmd, SBA_CMD_LOAD_BUFFER,
956 SBA_CMD_SHIFT, SBA_CMD_MASK);
957 cmdsp->cmd = cmd;
958 *cmdsp->cmd_dma = cpu_to_le64(cmd);
959 cmdsp->flags = BRCM_SBA_CMD_TYPE_B;
960 cmdsp->data = *dst_q + msg_offset;
961 cmdsp->data_len = msg_len;
962 cmdsp++;
963 }
964 } else {
965 /* Type-A command to zero all buffers */
966 cmd = sba_cmd_enc(0x0, SBA_TYPE_A,
967 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
968 cmd = sba_cmd_enc(cmd, msg_len,
969 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
970 cmd = sba_cmd_enc(cmd, SBA_CMD_ZERO_ALL_BUFFERS,
971 SBA_CMD_SHIFT, SBA_CMD_MASK);
972 cmdsp->cmd = cmd;
973 *cmdsp->cmd_dma = cpu_to_le64(cmd);
974 cmdsp->flags = BRCM_SBA_CMD_TYPE_A;
975 cmdsp++;
976 }
977
978 /* Type-B commands for generate P onto buf0 and Q onto buf1 */
979 for (i = 0; i < src_cnt; i++) {
980 cmd = sba_cmd_enc(0x0, SBA_TYPE_B,
981 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
982 cmd = sba_cmd_enc(cmd, msg_len,
983 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
984 c_mdata = sba_cmd_pq_c_mdata(raid6_gflog[scf[i]], 1, 0);
985 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
986 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
987 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_MS(c_mdata),
988 SBA_C_MDATA_MS_SHIFT, SBA_C_MDATA_MS_MASK);
989 cmd = sba_cmd_enc(cmd, SBA_CMD_GALOIS_XOR,
990 SBA_CMD_SHIFT, SBA_CMD_MASK);
991 cmdsp->cmd = cmd;
992 *cmdsp->cmd_dma = cpu_to_le64(cmd);
993 cmdsp->flags = BRCM_SBA_CMD_TYPE_B;
994 cmdsp->data = src[i] + msg_offset;
995 cmdsp->data_len = msg_len;
996 cmdsp++;
997 }
998
999 /* Type-A command to write buf0 */
1000 if (dst_p) {
1001 cmd = sba_cmd_enc(0x0, SBA_TYPE_A,
1002 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
1003 cmd = sba_cmd_enc(cmd, msg_len,
1004 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
1005 cmd = sba_cmd_enc(cmd, 0x1,
1006 SBA_RESP_SHIFT, SBA_RESP_MASK);
1007 c_mdata = sba_cmd_write_c_mdata(0);
1008 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
1009 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
1010 cmd = sba_cmd_enc(cmd, SBA_CMD_WRITE_BUFFER,
1011 SBA_CMD_SHIFT, SBA_CMD_MASK);
1012 cmdsp->cmd = cmd;
1013 *cmdsp->cmd_dma = cpu_to_le64(cmd);
1014 cmdsp->flags = BRCM_SBA_CMD_TYPE_A;
1015 if (req->sba->hw_resp_size) {
1016 cmdsp->flags |= BRCM_SBA_CMD_HAS_RESP;
1017 cmdsp->resp = resp_dma;
1018 cmdsp->resp_len = req->sba->hw_resp_size;
1019 }
1020 cmdsp->flags |= BRCM_SBA_CMD_HAS_OUTPUT;
1021 cmdsp->data = *dst_p + msg_offset;
1022 cmdsp->data_len = msg_len;
1023 cmdsp++;
1024 }
1025
1026 /* Type-A command to write buf1 */
1027 if (dst_q) {
1028 cmd = sba_cmd_enc(0x0, SBA_TYPE_A,
1029 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
1030 cmd = sba_cmd_enc(cmd, msg_len,
1031 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
1032 cmd = sba_cmd_enc(cmd, 0x1,
1033 SBA_RESP_SHIFT, SBA_RESP_MASK);
1034 c_mdata = sba_cmd_write_c_mdata(1);
1035 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
1036 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
1037 cmd = sba_cmd_enc(cmd, SBA_CMD_WRITE_BUFFER,
1038 SBA_CMD_SHIFT, SBA_CMD_MASK);
1039 cmdsp->cmd = cmd;
1040 *cmdsp->cmd_dma = cpu_to_le64(cmd);
1041 cmdsp->flags = BRCM_SBA_CMD_TYPE_A;
1042 if (req->sba->hw_resp_size) {
1043 cmdsp->flags |= BRCM_SBA_CMD_HAS_RESP;
1044 cmdsp->resp = resp_dma;
1045 cmdsp->resp_len = req->sba->hw_resp_size;
1046 }
1047 cmdsp->flags |= BRCM_SBA_CMD_HAS_OUTPUT;
1048 cmdsp->data = *dst_q + msg_offset;
1049 cmdsp->data_len = msg_len;
1050 cmdsp++;
1051 }
1052
1053 /* Fillup brcm_message */
1054 msg->type = BRCM_MESSAGE_SBA;
1055 msg->sba.cmds = cmds;
1056 msg->sba.cmds_count = cmdsp - cmds;
1057 msg->ctx = req;
1058 msg->error = 0;
1059 }
1060
1061 static struct sba_request *
1062 sba_prep_dma_pq_req(struct sba_device *sba, dma_addr_t off,
1063 dma_addr_t *dst_p, dma_addr_t *dst_q, dma_addr_t *src,
1064 u32 src_cnt, const u8 *scf, size_t len, unsigned long flags)
1065 {
1066 struct sba_request *req = NULL;
1067
1068 /* Alloc new request */
1069 req = sba_alloc_request(sba);
1070 if (!req)
1071 return NULL;
1072 if (flags & DMA_PREP_FENCE)
1073 req->flags |= SBA_REQUEST_FENCE;
1074
1075 /* Fillup request messages */
1076 sba_fillup_pq_msg(req, dmaf_continue(flags),
1077 req->cmds, &req->msg,
1078 off, len, dst_p, dst_q, scf, src, src_cnt);
1079
1080 /* Init async_tx descriptor */
1081 req->tx.flags = flags;
1082 req->tx.cookie = -EBUSY;
1083
1084 return req;
1085 }
1086
1087 static void sba_fillup_pq_single_msg(struct sba_request *req,
1088 bool pq_continue,
1089 struct brcm_sba_command *cmds,
1090 struct brcm_message *msg,
1091 dma_addr_t msg_offset, size_t msg_len,
1092 dma_addr_t *dst_p, dma_addr_t *dst_q,
1093 dma_addr_t src, u8 scf)
1094 {
1095 u64 cmd;
1096 u32 c_mdata;
1097 u8 pos, dpos = raid6_gflog[scf];
1098 dma_addr_t resp_dma = req->tx.phys;
1099 struct brcm_sba_command *cmdsp = cmds;
1100
1101 if (!dst_p)
1102 goto skip_p;
1103
1104 if (pq_continue) {
1105 /* Type-B command to load old P into buf0 */
1106 cmd = sba_cmd_enc(0x0, SBA_TYPE_B,
1107 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
1108 cmd = sba_cmd_enc(cmd, msg_len,
1109 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
1110 c_mdata = sba_cmd_load_c_mdata(0);
1111 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
1112 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
1113 cmd = sba_cmd_enc(cmd, SBA_CMD_LOAD_BUFFER,
1114 SBA_CMD_SHIFT, SBA_CMD_MASK);
1115 cmdsp->cmd = cmd;
1116 *cmdsp->cmd_dma = cpu_to_le64(cmd);
1117 cmdsp->flags = BRCM_SBA_CMD_TYPE_B;
1118 cmdsp->data = *dst_p + msg_offset;
1119 cmdsp->data_len = msg_len;
1120 cmdsp++;
1121
1122 /*
1123 * Type-B commands to xor data with buf0 and put it
1124 * back in buf0
1125 */
1126 cmd = sba_cmd_enc(0x0, SBA_TYPE_B,
1127 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
1128 cmd = sba_cmd_enc(cmd, msg_len,
1129 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
1130 c_mdata = sba_cmd_xor_c_mdata(0, 0);
1131 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
1132 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
1133 cmd = sba_cmd_enc(cmd, SBA_CMD_XOR,
1134 SBA_CMD_SHIFT, SBA_CMD_MASK);
1135 cmdsp->cmd = cmd;
1136 *cmdsp->cmd_dma = cpu_to_le64(cmd);
1137 cmdsp->flags = BRCM_SBA_CMD_TYPE_B;
1138 cmdsp->data = src + msg_offset;
1139 cmdsp->data_len = msg_len;
1140 cmdsp++;
1141 } else {
1142 /* Type-B command to load old P into buf0 */
1143 cmd = sba_cmd_enc(0x0, SBA_TYPE_B,
1144 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
1145 cmd = sba_cmd_enc(cmd, msg_len,
1146 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
1147 c_mdata = sba_cmd_load_c_mdata(0);
1148 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
1149 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
1150 cmd = sba_cmd_enc(cmd, SBA_CMD_LOAD_BUFFER,
1151 SBA_CMD_SHIFT, SBA_CMD_MASK);
1152 cmdsp->cmd = cmd;
1153 *cmdsp->cmd_dma = cpu_to_le64(cmd);
1154 cmdsp->flags = BRCM_SBA_CMD_TYPE_B;
1155 cmdsp->data = src + msg_offset;
1156 cmdsp->data_len = msg_len;
1157 cmdsp++;
1158 }
1159
1160 /* Type-A command to write buf0 */
1161 cmd = sba_cmd_enc(0x0, SBA_TYPE_A,
1162 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
1163 cmd = sba_cmd_enc(cmd, msg_len,
1164 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
1165 cmd = sba_cmd_enc(cmd, 0x1,
1166 SBA_RESP_SHIFT, SBA_RESP_MASK);
1167 c_mdata = sba_cmd_write_c_mdata(0);
1168 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
1169 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
1170 cmd = sba_cmd_enc(cmd, SBA_CMD_WRITE_BUFFER,
1171 SBA_CMD_SHIFT, SBA_CMD_MASK);
1172 cmdsp->cmd = cmd;
1173 *cmdsp->cmd_dma = cpu_to_le64(cmd);
1174 cmdsp->flags = BRCM_SBA_CMD_TYPE_A;
1175 if (req->sba->hw_resp_size) {
1176 cmdsp->flags |= BRCM_SBA_CMD_HAS_RESP;
1177 cmdsp->resp = resp_dma;
1178 cmdsp->resp_len = req->sba->hw_resp_size;
1179 }
1180 cmdsp->flags |= BRCM_SBA_CMD_HAS_OUTPUT;
1181 cmdsp->data = *dst_p + msg_offset;
1182 cmdsp->data_len = msg_len;
1183 cmdsp++;
1184
1185 skip_p:
1186 if (!dst_q)
1187 goto skip_q;
1188
1189 /* Type-A command to zero all buffers */
1190 cmd = sba_cmd_enc(0x0, SBA_TYPE_A,
1191 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
1192 cmd = sba_cmd_enc(cmd, msg_len,
1193 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
1194 cmd = sba_cmd_enc(cmd, SBA_CMD_ZERO_ALL_BUFFERS,
1195 SBA_CMD_SHIFT, SBA_CMD_MASK);
1196 cmdsp->cmd = cmd;
1197 *cmdsp->cmd_dma = cpu_to_le64(cmd);
1198 cmdsp->flags = BRCM_SBA_CMD_TYPE_A;
1199 cmdsp++;
1200
1201 if (dpos == 255)
1202 goto skip_q_computation;
1203 pos = (dpos < req->sba->max_pq_coefs) ?
1204 dpos : (req->sba->max_pq_coefs - 1);
1205
1206 /*
1207 * Type-B command to generate initial Q from data
1208 * and store output into buf0
1209 */
1210 cmd = sba_cmd_enc(0x0, SBA_TYPE_B,
1211 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
1212 cmd = sba_cmd_enc(cmd, msg_len,
1213 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
1214 c_mdata = sba_cmd_pq_c_mdata(pos, 0, 0);
1215 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
1216 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
1217 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_MS(c_mdata),
1218 SBA_C_MDATA_MS_SHIFT, SBA_C_MDATA_MS_MASK);
1219 cmd = sba_cmd_enc(cmd, SBA_CMD_GALOIS,
1220 SBA_CMD_SHIFT, SBA_CMD_MASK);
1221 cmdsp->cmd = cmd;
1222 *cmdsp->cmd_dma = cpu_to_le64(cmd);
1223 cmdsp->flags = BRCM_SBA_CMD_TYPE_B;
1224 cmdsp->data = src + msg_offset;
1225 cmdsp->data_len = msg_len;
1226 cmdsp++;
1227
1228 dpos -= pos;
1229
1230 /* Multiple Type-A command to generate final Q */
1231 while (dpos) {
1232 pos = (dpos < req->sba->max_pq_coefs) ?
1233 dpos : (req->sba->max_pq_coefs - 1);
1234
1235 /*
1236 * Type-A command to generate Q with buf0 and
1237 * buf1 store result in buf0
1238 */
1239 cmd = sba_cmd_enc(0x0, SBA_TYPE_A,
1240 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
1241 cmd = sba_cmd_enc(cmd, msg_len,
1242 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
1243 c_mdata = sba_cmd_pq_c_mdata(pos, 0, 1);
1244 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
1245 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
1246 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_MS(c_mdata),
1247 SBA_C_MDATA_MS_SHIFT, SBA_C_MDATA_MS_MASK);
1248 cmd = sba_cmd_enc(cmd, SBA_CMD_GALOIS,
1249 SBA_CMD_SHIFT, SBA_CMD_MASK);
1250 cmdsp->cmd = cmd;
1251 *cmdsp->cmd_dma = cpu_to_le64(cmd);
1252 cmdsp->flags = BRCM_SBA_CMD_TYPE_A;
1253 cmdsp++;
1254
1255 dpos -= pos;
1256 }
1257
1258 skip_q_computation:
1259 if (pq_continue) {
1260 /*
1261 * Type-B command to XOR previous output with
1262 * buf0 and write it into buf0
1263 */
1264 cmd = sba_cmd_enc(0x0, SBA_TYPE_B,
1265 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
1266 cmd = sba_cmd_enc(cmd, msg_len,
1267 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
1268 c_mdata = sba_cmd_xor_c_mdata(0, 0);
1269 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
1270 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
1271 cmd = sba_cmd_enc(cmd, SBA_CMD_XOR,
1272 SBA_CMD_SHIFT, SBA_CMD_MASK);
1273 cmdsp->cmd = cmd;
1274 *cmdsp->cmd_dma = cpu_to_le64(cmd);
1275 cmdsp->flags = BRCM_SBA_CMD_TYPE_B;
1276 cmdsp->data = *dst_q + msg_offset;
1277 cmdsp->data_len = msg_len;
1278 cmdsp++;
1279 }
1280
1281 /* Type-A command to write buf0 */
1282 cmd = sba_cmd_enc(0x0, SBA_TYPE_A,
1283 SBA_TYPE_SHIFT, SBA_TYPE_MASK);
1284 cmd = sba_cmd_enc(cmd, msg_len,
1285 SBA_USER_DEF_SHIFT, SBA_USER_DEF_MASK);
1286 cmd = sba_cmd_enc(cmd, 0x1,
1287 SBA_RESP_SHIFT, SBA_RESP_MASK);
1288 c_mdata = sba_cmd_write_c_mdata(0);
1289 cmd = sba_cmd_enc(cmd, SBA_C_MDATA_LS(c_mdata),
1290 SBA_C_MDATA_SHIFT, SBA_C_MDATA_MASK);
1291 cmd = sba_cmd_enc(cmd, SBA_CMD_WRITE_BUFFER,
1292 SBA_CMD_SHIFT, SBA_CMD_MASK);
1293 cmdsp->cmd = cmd;
1294 *cmdsp->cmd_dma = cpu_to_le64(cmd);
1295 cmdsp->flags = BRCM_SBA_CMD_TYPE_A;
1296 if (req->sba->hw_resp_size) {
1297 cmdsp->flags |= BRCM_SBA_CMD_HAS_RESP;
1298 cmdsp->resp = resp_dma;
1299 cmdsp->resp_len = req->sba->hw_resp_size;
1300 }
1301 cmdsp->flags |= BRCM_SBA_CMD_HAS_OUTPUT;
1302 cmdsp->data = *dst_q + msg_offset;
1303 cmdsp->data_len = msg_len;
1304 cmdsp++;
1305
1306 skip_q:
1307 /* Fillup brcm_message */
1308 msg->type = BRCM_MESSAGE_SBA;
1309 msg->sba.cmds = cmds;
1310 msg->sba.cmds_count = cmdsp - cmds;
1311 msg->ctx = req;
1312 msg->error = 0;
1313 }
1314
1315 static struct sba_request *
1316 sba_prep_dma_pq_single_req(struct sba_device *sba, dma_addr_t off,
1317 dma_addr_t *dst_p, dma_addr_t *dst_q,
1318 dma_addr_t src, u8 scf, size_t len,
1319 unsigned long flags)
1320 {
1321 struct sba_request *req = NULL;
1322
1323 /* Alloc new request */
1324 req = sba_alloc_request(sba);
1325 if (!req)
1326 return NULL;
1327 if (flags & DMA_PREP_FENCE)
1328 req->flags |= SBA_REQUEST_FENCE;
1329
1330 /* Fillup request messages */
1331 sba_fillup_pq_single_msg(req, dmaf_continue(flags),
1332 req->cmds, &req->msg, off, len,
1333 dst_p, dst_q, src, scf);
1334
1335 /* Init async_tx descriptor */
1336 req->tx.flags = flags;
1337 req->tx.cookie = -EBUSY;
1338
1339 return req;
1340 }
1341
1342 static struct dma_async_tx_descriptor *
1343 sba_prep_dma_pq(struct dma_chan *dchan, dma_addr_t *dst, dma_addr_t *src,
1344 u32 src_cnt, const u8 *scf, size_t len, unsigned long flags)
1345 {
1346 u32 i, dst_q_index;
1347 size_t req_len;
1348 bool slow = false;
1349 dma_addr_t off = 0;
1350 dma_addr_t *dst_p = NULL, *dst_q = NULL;
1351 struct sba_device *sba = to_sba_device(dchan);
1352 struct sba_request *first = NULL, *req;
1353
1354 /* Sanity checks */
1355 if (unlikely(src_cnt > sba->max_pq_srcs))
1356 return NULL;
1357 for (i = 0; i < src_cnt; i++)
1358 if (sba->max_pq_coefs <= raid6_gflog[scf[i]])
1359 slow = true;
1360
1361 /* Figure-out P and Q destination addresses */
1362 if (!(flags & DMA_PREP_PQ_DISABLE_P))
1363 dst_p = &dst[0];
1364 if (!(flags & DMA_PREP_PQ_DISABLE_Q))
1365 dst_q = &dst[1];
1366
1367 /* Create chained requests where each request is upto hw_buf_size */
1368 while (len) {
1369 req_len = (len < sba->hw_buf_size) ? len : sba->hw_buf_size;
1370
1371 if (slow) {
1372 dst_q_index = src_cnt;
1373
1374 if (dst_q) {
1375 for (i = 0; i < src_cnt; i++) {
1376 if (*dst_q == src[i]) {
1377 dst_q_index = i;
1378 break;
1379 }
1380 }
1381 }
1382
1383 if (dst_q_index < src_cnt) {
1384 i = dst_q_index;
1385 req = sba_prep_dma_pq_single_req(sba,
1386 off, dst_p, dst_q, src[i], scf[i],
1387 req_len, flags | DMA_PREP_FENCE);
1388 if (!req)
1389 goto fail;
1390
1391 if (first)
1392 sba_chain_request(first, req);
1393 else
1394 first = req;
1395
1396 flags |= DMA_PREP_CONTINUE;
1397 }
1398
1399 for (i = 0; i < src_cnt; i++) {
1400 if (dst_q_index == i)
1401 continue;
1402
1403 req = sba_prep_dma_pq_single_req(sba,
1404 off, dst_p, dst_q, src[i], scf[i],
1405 req_len, flags | DMA_PREP_FENCE);
1406 if (!req)
1407 goto fail;
1408
1409 if (first)
1410 sba_chain_request(first, req);
1411 else
1412 first = req;
1413
1414 flags |= DMA_PREP_CONTINUE;
1415 }
1416 } else {
1417 req = sba_prep_dma_pq_req(sba, off,
1418 dst_p, dst_q, src, src_cnt,
1419 scf, req_len, flags);
1420 if (!req)
1421 goto fail;
1422
1423 if (first)
1424 sba_chain_request(first, req);
1425 else
1426 first = req;
1427 }
1428
1429 off += req_len;
1430 len -= req_len;
1431 }
1432
1433 return (first) ? &first->tx : NULL;
1434
1435 fail:
1436 if (first)
1437 sba_free_chained_requests(first);
1438 return NULL;
1439 }
1440
1441 /* ====== Mailbox callbacks ===== */
1442
1443 static void sba_receive_message(struct mbox_client *cl, void *msg)
1444 {
1445 struct brcm_message *m = msg;
1446 struct sba_request *req = m->ctx;
1447 struct sba_device *sba = req->sba;
1448
1449 /* Error count if message has error */
1450 if (m->error < 0)
1451 dev_err(sba->dev, "%s got message with error %d",
1452 dma_chan_name(&sba->dma_chan), m->error);
1453
1454 /* Process received request */
1455 sba_process_received_request(sba, req);
1456 }
1457
1458 /* ====== Debugfs callbacks ====== */
1459
1460 static int sba_debugfs_stats_show(struct seq_file *file, void *offset)
1461 {
1462 struct platform_device *pdev = to_platform_device(file->private);
1463 struct sba_device *sba = platform_get_drvdata(pdev);
1464
1465 /* Write stats in file */
1466 sba_write_stats_in_seqfile(sba, file);
1467
1468 return 0;
1469 }
1470
1471 /* ====== Platform driver routines ===== */
1472
1473 static int sba_prealloc_channel_resources(struct sba_device *sba)
1474 {
1475 int i, j, ret = 0;
1476 struct sba_request *req = NULL;
1477
1478 sba->resp_base = dma_alloc_coherent(sba->mbox_dev,
1479 sba->max_resp_pool_size,
1480 &sba->resp_dma_base, GFP_KERNEL);
1481 if (!sba->resp_base)
1482 return -ENOMEM;
1483
1484 sba->cmds_base = dma_alloc_coherent(sba->mbox_dev,
1485 sba->max_cmds_pool_size,
1486 &sba->cmds_dma_base, GFP_KERNEL);
1487 if (!sba->cmds_base) {
1488 ret = -ENOMEM;
1489 goto fail_free_resp_pool;
1490 }
1491
1492 spin_lock_init(&sba->reqs_lock);
1493 sba->reqs_fence = false;
1494 INIT_LIST_HEAD(&sba->reqs_alloc_list);
1495 INIT_LIST_HEAD(&sba->reqs_pending_list);
1496 INIT_LIST_HEAD(&sba->reqs_active_list);
1497 INIT_LIST_HEAD(&sba->reqs_aborted_list);
1498 INIT_LIST_HEAD(&sba->reqs_free_list);
1499
1500 for (i = 0; i < sba->max_req; i++) {
1501 req = devm_kzalloc(sba->dev,
1502 sizeof(*req) +
1503 sba->max_cmd_per_req * sizeof(req->cmds[0]),
1504 GFP_KERNEL);
1505 if (!req) {
1506 ret = -ENOMEM;
1507 goto fail_free_cmds_pool;
1508 }
1509 INIT_LIST_HEAD(&req->node);
1510 req->sba = sba;
1511 req->flags = SBA_REQUEST_STATE_FREE;
1512 INIT_LIST_HEAD(&req->next);
1513 atomic_set(&req->next_pending_count, 0);
1514 for (j = 0; j < sba->max_cmd_per_req; j++) {
1515 req->cmds[j].cmd = 0;
1516 req->cmds[j].cmd_dma = sba->cmds_base +
1517 (i * sba->max_cmd_per_req + j) * sizeof(u64);
1518 req->cmds[j].cmd_dma_addr = sba->cmds_dma_base +
1519 (i * sba->max_cmd_per_req + j) * sizeof(u64);
1520 req->cmds[j].flags = 0;
1521 }
1522 memset(&req->msg, 0, sizeof(req->msg));
1523 dma_async_tx_descriptor_init(&req->tx, &sba->dma_chan);
1524 async_tx_ack(&req->tx);
1525 req->tx.tx_submit = sba_tx_submit;
1526 req->tx.phys = sba->resp_dma_base + i * sba->hw_resp_size;
1527 list_add_tail(&req->node, &sba->reqs_free_list);
1528 }
1529
1530 return 0;
1531
1532 fail_free_cmds_pool:
1533 dma_free_coherent(sba->mbox_dev,
1534 sba->max_cmds_pool_size,
1535 sba->cmds_base, sba->cmds_dma_base);
1536 fail_free_resp_pool:
1537 dma_free_coherent(sba->mbox_dev,
1538 sba->max_resp_pool_size,
1539 sba->resp_base, sba->resp_dma_base);
1540 return ret;
1541 }
1542
1543 static void sba_freeup_channel_resources(struct sba_device *sba)
1544 {
1545 dmaengine_terminate_all(&sba->dma_chan);
1546 dma_free_coherent(sba->mbox_dev, sba->max_cmds_pool_size,
1547 sba->cmds_base, sba->cmds_dma_base);
1548 dma_free_coherent(sba->mbox_dev, sba->max_resp_pool_size,
1549 sba->resp_base, sba->resp_dma_base);
1550 sba->resp_base = NULL;
1551 sba->resp_dma_base = 0;
1552 }
1553
1554 static int sba_async_register(struct sba_device *sba)
1555 {
1556 int ret;
1557 struct dma_device *dma_dev = &sba->dma_dev;
1558
1559 /* Initialize DMA channel cookie */
1560 sba->dma_chan.device = dma_dev;
1561 dma_cookie_init(&sba->dma_chan);
1562
1563 /* Initialize DMA device capability mask */
1564 dma_cap_zero(dma_dev->cap_mask);
1565 dma_cap_set(DMA_INTERRUPT, dma_dev->cap_mask);
1566 dma_cap_set(DMA_MEMCPY, dma_dev->cap_mask);
1567 dma_cap_set(DMA_XOR, dma_dev->cap_mask);
1568 dma_cap_set(DMA_PQ, dma_dev->cap_mask);
1569
1570 /*
1571 * Set mailbox channel device as the base device of
1572 * our dma_device because the actual memory accesses
1573 * will be done by mailbox controller
1574 */
1575 dma_dev->dev = sba->mbox_dev;
1576
1577 /* Set base prep routines */
1578 dma_dev->device_free_chan_resources = sba_free_chan_resources;
1579 dma_dev->device_terminate_all = sba_device_terminate_all;
1580 dma_dev->device_issue_pending = sba_issue_pending;
1581 dma_dev->device_tx_status = sba_tx_status;
1582
1583 /* Set interrupt routine */
1584 if (dma_has_cap(DMA_INTERRUPT, dma_dev->cap_mask))
1585 dma_dev->device_prep_dma_interrupt = sba_prep_dma_interrupt;
1586
1587 /* Set memcpy routine */
1588 if (dma_has_cap(DMA_MEMCPY, dma_dev->cap_mask))
1589 dma_dev->device_prep_dma_memcpy = sba_prep_dma_memcpy;
1590
1591 /* Set xor routine and capability */
1592 if (dma_has_cap(DMA_XOR, dma_dev->cap_mask)) {
1593 dma_dev->device_prep_dma_xor = sba_prep_dma_xor;
1594 dma_dev->max_xor = sba->max_xor_srcs;
1595 }
1596
1597 /* Set pq routine and capability */
1598 if (dma_has_cap(DMA_PQ, dma_dev->cap_mask)) {
1599 dma_dev->device_prep_dma_pq = sba_prep_dma_pq;
1600 dma_set_maxpq(dma_dev, sba->max_pq_srcs, 0);
1601 }
1602
1603 /* Initialize DMA device channel list */
1604 INIT_LIST_HEAD(&dma_dev->channels);
1605 list_add_tail(&sba->dma_chan.device_node, &dma_dev->channels);
1606
1607 /* Register with Linux async DMA framework*/
1608 ret = dma_async_device_register(dma_dev);
1609 if (ret) {
1610 dev_err(sba->dev, "async device register error %d", ret);
1611 return ret;
1612 }
1613
1614 dev_info(sba->dev, "%s capabilities: %s%s%s%s\n",
1615 dma_chan_name(&sba->dma_chan),
1616 dma_has_cap(DMA_INTERRUPT, dma_dev->cap_mask) ? "interrupt " : "",
1617 dma_has_cap(DMA_MEMCPY, dma_dev->cap_mask) ? "memcpy " : "",
1618 dma_has_cap(DMA_XOR, dma_dev->cap_mask) ? "xor " : "",
1619 dma_has_cap(DMA_PQ, dma_dev->cap_mask) ? "pq " : "");
1620
1621 return 0;
1622 }
1623
1624 static int sba_probe(struct platform_device *pdev)
1625 {
1626 int ret = 0;
1627 struct sba_device *sba;
1628 struct platform_device *mbox_pdev;
1629 struct of_phandle_args args;
1630
1631 /* Allocate main SBA struct */
1632 sba = devm_kzalloc(&pdev->dev, sizeof(*sba), GFP_KERNEL);
1633 if (!sba)
1634 return -ENOMEM;
1635
1636 sba->dev = &pdev->dev;
1637 platform_set_drvdata(pdev, sba);
1638
1639 /* Number of mailbox channels should be atleast 1 */
1640 ret = of_count_phandle_with_args(pdev->dev.of_node,
1641 "mboxes", "#mbox-cells");
1642 if (ret <= 0)
1643 return -ENODEV;
1644
1645 /* Determine SBA version from DT compatible string */
1646 if (of_device_is_compatible(sba->dev->of_node, "brcm,iproc-sba"))
1647 sba->ver = SBA_VER_1;
1648 else if (of_device_is_compatible(sba->dev->of_node,
1649 "brcm,iproc-sba-v2"))
1650 sba->ver = SBA_VER_2;
1651 else
1652 return -ENODEV;
1653
1654 /* Derived Configuration parameters */
1655 switch (sba->ver) {
1656 case SBA_VER_1:
1657 sba->hw_buf_size = 4096;
1658 sba->hw_resp_size = 8;
1659 sba->max_pq_coefs = 6;
1660 sba->max_pq_srcs = 6;
1661 break;
1662 case SBA_VER_2:
1663 sba->hw_buf_size = 4096;
1664 sba->hw_resp_size = 8;
1665 sba->max_pq_coefs = 30;
1666 /*
1667 * We can support max_pq_srcs == max_pq_coefs because
1668 * we are limited by number of SBA commands that we can
1669 * fit in one message for underlying ring manager HW.
1670 */
1671 sba->max_pq_srcs = 12;
1672 break;
1673 default:
1674 return -EINVAL;
1675 }
1676 sba->max_req = SBA_MAX_REQ_PER_MBOX_CHANNEL;
1677 sba->max_cmd_per_req = sba->max_pq_srcs + 3;
1678 sba->max_xor_srcs = sba->max_cmd_per_req - 1;
1679 sba->max_resp_pool_size = sba->max_req * sba->hw_resp_size;
1680 sba->max_cmds_pool_size = sba->max_req *
1681 sba->max_cmd_per_req * sizeof(u64);
1682
1683 /* Setup mailbox client */
1684 sba->client.dev = &pdev->dev;
1685 sba->client.rx_callback = sba_receive_message;
1686 sba->client.tx_block = false;
1687 sba->client.knows_txdone = true;
1688 sba->client.tx_tout = 0;
1689
1690 /* Request mailbox channel */
1691 sba->mchan = mbox_request_channel(&sba->client, 0);
1692 if (IS_ERR(sba->mchan)) {
1693 ret = PTR_ERR(sba->mchan);
1694 goto fail_free_mchan;
1695 }
1696
1697 /* Find-out underlying mailbox device */
1698 ret = of_parse_phandle_with_args(pdev->dev.of_node,
1699 "mboxes", "#mbox-cells", 0, &args);
1700 if (ret)
1701 goto fail_free_mchan;
1702 mbox_pdev = of_find_device_by_node(args.np);
1703 of_node_put(args.np);
1704 if (!mbox_pdev) {
1705 ret = -ENODEV;
1706 goto fail_free_mchan;
1707 }
1708 sba->mbox_dev = &mbox_pdev->dev;
1709
1710 /* Prealloc channel resource */
1711 ret = sba_prealloc_channel_resources(sba);
1712 if (ret)
1713 goto fail_free_mchan;
1714
1715 /* Check availability of debugfs */
1716 if (!debugfs_initialized())
1717 goto skip_debugfs;
1718
1719 /* Create debugfs root entry */
1720 sba->root = debugfs_create_dir(dev_name(sba->dev), NULL);
1721 if (IS_ERR_OR_NULL(sba->root)) {
1722 dev_err(sba->dev, "failed to create debugfs root entry\n");
1723 sba->root = NULL;
1724 goto skip_debugfs;
1725 }
1726
1727 /* Create debugfs stats entry */
1728 sba->stats = debugfs_create_devm_seqfile(sba->dev, "stats", sba->root,
1729 sba_debugfs_stats_show);
1730 if (IS_ERR_OR_NULL(sba->stats))
1731 dev_err(sba->dev, "failed to create debugfs stats file\n");
1732 skip_debugfs:
1733
1734 /* Register DMA device with Linux async framework */
1735 ret = sba_async_register(sba);
1736 if (ret)
1737 goto fail_free_resources;
1738
1739 /* Print device info */
1740 dev_info(sba->dev, "%s using SBAv%d mailbox channel from %s",
1741 dma_chan_name(&sba->dma_chan), sba->ver+1,
1742 dev_name(sba->mbox_dev));
1743
1744 return 0;
1745
1746 fail_free_resources:
1747 debugfs_remove_recursive(sba->root);
1748 sba_freeup_channel_resources(sba);
1749 fail_free_mchan:
1750 mbox_free_channel(sba->mchan);
1751 return ret;
1752 }
1753
1754 static int sba_remove(struct platform_device *pdev)
1755 {
1756 struct sba_device *sba = platform_get_drvdata(pdev);
1757
1758 dma_async_device_unregister(&sba->dma_dev);
1759
1760 debugfs_remove_recursive(sba->root);
1761
1762 sba_freeup_channel_resources(sba);
1763
1764 mbox_free_channel(sba->mchan);
1765
1766 return 0;
1767 }
1768
1769 static const struct of_device_id sba_of_match[] = {
1770 { .compatible = "brcm,iproc-sba", },
1771 { .compatible = "brcm,iproc-sba-v2", },
1772 {},
1773 };
1774 MODULE_DEVICE_TABLE(of, sba_of_match);
1775
1776 static struct platform_driver sba_driver = {
1777 .probe = sba_probe,
1778 .remove = sba_remove,
1779 .driver = {
1780 .name = "bcm-sba-raid",
1781 .of_match_table = sba_of_match,
1782 },
1783 };
1784 module_platform_driver(sba_driver);
1785
1786 MODULE_DESCRIPTION("Broadcom SBA RAID driver");
1787 MODULE_AUTHOR("Anup Patel <anup.patel@broadcom.com>");
1788 MODULE_LICENSE("GPL v2");