sli4.c 130 KB

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  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. * All common (i.e. transport-independent) SLI-4 functions are implemented
  8. * in this file.
  9. */
  10. #include "sli4.h"
  11. static struct sli4_asic_entry_t sli4_asic_table[] = {
  12. { SLI4_ASIC_REV_B0, SLI4_ASIC_GEN_5},
  13. { SLI4_ASIC_REV_D0, SLI4_ASIC_GEN_5},
  14. { SLI4_ASIC_REV_A3, SLI4_ASIC_GEN_6},
  15. { SLI4_ASIC_REV_A0, SLI4_ASIC_GEN_6},
  16. { SLI4_ASIC_REV_A1, SLI4_ASIC_GEN_6},
  17. { SLI4_ASIC_REV_A3, SLI4_ASIC_GEN_6},
  18. { SLI4_ASIC_REV_A1, SLI4_ASIC_GEN_7},
  19. { SLI4_ASIC_REV_A0, SLI4_ASIC_GEN_7},
  20. };
  21. /* Convert queue type enum (SLI_QTYPE_*) into a string */
  22. static char *SLI4_QNAME[] = {
  23. "Event Queue",
  24. "Completion Queue",
  25. "Mailbox Queue",
  26. "Work Queue",
  27. "Receive Queue",
  28. "Undefined"
  29. };
  30. /**
  31. * sli_config_cmd_init() - Write a SLI_CONFIG command to the provided buffer.
  32. *
  33. * @sli4: SLI context pointer.
  34. * @buf: Destination buffer for the command.
  35. * @length: Length in bytes of attached command.
  36. * @dma: DMA buffer for non-embedded commands.
  37. * Return: Command payload buffer.
  38. */
  39. static void *
  40. sli_config_cmd_init(struct sli4 *sli4, void *buf, u32 length,
  41. struct efc_dma *dma)
  42. {
  43. struct sli4_cmd_sli_config *config;
  44. u32 flags;
  45. if (length > sizeof(config->payload.embed) && !dma) {
  46. efc_log_err(sli4, "Too big for an embedded cmd with len(%d)\n",
  47. length);
  48. return NULL;
  49. }
  50. memset(buf, 0, SLI4_BMBX_SIZE);
  51. config = buf;
  52. config->hdr.command = SLI4_MBX_CMD_SLI_CONFIG;
  53. if (!dma) {
  54. flags = SLI4_SLICONF_EMB;
  55. config->dw1_flags = cpu_to_le32(flags);
  56. config->payload_len = cpu_to_le32(length);
  57. return config->payload.embed;
  58. }
  59. flags = SLI4_SLICONF_PMDCMD_VAL_1;
  60. flags &= ~SLI4_SLICONF_EMB;
  61. config->dw1_flags = cpu_to_le32(flags);
  62. config->payload.mem.addr.low = cpu_to_le32(lower_32_bits(dma->phys));
  63. config->payload.mem.addr.high = cpu_to_le32(upper_32_bits(dma->phys));
  64. config->payload.mem.length =
  65. cpu_to_le32(dma->size & SLI4_SLICONF_PMD_LEN);
  66. config->payload_len = cpu_to_le32(dma->size);
  67. /* save pointer to DMA for BMBX dumping purposes */
  68. sli4->bmbx_non_emb_pmd = dma;
  69. return dma->virt;
  70. }
  71. /**
  72. * sli_cmd_common_create_cq() - Write a COMMON_CREATE_CQ V2 command.
  73. *
  74. * @sli4: SLI context pointer.
  75. * @buf: Destination buffer for the command.
  76. * @qmem: DMA memory for queue.
  77. * @eq_id: EQ id assosiated with this cq.
  78. * Return: status -EIO/0.
  79. */
  80. static int
  81. sli_cmd_common_create_cq(struct sli4 *sli4, void *buf, struct efc_dma *qmem,
  82. u16 eq_id)
  83. {
  84. struct sli4_rqst_cmn_create_cq_v2 *cqv2 = NULL;
  85. u32 p;
  86. uintptr_t addr;
  87. u32 num_pages = 0;
  88. size_t cmd_size = 0;
  89. u32 page_size = 0;
  90. u32 n_cqe = 0;
  91. u32 dw5_flags = 0;
  92. u16 dw6w1_arm = 0;
  93. __le32 len;
  94. /* First calculate number of pages and the mailbox cmd length */
  95. n_cqe = qmem->size / SLI4_CQE_BYTES;
  96. switch (n_cqe) {
  97. case 256:
  98. case 512:
  99. case 1024:
  100. case 2048:
  101. page_size = SZ_4K;
  102. break;
  103. case 4096:
  104. page_size = SZ_8K;
  105. break;
  106. default:
  107. return -EIO;
  108. }
  109. num_pages = sli_page_count(qmem->size, page_size);
  110. cmd_size = SLI4_RQST_CMDSZ(cmn_create_cq_v2)
  111. + SZ_DMAADDR * num_pages;
  112. cqv2 = sli_config_cmd_init(sli4, buf, cmd_size, NULL);
  113. if (!cqv2)
  114. return -EIO;
  115. len = SLI4_RQST_PYLD_LEN_VAR(cmn_create_cq_v2, SZ_DMAADDR * num_pages);
  116. sli_cmd_fill_hdr(&cqv2->hdr, SLI4_CMN_CREATE_CQ, SLI4_SUBSYSTEM_COMMON,
  117. CMD_V2, len);
  118. cqv2->page_size = page_size / SLI_PAGE_SIZE;
  119. /* valid values for number of pages: 1, 2, 4, 8 (sec 4.4.3) */
  120. cqv2->num_pages = cpu_to_le16(num_pages);
  121. if (!num_pages || num_pages > SLI4_CREATE_CQV2_MAX_PAGES)
  122. return -EIO;
  123. switch (num_pages) {
  124. case 1:
  125. dw5_flags |= SLI4_CQ_CNT_VAL(256);
  126. break;
  127. case 2:
  128. dw5_flags |= SLI4_CQ_CNT_VAL(512);
  129. break;
  130. case 4:
  131. dw5_flags |= SLI4_CQ_CNT_VAL(1024);
  132. break;
  133. case 8:
  134. dw5_flags |= SLI4_CQ_CNT_VAL(LARGE);
  135. cqv2->cqe_count = cpu_to_le16(n_cqe);
  136. break;
  137. default:
  138. efc_log_err(sli4, "num_pages %d not valid\n", num_pages);
  139. return -EIO;
  140. }
  141. if (sli4->if_type == SLI4_INTF_IF_TYPE_6)
  142. dw5_flags |= SLI4_CREATE_CQV2_AUTOVALID;
  143. dw5_flags |= SLI4_CREATE_CQV2_EVT;
  144. dw5_flags |= SLI4_CREATE_CQV2_VALID;
  145. cqv2->dw5_flags = cpu_to_le32(dw5_flags);
  146. cqv2->dw6w1_arm = cpu_to_le16(dw6w1_arm);
  147. cqv2->eq_id = cpu_to_le16(eq_id);
  148. for (p = 0, addr = qmem->phys; p < num_pages; p++, addr += page_size) {
  149. cqv2->page_phys_addr[p].low = cpu_to_le32(lower_32_bits(addr));
  150. cqv2->page_phys_addr[p].high = cpu_to_le32(upper_32_bits(addr));
  151. }
  152. return 0;
  153. }
  154. static int
  155. sli_cmd_common_create_eq(struct sli4 *sli4, void *buf, struct efc_dma *qmem)
  156. {
  157. struct sli4_rqst_cmn_create_eq *eq;
  158. u32 p;
  159. uintptr_t addr;
  160. u16 num_pages;
  161. u32 dw5_flags = 0;
  162. u32 dw6_flags = 0, ver;
  163. eq = sli_config_cmd_init(sli4, buf, SLI4_CFG_PYLD_LENGTH(cmn_create_eq),
  164. NULL);
  165. if (!eq)
  166. return -EIO;
  167. if (sli4->if_type == SLI4_INTF_IF_TYPE_6)
  168. ver = CMD_V2;
  169. else
  170. ver = CMD_V0;
  171. sli_cmd_fill_hdr(&eq->hdr, SLI4_CMN_CREATE_EQ, SLI4_SUBSYSTEM_COMMON,
  172. ver, SLI4_RQST_PYLD_LEN(cmn_create_eq));
  173. /* valid values for number of pages: 1, 2, 4 (sec 4.4.3) */
  174. num_pages = qmem->size / SLI_PAGE_SIZE;
  175. eq->num_pages = cpu_to_le16(num_pages);
  176. switch (num_pages) {
  177. case 1:
  178. dw5_flags |= SLI4_EQE_SIZE_4;
  179. dw6_flags |= SLI4_EQ_CNT_VAL(1024);
  180. break;
  181. case 2:
  182. dw5_flags |= SLI4_EQE_SIZE_4;
  183. dw6_flags |= SLI4_EQ_CNT_VAL(2048);
  184. break;
  185. case 4:
  186. dw5_flags |= SLI4_EQE_SIZE_4;
  187. dw6_flags |= SLI4_EQ_CNT_VAL(4096);
  188. break;
  189. default:
  190. efc_log_err(sli4, "num_pages %d not valid\n", num_pages);
  191. return -EIO;
  192. }
  193. if (sli4->if_type == SLI4_INTF_IF_TYPE_6)
  194. dw5_flags |= SLI4_CREATE_EQ_AUTOVALID;
  195. dw5_flags |= SLI4_CREATE_EQ_VALID;
  196. dw6_flags &= (~SLI4_CREATE_EQ_ARM);
  197. eq->dw5_flags = cpu_to_le32(dw5_flags);
  198. eq->dw6_flags = cpu_to_le32(dw6_flags);
  199. eq->dw7_delaymulti = cpu_to_le32(SLI4_CREATE_EQ_DELAYMULTI);
  200. for (p = 0, addr = qmem->phys; p < num_pages;
  201. p++, addr += SLI_PAGE_SIZE) {
  202. eq->page_address[p].low = cpu_to_le32(lower_32_bits(addr));
  203. eq->page_address[p].high = cpu_to_le32(upper_32_bits(addr));
  204. }
  205. return 0;
  206. }
  207. static int
  208. sli_cmd_common_create_mq_ext(struct sli4 *sli4, void *buf, struct efc_dma *qmem,
  209. u16 cq_id)
  210. {
  211. struct sli4_rqst_cmn_create_mq_ext *mq;
  212. u32 p;
  213. uintptr_t addr;
  214. u32 num_pages;
  215. u16 dw6w1_flags = 0;
  216. mq = sli_config_cmd_init(sli4, buf,
  217. SLI4_CFG_PYLD_LENGTH(cmn_create_mq_ext), NULL);
  218. if (!mq)
  219. return -EIO;
  220. sli_cmd_fill_hdr(&mq->hdr, SLI4_CMN_CREATE_MQ_EXT,
  221. SLI4_SUBSYSTEM_COMMON, CMD_V0,
  222. SLI4_RQST_PYLD_LEN(cmn_create_mq_ext));
  223. /* valid values for number of pages: 1, 2, 4, 8 (sec 4.4.12) */
  224. num_pages = qmem->size / SLI_PAGE_SIZE;
  225. mq->num_pages = cpu_to_le16(num_pages);
  226. switch (num_pages) {
  227. case 1:
  228. dw6w1_flags |= SLI4_MQE_SIZE_16;
  229. break;
  230. case 2:
  231. dw6w1_flags |= SLI4_MQE_SIZE_32;
  232. break;
  233. case 4:
  234. dw6w1_flags |= SLI4_MQE_SIZE_64;
  235. break;
  236. case 8:
  237. dw6w1_flags |= SLI4_MQE_SIZE_128;
  238. break;
  239. default:
  240. efc_log_info(sli4, "num_pages %d not valid\n", num_pages);
  241. return -EIO;
  242. }
  243. mq->async_event_bitmap = cpu_to_le32(SLI4_ASYNC_EVT_FC_ALL);
  244. if (sli4->params.mq_create_version) {
  245. mq->cq_id_v1 = cpu_to_le16(cq_id);
  246. mq->hdr.dw3_version = cpu_to_le32(CMD_V1);
  247. } else {
  248. dw6w1_flags |= (cq_id << SLI4_CREATE_MQEXT_CQID_SHIFT);
  249. }
  250. mq->dw7_val = cpu_to_le32(SLI4_CREATE_MQEXT_VAL);
  251. mq->dw6w1_flags = cpu_to_le16(dw6w1_flags);
  252. for (p = 0, addr = qmem->phys; p < num_pages;
  253. p++, addr += SLI_PAGE_SIZE) {
  254. mq->page_phys_addr[p].low = cpu_to_le32(lower_32_bits(addr));
  255. mq->page_phys_addr[p].high = cpu_to_le32(upper_32_bits(addr));
  256. }
  257. return 0;
  258. }
  259. int
  260. sli_cmd_wq_create(struct sli4 *sli4, void *buf, struct efc_dma *qmem, u16 cq_id)
  261. {
  262. struct sli4_rqst_wq_create *wq;
  263. u32 p;
  264. uintptr_t addr;
  265. u32 page_size = 0;
  266. u32 n_wqe = 0;
  267. u16 num_pages;
  268. wq = sli_config_cmd_init(sli4, buf, SLI4_CFG_PYLD_LENGTH(wq_create),
  269. NULL);
  270. if (!wq)
  271. return -EIO;
  272. sli_cmd_fill_hdr(&wq->hdr, SLI4_OPC_WQ_CREATE, SLI4_SUBSYSTEM_FC,
  273. CMD_V1, SLI4_RQST_PYLD_LEN(wq_create));
  274. n_wqe = qmem->size / sli4->wqe_size;
  275. switch (qmem->size) {
  276. case 4096:
  277. case 8192:
  278. case 16384:
  279. case 32768:
  280. page_size = SZ_4K;
  281. break;
  282. case 65536:
  283. page_size = SZ_8K;
  284. break;
  285. case 131072:
  286. page_size = SZ_16K;
  287. break;
  288. case 262144:
  289. page_size = SZ_32K;
  290. break;
  291. case 524288:
  292. page_size = SZ_64K;
  293. break;
  294. default:
  295. return -EIO;
  296. }
  297. /* valid values for number of pages(num_pages): 1-8 */
  298. num_pages = sli_page_count(qmem->size, page_size);
  299. wq->num_pages = cpu_to_le16(num_pages);
  300. if (!num_pages || num_pages > SLI4_WQ_CREATE_MAX_PAGES)
  301. return -EIO;
  302. wq->cq_id = cpu_to_le16(cq_id);
  303. wq->page_size = page_size / SLI_PAGE_SIZE;
  304. if (sli4->wqe_size == SLI4_WQE_EXT_BYTES)
  305. wq->wqe_size_byte |= SLI4_WQE_EXT_SIZE;
  306. else
  307. wq->wqe_size_byte |= SLI4_WQE_SIZE;
  308. wq->wqe_count = cpu_to_le16(n_wqe);
  309. for (p = 0, addr = qmem->phys; p < num_pages; p++, addr += page_size) {
  310. wq->page_phys_addr[p].low = cpu_to_le32(lower_32_bits(addr));
  311. wq->page_phys_addr[p].high = cpu_to_le32(upper_32_bits(addr));
  312. }
  313. return 0;
  314. }
  315. static int
  316. sli_cmd_rq_create_v1(struct sli4 *sli4, void *buf, struct efc_dma *qmem,
  317. u16 cq_id, u16 buffer_size)
  318. {
  319. struct sli4_rqst_rq_create_v1 *rq;
  320. u32 p;
  321. uintptr_t addr;
  322. u32 num_pages;
  323. rq = sli_config_cmd_init(sli4, buf, SLI4_CFG_PYLD_LENGTH(rq_create_v1),
  324. NULL);
  325. if (!rq)
  326. return -EIO;
  327. sli_cmd_fill_hdr(&rq->hdr, SLI4_OPC_RQ_CREATE, SLI4_SUBSYSTEM_FC,
  328. CMD_V1, SLI4_RQST_PYLD_LEN(rq_create_v1));
  329. /* Disable "no buffer warnings" to avoid Lancer bug */
  330. rq->dim_dfd_dnb |= SLI4_RQ_CREATE_V1_DNB;
  331. /* valid values for number of pages: 1-8 (sec 4.5.6) */
  332. num_pages = sli_page_count(qmem->size, SLI_PAGE_SIZE);
  333. rq->num_pages = cpu_to_le16(num_pages);
  334. if (!num_pages ||
  335. num_pages > SLI4_RQ_CREATE_V1_MAX_PAGES) {
  336. efc_log_info(sli4, "num_pages %d not valid, max %d\n",
  337. num_pages, SLI4_RQ_CREATE_V1_MAX_PAGES);
  338. return -EIO;
  339. }
  340. /*
  341. * RQE count is the total number of entries (note not lg2(# entries))
  342. */
  343. rq->rqe_count = cpu_to_le16(qmem->size / SLI4_RQE_SIZE);
  344. rq->rqe_size_byte |= SLI4_RQE_SIZE_8;
  345. rq->page_size = SLI4_RQ_PAGE_SIZE_4096;
  346. if (buffer_size < sli4->rq_min_buf_size ||
  347. buffer_size > sli4->rq_max_buf_size) {
  348. efc_log_err(sli4, "buffer_size %d out of range (%d-%d)\n",
  349. buffer_size, sli4->rq_min_buf_size,
  350. sli4->rq_max_buf_size);
  351. return -EIO;
  352. }
  353. rq->buffer_size = cpu_to_le32(buffer_size);
  354. rq->cq_id = cpu_to_le16(cq_id);
  355. for (p = 0, addr = qmem->phys;
  356. p < num_pages;
  357. p++, addr += SLI_PAGE_SIZE) {
  358. rq->page_phys_addr[p].low = cpu_to_le32(lower_32_bits(addr));
  359. rq->page_phys_addr[p].high = cpu_to_le32(upper_32_bits(addr));
  360. }
  361. return 0;
  362. }
  363. static int
  364. sli_cmd_rq_create_v2(struct sli4 *sli4, u32 num_rqs,
  365. struct sli4_queue *qs[], u32 base_cq_id,
  366. u32 header_buffer_size,
  367. u32 payload_buffer_size, struct efc_dma *dma)
  368. {
  369. struct sli4_rqst_rq_create_v2 *req = NULL;
  370. u32 i, p, offset = 0;
  371. u32 payload_size, page_count;
  372. uintptr_t addr;
  373. u32 num_pages;
  374. __le32 len;
  375. page_count = sli_page_count(qs[0]->dma.size, SLI_PAGE_SIZE) * num_rqs;
  376. /* Payload length must accommodate both request and response */
  377. payload_size = max(SLI4_RQST_CMDSZ(rq_create_v2) +
  378. SZ_DMAADDR * page_count,
  379. sizeof(struct sli4_rsp_cmn_create_queue_set));
  380. dma->size = payload_size;
  381. dma->virt = dma_alloc_coherent(&sli4->pci->dev, dma->size,
  382. &dma->phys, GFP_KERNEL);
  383. if (!dma->virt)
  384. return -EIO;
  385. memset(dma->virt, 0, payload_size);
  386. req = sli_config_cmd_init(sli4, sli4->bmbx.virt, payload_size, dma);
  387. if (!req)
  388. return -EIO;
  389. len = SLI4_RQST_PYLD_LEN_VAR(rq_create_v2, SZ_DMAADDR * page_count);
  390. sli_cmd_fill_hdr(&req->hdr, SLI4_OPC_RQ_CREATE, SLI4_SUBSYSTEM_FC,
  391. CMD_V2, len);
  392. /* Fill Payload fields */
  393. req->dim_dfd_dnb |= SLI4_RQCREATEV2_DNB;
  394. num_pages = sli_page_count(qs[0]->dma.size, SLI_PAGE_SIZE);
  395. req->num_pages = cpu_to_le16(num_pages);
  396. req->rqe_count = cpu_to_le16(qs[0]->dma.size / SLI4_RQE_SIZE);
  397. req->rqe_size_byte |= SLI4_RQE_SIZE_8;
  398. req->page_size = SLI4_RQ_PAGE_SIZE_4096;
  399. req->rq_count = num_rqs;
  400. req->base_cq_id = cpu_to_le16(base_cq_id);
  401. req->hdr_buffer_size = cpu_to_le16(header_buffer_size);
  402. req->payload_buffer_size = cpu_to_le16(payload_buffer_size);
  403. for (i = 0; i < num_rqs; i++) {
  404. for (p = 0, addr = qs[i]->dma.phys; p < num_pages;
  405. p++, addr += SLI_PAGE_SIZE) {
  406. req->page_phys_addr[offset].low =
  407. cpu_to_le32(lower_32_bits(addr));
  408. req->page_phys_addr[offset].high =
  409. cpu_to_le32(upper_32_bits(addr));
  410. offset++;
  411. }
  412. }
  413. return 0;
  414. }
  415. static void
  416. __sli_queue_destroy(struct sli4 *sli4, struct sli4_queue *q)
  417. {
  418. if (!q->dma.size)
  419. return;
  420. dma_free_coherent(&sli4->pci->dev, q->dma.size,
  421. q->dma.virt, q->dma.phys);
  422. memset(&q->dma, 0, sizeof(struct efc_dma));
  423. }
  424. int
  425. __sli_queue_init(struct sli4 *sli4, struct sli4_queue *q, u32 qtype,
  426. size_t size, u32 n_entries, u32 align)
  427. {
  428. if (q->dma.virt) {
  429. efc_log_err(sli4, "%s failed\n", __func__);
  430. return -EIO;
  431. }
  432. memset(q, 0, sizeof(struct sli4_queue));
  433. q->dma.size = size * n_entries;
  434. q->dma.virt = dma_alloc_coherent(&sli4->pci->dev, q->dma.size,
  435. &q->dma.phys, GFP_KERNEL);
  436. if (!q->dma.virt) {
  437. memset(&q->dma, 0, sizeof(struct efc_dma));
  438. efc_log_err(sli4, "%s allocation failed\n", SLI4_QNAME[qtype]);
  439. return -EIO;
  440. }
  441. memset(q->dma.virt, 0, size * n_entries);
  442. spin_lock_init(&q->lock);
  443. q->type = qtype;
  444. q->size = size;
  445. q->length = n_entries;
  446. if (q->type == SLI4_QTYPE_EQ || q->type == SLI4_QTYPE_CQ) {
  447. /* For prism, phase will be flipped after
  448. * a sweep through eq and cq
  449. */
  450. q->phase = 1;
  451. }
  452. /* Limit to hwf the queue size per interrupt */
  453. q->proc_limit = n_entries / 2;
  454. if (q->type == SLI4_QTYPE_EQ)
  455. q->posted_limit = q->length / 2;
  456. else
  457. q->posted_limit = 64;
  458. return 0;
  459. }
  460. int
  461. sli_fc_rq_alloc(struct sli4 *sli4, struct sli4_queue *q,
  462. u32 n_entries, u32 buffer_size,
  463. struct sli4_queue *cq, bool is_hdr)
  464. {
  465. if (__sli_queue_init(sli4, q, SLI4_QTYPE_RQ, SLI4_RQE_SIZE,
  466. n_entries, SLI_PAGE_SIZE))
  467. return -EIO;
  468. if (sli_cmd_rq_create_v1(sli4, sli4->bmbx.virt, &q->dma, cq->id,
  469. buffer_size))
  470. goto error;
  471. if (__sli_create_queue(sli4, q))
  472. goto error;
  473. if (is_hdr && q->id & 1) {
  474. efc_log_info(sli4, "bad header RQ_ID %d\n", q->id);
  475. goto error;
  476. } else if (!is_hdr && (q->id & 1) == 0) {
  477. efc_log_info(sli4, "bad data RQ_ID %d\n", q->id);
  478. goto error;
  479. }
  480. if (is_hdr)
  481. q->u.flag |= SLI4_QUEUE_FLAG_HDR;
  482. else
  483. q->u.flag &= ~SLI4_QUEUE_FLAG_HDR;
  484. return 0;
  485. error:
  486. __sli_queue_destroy(sli4, q);
  487. return -EIO;
  488. }
  489. int
  490. sli_fc_rq_set_alloc(struct sli4 *sli4, u32 num_rq_pairs,
  491. struct sli4_queue *qs[], u32 base_cq_id,
  492. u32 n_entries, u32 header_buffer_size,
  493. u32 payload_buffer_size)
  494. {
  495. u32 i;
  496. struct efc_dma dma = {0};
  497. struct sli4_rsp_cmn_create_queue_set *rsp = NULL;
  498. void __iomem *db_regaddr = NULL;
  499. u32 num_rqs = num_rq_pairs * 2;
  500. for (i = 0; i < num_rqs; i++) {
  501. if (__sli_queue_init(sli4, qs[i], SLI4_QTYPE_RQ,
  502. SLI4_RQE_SIZE, n_entries,
  503. SLI_PAGE_SIZE)) {
  504. goto error;
  505. }
  506. }
  507. if (sli_cmd_rq_create_v2(sli4, num_rqs, qs, base_cq_id,
  508. header_buffer_size, payload_buffer_size,
  509. &dma)) {
  510. goto error;
  511. }
  512. if (sli_bmbx_command(sli4)) {
  513. efc_log_err(sli4, "bootstrap mailbox write failed RQSet\n");
  514. goto error;
  515. }
  516. if (sli4->if_type == SLI4_INTF_IF_TYPE_6)
  517. db_regaddr = sli4->reg[1] + SLI4_IF6_RQ_DB_REG;
  518. else
  519. db_regaddr = sli4->reg[0] + SLI4_RQ_DB_REG;
  520. rsp = dma.virt;
  521. if (rsp->hdr.status) {
  522. efc_log_err(sli4, "bad create RQSet status=%#x addl=%#x\n",
  523. rsp->hdr.status, rsp->hdr.additional_status);
  524. goto error;
  525. }
  526. for (i = 0; i < num_rqs; i++) {
  527. qs[i]->id = i + le16_to_cpu(rsp->q_id);
  528. if ((qs[i]->id & 1) == 0)
  529. qs[i]->u.flag |= SLI4_QUEUE_FLAG_HDR;
  530. else
  531. qs[i]->u.flag &= ~SLI4_QUEUE_FLAG_HDR;
  532. qs[i]->db_regaddr = db_regaddr;
  533. }
  534. dma_free_coherent(&sli4->pci->dev, dma.size, dma.virt, dma.phys);
  535. return 0;
  536. error:
  537. for (i = 0; i < num_rqs; i++)
  538. __sli_queue_destroy(sli4, qs[i]);
  539. if (dma.virt)
  540. dma_free_coherent(&sli4->pci->dev, dma.size, dma.virt,
  541. dma.phys);
  542. return -EIO;
  543. }
  544. static int
  545. sli_res_sli_config(struct sli4 *sli4, void *buf)
  546. {
  547. struct sli4_cmd_sli_config *sli_config = buf;
  548. /* sanity check */
  549. if (!buf || sli_config->hdr.command !=
  550. SLI4_MBX_CMD_SLI_CONFIG) {
  551. efc_log_err(sli4, "bad parameter buf=%p cmd=%#x\n", buf,
  552. buf ? sli_config->hdr.command : -1);
  553. return -EIO;
  554. }
  555. if (le16_to_cpu(sli_config->hdr.status))
  556. return le16_to_cpu(sli_config->hdr.status);
  557. if (le32_to_cpu(sli_config->dw1_flags) & SLI4_SLICONF_EMB)
  558. return sli_config->payload.embed[4];
  559. efc_log_info(sli4, "external buffers not supported\n");
  560. return -EIO;
  561. }
  562. int
  563. __sli_create_queue(struct sli4 *sli4, struct sli4_queue *q)
  564. {
  565. struct sli4_rsp_cmn_create_queue *res_q = NULL;
  566. if (sli_bmbx_command(sli4)) {
  567. efc_log_crit(sli4, "bootstrap mailbox write fail %s\n",
  568. SLI4_QNAME[q->type]);
  569. return -EIO;
  570. }
  571. if (sli_res_sli_config(sli4, sli4->bmbx.virt)) {
  572. efc_log_err(sli4, "bad status create %s\n",
  573. SLI4_QNAME[q->type]);
  574. return -EIO;
  575. }
  576. res_q = (void *)((u8 *)sli4->bmbx.virt +
  577. offsetof(struct sli4_cmd_sli_config, payload));
  578. if (res_q->hdr.status) {
  579. efc_log_err(sli4, "bad create %s status=%#x addl=%#x\n",
  580. SLI4_QNAME[q->type], res_q->hdr.status,
  581. res_q->hdr.additional_status);
  582. return -EIO;
  583. }
  584. q->id = le16_to_cpu(res_q->q_id);
  585. switch (q->type) {
  586. case SLI4_QTYPE_EQ:
  587. if (sli4->if_type == SLI4_INTF_IF_TYPE_6)
  588. q->db_regaddr = sli4->reg[1] + SLI4_IF6_EQ_DB_REG;
  589. else
  590. q->db_regaddr = sli4->reg[0] + SLI4_EQCQ_DB_REG;
  591. break;
  592. case SLI4_QTYPE_CQ:
  593. if (sli4->if_type == SLI4_INTF_IF_TYPE_6)
  594. q->db_regaddr = sli4->reg[1] + SLI4_IF6_CQ_DB_REG;
  595. else
  596. q->db_regaddr = sli4->reg[0] + SLI4_EQCQ_DB_REG;
  597. break;
  598. case SLI4_QTYPE_MQ:
  599. if (sli4->if_type == SLI4_INTF_IF_TYPE_6)
  600. q->db_regaddr = sli4->reg[1] + SLI4_IF6_MQ_DB_REG;
  601. else
  602. q->db_regaddr = sli4->reg[0] + SLI4_MQ_DB_REG;
  603. break;
  604. case SLI4_QTYPE_RQ:
  605. if (sli4->if_type == SLI4_INTF_IF_TYPE_6)
  606. q->db_regaddr = sli4->reg[1] + SLI4_IF6_RQ_DB_REG;
  607. else
  608. q->db_regaddr = sli4->reg[0] + SLI4_RQ_DB_REG;
  609. break;
  610. case SLI4_QTYPE_WQ:
  611. if (sli4->if_type == SLI4_INTF_IF_TYPE_6)
  612. q->db_regaddr = sli4->reg[1] + SLI4_IF6_WQ_DB_REG;
  613. else
  614. q->db_regaddr = sli4->reg[0] + SLI4_IO_WQ_DB_REG;
  615. break;
  616. default:
  617. break;
  618. }
  619. return 0;
  620. }
  621. int
  622. sli_get_queue_entry_size(struct sli4 *sli4, u32 qtype)
  623. {
  624. u32 size = 0;
  625. switch (qtype) {
  626. case SLI4_QTYPE_EQ:
  627. size = sizeof(u32);
  628. break;
  629. case SLI4_QTYPE_CQ:
  630. size = 16;
  631. break;
  632. case SLI4_QTYPE_MQ:
  633. size = 256;
  634. break;
  635. case SLI4_QTYPE_WQ:
  636. size = sli4->wqe_size;
  637. break;
  638. case SLI4_QTYPE_RQ:
  639. size = SLI4_RQE_SIZE;
  640. break;
  641. default:
  642. efc_log_info(sli4, "unknown queue type %d\n", qtype);
  643. return -1;
  644. }
  645. return size;
  646. }
  647. int
  648. sli_queue_alloc(struct sli4 *sli4, u32 qtype,
  649. struct sli4_queue *q, u32 n_entries,
  650. struct sli4_queue *assoc)
  651. {
  652. int size;
  653. u32 align = 0;
  654. /* get queue size */
  655. size = sli_get_queue_entry_size(sli4, qtype);
  656. if (size < 0)
  657. return -EIO;
  658. align = SLI_PAGE_SIZE;
  659. if (__sli_queue_init(sli4, q, qtype, size, n_entries, align))
  660. return -EIO;
  661. switch (qtype) {
  662. case SLI4_QTYPE_EQ:
  663. if (!sli_cmd_common_create_eq(sli4, sli4->bmbx.virt, &q->dma) &&
  664. !__sli_create_queue(sli4, q))
  665. return 0;
  666. break;
  667. case SLI4_QTYPE_CQ:
  668. if (!sli_cmd_common_create_cq(sli4, sli4->bmbx.virt, &q->dma,
  669. assoc ? assoc->id : 0) &&
  670. !__sli_create_queue(sli4, q))
  671. return 0;
  672. break;
  673. case SLI4_QTYPE_MQ:
  674. assoc->u.flag |= SLI4_QUEUE_FLAG_MQ;
  675. if (!sli_cmd_common_create_mq_ext(sli4, sli4->bmbx.virt,
  676. &q->dma, assoc->id) &&
  677. !__sli_create_queue(sli4, q))
  678. return 0;
  679. break;
  680. case SLI4_QTYPE_WQ:
  681. if (!sli_cmd_wq_create(sli4, sli4->bmbx.virt, &q->dma,
  682. assoc ? assoc->id : 0) &&
  683. !__sli_create_queue(sli4, q))
  684. return 0;
  685. break;
  686. default:
  687. efc_log_info(sli4, "unknown queue type %d\n", qtype);
  688. }
  689. __sli_queue_destroy(sli4, q);
  690. return -EIO;
  691. }
  692. static int sli_cmd_cq_set_create(struct sli4 *sli4,
  693. struct sli4_queue *qs[], u32 num_cqs,
  694. struct sli4_queue *eqs[],
  695. struct efc_dma *dma)
  696. {
  697. struct sli4_rqst_cmn_create_cq_set_v0 *req = NULL;
  698. uintptr_t addr;
  699. u32 i, offset = 0, page_bytes = 0, payload_size;
  700. u32 p = 0, page_size = 0, n_cqe = 0, num_pages_cq;
  701. u32 dw5_flags = 0;
  702. u16 dw6w1_flags = 0;
  703. __le32 req_len;
  704. n_cqe = qs[0]->dma.size / SLI4_CQE_BYTES;
  705. switch (n_cqe) {
  706. case 256:
  707. case 512:
  708. case 1024:
  709. case 2048:
  710. page_size = 1;
  711. break;
  712. case 4096:
  713. page_size = 2;
  714. break;
  715. default:
  716. return -EIO;
  717. }
  718. page_bytes = page_size * SLI_PAGE_SIZE;
  719. num_pages_cq = sli_page_count(qs[0]->dma.size, page_bytes);
  720. payload_size = max(SLI4_RQST_CMDSZ(cmn_create_cq_set_v0) +
  721. (SZ_DMAADDR * num_pages_cq * num_cqs),
  722. sizeof(struct sli4_rsp_cmn_create_queue_set));
  723. dma->size = payload_size;
  724. dma->virt = dma_alloc_coherent(&sli4->pci->dev, dma->size,
  725. &dma->phys, GFP_KERNEL);
  726. if (!dma->virt)
  727. return -EIO;
  728. memset(dma->virt, 0, payload_size);
  729. req = sli_config_cmd_init(sli4, sli4->bmbx.virt, payload_size, dma);
  730. if (!req)
  731. return -EIO;
  732. req_len = SLI4_RQST_PYLD_LEN_VAR(cmn_create_cq_set_v0,
  733. SZ_DMAADDR * num_pages_cq * num_cqs);
  734. sli_cmd_fill_hdr(&req->hdr, SLI4_CMN_CREATE_CQ_SET, SLI4_SUBSYSTEM_FC,
  735. CMD_V0, req_len);
  736. req->page_size = page_size;
  737. req->num_pages = cpu_to_le16(num_pages_cq);
  738. switch (num_pages_cq) {
  739. case 1:
  740. dw5_flags |= SLI4_CQ_CNT_VAL(256);
  741. break;
  742. case 2:
  743. dw5_flags |= SLI4_CQ_CNT_VAL(512);
  744. break;
  745. case 4:
  746. dw5_flags |= SLI4_CQ_CNT_VAL(1024);
  747. break;
  748. case 8:
  749. dw5_flags |= SLI4_CQ_CNT_VAL(LARGE);
  750. dw6w1_flags |= (n_cqe & SLI4_CREATE_CQSETV0_CQE_COUNT);
  751. break;
  752. default:
  753. efc_log_info(sli4, "num_pages %d not valid\n", num_pages_cq);
  754. return -EIO;
  755. }
  756. dw5_flags |= SLI4_CREATE_CQSETV0_EVT;
  757. dw5_flags |= SLI4_CREATE_CQSETV0_VALID;
  758. if (sli4->if_type == SLI4_INTF_IF_TYPE_6)
  759. dw5_flags |= SLI4_CREATE_CQSETV0_AUTOVALID;
  760. dw6w1_flags &= ~SLI4_CREATE_CQSETV0_ARM;
  761. req->dw5_flags = cpu_to_le32(dw5_flags);
  762. req->dw6w1_flags = cpu_to_le16(dw6w1_flags);
  763. req->num_cq_req = cpu_to_le16(num_cqs);
  764. /* Fill page addresses of all the CQs. */
  765. for (i = 0; i < num_cqs; i++) {
  766. req->eq_id[i] = cpu_to_le16(eqs[i]->id);
  767. for (p = 0, addr = qs[i]->dma.phys; p < num_pages_cq;
  768. p++, addr += page_bytes) {
  769. req->page_phys_addr[offset].low =
  770. cpu_to_le32(lower_32_bits(addr));
  771. req->page_phys_addr[offset].high =
  772. cpu_to_le32(upper_32_bits(addr));
  773. offset++;
  774. }
  775. }
  776. return 0;
  777. }
  778. int
  779. sli_cq_alloc_set(struct sli4 *sli4, struct sli4_queue *qs[],
  780. u32 num_cqs, u32 n_entries, struct sli4_queue *eqs[])
  781. {
  782. u32 i;
  783. struct efc_dma dma = {0};
  784. struct sli4_rsp_cmn_create_queue_set *res;
  785. void __iomem *db_regaddr;
  786. /* Align the queue DMA memory */
  787. for (i = 0; i < num_cqs; i++) {
  788. if (__sli_queue_init(sli4, qs[i], SLI4_QTYPE_CQ, SLI4_CQE_BYTES,
  789. n_entries, SLI_PAGE_SIZE))
  790. goto error;
  791. }
  792. if (sli_cmd_cq_set_create(sli4, qs, num_cqs, eqs, &dma))
  793. goto error;
  794. if (sli_bmbx_command(sli4))
  795. goto error;
  796. if (sli4->if_type == SLI4_INTF_IF_TYPE_6)
  797. db_regaddr = sli4->reg[1] + SLI4_IF6_CQ_DB_REG;
  798. else
  799. db_regaddr = sli4->reg[0] + SLI4_EQCQ_DB_REG;
  800. res = dma.virt;
  801. if (res->hdr.status) {
  802. efc_log_err(sli4, "bad create CQSet status=%#x addl=%#x\n",
  803. res->hdr.status, res->hdr.additional_status);
  804. goto error;
  805. }
  806. /* Check if we got all requested CQs. */
  807. if (le16_to_cpu(res->num_q_allocated) != num_cqs) {
  808. efc_log_crit(sli4, "Requested count CQs doesn't match.\n");
  809. goto error;
  810. }
  811. /* Fill the resp cq ids. */
  812. for (i = 0; i < num_cqs; i++) {
  813. qs[i]->id = le16_to_cpu(res->q_id) + i;
  814. qs[i]->db_regaddr = db_regaddr;
  815. }
  816. dma_free_coherent(&sli4->pci->dev, dma.size, dma.virt, dma.phys);
  817. return 0;
  818. error:
  819. for (i = 0; i < num_cqs; i++)
  820. __sli_queue_destroy(sli4, qs[i]);
  821. if (dma.virt)
  822. dma_free_coherent(&sli4->pci->dev, dma.size, dma.virt,
  823. dma.phys);
  824. return -EIO;
  825. }
  826. static int
  827. sli_cmd_common_destroy_q(struct sli4 *sli4, u8 opc, u8 subsystem, u16 q_id)
  828. {
  829. struct sli4_rqst_cmn_destroy_q *req;
  830. /* Payload length must accommodate both request and response */
  831. req = sli_config_cmd_init(sli4, sli4->bmbx.virt,
  832. SLI4_CFG_PYLD_LENGTH(cmn_destroy_q), NULL);
  833. if (!req)
  834. return -EIO;
  835. sli_cmd_fill_hdr(&req->hdr, opc, subsystem,
  836. CMD_V0, SLI4_RQST_PYLD_LEN(cmn_destroy_q));
  837. req->q_id = cpu_to_le16(q_id);
  838. return 0;
  839. }
  840. int
  841. sli_queue_free(struct sli4 *sli4, struct sli4_queue *q,
  842. u32 destroy_queues, u32 free_memory)
  843. {
  844. int rc = 0;
  845. u8 opcode, subsystem;
  846. struct sli4_rsp_hdr *res;
  847. if (!q) {
  848. efc_log_err(sli4, "bad parameter sli4=%p q=%p\n", sli4, q);
  849. return -EIO;
  850. }
  851. if (!destroy_queues)
  852. goto free_mem;
  853. switch (q->type) {
  854. case SLI4_QTYPE_EQ:
  855. opcode = SLI4_CMN_DESTROY_EQ;
  856. subsystem = SLI4_SUBSYSTEM_COMMON;
  857. break;
  858. case SLI4_QTYPE_CQ:
  859. opcode = SLI4_CMN_DESTROY_CQ;
  860. subsystem = SLI4_SUBSYSTEM_COMMON;
  861. break;
  862. case SLI4_QTYPE_MQ:
  863. opcode = SLI4_CMN_DESTROY_MQ;
  864. subsystem = SLI4_SUBSYSTEM_COMMON;
  865. break;
  866. case SLI4_QTYPE_WQ:
  867. opcode = SLI4_OPC_WQ_DESTROY;
  868. subsystem = SLI4_SUBSYSTEM_FC;
  869. break;
  870. case SLI4_QTYPE_RQ:
  871. opcode = SLI4_OPC_RQ_DESTROY;
  872. subsystem = SLI4_SUBSYSTEM_FC;
  873. break;
  874. default:
  875. efc_log_info(sli4, "bad queue type %d\n", q->type);
  876. rc = -EIO;
  877. goto free_mem;
  878. }
  879. rc = sli_cmd_common_destroy_q(sli4, opcode, subsystem, q->id);
  880. if (rc)
  881. goto free_mem;
  882. rc = sli_bmbx_command(sli4);
  883. if (rc)
  884. goto free_mem;
  885. rc = sli_res_sli_config(sli4, sli4->bmbx.virt);
  886. if (rc)
  887. goto free_mem;
  888. res = (void *)((u8 *)sli4->bmbx.virt +
  889. offsetof(struct sli4_cmd_sli_config, payload));
  890. if (res->status) {
  891. efc_log_err(sli4, "destroy %s st=%#x addl=%#x\n",
  892. SLI4_QNAME[q->type], res->status,
  893. res->additional_status);
  894. rc = -EIO;
  895. goto free_mem;
  896. }
  897. free_mem:
  898. if (free_memory)
  899. __sli_queue_destroy(sli4, q);
  900. return rc;
  901. }
  902. int
  903. sli_queue_eq_arm(struct sli4 *sli4, struct sli4_queue *q, bool arm)
  904. {
  905. u32 val;
  906. unsigned long flags = 0;
  907. u32 a = arm ? SLI4_EQCQ_ARM : SLI4_EQCQ_UNARM;
  908. spin_lock_irqsave(&q->lock, flags);
  909. if (sli4->if_type == SLI4_INTF_IF_TYPE_6)
  910. val = sli_format_if6_eq_db_data(q->n_posted, q->id, a);
  911. else
  912. val = sli_format_eq_db_data(q->n_posted, q->id, a);
  913. writel(val, q->db_regaddr);
  914. q->n_posted = 0;
  915. spin_unlock_irqrestore(&q->lock, flags);
  916. return 0;
  917. }
  918. int
  919. sli_queue_arm(struct sli4 *sli4, struct sli4_queue *q, bool arm)
  920. {
  921. u32 val = 0;
  922. unsigned long flags = 0;
  923. u32 a = arm ? SLI4_EQCQ_ARM : SLI4_EQCQ_UNARM;
  924. spin_lock_irqsave(&q->lock, flags);
  925. switch (q->type) {
  926. case SLI4_QTYPE_EQ:
  927. if (sli4->if_type == SLI4_INTF_IF_TYPE_6)
  928. val = sli_format_if6_eq_db_data(q->n_posted, q->id, a);
  929. else
  930. val = sli_format_eq_db_data(q->n_posted, q->id, a);
  931. writel(val, q->db_regaddr);
  932. q->n_posted = 0;
  933. break;
  934. case SLI4_QTYPE_CQ:
  935. if (sli4->if_type == SLI4_INTF_IF_TYPE_6)
  936. val = sli_format_if6_cq_db_data(q->n_posted, q->id, a);
  937. else
  938. val = sli_format_cq_db_data(q->n_posted, q->id, a);
  939. writel(val, q->db_regaddr);
  940. q->n_posted = 0;
  941. break;
  942. default:
  943. efc_log_info(sli4, "should only be used for EQ/CQ, not %s\n",
  944. SLI4_QNAME[q->type]);
  945. }
  946. spin_unlock_irqrestore(&q->lock, flags);
  947. return 0;
  948. }
  949. int
  950. sli_wq_write(struct sli4 *sli4, struct sli4_queue *q, u8 *entry)
  951. {
  952. u8 *qe = q->dma.virt;
  953. u32 qindex;
  954. u32 val = 0;
  955. qindex = q->index;
  956. qe += q->index * q->size;
  957. if (sli4->params.perf_wq_id_association)
  958. sli_set_wq_id_association(entry, q->id);
  959. memcpy(qe, entry, q->size);
  960. val = sli_format_wq_db_data(q->id);
  961. writel(val, q->db_regaddr);
  962. q->index = (q->index + 1) & (q->length - 1);
  963. return qindex;
  964. }
  965. int
  966. sli_mq_write(struct sli4 *sli4, struct sli4_queue *q, u8 *entry)
  967. {
  968. u8 *qe = q->dma.virt;
  969. u32 qindex;
  970. u32 val = 0;
  971. unsigned long flags;
  972. spin_lock_irqsave(&q->lock, flags);
  973. qindex = q->index;
  974. qe += q->index * q->size;
  975. memcpy(qe, entry, q->size);
  976. val = sli_format_mq_db_data(q->id);
  977. writel(val, q->db_regaddr);
  978. q->index = (q->index + 1) & (q->length - 1);
  979. spin_unlock_irqrestore(&q->lock, flags);
  980. return qindex;
  981. }
  982. int
  983. sli_rq_write(struct sli4 *sli4, struct sli4_queue *q, u8 *entry)
  984. {
  985. u8 *qe = q->dma.virt;
  986. u32 qindex;
  987. u32 val = 0;
  988. qindex = q->index;
  989. qe += q->index * q->size;
  990. memcpy(qe, entry, q->size);
  991. /*
  992. * In RQ-pair, an RQ either contains the FC header
  993. * (i.e. is_hdr == TRUE) or the payload.
  994. *
  995. * Don't ring doorbell for payload RQ
  996. */
  997. if (!(q->u.flag & SLI4_QUEUE_FLAG_HDR))
  998. goto skip;
  999. val = sli_format_rq_db_data(q->id);
  1000. writel(val, q->db_regaddr);
  1001. skip:
  1002. q->index = (q->index + 1) & (q->length - 1);
  1003. return qindex;
  1004. }
  1005. int
  1006. sli_eq_read(struct sli4 *sli4, struct sli4_queue *q, u8 *entry)
  1007. {
  1008. u8 *qe = q->dma.virt;
  1009. unsigned long flags = 0;
  1010. u16 wflags = 0;
  1011. spin_lock_irqsave(&q->lock, flags);
  1012. qe += q->index * q->size;
  1013. /* Check if eqe is valid */
  1014. wflags = le16_to_cpu(((struct sli4_eqe *)qe)->dw0w0_flags);
  1015. if ((wflags & SLI4_EQE_VALID) != q->phase) {
  1016. spin_unlock_irqrestore(&q->lock, flags);
  1017. return -EIO;
  1018. }
  1019. if (sli4->if_type != SLI4_INTF_IF_TYPE_6) {
  1020. wflags &= ~SLI4_EQE_VALID;
  1021. ((struct sli4_eqe *)qe)->dw0w0_flags = cpu_to_le16(wflags);
  1022. }
  1023. memcpy(entry, qe, q->size);
  1024. q->index = (q->index + 1) & (q->length - 1);
  1025. q->n_posted++;
  1026. /*
  1027. * For prism, the phase value will be used
  1028. * to check the validity of eq/cq entries.
  1029. * The value toggles after a complete sweep
  1030. * through the queue.
  1031. */
  1032. if (sli4->if_type == SLI4_INTF_IF_TYPE_6 && q->index == 0)
  1033. q->phase ^= (u16)0x1;
  1034. spin_unlock_irqrestore(&q->lock, flags);
  1035. return 0;
  1036. }
  1037. int
  1038. sli_cq_read(struct sli4 *sli4, struct sli4_queue *q, u8 *entry)
  1039. {
  1040. u8 *qe = q->dma.virt;
  1041. unsigned long flags = 0;
  1042. u32 dwflags = 0;
  1043. bool valid_bit_set;
  1044. spin_lock_irqsave(&q->lock, flags);
  1045. qe += q->index * q->size;
  1046. /* Check if cqe is valid */
  1047. dwflags = le32_to_cpu(((struct sli4_mcqe *)qe)->dw3_flags);
  1048. valid_bit_set = (dwflags & SLI4_MCQE_VALID) != 0;
  1049. if (valid_bit_set != q->phase) {
  1050. spin_unlock_irqrestore(&q->lock, flags);
  1051. return -EIO;
  1052. }
  1053. if (sli4->if_type != SLI4_INTF_IF_TYPE_6) {
  1054. dwflags &= ~SLI4_MCQE_VALID;
  1055. ((struct sli4_mcqe *)qe)->dw3_flags = cpu_to_le32(dwflags);
  1056. }
  1057. memcpy(entry, qe, q->size);
  1058. q->index = (q->index + 1) & (q->length - 1);
  1059. q->n_posted++;
  1060. /*
  1061. * For prism, the phase value will be used
  1062. * to check the validity of eq/cq entries.
  1063. * The value toggles after a complete sweep
  1064. * through the queue.
  1065. */
  1066. if (sli4->if_type == SLI4_INTF_IF_TYPE_6 && q->index == 0)
  1067. q->phase ^= (u16)0x1;
  1068. spin_unlock_irqrestore(&q->lock, flags);
  1069. return 0;
  1070. }
  1071. int
  1072. sli_mq_read(struct sli4 *sli4, struct sli4_queue *q, u8 *entry)
  1073. {
  1074. u8 *qe = q->dma.virt;
  1075. unsigned long flags = 0;
  1076. spin_lock_irqsave(&q->lock, flags);
  1077. qe += q->u.r_idx * q->size;
  1078. /* Check if mqe is valid */
  1079. if (q->index == q->u.r_idx) {
  1080. spin_unlock_irqrestore(&q->lock, flags);
  1081. return -EIO;
  1082. }
  1083. memcpy(entry, qe, q->size);
  1084. q->u.r_idx = (q->u.r_idx + 1) & (q->length - 1);
  1085. spin_unlock_irqrestore(&q->lock, flags);
  1086. return 0;
  1087. }
  1088. int
  1089. sli_eq_parse(struct sli4 *sli4, u8 *buf, u16 *cq_id)
  1090. {
  1091. struct sli4_eqe *eqe = (void *)buf;
  1092. int rc = 0;
  1093. u16 flags = 0;
  1094. u16 majorcode;
  1095. u16 minorcode;
  1096. if (!buf || !cq_id) {
  1097. efc_log_err(sli4, "bad parameters sli4=%p buf=%p cq_id=%p\n",
  1098. sli4, buf, cq_id);
  1099. return -EIO;
  1100. }
  1101. flags = le16_to_cpu(eqe->dw0w0_flags);
  1102. majorcode = (flags & SLI4_EQE_MJCODE) >> 1;
  1103. minorcode = (flags & SLI4_EQE_MNCODE) >> 4;
  1104. switch (majorcode) {
  1105. case SLI4_MAJOR_CODE_STANDARD:
  1106. *cq_id = le16_to_cpu(eqe->resource_id);
  1107. break;
  1108. case SLI4_MAJOR_CODE_SENTINEL:
  1109. efc_log_info(sli4, "sentinel EQE\n");
  1110. rc = SLI4_EQE_STATUS_EQ_FULL;
  1111. break;
  1112. default:
  1113. efc_log_info(sli4, "Unsupported EQE: major %x minor %x\n",
  1114. majorcode, minorcode);
  1115. rc = -EIO;
  1116. }
  1117. return rc;
  1118. }
  1119. int
  1120. sli_cq_parse(struct sli4 *sli4, struct sli4_queue *cq, u8 *cqe,
  1121. enum sli4_qentry *etype, u16 *q_id)
  1122. {
  1123. int rc = 0;
  1124. if (!cq || !cqe || !etype) {
  1125. efc_log_err(sli4, "bad params sli4=%p cq=%p cqe=%p etype=%p q_id=%p\n",
  1126. sli4, cq, cqe, etype, q_id);
  1127. return -EINVAL;
  1128. }
  1129. /* Parse a CQ entry to retrieve the event type and the queue id */
  1130. if (cq->u.flag & SLI4_QUEUE_FLAG_MQ) {
  1131. struct sli4_mcqe *mcqe = (void *)cqe;
  1132. if (le32_to_cpu(mcqe->dw3_flags) & SLI4_MCQE_AE) {
  1133. *etype = SLI4_QENTRY_ASYNC;
  1134. } else {
  1135. *etype = SLI4_QENTRY_MQ;
  1136. rc = sli_cqe_mq(sli4, mcqe);
  1137. }
  1138. *q_id = -1;
  1139. } else {
  1140. rc = sli_fc_cqe_parse(sli4, cq, cqe, etype, q_id);
  1141. }
  1142. return rc;
  1143. }
  1144. int
  1145. sli_abort_wqe(struct sli4 *sli, void *buf, enum sli4_abort_type type,
  1146. bool send_abts, u32 ids, u32 mask, u16 tag, u16 cq_id)
  1147. {
  1148. struct sli4_abort_wqe *abort = buf;
  1149. memset(buf, 0, sli->wqe_size);
  1150. switch (type) {
  1151. case SLI4_ABORT_XRI:
  1152. abort->criteria = SLI4_ABORT_CRITERIA_XRI_TAG;
  1153. if (mask) {
  1154. efc_log_warn(sli, "%#x aborting XRI %#x warning non-zero mask",
  1155. mask, ids);
  1156. mask = 0;
  1157. }
  1158. break;
  1159. case SLI4_ABORT_ABORT_ID:
  1160. abort->criteria = SLI4_ABORT_CRITERIA_ABORT_TAG;
  1161. break;
  1162. case SLI4_ABORT_REQUEST_ID:
  1163. abort->criteria = SLI4_ABORT_CRITERIA_REQUEST_TAG;
  1164. break;
  1165. default:
  1166. efc_log_info(sli, "unsupported type %#x\n", type);
  1167. return -EIO;
  1168. }
  1169. abort->ia_ir_byte |= send_abts ? 0 : 1;
  1170. /* Suppress ABTS retries */
  1171. abort->ia_ir_byte |= SLI4_ABRT_WQE_IR;
  1172. abort->t_mask = cpu_to_le32(mask);
  1173. abort->t_tag = cpu_to_le32(ids);
  1174. abort->command = SLI4_WQE_ABORT;
  1175. abort->request_tag = cpu_to_le16(tag);
  1176. abort->dw10w0_flags = cpu_to_le16(SLI4_ABRT_WQE_QOSD);
  1177. abort->cq_id = cpu_to_le16(cq_id);
  1178. abort->cmdtype_wqec_byte |= SLI4_CMD_ABORT_WQE;
  1179. return 0;
  1180. }
  1181. int
  1182. sli_els_request64_wqe(struct sli4 *sli, void *buf, struct efc_dma *sgl,
  1183. struct sli_els_params *params)
  1184. {
  1185. struct sli4_els_request64_wqe *els = buf;
  1186. struct sli4_sge *sge = sgl->virt;
  1187. bool is_fabric = false;
  1188. struct sli4_bde *bptr;
  1189. memset(buf, 0, sli->wqe_size);
  1190. bptr = &els->els_request_payload;
  1191. if (sli->params.sgl_pre_registered) {
  1192. els->qosd_xbl_hlm_iod_dbde_wqes &= ~SLI4_REQ_WQE_XBL;
  1193. els->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_REQ_WQE_DBDE;
  1194. bptr->bde_type_buflen =
  1195. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1196. (params->xmit_len & SLI4_BDE_LEN_MASK));
  1197. bptr->u.data.low = sge[0].buffer_address_low;
  1198. bptr->u.data.high = sge[0].buffer_address_high;
  1199. } else {
  1200. els->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_REQ_WQE_XBL;
  1201. bptr->bde_type_buflen =
  1202. cpu_to_le32((SLI4_BDE_TYPE_VAL(BLP)) |
  1203. ((2 * sizeof(struct sli4_sge)) &
  1204. SLI4_BDE_LEN_MASK));
  1205. bptr->u.blp.low = cpu_to_le32(lower_32_bits(sgl->phys));
  1206. bptr->u.blp.high = cpu_to_le32(upper_32_bits(sgl->phys));
  1207. }
  1208. els->els_request_payload_length = cpu_to_le32(params->xmit_len);
  1209. els->max_response_payload_length = cpu_to_le32(params->rsp_len);
  1210. els->xri_tag = cpu_to_le16(params->xri);
  1211. els->timer = params->timeout;
  1212. els->class_byte |= SLI4_GENERIC_CLASS_CLASS_3;
  1213. els->command = SLI4_WQE_ELS_REQUEST64;
  1214. els->request_tag = cpu_to_le16(params->tag);
  1215. els->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_REQ_WQE_IOD;
  1216. els->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_REQ_WQE_QOSD;
  1217. /* figure out the ELS_ID value from the request buffer */
  1218. switch (params->cmd) {
  1219. case ELS_LOGO:
  1220. els->cmdtype_elsid_byte |=
  1221. SLI4_ELS_REQUEST64_LOGO << SLI4_REQ_WQE_ELSID_SHFT;
  1222. if (params->rpi_registered) {
  1223. els->ct_byte |=
  1224. SLI4_GENERIC_CONTEXT_RPI << SLI4_REQ_WQE_CT_SHFT;
  1225. els->context_tag = cpu_to_le16(params->rpi);
  1226. } else {
  1227. els->ct_byte |=
  1228. SLI4_GENERIC_CONTEXT_VPI << SLI4_REQ_WQE_CT_SHFT;
  1229. els->context_tag = cpu_to_le16(params->vpi);
  1230. }
  1231. if (params->d_id == FC_FID_FLOGI)
  1232. is_fabric = true;
  1233. break;
  1234. case ELS_FDISC:
  1235. if (params->d_id == FC_FID_FLOGI)
  1236. is_fabric = true;
  1237. if (params->s_id == 0) {
  1238. els->cmdtype_elsid_byte |=
  1239. SLI4_ELS_REQUEST64_FDISC << SLI4_REQ_WQE_ELSID_SHFT;
  1240. is_fabric = true;
  1241. } else {
  1242. els->cmdtype_elsid_byte |=
  1243. SLI4_ELS_REQUEST64_OTHER << SLI4_REQ_WQE_ELSID_SHFT;
  1244. }
  1245. els->ct_byte |=
  1246. SLI4_GENERIC_CONTEXT_VPI << SLI4_REQ_WQE_CT_SHFT;
  1247. els->context_tag = cpu_to_le16(params->vpi);
  1248. els->sid_sp_dword |= cpu_to_le32(1 << SLI4_REQ_WQE_SP_SHFT);
  1249. break;
  1250. case ELS_FLOGI:
  1251. els->ct_byte |=
  1252. SLI4_GENERIC_CONTEXT_VPI << SLI4_REQ_WQE_CT_SHFT;
  1253. els->context_tag = cpu_to_le16(params->vpi);
  1254. /*
  1255. * Set SP here ... we haven't done a REG_VPI yet
  1256. * need to maybe not set this when we have
  1257. * completed VFI/VPI registrations ...
  1258. *
  1259. * Use the FC_ID of the SPORT if it has been allocated,
  1260. * otherwise use an S_ID of zero.
  1261. */
  1262. els->sid_sp_dword |= cpu_to_le32(1 << SLI4_REQ_WQE_SP_SHFT);
  1263. if (params->s_id != U32_MAX)
  1264. els->sid_sp_dword |= cpu_to_le32(params->s_id);
  1265. break;
  1266. case ELS_PLOGI:
  1267. els->cmdtype_elsid_byte |=
  1268. SLI4_ELS_REQUEST64_PLOGI << SLI4_REQ_WQE_ELSID_SHFT;
  1269. els->ct_byte |=
  1270. SLI4_GENERIC_CONTEXT_VPI << SLI4_REQ_WQE_CT_SHFT;
  1271. els->context_tag = cpu_to_le16(params->vpi);
  1272. break;
  1273. case ELS_SCR:
  1274. els->cmdtype_elsid_byte |=
  1275. SLI4_ELS_REQUEST64_OTHER << SLI4_REQ_WQE_ELSID_SHFT;
  1276. els->ct_byte |=
  1277. SLI4_GENERIC_CONTEXT_VPI << SLI4_REQ_WQE_CT_SHFT;
  1278. els->context_tag = cpu_to_le16(params->vpi);
  1279. break;
  1280. default:
  1281. els->cmdtype_elsid_byte |=
  1282. SLI4_ELS_REQUEST64_OTHER << SLI4_REQ_WQE_ELSID_SHFT;
  1283. if (params->rpi_registered) {
  1284. els->ct_byte |= (SLI4_GENERIC_CONTEXT_RPI <<
  1285. SLI4_REQ_WQE_CT_SHFT);
  1286. els->context_tag = cpu_to_le16(params->vpi);
  1287. } else {
  1288. els->ct_byte |=
  1289. SLI4_GENERIC_CONTEXT_VPI << SLI4_REQ_WQE_CT_SHFT;
  1290. els->context_tag = cpu_to_le16(params->vpi);
  1291. }
  1292. break;
  1293. }
  1294. if (is_fabric)
  1295. els->cmdtype_elsid_byte |= SLI4_ELS_REQUEST64_CMD_FABRIC;
  1296. else
  1297. els->cmdtype_elsid_byte |= SLI4_ELS_REQUEST64_CMD_NON_FABRIC;
  1298. els->cq_id = cpu_to_le16(SLI4_CQ_DEFAULT);
  1299. if (((els->ct_byte & SLI4_REQ_WQE_CT) >> SLI4_REQ_WQE_CT_SHFT) !=
  1300. SLI4_GENERIC_CONTEXT_RPI)
  1301. els->remote_id_dword = cpu_to_le32(params->d_id);
  1302. if (((els->ct_byte & SLI4_REQ_WQE_CT) >> SLI4_REQ_WQE_CT_SHFT) ==
  1303. SLI4_GENERIC_CONTEXT_VPI)
  1304. els->temporary_rpi = cpu_to_le16(params->rpi);
  1305. return 0;
  1306. }
  1307. int
  1308. sli_fcp_icmnd64_wqe(struct sli4 *sli, void *buf, struct efc_dma *sgl, u16 xri,
  1309. u16 tag, u16 cq_id, u32 rpi, u32 rnode_fcid, u8 timeout)
  1310. {
  1311. struct sli4_fcp_icmnd64_wqe *icmnd = buf;
  1312. struct sli4_sge *sge = NULL;
  1313. struct sli4_bde *bptr;
  1314. u32 len;
  1315. memset(buf, 0, sli->wqe_size);
  1316. if (!sgl || !sgl->virt) {
  1317. efc_log_err(sli, "bad parameter sgl=%p virt=%p\n",
  1318. sgl, sgl ? sgl->virt : NULL);
  1319. return -EIO;
  1320. }
  1321. sge = sgl->virt;
  1322. bptr = &icmnd->bde;
  1323. if (sli->params.sgl_pre_registered) {
  1324. icmnd->qosd_xbl_hlm_iod_dbde_wqes &= ~SLI4_ICMD_WQE_XBL;
  1325. icmnd->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_ICMD_WQE_DBDE;
  1326. bptr->bde_type_buflen =
  1327. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1328. (le32_to_cpu(sge[0].buffer_length) &
  1329. SLI4_BDE_LEN_MASK));
  1330. bptr->u.data.low = sge[0].buffer_address_low;
  1331. bptr->u.data.high = sge[0].buffer_address_high;
  1332. } else {
  1333. icmnd->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_ICMD_WQE_XBL;
  1334. bptr->bde_type_buflen =
  1335. cpu_to_le32((SLI4_BDE_TYPE_VAL(BLP)) |
  1336. (sgl->size & SLI4_BDE_LEN_MASK));
  1337. bptr->u.blp.low = cpu_to_le32(lower_32_bits(sgl->phys));
  1338. bptr->u.blp.high = cpu_to_le32(upper_32_bits(sgl->phys));
  1339. }
  1340. len = le32_to_cpu(sge[0].buffer_length) +
  1341. le32_to_cpu(sge[1].buffer_length);
  1342. icmnd->payload_offset_length = cpu_to_le16(len);
  1343. icmnd->xri_tag = cpu_to_le16(xri);
  1344. icmnd->context_tag = cpu_to_le16(rpi);
  1345. icmnd->timer = timeout;
  1346. /* WQE word 4 contains read transfer length */
  1347. icmnd->class_pu_byte |= 2 << SLI4_ICMD_WQE_PU_SHFT;
  1348. icmnd->class_pu_byte |= SLI4_GENERIC_CLASS_CLASS_3;
  1349. icmnd->command = SLI4_WQE_FCP_ICMND64;
  1350. icmnd->dif_ct_bs_byte |=
  1351. SLI4_GENERIC_CONTEXT_RPI << SLI4_ICMD_WQE_CT_SHFT;
  1352. icmnd->abort_tag = cpu_to_le32(xri);
  1353. icmnd->request_tag = cpu_to_le16(tag);
  1354. icmnd->len_loc1_byte |= SLI4_ICMD_WQE_LEN_LOC_BIT1;
  1355. icmnd->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_ICMD_WQE_LEN_LOC_BIT2;
  1356. icmnd->cmd_type_byte |= SLI4_CMD_FCP_ICMND64_WQE;
  1357. icmnd->cq_id = cpu_to_le16(cq_id);
  1358. return 0;
  1359. }
  1360. int
  1361. sli_fcp_iread64_wqe(struct sli4 *sli, void *buf, struct efc_dma *sgl,
  1362. u32 first_data_sge, u32 xfer_len, u16 xri, u16 tag,
  1363. u16 cq_id, u32 rpi, u32 rnode_fcid,
  1364. u8 dif, u8 bs, u8 timeout)
  1365. {
  1366. struct sli4_fcp_iread64_wqe *iread = buf;
  1367. struct sli4_sge *sge = NULL;
  1368. struct sli4_bde *bptr;
  1369. u32 sge_flags, len;
  1370. memset(buf, 0, sli->wqe_size);
  1371. if (!sgl || !sgl->virt) {
  1372. efc_log_err(sli, "bad parameter sgl=%p virt=%p\n",
  1373. sgl, sgl ? sgl->virt : NULL);
  1374. return -EIO;
  1375. }
  1376. sge = sgl->virt;
  1377. bptr = &iread->bde;
  1378. if (sli->params.sgl_pre_registered) {
  1379. iread->qosd_xbl_hlm_iod_dbde_wqes &= ~SLI4_IR_WQE_XBL;
  1380. iread->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_IR_WQE_DBDE;
  1381. bptr->bde_type_buflen =
  1382. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1383. (le32_to_cpu(sge[0].buffer_length) &
  1384. SLI4_BDE_LEN_MASK));
  1385. bptr->u.blp.low = sge[0].buffer_address_low;
  1386. bptr->u.blp.high = sge[0].buffer_address_high;
  1387. } else {
  1388. iread->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_IR_WQE_XBL;
  1389. bptr->bde_type_buflen =
  1390. cpu_to_le32((SLI4_BDE_TYPE_VAL(BLP)) |
  1391. (sgl->size & SLI4_BDE_LEN_MASK));
  1392. bptr->u.blp.low =
  1393. cpu_to_le32(lower_32_bits(sgl->phys));
  1394. bptr->u.blp.high =
  1395. cpu_to_le32(upper_32_bits(sgl->phys));
  1396. /*
  1397. * fill out fcp_cmnd buffer len and change resp buffer to be of
  1398. * type "skip" (note: response will still be written to sge[1]
  1399. * if necessary)
  1400. */
  1401. len = le32_to_cpu(sge[0].buffer_length);
  1402. iread->fcp_cmd_buffer_length = cpu_to_le16(len);
  1403. sge_flags = le32_to_cpu(sge[1].dw2_flags);
  1404. sge_flags &= (~SLI4_SGE_TYPE_MASK);
  1405. sge_flags |= (SLI4_SGE_TYPE_SKIP << SLI4_SGE_TYPE_SHIFT);
  1406. sge[1].dw2_flags = cpu_to_le32(sge_flags);
  1407. }
  1408. len = le32_to_cpu(sge[0].buffer_length) +
  1409. le32_to_cpu(sge[1].buffer_length);
  1410. iread->payload_offset_length = cpu_to_le16(len);
  1411. iread->total_transfer_length = cpu_to_le32(xfer_len);
  1412. iread->xri_tag = cpu_to_le16(xri);
  1413. iread->context_tag = cpu_to_le16(rpi);
  1414. iread->timer = timeout;
  1415. /* WQE word 4 contains read transfer length */
  1416. iread->class_pu_byte |= 2 << SLI4_IR_WQE_PU_SHFT;
  1417. iread->class_pu_byte |= SLI4_GENERIC_CLASS_CLASS_3;
  1418. iread->command = SLI4_WQE_FCP_IREAD64;
  1419. iread->dif_ct_bs_byte |=
  1420. SLI4_GENERIC_CONTEXT_RPI << SLI4_IR_WQE_CT_SHFT;
  1421. iread->dif_ct_bs_byte |= dif;
  1422. iread->dif_ct_bs_byte |= bs << SLI4_IR_WQE_BS_SHFT;
  1423. iread->abort_tag = cpu_to_le32(xri);
  1424. iread->request_tag = cpu_to_le16(tag);
  1425. iread->len_loc1_byte |= SLI4_IR_WQE_LEN_LOC_BIT1;
  1426. iread->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_IR_WQE_LEN_LOC_BIT2;
  1427. iread->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_IR_WQE_IOD;
  1428. iread->cmd_type_byte |= SLI4_CMD_FCP_IREAD64_WQE;
  1429. iread->cq_id = cpu_to_le16(cq_id);
  1430. if (sli->params.perf_hint) {
  1431. bptr = &iread->first_data_bde;
  1432. bptr->bde_type_buflen = cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1433. (le32_to_cpu(sge[first_data_sge].buffer_length) &
  1434. SLI4_BDE_LEN_MASK));
  1435. bptr->u.data.low =
  1436. sge[first_data_sge].buffer_address_low;
  1437. bptr->u.data.high =
  1438. sge[first_data_sge].buffer_address_high;
  1439. }
  1440. return 0;
  1441. }
  1442. int
  1443. sli_fcp_iwrite64_wqe(struct sli4 *sli, void *buf, struct efc_dma *sgl,
  1444. u32 first_data_sge, u32 xfer_len,
  1445. u32 first_burst, u16 xri, u16 tag,
  1446. u16 cq_id, u32 rpi,
  1447. u32 rnode_fcid,
  1448. u8 dif, u8 bs, u8 timeout)
  1449. {
  1450. struct sli4_fcp_iwrite64_wqe *iwrite = buf;
  1451. struct sli4_sge *sge = NULL;
  1452. struct sli4_bde *bptr;
  1453. u32 sge_flags, min, len;
  1454. memset(buf, 0, sli->wqe_size);
  1455. if (!sgl || !sgl->virt) {
  1456. efc_log_err(sli, "bad parameter sgl=%p virt=%p\n",
  1457. sgl, sgl ? sgl->virt : NULL);
  1458. return -EIO;
  1459. }
  1460. sge = sgl->virt;
  1461. bptr = &iwrite->bde;
  1462. if (sli->params.sgl_pre_registered) {
  1463. iwrite->qosd_xbl_hlm_iod_dbde_wqes &= ~SLI4_IWR_WQE_XBL;
  1464. iwrite->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_IWR_WQE_DBDE;
  1465. bptr->bde_type_buflen = cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1466. (le32_to_cpu(sge[0].buffer_length) & SLI4_BDE_LEN_MASK));
  1467. bptr->u.data.low = sge[0].buffer_address_low;
  1468. bptr->u.data.high = sge[0].buffer_address_high;
  1469. } else {
  1470. iwrite->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_IWR_WQE_XBL;
  1471. bptr->bde_type_buflen = cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1472. (sgl->size & SLI4_BDE_LEN_MASK));
  1473. bptr->u.blp.low = cpu_to_le32(lower_32_bits(sgl->phys));
  1474. bptr->u.blp.high = cpu_to_le32(upper_32_bits(sgl->phys));
  1475. /*
  1476. * fill out fcp_cmnd buffer len and change resp buffer to be of
  1477. * type "skip" (note: response will still be written to sge[1]
  1478. * if necessary)
  1479. */
  1480. len = le32_to_cpu(sge[0].buffer_length);
  1481. iwrite->fcp_cmd_buffer_length = cpu_to_le16(len);
  1482. sge_flags = le32_to_cpu(sge[1].dw2_flags);
  1483. sge_flags &= ~SLI4_SGE_TYPE_MASK;
  1484. sge_flags |= (SLI4_SGE_TYPE_SKIP << SLI4_SGE_TYPE_SHIFT);
  1485. sge[1].dw2_flags = cpu_to_le32(sge_flags);
  1486. }
  1487. len = le32_to_cpu(sge[0].buffer_length) +
  1488. le32_to_cpu(sge[1].buffer_length);
  1489. iwrite->payload_offset_length = cpu_to_le16(len);
  1490. iwrite->total_transfer_length = cpu_to_le16(xfer_len);
  1491. min = (xfer_len < first_burst) ? xfer_len : first_burst;
  1492. iwrite->initial_transfer_length = cpu_to_le16(min);
  1493. iwrite->xri_tag = cpu_to_le16(xri);
  1494. iwrite->context_tag = cpu_to_le16(rpi);
  1495. iwrite->timer = timeout;
  1496. /* WQE word 4 contains read transfer length */
  1497. iwrite->class_pu_byte |= 2 << SLI4_IWR_WQE_PU_SHFT;
  1498. iwrite->class_pu_byte |= SLI4_GENERIC_CLASS_CLASS_3;
  1499. iwrite->command = SLI4_WQE_FCP_IWRITE64;
  1500. iwrite->dif_ct_bs_byte |=
  1501. SLI4_GENERIC_CONTEXT_RPI << SLI4_IWR_WQE_CT_SHFT;
  1502. iwrite->dif_ct_bs_byte |= dif;
  1503. iwrite->dif_ct_bs_byte |= bs << SLI4_IWR_WQE_BS_SHFT;
  1504. iwrite->abort_tag = cpu_to_le32(xri);
  1505. iwrite->request_tag = cpu_to_le16(tag);
  1506. iwrite->len_loc1_byte |= SLI4_IWR_WQE_LEN_LOC_BIT1;
  1507. iwrite->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_IWR_WQE_LEN_LOC_BIT2;
  1508. iwrite->cmd_type_byte |= SLI4_CMD_FCP_IWRITE64_WQE;
  1509. iwrite->cq_id = cpu_to_le16(cq_id);
  1510. if (sli->params.perf_hint) {
  1511. bptr = &iwrite->first_data_bde;
  1512. bptr->bde_type_buflen = cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1513. (le32_to_cpu(sge[first_data_sge].buffer_length) &
  1514. SLI4_BDE_LEN_MASK));
  1515. bptr->u.data.low = sge[first_data_sge].buffer_address_low;
  1516. bptr->u.data.high = sge[first_data_sge].buffer_address_high;
  1517. }
  1518. return 0;
  1519. }
  1520. int
  1521. sli_fcp_treceive64_wqe(struct sli4 *sli, void *buf, struct efc_dma *sgl,
  1522. u32 first_data_sge, u16 cq_id, u8 dif, u8 bs,
  1523. struct sli_fcp_tgt_params *params)
  1524. {
  1525. struct sli4_fcp_treceive64_wqe *trecv = buf;
  1526. struct sli4_fcp_128byte_wqe *trecv_128 = buf;
  1527. struct sli4_sge *sge = NULL;
  1528. struct sli4_bde *bptr;
  1529. memset(buf, 0, sli->wqe_size);
  1530. if (!sgl || !sgl->virt) {
  1531. efc_log_err(sli, "bad parameter sgl=%p virt=%p\n",
  1532. sgl, sgl ? sgl->virt : NULL);
  1533. return -EIO;
  1534. }
  1535. sge = sgl->virt;
  1536. bptr = &trecv->bde;
  1537. if (sli->params.sgl_pre_registered) {
  1538. trecv->qosd_xbl_hlm_iod_dbde_wqes &= ~SLI4_TRCV_WQE_XBL;
  1539. trecv->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_TRCV_WQE_DBDE;
  1540. bptr->bde_type_buflen =
  1541. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1542. (le32_to_cpu(sge[0].buffer_length)
  1543. & SLI4_BDE_LEN_MASK));
  1544. bptr->u.data.low = sge[0].buffer_address_low;
  1545. bptr->u.data.high = sge[0].buffer_address_high;
  1546. trecv->payload_offset_length = sge[0].buffer_length;
  1547. } else {
  1548. trecv->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_TRCV_WQE_XBL;
  1549. /* if data is a single physical address, use a BDE */
  1550. if (!dif &&
  1551. params->xmit_len <= le32_to_cpu(sge[2].buffer_length)) {
  1552. trecv->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_TRCV_WQE_DBDE;
  1553. bptr->bde_type_buflen =
  1554. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1555. (le32_to_cpu(sge[2].buffer_length)
  1556. & SLI4_BDE_LEN_MASK));
  1557. bptr->u.data.low = sge[2].buffer_address_low;
  1558. bptr->u.data.high = sge[2].buffer_address_high;
  1559. } else {
  1560. bptr->bde_type_buflen =
  1561. cpu_to_le32((SLI4_BDE_TYPE_VAL(BLP)) |
  1562. (sgl->size & SLI4_BDE_LEN_MASK));
  1563. bptr->u.blp.low = cpu_to_le32(lower_32_bits(sgl->phys));
  1564. bptr->u.blp.high =
  1565. cpu_to_le32(upper_32_bits(sgl->phys));
  1566. }
  1567. }
  1568. trecv->relative_offset = cpu_to_le32(params->offset);
  1569. if (params->flags & SLI4_IO_CONTINUATION)
  1570. trecv->eat_xc_ccpe |= SLI4_TRCV_WQE_XC;
  1571. trecv->xri_tag = cpu_to_le16(params->xri);
  1572. trecv->context_tag = cpu_to_le16(params->rpi);
  1573. /* WQE uses relative offset */
  1574. trecv->class_ar_pu_byte |= 1 << SLI4_TRCV_WQE_PU_SHFT;
  1575. if (params->flags & SLI4_IO_AUTO_GOOD_RESPONSE)
  1576. trecv->class_ar_pu_byte |= SLI4_TRCV_WQE_AR;
  1577. trecv->command = SLI4_WQE_FCP_TRECEIVE64;
  1578. trecv->class_ar_pu_byte |= SLI4_GENERIC_CLASS_CLASS_3;
  1579. trecv->dif_ct_bs_byte |=
  1580. SLI4_GENERIC_CONTEXT_RPI << SLI4_TRCV_WQE_CT_SHFT;
  1581. trecv->dif_ct_bs_byte |= bs << SLI4_TRCV_WQE_BS_SHFT;
  1582. trecv->remote_xid = cpu_to_le16(params->ox_id);
  1583. trecv->request_tag = cpu_to_le16(params->tag);
  1584. trecv->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_TRCV_WQE_IOD;
  1585. trecv->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_TRCV_WQE_LEN_LOC_BIT2;
  1586. trecv->cmd_type_byte |= SLI4_CMD_FCP_TRECEIVE64_WQE;
  1587. trecv->cq_id = cpu_to_le16(cq_id);
  1588. trecv->fcp_data_receive_length = cpu_to_le32(params->xmit_len);
  1589. if (sli->params.perf_hint) {
  1590. bptr = &trecv->first_data_bde;
  1591. bptr->bde_type_buflen =
  1592. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1593. (le32_to_cpu(sge[first_data_sge].buffer_length) &
  1594. SLI4_BDE_LEN_MASK));
  1595. bptr->u.data.low = sge[first_data_sge].buffer_address_low;
  1596. bptr->u.data.high = sge[first_data_sge].buffer_address_high;
  1597. }
  1598. /* The upper 7 bits of csctl is the priority */
  1599. if (params->cs_ctl & SLI4_MASK_CCP) {
  1600. trecv->eat_xc_ccpe |= SLI4_TRCV_WQE_CCPE;
  1601. trecv->ccp = (params->cs_ctl & SLI4_MASK_CCP);
  1602. }
  1603. if (params->app_id && sli->wqe_size == SLI4_WQE_EXT_BYTES &&
  1604. !(trecv->eat_xc_ccpe & SLI4_TRSP_WQE_EAT)) {
  1605. trecv->lloc1_appid |= SLI4_TRCV_WQE_APPID;
  1606. trecv->qosd_xbl_hlm_iod_dbde_wqes |= SLI4_TRCV_WQE_WQES;
  1607. trecv_128->dw[31] = params->app_id;
  1608. }
  1609. return 0;
  1610. }
  1611. int
  1612. sli_fcp_cont_treceive64_wqe(struct sli4 *sli, void *buf,
  1613. struct efc_dma *sgl, u32 first_data_sge,
  1614. u16 sec_xri, u16 cq_id, u8 dif, u8 bs,
  1615. struct sli_fcp_tgt_params *params)
  1616. {
  1617. int rc;
  1618. rc = sli_fcp_treceive64_wqe(sli, buf, sgl, first_data_sge,
  1619. cq_id, dif, bs, params);
  1620. if (!rc) {
  1621. struct sli4_fcp_treceive64_wqe *trecv = buf;
  1622. trecv->command = SLI4_WQE_FCP_CONT_TRECEIVE64;
  1623. trecv->dword5.sec_xri_tag = cpu_to_le16(sec_xri);
  1624. }
  1625. return rc;
  1626. }
  1627. int
  1628. sli_fcp_trsp64_wqe(struct sli4 *sli4, void *buf, struct efc_dma *sgl,
  1629. u16 cq_id, u8 port_owned, struct sli_fcp_tgt_params *params)
  1630. {
  1631. struct sli4_fcp_trsp64_wqe *trsp = buf;
  1632. struct sli4_fcp_128byte_wqe *trsp_128 = buf;
  1633. memset(buf, 0, sli4->wqe_size);
  1634. if (params->flags & SLI4_IO_AUTO_GOOD_RESPONSE) {
  1635. trsp->class_ag_byte |= SLI4_TRSP_WQE_AG;
  1636. } else {
  1637. struct sli4_sge *sge = sgl->virt;
  1638. struct sli4_bde *bptr;
  1639. if (sli4->params.sgl_pre_registered || port_owned)
  1640. trsp->qosd_xbl_hlm_dbde_wqes |= SLI4_TRSP_WQE_DBDE;
  1641. else
  1642. trsp->qosd_xbl_hlm_dbde_wqes |= SLI4_TRSP_WQE_XBL;
  1643. bptr = &trsp->bde;
  1644. bptr->bde_type_buflen =
  1645. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1646. (le32_to_cpu(sge[0].buffer_length) &
  1647. SLI4_BDE_LEN_MASK));
  1648. bptr->u.data.low = sge[0].buffer_address_low;
  1649. bptr->u.data.high = sge[0].buffer_address_high;
  1650. trsp->fcp_response_length = cpu_to_le32(params->xmit_len);
  1651. }
  1652. if (params->flags & SLI4_IO_CONTINUATION)
  1653. trsp->eat_xc_ccpe |= SLI4_TRSP_WQE_XC;
  1654. trsp->xri_tag = cpu_to_le16(params->xri);
  1655. trsp->rpi = cpu_to_le16(params->rpi);
  1656. trsp->command = SLI4_WQE_FCP_TRSP64;
  1657. trsp->class_ag_byte |= SLI4_GENERIC_CLASS_CLASS_3;
  1658. trsp->remote_xid = cpu_to_le16(params->ox_id);
  1659. trsp->request_tag = cpu_to_le16(params->tag);
  1660. if (params->flags & SLI4_IO_DNRX)
  1661. trsp->ct_dnrx_byte |= SLI4_TRSP_WQE_DNRX;
  1662. else
  1663. trsp->ct_dnrx_byte &= ~SLI4_TRSP_WQE_DNRX;
  1664. trsp->lloc1_appid |= 0x1;
  1665. trsp->cq_id = cpu_to_le16(cq_id);
  1666. trsp->cmd_type_byte = SLI4_CMD_FCP_TRSP64_WQE;
  1667. /* The upper 7 bits of csctl is the priority */
  1668. if (params->cs_ctl & SLI4_MASK_CCP) {
  1669. trsp->eat_xc_ccpe |= SLI4_TRSP_WQE_CCPE;
  1670. trsp->ccp = (params->cs_ctl & SLI4_MASK_CCP);
  1671. }
  1672. if (params->app_id && sli4->wqe_size == SLI4_WQE_EXT_BYTES &&
  1673. !(trsp->eat_xc_ccpe & SLI4_TRSP_WQE_EAT)) {
  1674. trsp->lloc1_appid |= SLI4_TRSP_WQE_APPID;
  1675. trsp->qosd_xbl_hlm_dbde_wqes |= SLI4_TRSP_WQE_WQES;
  1676. trsp_128->dw[31] = params->app_id;
  1677. }
  1678. return 0;
  1679. }
  1680. int
  1681. sli_fcp_tsend64_wqe(struct sli4 *sli4, void *buf, struct efc_dma *sgl,
  1682. u32 first_data_sge, u16 cq_id, u8 dif, u8 bs,
  1683. struct sli_fcp_tgt_params *params)
  1684. {
  1685. struct sli4_fcp_tsend64_wqe *tsend = buf;
  1686. struct sli4_fcp_128byte_wqe *tsend_128 = buf;
  1687. struct sli4_sge *sge = NULL;
  1688. struct sli4_bde *bptr;
  1689. memset(buf, 0, sli4->wqe_size);
  1690. if (!sgl || !sgl->virt) {
  1691. efc_log_err(sli4, "bad parameter sgl=%p virt=%p\n",
  1692. sgl, sgl ? sgl->virt : NULL);
  1693. return -EIO;
  1694. }
  1695. sge = sgl->virt;
  1696. bptr = &tsend->bde;
  1697. if (sli4->params.sgl_pre_registered) {
  1698. tsend->ll_qd_xbl_hlm_iod_dbde &= ~SLI4_TSEND_WQE_XBL;
  1699. tsend->ll_qd_xbl_hlm_iod_dbde |= SLI4_TSEND_WQE_DBDE;
  1700. bptr->bde_type_buflen =
  1701. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1702. (le32_to_cpu(sge[2].buffer_length) &
  1703. SLI4_BDE_LEN_MASK));
  1704. /* TSEND64_WQE specifies first two SGE are skipped (3rd is
  1705. * valid)
  1706. */
  1707. bptr->u.data.low = sge[2].buffer_address_low;
  1708. bptr->u.data.high = sge[2].buffer_address_high;
  1709. } else {
  1710. tsend->ll_qd_xbl_hlm_iod_dbde |= SLI4_TSEND_WQE_XBL;
  1711. /* if data is a single physical address, use a BDE */
  1712. if (!dif &&
  1713. params->xmit_len <= le32_to_cpu(sge[2].buffer_length)) {
  1714. tsend->ll_qd_xbl_hlm_iod_dbde |= SLI4_TSEND_WQE_DBDE;
  1715. bptr->bde_type_buflen =
  1716. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1717. (le32_to_cpu(sge[2].buffer_length) &
  1718. SLI4_BDE_LEN_MASK));
  1719. /*
  1720. * TSEND64_WQE specifies first two SGE are skipped
  1721. * (i.e. 3rd is valid)
  1722. */
  1723. bptr->u.data.low =
  1724. sge[2].buffer_address_low;
  1725. bptr->u.data.high =
  1726. sge[2].buffer_address_high;
  1727. } else {
  1728. bptr->bde_type_buflen =
  1729. cpu_to_le32((SLI4_BDE_TYPE_VAL(BLP)) |
  1730. (sgl->size &
  1731. SLI4_BDE_LEN_MASK));
  1732. bptr->u.blp.low =
  1733. cpu_to_le32(lower_32_bits(sgl->phys));
  1734. bptr->u.blp.high =
  1735. cpu_to_le32(upper_32_bits(sgl->phys));
  1736. }
  1737. }
  1738. tsend->relative_offset = cpu_to_le32(params->offset);
  1739. if (params->flags & SLI4_IO_CONTINUATION)
  1740. tsend->dw10byte2 |= SLI4_TSEND_XC;
  1741. tsend->xri_tag = cpu_to_le16(params->xri);
  1742. tsend->rpi = cpu_to_le16(params->rpi);
  1743. /* WQE uses relative offset */
  1744. tsend->class_pu_ar_byte |= 1 << SLI4_TSEND_WQE_PU_SHFT;
  1745. if (params->flags & SLI4_IO_AUTO_GOOD_RESPONSE)
  1746. tsend->class_pu_ar_byte |= SLI4_TSEND_WQE_AR;
  1747. tsend->command = SLI4_WQE_FCP_TSEND64;
  1748. tsend->class_pu_ar_byte |= SLI4_GENERIC_CLASS_CLASS_3;
  1749. tsend->ct_byte |= SLI4_GENERIC_CONTEXT_RPI << SLI4_TSEND_CT_SHFT;
  1750. tsend->ct_byte |= dif;
  1751. tsend->ct_byte |= bs << SLI4_TSEND_BS_SHFT;
  1752. tsend->remote_xid = cpu_to_le16(params->ox_id);
  1753. tsend->request_tag = cpu_to_le16(params->tag);
  1754. tsend->ll_qd_xbl_hlm_iod_dbde |= SLI4_TSEND_LEN_LOC_BIT2;
  1755. tsend->cq_id = cpu_to_le16(cq_id);
  1756. tsend->cmd_type_byte |= SLI4_CMD_FCP_TSEND64_WQE;
  1757. tsend->fcp_data_transmit_length = cpu_to_le32(params->xmit_len);
  1758. if (sli4->params.perf_hint) {
  1759. bptr = &tsend->first_data_bde;
  1760. bptr->bde_type_buflen =
  1761. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1762. (le32_to_cpu(sge[first_data_sge].buffer_length) &
  1763. SLI4_BDE_LEN_MASK));
  1764. bptr->u.data.low =
  1765. sge[first_data_sge].buffer_address_low;
  1766. bptr->u.data.high =
  1767. sge[first_data_sge].buffer_address_high;
  1768. }
  1769. /* The upper 7 bits of csctl is the priority */
  1770. if (params->cs_ctl & SLI4_MASK_CCP) {
  1771. tsend->dw10byte2 |= SLI4_TSEND_CCPE;
  1772. tsend->ccp = (params->cs_ctl & SLI4_MASK_CCP);
  1773. }
  1774. if (params->app_id && sli4->wqe_size == SLI4_WQE_EXT_BYTES &&
  1775. !(tsend->dw10byte2 & SLI4_TSEND_EAT)) {
  1776. tsend->dw10byte0 |= SLI4_TSEND_APPID_VALID;
  1777. tsend->ll_qd_xbl_hlm_iod_dbde |= SLI4_TSEND_WQES;
  1778. tsend_128->dw[31] = params->app_id;
  1779. }
  1780. return 0;
  1781. }
  1782. int
  1783. sli_gen_request64_wqe(struct sli4 *sli4, void *buf, struct efc_dma *sgl,
  1784. struct sli_ct_params *params)
  1785. {
  1786. struct sli4_gen_request64_wqe *gen = buf;
  1787. struct sli4_sge *sge = NULL;
  1788. struct sli4_bde *bptr;
  1789. memset(buf, 0, sli4->wqe_size);
  1790. if (!sgl || !sgl->virt) {
  1791. efc_log_err(sli4, "bad parameter sgl=%p virt=%p\n",
  1792. sgl, sgl ? sgl->virt : NULL);
  1793. return -EIO;
  1794. }
  1795. sge = sgl->virt;
  1796. bptr = &gen->bde;
  1797. if (sli4->params.sgl_pre_registered) {
  1798. gen->dw10flags1 &= ~SLI4_GEN_REQ64_WQE_XBL;
  1799. gen->dw10flags1 |= SLI4_GEN_REQ64_WQE_DBDE;
  1800. bptr->bde_type_buflen =
  1801. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1802. (params->xmit_len & SLI4_BDE_LEN_MASK));
  1803. bptr->u.data.low = sge[0].buffer_address_low;
  1804. bptr->u.data.high = sge[0].buffer_address_high;
  1805. } else {
  1806. gen->dw10flags1 |= SLI4_GEN_REQ64_WQE_XBL;
  1807. bptr->bde_type_buflen =
  1808. cpu_to_le32((SLI4_BDE_TYPE_VAL(BLP)) |
  1809. ((2 * sizeof(struct sli4_sge)) &
  1810. SLI4_BDE_LEN_MASK));
  1811. bptr->u.blp.low =
  1812. cpu_to_le32(lower_32_bits(sgl->phys));
  1813. bptr->u.blp.high =
  1814. cpu_to_le32(upper_32_bits(sgl->phys));
  1815. }
  1816. gen->request_payload_length = cpu_to_le32(params->xmit_len);
  1817. gen->max_response_payload_length = cpu_to_le32(params->rsp_len);
  1818. gen->df_ctl = params->df_ctl;
  1819. gen->type = params->type;
  1820. gen->r_ctl = params->r_ctl;
  1821. gen->xri_tag = cpu_to_le16(params->xri);
  1822. gen->ct_byte = SLI4_GENERIC_CONTEXT_RPI << SLI4_GEN_REQ64_CT_SHFT;
  1823. gen->context_tag = cpu_to_le16(params->rpi);
  1824. gen->class_byte = SLI4_GENERIC_CLASS_CLASS_3;
  1825. gen->command = SLI4_WQE_GEN_REQUEST64;
  1826. gen->timer = params->timeout;
  1827. gen->request_tag = cpu_to_le16(params->tag);
  1828. gen->dw10flags1 |= SLI4_GEN_REQ64_WQE_IOD;
  1829. gen->dw10flags0 |= SLI4_GEN_REQ64_WQE_QOSD;
  1830. gen->cmd_type_byte = SLI4_CMD_GEN_REQUEST64_WQE;
  1831. gen->cq_id = cpu_to_le16(SLI4_CQ_DEFAULT);
  1832. return 0;
  1833. }
  1834. int
  1835. sli_send_frame_wqe(struct sli4 *sli, void *buf, u8 sof, u8 eof, u32 *hdr,
  1836. struct efc_dma *payload, u32 req_len, u8 timeout, u16 xri,
  1837. u16 req_tag)
  1838. {
  1839. struct sli4_send_frame_wqe *sf = buf;
  1840. memset(buf, 0, sli->wqe_size);
  1841. sf->dw10flags1 |= SLI4_SF_WQE_DBDE;
  1842. sf->bde.bde_type_buflen = cpu_to_le32(req_len &
  1843. SLI4_BDE_LEN_MASK);
  1844. sf->bde.u.data.low = cpu_to_le32(lower_32_bits(payload->phys));
  1845. sf->bde.u.data.high = cpu_to_le32(upper_32_bits(payload->phys));
  1846. /* Copy FC header */
  1847. sf->fc_header_0_1[0] = cpu_to_le32(hdr[0]);
  1848. sf->fc_header_0_1[1] = cpu_to_le32(hdr[1]);
  1849. sf->fc_header_2_5[0] = cpu_to_le32(hdr[2]);
  1850. sf->fc_header_2_5[1] = cpu_to_le32(hdr[3]);
  1851. sf->fc_header_2_5[2] = cpu_to_le32(hdr[4]);
  1852. sf->fc_header_2_5[3] = cpu_to_le32(hdr[5]);
  1853. sf->frame_length = cpu_to_le32(req_len);
  1854. sf->xri_tag = cpu_to_le16(xri);
  1855. sf->dw7flags0 &= ~SLI4_SF_PU;
  1856. sf->context_tag = 0;
  1857. sf->ct_byte &= ~SLI4_SF_CT;
  1858. sf->command = SLI4_WQE_SEND_FRAME;
  1859. sf->dw7flags0 |= SLI4_GENERIC_CLASS_CLASS_3;
  1860. sf->timer = timeout;
  1861. sf->request_tag = cpu_to_le16(req_tag);
  1862. sf->eof = eof;
  1863. sf->sof = sof;
  1864. sf->dw10flags1 &= ~SLI4_SF_QOSD;
  1865. sf->dw10flags0 |= SLI4_SF_LEN_LOC_BIT1;
  1866. sf->dw10flags2 &= ~SLI4_SF_XC;
  1867. sf->dw10flags1 |= SLI4_SF_XBL;
  1868. sf->cmd_type_byte |= SLI4_CMD_SEND_FRAME_WQE;
  1869. sf->cq_id = cpu_to_le16(0xffff);
  1870. return 0;
  1871. }
  1872. int
  1873. sli_xmit_bls_rsp64_wqe(struct sli4 *sli, void *buf,
  1874. struct sli_bls_payload *payload,
  1875. struct sli_bls_params *params)
  1876. {
  1877. struct sli4_xmit_bls_rsp_wqe *bls = buf;
  1878. u32 dw_ridflags = 0;
  1879. /*
  1880. * Callers can either specify RPI or S_ID, but not both
  1881. */
  1882. if (params->rpi_registered && params->s_id != U32_MAX) {
  1883. efc_log_info(sli, "S_ID specified for attached remote node %d\n",
  1884. params->rpi);
  1885. return -EIO;
  1886. }
  1887. memset(buf, 0, sli->wqe_size);
  1888. if (payload->type == SLI4_SLI_BLS_ACC) {
  1889. bls->payload_word0 =
  1890. cpu_to_le32((payload->u.acc.seq_id_last << 16) |
  1891. (payload->u.acc.seq_id_validity << 24));
  1892. bls->high_seq_cnt = payload->u.acc.high_seq_cnt;
  1893. bls->low_seq_cnt = payload->u.acc.low_seq_cnt;
  1894. } else if (payload->type == SLI4_SLI_BLS_RJT) {
  1895. bls->payload_word0 =
  1896. cpu_to_le32(*((u32 *)&payload->u.rjt));
  1897. dw_ridflags |= SLI4_BLS_RSP_WQE_AR;
  1898. } else {
  1899. efc_log_info(sli, "bad BLS type %#x\n", payload->type);
  1900. return -EIO;
  1901. }
  1902. bls->ox_id = payload->ox_id;
  1903. bls->rx_id = payload->rx_id;
  1904. if (params->rpi_registered) {
  1905. bls->dw8flags0 |=
  1906. SLI4_GENERIC_CONTEXT_RPI << SLI4_BLS_RSP_WQE_CT_SHFT;
  1907. bls->context_tag = cpu_to_le16(params->rpi);
  1908. } else {
  1909. bls->dw8flags0 |=
  1910. SLI4_GENERIC_CONTEXT_VPI << SLI4_BLS_RSP_WQE_CT_SHFT;
  1911. bls->context_tag = cpu_to_le16(params->vpi);
  1912. bls->local_n_port_id_dword |=
  1913. cpu_to_le32(params->s_id & 0x00ffffff);
  1914. dw_ridflags = (dw_ridflags & ~SLI4_BLS_RSP_RID) |
  1915. (params->d_id & SLI4_BLS_RSP_RID);
  1916. bls->temporary_rpi = cpu_to_le16(params->rpi);
  1917. }
  1918. bls->xri_tag = cpu_to_le16(params->xri);
  1919. bls->dw8flags1 |= SLI4_GENERIC_CLASS_CLASS_3;
  1920. bls->command = SLI4_WQE_XMIT_BLS_RSP;
  1921. bls->request_tag = cpu_to_le16(params->tag);
  1922. bls->dw11flags1 |= SLI4_BLS_RSP_WQE_QOSD;
  1923. bls->remote_id_dword = cpu_to_le32(dw_ridflags);
  1924. bls->cq_id = cpu_to_le16(SLI4_CQ_DEFAULT);
  1925. bls->dw12flags0 |= SLI4_CMD_XMIT_BLS_RSP64_WQE;
  1926. return 0;
  1927. }
  1928. int
  1929. sli_xmit_els_rsp64_wqe(struct sli4 *sli, void *buf, struct efc_dma *rsp,
  1930. struct sli_els_params *params)
  1931. {
  1932. struct sli4_xmit_els_rsp64_wqe *els = buf;
  1933. memset(buf, 0, sli->wqe_size);
  1934. if (sli->params.sgl_pre_registered)
  1935. els->flags2 |= SLI4_ELS_DBDE;
  1936. else
  1937. els->flags2 |= SLI4_ELS_XBL;
  1938. els->els_response_payload.bde_type_buflen =
  1939. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1940. (params->rsp_len & SLI4_BDE_LEN_MASK));
  1941. els->els_response_payload.u.data.low =
  1942. cpu_to_le32(lower_32_bits(rsp->phys));
  1943. els->els_response_payload.u.data.high =
  1944. cpu_to_le32(upper_32_bits(rsp->phys));
  1945. els->els_response_payload_length = cpu_to_le32(params->rsp_len);
  1946. els->xri_tag = cpu_to_le16(params->xri);
  1947. els->class_byte |= SLI4_GENERIC_CLASS_CLASS_3;
  1948. els->command = SLI4_WQE_ELS_RSP64;
  1949. els->request_tag = cpu_to_le16(params->tag);
  1950. els->ox_id = cpu_to_le16(params->ox_id);
  1951. els->flags2 |= SLI4_ELS_QOSD;
  1952. els->cmd_type_wqec = SLI4_ELS_REQUEST64_CMD_GEN;
  1953. els->cq_id = cpu_to_le16(SLI4_CQ_DEFAULT);
  1954. if (params->rpi_registered) {
  1955. els->ct_byte |=
  1956. SLI4_GENERIC_CONTEXT_RPI << SLI4_ELS_CT_OFFSET;
  1957. els->context_tag = cpu_to_le16(params->rpi);
  1958. return 0;
  1959. }
  1960. els->ct_byte |= SLI4_GENERIC_CONTEXT_VPI << SLI4_ELS_CT_OFFSET;
  1961. els->context_tag = cpu_to_le16(params->vpi);
  1962. els->rid_dw = cpu_to_le32(params->d_id & SLI4_ELS_RID);
  1963. els->temporary_rpi = cpu_to_le16(params->rpi);
  1964. if (params->s_id != U32_MAX) {
  1965. els->sid_dw |=
  1966. cpu_to_le32(SLI4_ELS_SP | (params->s_id & SLI4_ELS_SID));
  1967. }
  1968. return 0;
  1969. }
  1970. int
  1971. sli_xmit_sequence64_wqe(struct sli4 *sli4, void *buf, struct efc_dma *payload,
  1972. struct sli_ct_params *params)
  1973. {
  1974. struct sli4_xmit_sequence64_wqe *xmit = buf;
  1975. memset(buf, 0, sli4->wqe_size);
  1976. if (!payload || !payload->virt) {
  1977. efc_log_err(sli4, "bad parameter sgl=%p virt=%p\n",
  1978. payload, payload ? payload->virt : NULL);
  1979. return -EIO;
  1980. }
  1981. if (sli4->params.sgl_pre_registered)
  1982. xmit->dw10w0 |= cpu_to_le16(SLI4_SEQ_WQE_DBDE);
  1983. else
  1984. xmit->dw10w0 |= cpu_to_le16(SLI4_SEQ_WQE_XBL);
  1985. xmit->bde.bde_type_buflen =
  1986. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  1987. (params->rsp_len & SLI4_BDE_LEN_MASK));
  1988. xmit->bde.u.data.low =
  1989. cpu_to_le32(lower_32_bits(payload->phys));
  1990. xmit->bde.u.data.high =
  1991. cpu_to_le32(upper_32_bits(payload->phys));
  1992. xmit->sequence_payload_len = cpu_to_le32(params->rsp_len);
  1993. xmit->remote_n_port_id_dword |= cpu_to_le32(params->d_id & 0x00ffffff);
  1994. xmit->relative_offset = 0;
  1995. /* sequence initiative - this matches what is seen from
  1996. * FC switches in response to FCGS commands
  1997. */
  1998. xmit->dw5flags0 &= (~SLI4_SEQ_WQE_SI);
  1999. xmit->dw5flags0 &= (~SLI4_SEQ_WQE_FT);/* force transmit */
  2000. xmit->dw5flags0 &= (~SLI4_SEQ_WQE_XO);/* exchange responder */
  2001. xmit->dw5flags0 |= SLI4_SEQ_WQE_LS;/* last in seqence */
  2002. xmit->df_ctl = params->df_ctl;
  2003. xmit->type = params->type;
  2004. xmit->r_ctl = params->r_ctl;
  2005. xmit->xri_tag = cpu_to_le16(params->xri);
  2006. xmit->context_tag = cpu_to_le16(params->rpi);
  2007. xmit->dw7flags0 &= ~SLI4_SEQ_WQE_DIF;
  2008. xmit->dw7flags0 |=
  2009. SLI4_GENERIC_CONTEXT_RPI << SLI4_SEQ_WQE_CT_SHIFT;
  2010. xmit->dw7flags0 &= ~SLI4_SEQ_WQE_BS;
  2011. xmit->command = SLI4_WQE_XMIT_SEQUENCE64;
  2012. xmit->dw7flags1 |= SLI4_GENERIC_CLASS_CLASS_3;
  2013. xmit->dw7flags1 &= ~SLI4_SEQ_WQE_PU;
  2014. xmit->timer = params->timeout;
  2015. xmit->abort_tag = 0;
  2016. xmit->request_tag = cpu_to_le16(params->tag);
  2017. xmit->remote_xid = cpu_to_le16(params->ox_id);
  2018. xmit->dw10w0 |=
  2019. cpu_to_le16(SLI4_ELS_REQUEST64_DIR_READ << SLI4_SEQ_WQE_IOD_SHIFT);
  2020. xmit->cmd_type_wqec_byte |= SLI4_CMD_XMIT_SEQUENCE64_WQE;
  2021. xmit->dw10w0 |= cpu_to_le16(2 << SLI4_SEQ_WQE_LEN_LOC_SHIFT);
  2022. xmit->cq_id = cpu_to_le16(0xFFFF);
  2023. return 0;
  2024. }
  2025. int
  2026. sli_requeue_xri_wqe(struct sli4 *sli4, void *buf, u16 xri, u16 tag, u16 cq_id)
  2027. {
  2028. struct sli4_requeue_xri_wqe *requeue = buf;
  2029. memset(buf, 0, sli4->wqe_size);
  2030. requeue->command = SLI4_WQE_REQUEUE_XRI;
  2031. requeue->xri_tag = cpu_to_le16(xri);
  2032. requeue->request_tag = cpu_to_le16(tag);
  2033. requeue->flags2 |= cpu_to_le16(SLI4_REQU_XRI_WQE_XC);
  2034. requeue->flags1 |= cpu_to_le16(SLI4_REQU_XRI_WQE_QOSD);
  2035. requeue->cq_id = cpu_to_le16(cq_id);
  2036. requeue->cmd_type_wqec_byte = SLI4_CMD_REQUEUE_XRI_WQE;
  2037. return 0;
  2038. }
  2039. int
  2040. sli_fc_process_link_attention(struct sli4 *sli4, void *acqe)
  2041. {
  2042. struct sli4_link_attention *link_attn = acqe;
  2043. struct sli4_link_event event = { 0 };
  2044. efc_log_info(sli4, "link=%d attn_type=%#x top=%#x speed=%#x pfault=%#x\n",
  2045. link_attn->link_number, link_attn->attn_type,
  2046. link_attn->topology, link_attn->port_speed,
  2047. link_attn->port_fault);
  2048. efc_log_info(sli4, "shared_lnk_status=%#x logl_lnk_speed=%#x evttag=%#x\n",
  2049. link_attn->shared_link_status,
  2050. le16_to_cpu(link_attn->logical_link_speed),
  2051. le32_to_cpu(link_attn->event_tag));
  2052. if (!sli4->link)
  2053. return -EIO;
  2054. event.medium = SLI4_LINK_MEDIUM_FC;
  2055. switch (link_attn->attn_type) {
  2056. case SLI4_LNK_ATTN_TYPE_LINK_UP:
  2057. event.status = SLI4_LINK_STATUS_UP;
  2058. break;
  2059. case SLI4_LNK_ATTN_TYPE_LINK_DOWN:
  2060. event.status = SLI4_LINK_STATUS_DOWN;
  2061. break;
  2062. case SLI4_LNK_ATTN_TYPE_NO_HARD_ALPA:
  2063. efc_log_info(sli4, "attn_type: no hard alpa\n");
  2064. event.status = SLI4_LINK_STATUS_NO_ALPA;
  2065. break;
  2066. default:
  2067. efc_log_info(sli4, "attn_type: unknown\n");
  2068. break;
  2069. }
  2070. switch (link_attn->event_type) {
  2071. case SLI4_EVENT_LINK_ATTENTION:
  2072. break;
  2073. case SLI4_EVENT_SHARED_LINK_ATTENTION:
  2074. efc_log_info(sli4, "event_type: FC shared link event\n");
  2075. break;
  2076. default:
  2077. efc_log_info(sli4, "event_type: unknown\n");
  2078. break;
  2079. }
  2080. switch (link_attn->topology) {
  2081. case SLI4_LNK_ATTN_P2P:
  2082. event.topology = SLI4_LINK_TOPO_NON_FC_AL;
  2083. break;
  2084. case SLI4_LNK_ATTN_FC_AL:
  2085. event.topology = SLI4_LINK_TOPO_FC_AL;
  2086. break;
  2087. case SLI4_LNK_ATTN_INTERNAL_LOOPBACK:
  2088. efc_log_info(sli4, "topology Internal loopback\n");
  2089. event.topology = SLI4_LINK_TOPO_LOOPBACK_INTERNAL;
  2090. break;
  2091. case SLI4_LNK_ATTN_SERDES_LOOPBACK:
  2092. efc_log_info(sli4, "topology serdes loopback\n");
  2093. event.topology = SLI4_LINK_TOPO_LOOPBACK_EXTERNAL;
  2094. break;
  2095. default:
  2096. efc_log_info(sli4, "topology: unknown\n");
  2097. break;
  2098. }
  2099. event.speed = link_attn->port_speed * 1000;
  2100. sli4->link(sli4->link_arg, (void *)&event);
  2101. return 0;
  2102. }
  2103. int
  2104. sli_fc_cqe_parse(struct sli4 *sli4, struct sli4_queue *cq,
  2105. u8 *cqe, enum sli4_qentry *etype, u16 *r_id)
  2106. {
  2107. u8 code = cqe[SLI4_CQE_CODE_OFFSET];
  2108. int rc;
  2109. switch (code) {
  2110. case SLI4_CQE_CODE_WORK_REQUEST_COMPLETION:
  2111. {
  2112. struct sli4_fc_wcqe *wcqe = (void *)cqe;
  2113. *etype = SLI4_QENTRY_WQ;
  2114. *r_id = le16_to_cpu(wcqe->request_tag);
  2115. rc = wcqe->status;
  2116. /* Flag errors except for FCP_RSP_FAILURE */
  2117. if (rc && rc != SLI4_FC_WCQE_STATUS_FCP_RSP_FAILURE) {
  2118. efc_log_info(sli4, "WCQE: status=%#x hw_status=%#x tag=%#x\n",
  2119. wcqe->status, wcqe->hw_status,
  2120. le16_to_cpu(wcqe->request_tag));
  2121. efc_log_info(sli4, "w1=%#x w2=%#x xb=%d\n",
  2122. le32_to_cpu(wcqe->wqe_specific_1),
  2123. le32_to_cpu(wcqe->wqe_specific_2),
  2124. (wcqe->flags & SLI4_WCQE_XB));
  2125. efc_log_info(sli4, " %08X %08X %08X %08X\n",
  2126. ((u32 *)cqe)[0], ((u32 *)cqe)[1],
  2127. ((u32 *)cqe)[2], ((u32 *)cqe)[3]);
  2128. }
  2129. break;
  2130. }
  2131. case SLI4_CQE_CODE_RQ_ASYNC:
  2132. {
  2133. struct sli4_fc_async_rcqe *rcqe = (void *)cqe;
  2134. *etype = SLI4_QENTRY_RQ;
  2135. *r_id = le16_to_cpu(rcqe->fcfi_rq_id_word) & SLI4_RACQE_RQ_ID;
  2136. rc = rcqe->status;
  2137. break;
  2138. }
  2139. case SLI4_CQE_CODE_RQ_ASYNC_V1:
  2140. {
  2141. struct sli4_fc_async_rcqe_v1 *rcqe = (void *)cqe;
  2142. *etype = SLI4_QENTRY_RQ;
  2143. *r_id = le16_to_cpu(rcqe->rq_id);
  2144. rc = rcqe->status;
  2145. break;
  2146. }
  2147. case SLI4_CQE_CODE_OPTIMIZED_WRITE_CMD:
  2148. {
  2149. struct sli4_fc_optimized_write_cmd_cqe *optcqe = (void *)cqe;
  2150. *etype = SLI4_QENTRY_OPT_WRITE_CMD;
  2151. *r_id = le16_to_cpu(optcqe->rq_id);
  2152. rc = optcqe->status;
  2153. break;
  2154. }
  2155. case SLI4_CQE_CODE_OPTIMIZED_WRITE_DATA:
  2156. {
  2157. struct sli4_fc_optimized_write_data_cqe *dcqe = (void *)cqe;
  2158. *etype = SLI4_QENTRY_OPT_WRITE_DATA;
  2159. *r_id = le16_to_cpu(dcqe->xri);
  2160. rc = dcqe->status;
  2161. /* Flag errors */
  2162. if (rc != SLI4_FC_WCQE_STATUS_SUCCESS) {
  2163. efc_log_info(sli4, "Optimized DATA CQE: status=%#x\n",
  2164. dcqe->status);
  2165. efc_log_info(sli4, "hstat=%#x xri=%#x dpl=%#x w3=%#x xb=%d\n",
  2166. dcqe->hw_status, le16_to_cpu(dcqe->xri),
  2167. le32_to_cpu(dcqe->total_data_placed),
  2168. ((u32 *)cqe)[3],
  2169. (dcqe->flags & SLI4_OCQE_XB));
  2170. }
  2171. break;
  2172. }
  2173. case SLI4_CQE_CODE_RQ_COALESCING:
  2174. {
  2175. struct sli4_fc_coalescing_rcqe *rcqe = (void *)cqe;
  2176. *etype = SLI4_QENTRY_RQ;
  2177. *r_id = le16_to_cpu(rcqe->rq_id);
  2178. rc = rcqe->status;
  2179. break;
  2180. }
  2181. case SLI4_CQE_CODE_XRI_ABORTED:
  2182. {
  2183. struct sli4_fc_xri_aborted_cqe *xa = (void *)cqe;
  2184. *etype = SLI4_QENTRY_XABT;
  2185. *r_id = le16_to_cpu(xa->xri);
  2186. rc = 0;
  2187. break;
  2188. }
  2189. case SLI4_CQE_CODE_RELEASE_WQE:
  2190. {
  2191. struct sli4_fc_wqec *wqec = (void *)cqe;
  2192. *etype = SLI4_QENTRY_WQ_RELEASE;
  2193. *r_id = le16_to_cpu(wqec->wq_id);
  2194. rc = 0;
  2195. break;
  2196. }
  2197. default:
  2198. efc_log_info(sli4, "CQE completion code %d not handled\n",
  2199. code);
  2200. *etype = SLI4_QENTRY_MAX;
  2201. *r_id = U16_MAX;
  2202. rc = -EINVAL;
  2203. }
  2204. return rc;
  2205. }
  2206. u32
  2207. sli_fc_response_length(struct sli4 *sli4, u8 *cqe)
  2208. {
  2209. struct sli4_fc_wcqe *wcqe = (void *)cqe;
  2210. return le32_to_cpu(wcqe->wqe_specific_1);
  2211. }
  2212. u32
  2213. sli_fc_io_length(struct sli4 *sli4, u8 *cqe)
  2214. {
  2215. struct sli4_fc_wcqe *wcqe = (void *)cqe;
  2216. return le32_to_cpu(wcqe->wqe_specific_1);
  2217. }
  2218. int
  2219. sli_fc_els_did(struct sli4 *sli4, u8 *cqe, u32 *d_id)
  2220. {
  2221. struct sli4_fc_wcqe *wcqe = (void *)cqe;
  2222. *d_id = 0;
  2223. if (wcqe->status)
  2224. return -EIO;
  2225. *d_id = le32_to_cpu(wcqe->wqe_specific_2) & 0x00ffffff;
  2226. return 0;
  2227. }
  2228. u32
  2229. sli_fc_ext_status(struct sli4 *sli4, u8 *cqe)
  2230. {
  2231. struct sli4_fc_wcqe *wcqe = (void *)cqe;
  2232. u32 mask;
  2233. switch (wcqe->status) {
  2234. case SLI4_FC_WCQE_STATUS_FCP_RSP_FAILURE:
  2235. mask = U32_MAX;
  2236. break;
  2237. case SLI4_FC_WCQE_STATUS_LOCAL_REJECT:
  2238. case SLI4_FC_WCQE_STATUS_CMD_REJECT:
  2239. mask = 0xff;
  2240. break;
  2241. case SLI4_FC_WCQE_STATUS_NPORT_RJT:
  2242. case SLI4_FC_WCQE_STATUS_FABRIC_RJT:
  2243. case SLI4_FC_WCQE_STATUS_NPORT_BSY:
  2244. case SLI4_FC_WCQE_STATUS_FABRIC_BSY:
  2245. case SLI4_FC_WCQE_STATUS_LS_RJT:
  2246. mask = U32_MAX;
  2247. break;
  2248. case SLI4_FC_WCQE_STATUS_DI_ERROR:
  2249. mask = U32_MAX;
  2250. break;
  2251. default:
  2252. mask = 0;
  2253. }
  2254. return le32_to_cpu(wcqe->wqe_specific_2) & mask;
  2255. }
  2256. int
  2257. sli_fc_rqe_rqid_and_index(struct sli4 *sli4, u8 *cqe, u16 *rq_id, u32 *index)
  2258. {
  2259. int rc = -EIO;
  2260. u8 code = 0;
  2261. u16 rq_element_index;
  2262. *rq_id = 0;
  2263. *index = U32_MAX;
  2264. code = cqe[SLI4_CQE_CODE_OFFSET];
  2265. /* Retrieve the RQ index from the completion */
  2266. if (code == SLI4_CQE_CODE_RQ_ASYNC) {
  2267. struct sli4_fc_async_rcqe *rcqe = (void *)cqe;
  2268. *rq_id = le16_to_cpu(rcqe->fcfi_rq_id_word) & SLI4_RACQE_RQ_ID;
  2269. rq_element_index =
  2270. le16_to_cpu(rcqe->rq_elmt_indx_word) & SLI4_RACQE_RQ_EL_INDX;
  2271. *index = rq_element_index;
  2272. if (rcqe->status == SLI4_FC_ASYNC_RQ_SUCCESS) {
  2273. rc = 0;
  2274. } else {
  2275. rc = rcqe->status;
  2276. efc_log_info(sli4, "status=%02x (%s) rq_id=%d\n",
  2277. rcqe->status,
  2278. sli_fc_get_status_string(rcqe->status),
  2279. le16_to_cpu(rcqe->fcfi_rq_id_word) &
  2280. SLI4_RACQE_RQ_ID);
  2281. efc_log_info(sli4, "pdpl=%x sof=%02x eof=%02x hdpl=%x\n",
  2282. le16_to_cpu(rcqe->data_placement_length),
  2283. rcqe->sof_byte, rcqe->eof_byte,
  2284. rcqe->hdpl_byte & SLI4_RACQE_HDPL);
  2285. }
  2286. } else if (code == SLI4_CQE_CODE_RQ_ASYNC_V1) {
  2287. struct sli4_fc_async_rcqe_v1 *rcqe_v1 = (void *)cqe;
  2288. *rq_id = le16_to_cpu(rcqe_v1->rq_id);
  2289. rq_element_index =
  2290. (le16_to_cpu(rcqe_v1->rq_elmt_indx_word) &
  2291. SLI4_RACQE_RQ_EL_INDX);
  2292. *index = rq_element_index;
  2293. if (rcqe_v1->status == SLI4_FC_ASYNC_RQ_SUCCESS) {
  2294. rc = 0;
  2295. } else {
  2296. rc = rcqe_v1->status;
  2297. efc_log_info(sli4, "status=%02x (%s) rq_id=%d, index=%x\n",
  2298. rcqe_v1->status,
  2299. sli_fc_get_status_string(rcqe_v1->status),
  2300. le16_to_cpu(rcqe_v1->rq_id), rq_element_index);
  2301. efc_log_info(sli4, "pdpl=%x sof=%02x eof=%02x hdpl=%x\n",
  2302. le16_to_cpu(rcqe_v1->data_placement_length),
  2303. rcqe_v1->sof_byte, rcqe_v1->eof_byte,
  2304. rcqe_v1->hdpl_byte & SLI4_RACQE_HDPL);
  2305. }
  2306. } else if (code == SLI4_CQE_CODE_OPTIMIZED_WRITE_CMD) {
  2307. struct sli4_fc_optimized_write_cmd_cqe *optcqe = (void *)cqe;
  2308. *rq_id = le16_to_cpu(optcqe->rq_id);
  2309. *index = le16_to_cpu(optcqe->w1) & SLI4_OCQE_RQ_EL_INDX;
  2310. if (optcqe->status == SLI4_FC_ASYNC_RQ_SUCCESS) {
  2311. rc = 0;
  2312. } else {
  2313. rc = optcqe->status;
  2314. efc_log_info(sli4, "stat=%02x (%s) rqid=%d, idx=%x pdpl=%x\n",
  2315. optcqe->status,
  2316. sli_fc_get_status_string(optcqe->status),
  2317. le16_to_cpu(optcqe->rq_id), *index,
  2318. le16_to_cpu(optcqe->data_placement_length));
  2319. efc_log_info(sli4, "hdpl=%x oox=%d agxr=%d xri=0x%x rpi=%x\n",
  2320. (optcqe->hdpl_vld & SLI4_OCQE_HDPL),
  2321. (optcqe->flags1 & SLI4_OCQE_OOX),
  2322. (optcqe->flags1 & SLI4_OCQE_AGXR),
  2323. optcqe->xri, le16_to_cpu(optcqe->rpi));
  2324. }
  2325. } else if (code == SLI4_CQE_CODE_RQ_COALESCING) {
  2326. struct sli4_fc_coalescing_rcqe *rcqe = (void *)cqe;
  2327. rq_element_index = (le16_to_cpu(rcqe->rq_elmt_indx_word) &
  2328. SLI4_RCQE_RQ_EL_INDX);
  2329. *rq_id = le16_to_cpu(rcqe->rq_id);
  2330. if (rcqe->status == SLI4_FC_COALESCE_RQ_SUCCESS) {
  2331. *index = rq_element_index;
  2332. rc = 0;
  2333. } else {
  2334. *index = U32_MAX;
  2335. rc = rcqe->status;
  2336. efc_log_info(sli4, "stat=%02x (%s) rq_id=%d, idx=%x\n",
  2337. rcqe->status,
  2338. sli_fc_get_status_string(rcqe->status),
  2339. le16_to_cpu(rcqe->rq_id), rq_element_index);
  2340. efc_log_info(sli4, "rq_id=%#x sdpl=%x\n",
  2341. le16_to_cpu(rcqe->rq_id),
  2342. le16_to_cpu(rcqe->seq_placement_length));
  2343. }
  2344. } else {
  2345. struct sli4_fc_async_rcqe *rcqe = (void *)cqe;
  2346. *index = U32_MAX;
  2347. rc = rcqe->status;
  2348. efc_log_info(sli4, "status=%02x rq_id=%d, index=%x pdpl=%x\n",
  2349. rcqe->status,
  2350. le16_to_cpu(rcqe->fcfi_rq_id_word) & SLI4_RACQE_RQ_ID,
  2351. (le16_to_cpu(rcqe->rq_elmt_indx_word) & SLI4_RACQE_RQ_EL_INDX),
  2352. le16_to_cpu(rcqe->data_placement_length));
  2353. efc_log_info(sli4, "sof=%02x eof=%02x hdpl=%x\n",
  2354. rcqe->sof_byte, rcqe->eof_byte,
  2355. rcqe->hdpl_byte & SLI4_RACQE_HDPL);
  2356. }
  2357. return rc;
  2358. }
  2359. static int
  2360. sli_bmbx_wait(struct sli4 *sli4, u32 msec)
  2361. {
  2362. u32 val;
  2363. unsigned long end;
  2364. /* Wait for the bootstrap mailbox to report "ready" */
  2365. end = jiffies + msecs_to_jiffies(msec);
  2366. do {
  2367. val = readl(sli4->reg[0] + SLI4_BMBX_REG);
  2368. if (val & SLI4_BMBX_RDY)
  2369. return 0;
  2370. usleep_range(1000, 2000);
  2371. } while (time_before(jiffies, end));
  2372. return -EIO;
  2373. }
  2374. static int
  2375. sli_bmbx_write(struct sli4 *sli4)
  2376. {
  2377. u32 val;
  2378. /* write buffer location to bootstrap mailbox register */
  2379. val = sli_bmbx_write_hi(sli4->bmbx.phys);
  2380. writel(val, (sli4->reg[0] + SLI4_BMBX_REG));
  2381. if (sli_bmbx_wait(sli4, SLI4_BMBX_DELAY_US)) {
  2382. efc_log_crit(sli4, "BMBX WRITE_HI failed\n");
  2383. return -EIO;
  2384. }
  2385. val = sli_bmbx_write_lo(sli4->bmbx.phys);
  2386. writel(val, (sli4->reg[0] + SLI4_BMBX_REG));
  2387. /* wait for SLI Port to set ready bit */
  2388. return sli_bmbx_wait(sli4, SLI4_BMBX_TIMEOUT_MSEC);
  2389. }
  2390. int
  2391. sli_bmbx_command(struct sli4 *sli4)
  2392. {
  2393. void *cqe = (u8 *)sli4->bmbx.virt + SLI4_BMBX_SIZE;
  2394. if (sli_fw_error_status(sli4) > 0) {
  2395. efc_log_crit(sli4, "Chip is in an error state -Mailbox command rejected");
  2396. efc_log_crit(sli4, " status=%#x error1=%#x error2=%#x\n",
  2397. sli_reg_read_status(sli4),
  2398. sli_reg_read_err1(sli4),
  2399. sli_reg_read_err2(sli4));
  2400. return -EIO;
  2401. }
  2402. /* Submit a command to the bootstrap mailbox and check the status */
  2403. if (sli_bmbx_write(sli4)) {
  2404. efc_log_crit(sli4, "bmbx write fail phys=%pad reg=%#x\n",
  2405. &sli4->bmbx.phys, readl(sli4->reg[0] + SLI4_BMBX_REG));
  2406. return -EIO;
  2407. }
  2408. /* check completion queue entry status */
  2409. if (le32_to_cpu(((struct sli4_mcqe *)cqe)->dw3_flags) &
  2410. SLI4_MCQE_VALID) {
  2411. return sli_cqe_mq(sli4, cqe);
  2412. }
  2413. efc_log_crit(sli4, "invalid or wrong type\n");
  2414. return -EIO;
  2415. }
  2416. int
  2417. sli_cmd_config_link(struct sli4 *sli4, void *buf)
  2418. {
  2419. struct sli4_cmd_config_link *config_link = buf;
  2420. memset(buf, 0, SLI4_BMBX_SIZE);
  2421. config_link->hdr.command = SLI4_MBX_CMD_CONFIG_LINK;
  2422. /* Port interprets zero in a field as "use default value" */
  2423. return 0;
  2424. }
  2425. int
  2426. sli_cmd_down_link(struct sli4 *sli4, void *buf)
  2427. {
  2428. struct sli4_mbox_command_header *hdr = buf;
  2429. memset(buf, 0, SLI4_BMBX_SIZE);
  2430. hdr->command = SLI4_MBX_CMD_DOWN_LINK;
  2431. /* Port interprets zero in a field as "use default value" */
  2432. return 0;
  2433. }
  2434. int
  2435. sli_cmd_dump_type4(struct sli4 *sli4, void *buf, u16 wki)
  2436. {
  2437. struct sli4_cmd_dump4 *cmd = buf;
  2438. memset(buf, 0, SLI4_BMBX_SIZE);
  2439. cmd->hdr.command = SLI4_MBX_CMD_DUMP;
  2440. cmd->type_dword = cpu_to_le32(0x4);
  2441. cmd->wki_selection = cpu_to_le16(wki);
  2442. return 0;
  2443. }
  2444. int
  2445. sli_cmd_common_read_transceiver_data(struct sli4 *sli4, void *buf, u32 page_num,
  2446. struct efc_dma *dma)
  2447. {
  2448. struct sli4_rqst_cmn_read_transceiver_data *req = NULL;
  2449. u32 psize;
  2450. if (!dma)
  2451. psize = SLI4_CFG_PYLD_LENGTH(cmn_read_transceiver_data);
  2452. else
  2453. psize = dma->size;
  2454. req = sli_config_cmd_init(sli4, buf, psize, dma);
  2455. if (!req)
  2456. return -EIO;
  2457. sli_cmd_fill_hdr(&req->hdr, SLI4_CMN_READ_TRANS_DATA,
  2458. SLI4_SUBSYSTEM_COMMON, CMD_V0,
  2459. SLI4_RQST_PYLD_LEN(cmn_read_transceiver_data));
  2460. req->page_number = cpu_to_le32(page_num);
  2461. req->port = cpu_to_le32(sli4->port_number);
  2462. return 0;
  2463. }
  2464. int
  2465. sli_cmd_read_link_stats(struct sli4 *sli4, void *buf, u8 req_ext_counters,
  2466. u8 clear_overflow_flags,
  2467. u8 clear_all_counters)
  2468. {
  2469. struct sli4_cmd_read_link_stats *cmd = buf;
  2470. u32 flags;
  2471. memset(buf, 0, SLI4_BMBX_SIZE);
  2472. cmd->hdr.command = SLI4_MBX_CMD_READ_LNK_STAT;
  2473. flags = 0;
  2474. if (req_ext_counters)
  2475. flags |= SLI4_READ_LNKSTAT_REC;
  2476. if (clear_all_counters)
  2477. flags |= SLI4_READ_LNKSTAT_CLRC;
  2478. if (clear_overflow_flags)
  2479. flags |= SLI4_READ_LNKSTAT_CLOF;
  2480. cmd->dw1_flags = cpu_to_le32(flags);
  2481. return 0;
  2482. }
  2483. int
  2484. sli_cmd_read_status(struct sli4 *sli4, void *buf, u8 clear_counters)
  2485. {
  2486. struct sli4_cmd_read_status *cmd = buf;
  2487. u32 flags = 0;
  2488. memset(buf, 0, SLI4_BMBX_SIZE);
  2489. cmd->hdr.command = SLI4_MBX_CMD_READ_STATUS;
  2490. if (clear_counters)
  2491. flags |= SLI4_READSTATUS_CLEAR_COUNTERS;
  2492. else
  2493. flags &= ~SLI4_READSTATUS_CLEAR_COUNTERS;
  2494. cmd->dw1_flags = cpu_to_le32(flags);
  2495. return 0;
  2496. }
  2497. int
  2498. sli_cmd_init_link(struct sli4 *sli4, void *buf, u32 speed, u8 reset_alpa)
  2499. {
  2500. struct sli4_cmd_init_link *init_link = buf;
  2501. u32 flags = 0;
  2502. memset(buf, 0, SLI4_BMBX_SIZE);
  2503. init_link->hdr.command = SLI4_MBX_CMD_INIT_LINK;
  2504. init_link->sel_reset_al_pa_dword =
  2505. cpu_to_le32(reset_alpa);
  2506. flags &= ~SLI4_INIT_LINK_F_LOOPBACK;
  2507. init_link->link_speed_sel_code = cpu_to_le32(speed);
  2508. switch (speed) {
  2509. case SLI4_LINK_SPEED_1G:
  2510. case SLI4_LINK_SPEED_2G:
  2511. case SLI4_LINK_SPEED_4G:
  2512. case SLI4_LINK_SPEED_8G:
  2513. case SLI4_LINK_SPEED_16G:
  2514. case SLI4_LINK_SPEED_32G:
  2515. case SLI4_LINK_SPEED_64G:
  2516. flags |= SLI4_INIT_LINK_F_FIXED_SPEED;
  2517. break;
  2518. case SLI4_LINK_SPEED_10G:
  2519. efc_log_info(sli4, "unsupported FC speed %d\n", speed);
  2520. init_link->flags0 = cpu_to_le32(flags);
  2521. return -EIO;
  2522. }
  2523. switch (sli4->topology) {
  2524. case SLI4_READ_CFG_TOPO_FC:
  2525. /* Attempt P2P but failover to FC-AL */
  2526. flags |= SLI4_INIT_LINK_F_FAIL_OVER;
  2527. flags |= SLI4_INIT_LINK_F_P2P_FAIL_OVER;
  2528. break;
  2529. case SLI4_READ_CFG_TOPO_FC_AL:
  2530. flags |= SLI4_INIT_LINK_F_FCAL_ONLY;
  2531. if (speed == SLI4_LINK_SPEED_16G ||
  2532. speed == SLI4_LINK_SPEED_32G) {
  2533. efc_log_info(sli4, "unsupported FC-AL speed %d\n",
  2534. speed);
  2535. init_link->flags0 = cpu_to_le32(flags);
  2536. return -EIO;
  2537. }
  2538. break;
  2539. case SLI4_READ_CFG_TOPO_NON_FC_AL:
  2540. flags |= SLI4_INIT_LINK_F_P2P_ONLY;
  2541. break;
  2542. default:
  2543. efc_log_info(sli4, "unsupported topology %#x\n", sli4->topology);
  2544. init_link->flags0 = cpu_to_le32(flags);
  2545. return -EIO;
  2546. }
  2547. flags &= ~SLI4_INIT_LINK_F_UNFAIR;
  2548. flags &= ~SLI4_INIT_LINK_F_NO_LIRP;
  2549. flags &= ~SLI4_INIT_LINK_F_LOOP_VALID_CHK;
  2550. flags &= ~SLI4_INIT_LINK_F_NO_LISA;
  2551. flags &= ~SLI4_INIT_LINK_F_PICK_HI_ALPA;
  2552. init_link->flags0 = cpu_to_le32(flags);
  2553. return 0;
  2554. }
  2555. int
  2556. sli_cmd_init_vfi(struct sli4 *sli4, void *buf, u16 vfi, u16 fcfi, u16 vpi)
  2557. {
  2558. struct sli4_cmd_init_vfi *init_vfi = buf;
  2559. u16 flags = 0;
  2560. memset(buf, 0, SLI4_BMBX_SIZE);
  2561. init_vfi->hdr.command = SLI4_MBX_CMD_INIT_VFI;
  2562. init_vfi->vfi = cpu_to_le16(vfi);
  2563. init_vfi->fcfi = cpu_to_le16(fcfi);
  2564. /*
  2565. * If the VPI is valid, initialize it at the same time as
  2566. * the VFI
  2567. */
  2568. if (vpi != U16_MAX) {
  2569. flags |= SLI4_INIT_VFI_FLAG_VP;
  2570. init_vfi->flags0_word = cpu_to_le16(flags);
  2571. init_vfi->vpi = cpu_to_le16(vpi);
  2572. }
  2573. return 0;
  2574. }
  2575. int
  2576. sli_cmd_init_vpi(struct sli4 *sli4, void *buf, u16 vpi, u16 vfi)
  2577. {
  2578. struct sli4_cmd_init_vpi *init_vpi = buf;
  2579. memset(buf, 0, SLI4_BMBX_SIZE);
  2580. init_vpi->hdr.command = SLI4_MBX_CMD_INIT_VPI;
  2581. init_vpi->vpi = cpu_to_le16(vpi);
  2582. init_vpi->vfi = cpu_to_le16(vfi);
  2583. return 0;
  2584. }
  2585. int
  2586. sli_cmd_post_xri(struct sli4 *sli4, void *buf, u16 xri_base, u16 xri_count)
  2587. {
  2588. struct sli4_cmd_post_xri *post_xri = buf;
  2589. u16 xri_count_flags = 0;
  2590. memset(buf, 0, SLI4_BMBX_SIZE);
  2591. post_xri->hdr.command = SLI4_MBX_CMD_POST_XRI;
  2592. post_xri->xri_base = cpu_to_le16(xri_base);
  2593. xri_count_flags = xri_count & SLI4_POST_XRI_COUNT;
  2594. xri_count_flags |= SLI4_POST_XRI_FLAG_ENX;
  2595. xri_count_flags |= SLI4_POST_XRI_FLAG_VAL;
  2596. post_xri->xri_count_flags = cpu_to_le16(xri_count_flags);
  2597. return 0;
  2598. }
  2599. int
  2600. sli_cmd_release_xri(struct sli4 *sli4, void *buf, u8 num_xri)
  2601. {
  2602. struct sli4_cmd_release_xri *release_xri = buf;
  2603. memset(buf, 0, SLI4_BMBX_SIZE);
  2604. release_xri->hdr.command = SLI4_MBX_CMD_RELEASE_XRI;
  2605. release_xri->xri_count_word = cpu_to_le16(num_xri &
  2606. SLI4_RELEASE_XRI_COUNT);
  2607. return 0;
  2608. }
  2609. static int
  2610. sli_cmd_read_config(struct sli4 *sli4, void *buf)
  2611. {
  2612. struct sli4_cmd_read_config *read_config = buf;
  2613. memset(buf, 0, SLI4_BMBX_SIZE);
  2614. read_config->hdr.command = SLI4_MBX_CMD_READ_CONFIG;
  2615. return 0;
  2616. }
  2617. int
  2618. sli_cmd_read_nvparms(struct sli4 *sli4, void *buf)
  2619. {
  2620. struct sli4_cmd_read_nvparms *read_nvparms = buf;
  2621. memset(buf, 0, SLI4_BMBX_SIZE);
  2622. read_nvparms->hdr.command = SLI4_MBX_CMD_READ_NVPARMS;
  2623. return 0;
  2624. }
  2625. int
  2626. sli_cmd_write_nvparms(struct sli4 *sli4, void *buf, u8 *wwpn, u8 *wwnn,
  2627. u8 hard_alpa, u32 preferred_d_id)
  2628. {
  2629. struct sli4_cmd_write_nvparms *write_nvparms = buf;
  2630. memset(buf, 0, SLI4_BMBX_SIZE);
  2631. write_nvparms->hdr.command = SLI4_MBX_CMD_WRITE_NVPARMS;
  2632. memcpy(write_nvparms->wwpn, wwpn, 8);
  2633. memcpy(write_nvparms->wwnn, wwnn, 8);
  2634. write_nvparms->hard_alpa_d_id =
  2635. cpu_to_le32((preferred_d_id << 8) | hard_alpa);
  2636. return 0;
  2637. }
  2638. static int
  2639. sli_cmd_read_rev(struct sli4 *sli4, void *buf, struct efc_dma *vpd)
  2640. {
  2641. struct sli4_cmd_read_rev *read_rev = buf;
  2642. memset(buf, 0, SLI4_BMBX_SIZE);
  2643. read_rev->hdr.command = SLI4_MBX_CMD_READ_REV;
  2644. if (vpd && vpd->size) {
  2645. read_rev->flags0_word |= cpu_to_le16(SLI4_READ_REV_FLAG_VPD);
  2646. read_rev->available_length_dword =
  2647. cpu_to_le32(vpd->size &
  2648. SLI4_READ_REV_AVAILABLE_LENGTH);
  2649. read_rev->hostbuf.low =
  2650. cpu_to_le32(lower_32_bits(vpd->phys));
  2651. read_rev->hostbuf.high =
  2652. cpu_to_le32(upper_32_bits(vpd->phys));
  2653. }
  2654. return 0;
  2655. }
  2656. int
  2657. sli_cmd_read_sparm64(struct sli4 *sli4, void *buf, struct efc_dma *dma, u16 vpi)
  2658. {
  2659. struct sli4_cmd_read_sparm64 *read_sparm64 = buf;
  2660. if (vpi == U16_MAX) {
  2661. efc_log_err(sli4, "special VPI not supported!!!\n");
  2662. return -EIO;
  2663. }
  2664. if (!dma || !dma->phys) {
  2665. efc_log_err(sli4, "bad DMA buffer\n");
  2666. return -EIO;
  2667. }
  2668. memset(buf, 0, SLI4_BMBX_SIZE);
  2669. read_sparm64->hdr.command = SLI4_MBX_CMD_READ_SPARM64;
  2670. read_sparm64->bde_64.bde_type_buflen =
  2671. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  2672. (dma->size & SLI4_BDE_LEN_MASK));
  2673. read_sparm64->bde_64.u.data.low =
  2674. cpu_to_le32(lower_32_bits(dma->phys));
  2675. read_sparm64->bde_64.u.data.high =
  2676. cpu_to_le32(upper_32_bits(dma->phys));
  2677. read_sparm64->vpi = cpu_to_le16(vpi);
  2678. return 0;
  2679. }
  2680. int
  2681. sli_cmd_read_topology(struct sli4 *sli4, void *buf, struct efc_dma *dma)
  2682. {
  2683. struct sli4_cmd_read_topology *read_topo = buf;
  2684. if (!dma || !dma->size)
  2685. return -EIO;
  2686. if (dma->size < SLI4_MIN_LOOP_MAP_BYTES) {
  2687. efc_log_err(sli4, "loop map buffer too small %zx\n", dma->size);
  2688. return -EIO;
  2689. }
  2690. memset(buf, 0, SLI4_BMBX_SIZE);
  2691. read_topo->hdr.command = SLI4_MBX_CMD_READ_TOPOLOGY;
  2692. memset(dma->virt, 0, dma->size);
  2693. read_topo->bde_loop_map.bde_type_buflen =
  2694. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  2695. (dma->size & SLI4_BDE_LEN_MASK));
  2696. read_topo->bde_loop_map.u.data.low =
  2697. cpu_to_le32(lower_32_bits(dma->phys));
  2698. read_topo->bde_loop_map.u.data.high =
  2699. cpu_to_le32(upper_32_bits(dma->phys));
  2700. return 0;
  2701. }
  2702. int
  2703. sli_cmd_reg_fcfi(struct sli4 *sli4, void *buf, u16 index,
  2704. struct sli4_cmd_rq_cfg *rq_cfg)
  2705. {
  2706. struct sli4_cmd_reg_fcfi *reg_fcfi = buf;
  2707. u32 i;
  2708. memset(buf, 0, SLI4_BMBX_SIZE);
  2709. reg_fcfi->hdr.command = SLI4_MBX_CMD_REG_FCFI;
  2710. reg_fcfi->fcf_index = cpu_to_le16(index);
  2711. for (i = 0; i < SLI4_CMD_REG_FCFI_NUM_RQ_CFG; i++) {
  2712. switch (i) {
  2713. case 0:
  2714. reg_fcfi->rqid0 = rq_cfg[0].rq_id;
  2715. break;
  2716. case 1:
  2717. reg_fcfi->rqid1 = rq_cfg[1].rq_id;
  2718. break;
  2719. case 2:
  2720. reg_fcfi->rqid2 = rq_cfg[2].rq_id;
  2721. break;
  2722. case 3:
  2723. reg_fcfi->rqid3 = rq_cfg[3].rq_id;
  2724. break;
  2725. }
  2726. reg_fcfi->rq_cfg[i].r_ctl_mask = rq_cfg[i].r_ctl_mask;
  2727. reg_fcfi->rq_cfg[i].r_ctl_match = rq_cfg[i].r_ctl_match;
  2728. reg_fcfi->rq_cfg[i].type_mask = rq_cfg[i].type_mask;
  2729. reg_fcfi->rq_cfg[i].type_match = rq_cfg[i].type_match;
  2730. }
  2731. return 0;
  2732. }
  2733. int
  2734. sli_cmd_reg_fcfi_mrq(struct sli4 *sli4, void *buf, u8 mode, u16 fcf_index,
  2735. u8 rq_selection_policy, u8 mrq_bit_mask, u16 num_mrqs,
  2736. struct sli4_cmd_rq_cfg *rq_cfg)
  2737. {
  2738. struct sli4_cmd_reg_fcfi_mrq *reg_fcfi_mrq = buf;
  2739. u32 i;
  2740. u32 mrq_flags = 0;
  2741. memset(buf, 0, SLI4_BMBX_SIZE);
  2742. reg_fcfi_mrq->hdr.command = SLI4_MBX_CMD_REG_FCFI_MRQ;
  2743. if (mode == SLI4_CMD_REG_FCFI_SET_FCFI_MODE) {
  2744. reg_fcfi_mrq->fcf_index = cpu_to_le16(fcf_index);
  2745. goto done;
  2746. }
  2747. reg_fcfi_mrq->dw8_vlan = cpu_to_le32(SLI4_REGFCFI_MRQ_MODE);
  2748. for (i = 0; i < SLI4_CMD_REG_FCFI_NUM_RQ_CFG; i++) {
  2749. reg_fcfi_mrq->rq_cfg[i].r_ctl_mask = rq_cfg[i].r_ctl_mask;
  2750. reg_fcfi_mrq->rq_cfg[i].r_ctl_match = rq_cfg[i].r_ctl_match;
  2751. reg_fcfi_mrq->rq_cfg[i].type_mask = rq_cfg[i].type_mask;
  2752. reg_fcfi_mrq->rq_cfg[i].type_match = rq_cfg[i].type_match;
  2753. switch (i) {
  2754. case 3:
  2755. reg_fcfi_mrq->rqid3 = rq_cfg[i].rq_id;
  2756. break;
  2757. case 2:
  2758. reg_fcfi_mrq->rqid2 = rq_cfg[i].rq_id;
  2759. break;
  2760. case 1:
  2761. reg_fcfi_mrq->rqid1 = rq_cfg[i].rq_id;
  2762. break;
  2763. case 0:
  2764. reg_fcfi_mrq->rqid0 = rq_cfg[i].rq_id;
  2765. break;
  2766. }
  2767. }
  2768. mrq_flags = num_mrqs & SLI4_REGFCFI_MRQ_MASK_NUM_PAIRS;
  2769. mrq_flags |= (mrq_bit_mask << 8);
  2770. mrq_flags |= (rq_selection_policy << 12);
  2771. reg_fcfi_mrq->dw9_mrqflags = cpu_to_le32(mrq_flags);
  2772. done:
  2773. return 0;
  2774. }
  2775. int
  2776. sli_cmd_reg_rpi(struct sli4 *sli4, void *buf, u32 rpi, u32 vpi, u32 fc_id,
  2777. struct efc_dma *dma, u8 update, u8 enable_t10_pi)
  2778. {
  2779. struct sli4_cmd_reg_rpi *reg_rpi = buf;
  2780. u32 rportid_flags = 0;
  2781. memset(buf, 0, SLI4_BMBX_SIZE);
  2782. reg_rpi->hdr.command = SLI4_MBX_CMD_REG_RPI;
  2783. reg_rpi->rpi = cpu_to_le16(rpi);
  2784. rportid_flags = fc_id & SLI4_REGRPI_REMOTE_N_PORTID;
  2785. if (update)
  2786. rportid_flags |= SLI4_REGRPI_UPD;
  2787. else
  2788. rportid_flags &= ~SLI4_REGRPI_UPD;
  2789. if (enable_t10_pi)
  2790. rportid_flags |= SLI4_REGRPI_ETOW;
  2791. else
  2792. rportid_flags &= ~SLI4_REGRPI_ETOW;
  2793. reg_rpi->dw2_rportid_flags = cpu_to_le32(rportid_flags);
  2794. reg_rpi->bde_64.bde_type_buflen =
  2795. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  2796. (SLI4_REG_RPI_BUF_LEN & SLI4_BDE_LEN_MASK));
  2797. reg_rpi->bde_64.u.data.low =
  2798. cpu_to_le32(lower_32_bits(dma->phys));
  2799. reg_rpi->bde_64.u.data.high =
  2800. cpu_to_le32(upper_32_bits(dma->phys));
  2801. reg_rpi->vpi = cpu_to_le16(vpi);
  2802. return 0;
  2803. }
  2804. int
  2805. sli_cmd_reg_vfi(struct sli4 *sli4, void *buf, size_t size,
  2806. u16 vfi, u16 fcfi, struct efc_dma dma,
  2807. u16 vpi, __be64 sli_wwpn, u32 fc_id)
  2808. {
  2809. struct sli4_cmd_reg_vfi *reg_vfi = buf;
  2810. memset(buf, 0, SLI4_BMBX_SIZE);
  2811. reg_vfi->hdr.command = SLI4_MBX_CMD_REG_VFI;
  2812. reg_vfi->vfi = cpu_to_le16(vfi);
  2813. reg_vfi->fcfi = cpu_to_le16(fcfi);
  2814. reg_vfi->sparm.bde_type_buflen =
  2815. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  2816. (SLI4_REG_RPI_BUF_LEN & SLI4_BDE_LEN_MASK));
  2817. reg_vfi->sparm.u.data.low =
  2818. cpu_to_le32(lower_32_bits(dma.phys));
  2819. reg_vfi->sparm.u.data.high =
  2820. cpu_to_le32(upper_32_bits(dma.phys));
  2821. reg_vfi->e_d_tov = cpu_to_le32(sli4->e_d_tov);
  2822. reg_vfi->r_a_tov = cpu_to_le32(sli4->r_a_tov);
  2823. reg_vfi->dw0w1_flags |= cpu_to_le16(SLI4_REGVFI_VP);
  2824. reg_vfi->vpi = cpu_to_le16(vpi);
  2825. memcpy(reg_vfi->wwpn, &sli_wwpn, sizeof(reg_vfi->wwpn));
  2826. reg_vfi->dw10_lportid_flags = cpu_to_le32(fc_id);
  2827. return 0;
  2828. }
  2829. int
  2830. sli_cmd_reg_vpi(struct sli4 *sli4, void *buf, u32 fc_id, __be64 sli_wwpn,
  2831. u16 vpi, u16 vfi, bool update)
  2832. {
  2833. struct sli4_cmd_reg_vpi *reg_vpi = buf;
  2834. u32 flags = 0;
  2835. memset(buf, 0, SLI4_BMBX_SIZE);
  2836. reg_vpi->hdr.command = SLI4_MBX_CMD_REG_VPI;
  2837. flags = (fc_id & SLI4_REGVPI_LOCAL_N_PORTID);
  2838. if (update)
  2839. flags |= SLI4_REGVPI_UPD;
  2840. else
  2841. flags &= ~SLI4_REGVPI_UPD;
  2842. reg_vpi->dw2_lportid_flags = cpu_to_le32(flags);
  2843. memcpy(reg_vpi->wwpn, &sli_wwpn, sizeof(reg_vpi->wwpn));
  2844. reg_vpi->vpi = cpu_to_le16(vpi);
  2845. reg_vpi->vfi = cpu_to_le16(vfi);
  2846. return 0;
  2847. }
  2848. static int
  2849. sli_cmd_request_features(struct sli4 *sli4, void *buf, u32 features_mask,
  2850. bool query)
  2851. {
  2852. struct sli4_cmd_request_features *req_features = buf;
  2853. memset(buf, 0, SLI4_BMBX_SIZE);
  2854. req_features->hdr.command = SLI4_MBX_CMD_RQST_FEATURES;
  2855. if (query)
  2856. req_features->dw1_qry = cpu_to_le32(SLI4_REQFEAT_QRY);
  2857. req_features->cmd = cpu_to_le32(features_mask);
  2858. return 0;
  2859. }
  2860. int
  2861. sli_cmd_unreg_fcfi(struct sli4 *sli4, void *buf, u16 indicator)
  2862. {
  2863. struct sli4_cmd_unreg_fcfi *unreg_fcfi = buf;
  2864. memset(buf, 0, SLI4_BMBX_SIZE);
  2865. unreg_fcfi->hdr.command = SLI4_MBX_CMD_UNREG_FCFI;
  2866. unreg_fcfi->fcfi = cpu_to_le16(indicator);
  2867. return 0;
  2868. }
  2869. int
  2870. sli_cmd_unreg_rpi(struct sli4 *sli4, void *buf, u16 indicator,
  2871. enum sli4_resource which, u32 fc_id)
  2872. {
  2873. struct sli4_cmd_unreg_rpi *unreg_rpi = buf;
  2874. u32 flags = 0;
  2875. memset(buf, 0, SLI4_BMBX_SIZE);
  2876. unreg_rpi->hdr.command = SLI4_MBX_CMD_UNREG_RPI;
  2877. switch (which) {
  2878. case SLI4_RSRC_RPI:
  2879. flags |= SLI4_UNREG_RPI_II_RPI;
  2880. if (fc_id == U32_MAX)
  2881. break;
  2882. flags |= SLI4_UNREG_RPI_DP;
  2883. unreg_rpi->dw2_dest_n_portid =
  2884. cpu_to_le32(fc_id & SLI4_UNREG_RPI_DEST_N_PORTID_MASK);
  2885. break;
  2886. case SLI4_RSRC_VPI:
  2887. flags |= SLI4_UNREG_RPI_II_VPI;
  2888. break;
  2889. case SLI4_RSRC_VFI:
  2890. flags |= SLI4_UNREG_RPI_II_VFI;
  2891. break;
  2892. case SLI4_RSRC_FCFI:
  2893. flags |= SLI4_UNREG_RPI_II_FCFI;
  2894. break;
  2895. default:
  2896. efc_log_info(sli4, "unknown type %#x\n", which);
  2897. return -EIO;
  2898. }
  2899. unreg_rpi->dw1w1_flags = cpu_to_le16(flags);
  2900. unreg_rpi->index = cpu_to_le16(indicator);
  2901. return 0;
  2902. }
  2903. int
  2904. sli_cmd_unreg_vfi(struct sli4 *sli4, void *buf, u16 index, u32 which)
  2905. {
  2906. struct sli4_cmd_unreg_vfi *unreg_vfi = buf;
  2907. memset(buf, 0, SLI4_BMBX_SIZE);
  2908. unreg_vfi->hdr.command = SLI4_MBX_CMD_UNREG_VFI;
  2909. switch (which) {
  2910. case SLI4_UNREG_TYPE_DOMAIN:
  2911. unreg_vfi->index = cpu_to_le16(index);
  2912. break;
  2913. case SLI4_UNREG_TYPE_FCF:
  2914. unreg_vfi->index = cpu_to_le16(index);
  2915. break;
  2916. case SLI4_UNREG_TYPE_ALL:
  2917. unreg_vfi->index = cpu_to_le16(U32_MAX);
  2918. break;
  2919. default:
  2920. return -EIO;
  2921. }
  2922. if (which != SLI4_UNREG_TYPE_DOMAIN)
  2923. unreg_vfi->dw2_flags = cpu_to_le16(SLI4_UNREG_VFI_II_FCFI);
  2924. return 0;
  2925. }
  2926. int
  2927. sli_cmd_unreg_vpi(struct sli4 *sli4, void *buf, u16 indicator, u32 which)
  2928. {
  2929. struct sli4_cmd_unreg_vpi *unreg_vpi = buf;
  2930. u32 flags = 0;
  2931. memset(buf, 0, SLI4_BMBX_SIZE);
  2932. unreg_vpi->hdr.command = SLI4_MBX_CMD_UNREG_VPI;
  2933. unreg_vpi->index = cpu_to_le16(indicator);
  2934. switch (which) {
  2935. case SLI4_UNREG_TYPE_PORT:
  2936. flags |= SLI4_UNREG_VPI_II_VPI;
  2937. break;
  2938. case SLI4_UNREG_TYPE_DOMAIN:
  2939. flags |= SLI4_UNREG_VPI_II_VFI;
  2940. break;
  2941. case SLI4_UNREG_TYPE_FCF:
  2942. flags |= SLI4_UNREG_VPI_II_FCFI;
  2943. break;
  2944. case SLI4_UNREG_TYPE_ALL:
  2945. /* override indicator */
  2946. unreg_vpi->index = cpu_to_le16(U32_MAX);
  2947. flags |= SLI4_UNREG_VPI_II_FCFI;
  2948. break;
  2949. default:
  2950. return -EIO;
  2951. }
  2952. unreg_vpi->dw2w0_flags = cpu_to_le16(flags);
  2953. return 0;
  2954. }
  2955. static int
  2956. sli_cmd_common_modify_eq_delay(struct sli4 *sli4, void *buf,
  2957. struct sli4_queue *q, int num_q, u32 shift,
  2958. u32 delay_mult)
  2959. {
  2960. struct sli4_rqst_cmn_modify_eq_delay *req = NULL;
  2961. int i;
  2962. req = sli_config_cmd_init(sli4, buf,
  2963. SLI4_CFG_PYLD_LENGTH(cmn_modify_eq_delay), NULL);
  2964. if (!req)
  2965. return -EIO;
  2966. sli_cmd_fill_hdr(&req->hdr, SLI4_CMN_MODIFY_EQ_DELAY,
  2967. SLI4_SUBSYSTEM_COMMON, CMD_V0,
  2968. SLI4_RQST_PYLD_LEN(cmn_modify_eq_delay));
  2969. req->num_eq = cpu_to_le32(num_q);
  2970. for (i = 0; i < num_q; i++) {
  2971. req->eq_delay_record[i].eq_id = cpu_to_le32(q[i].id);
  2972. req->eq_delay_record[i].phase = cpu_to_le32(shift);
  2973. req->eq_delay_record[i].delay_multiplier =
  2974. cpu_to_le32(delay_mult);
  2975. }
  2976. return 0;
  2977. }
  2978. void
  2979. sli4_cmd_lowlevel_set_watchdog(struct sli4 *sli4, void *buf,
  2980. size_t size, u16 timeout)
  2981. {
  2982. struct sli4_rqst_lowlevel_set_watchdog *req = NULL;
  2983. req = sli_config_cmd_init(sli4, buf,
  2984. SLI4_CFG_PYLD_LENGTH(lowlevel_set_watchdog), NULL);
  2985. if (!req)
  2986. return;
  2987. sli_cmd_fill_hdr(&req->hdr, SLI4_OPC_LOWLEVEL_SET_WATCHDOG,
  2988. SLI4_SUBSYSTEM_LOWLEVEL, CMD_V0,
  2989. SLI4_RQST_PYLD_LEN(lowlevel_set_watchdog));
  2990. req->watchdog_timeout = cpu_to_le16(timeout);
  2991. }
  2992. static int
  2993. sli_cmd_common_get_cntl_attributes(struct sli4 *sli4, void *buf,
  2994. struct efc_dma *dma)
  2995. {
  2996. struct sli4_rqst_hdr *hdr = NULL;
  2997. hdr = sli_config_cmd_init(sli4, buf, SLI4_RQST_CMDSZ(hdr), dma);
  2998. if (!hdr)
  2999. return -EIO;
  3000. hdr->opcode = SLI4_CMN_GET_CNTL_ATTRIBUTES;
  3001. hdr->subsystem = SLI4_SUBSYSTEM_COMMON;
  3002. hdr->request_length = cpu_to_le32(dma->size);
  3003. return 0;
  3004. }
  3005. static int
  3006. sli_cmd_common_get_cntl_addl_attributes(struct sli4 *sli4, void *buf,
  3007. struct efc_dma *dma)
  3008. {
  3009. struct sli4_rqst_hdr *hdr = NULL;
  3010. hdr = sli_config_cmd_init(sli4, buf, SLI4_RQST_CMDSZ(hdr), dma);
  3011. if (!hdr)
  3012. return -EIO;
  3013. hdr->opcode = SLI4_CMN_GET_CNTL_ADDL_ATTRS;
  3014. hdr->subsystem = SLI4_SUBSYSTEM_COMMON;
  3015. hdr->request_length = cpu_to_le32(dma->size);
  3016. return 0;
  3017. }
  3018. int
  3019. sli_cmd_common_nop(struct sli4 *sli4, void *buf, uint64_t context)
  3020. {
  3021. struct sli4_rqst_cmn_nop *nop = NULL;
  3022. nop = sli_config_cmd_init(sli4, buf, SLI4_CFG_PYLD_LENGTH(cmn_nop),
  3023. NULL);
  3024. if (!nop)
  3025. return -EIO;
  3026. sli_cmd_fill_hdr(&nop->hdr, SLI4_CMN_NOP, SLI4_SUBSYSTEM_COMMON,
  3027. CMD_V0, SLI4_RQST_PYLD_LEN(cmn_nop));
  3028. memcpy(&nop->context, &context, sizeof(context));
  3029. return 0;
  3030. }
  3031. int
  3032. sli_cmd_common_get_resource_extent_info(struct sli4 *sli4, void *buf, u16 rtype)
  3033. {
  3034. struct sli4_rqst_cmn_get_resource_extent_info *ext = NULL;
  3035. ext = sli_config_cmd_init(sli4, buf,
  3036. SLI4_RQST_CMDSZ(cmn_get_resource_extent_info), NULL);
  3037. if (!ext)
  3038. return -EIO;
  3039. sli_cmd_fill_hdr(&ext->hdr, SLI4_CMN_GET_RSC_EXTENT_INFO,
  3040. SLI4_SUBSYSTEM_COMMON, CMD_V0,
  3041. SLI4_RQST_PYLD_LEN(cmn_get_resource_extent_info));
  3042. ext->resource_type = cpu_to_le16(rtype);
  3043. return 0;
  3044. }
  3045. int
  3046. sli_cmd_common_get_sli4_parameters(struct sli4 *sli4, void *buf)
  3047. {
  3048. struct sli4_rqst_hdr *hdr = NULL;
  3049. hdr = sli_config_cmd_init(sli4, buf,
  3050. SLI4_CFG_PYLD_LENGTH(cmn_get_sli4_params), NULL);
  3051. if (!hdr)
  3052. return -EIO;
  3053. hdr->opcode = SLI4_CMN_GET_SLI4_PARAMS;
  3054. hdr->subsystem = SLI4_SUBSYSTEM_COMMON;
  3055. hdr->request_length = SLI4_RQST_PYLD_LEN(cmn_get_sli4_params);
  3056. return 0;
  3057. }
  3058. static int
  3059. sli_cmd_common_get_port_name(struct sli4 *sli4, void *buf)
  3060. {
  3061. struct sli4_rqst_cmn_get_port_name *pname;
  3062. pname = sli_config_cmd_init(sli4, buf,
  3063. SLI4_CFG_PYLD_LENGTH(cmn_get_port_name), NULL);
  3064. if (!pname)
  3065. return -EIO;
  3066. sli_cmd_fill_hdr(&pname->hdr, SLI4_CMN_GET_PORT_NAME,
  3067. SLI4_SUBSYSTEM_COMMON, CMD_V1,
  3068. SLI4_RQST_PYLD_LEN(cmn_get_port_name));
  3069. /* Set the port type value (ethernet=0, FC=1) for V1 commands */
  3070. pname->port_type = SLI4_PORT_TYPE_FC;
  3071. return 0;
  3072. }
  3073. int
  3074. sli_cmd_common_write_object(struct sli4 *sli4, void *buf, u16 noc,
  3075. u16 eof, u32 desired_write_length,
  3076. u32 offset, char *obj_name,
  3077. struct efc_dma *dma)
  3078. {
  3079. struct sli4_rqst_cmn_write_object *wr_obj = NULL;
  3080. struct sli4_bde *bde;
  3081. u32 dwflags = 0;
  3082. wr_obj = sli_config_cmd_init(sli4, buf,
  3083. SLI4_RQST_CMDSZ(cmn_write_object) + sizeof(*bde), NULL);
  3084. if (!wr_obj)
  3085. return -EIO;
  3086. sli_cmd_fill_hdr(&wr_obj->hdr, SLI4_CMN_WRITE_OBJECT,
  3087. SLI4_SUBSYSTEM_COMMON, CMD_V0,
  3088. SLI4_RQST_PYLD_LEN_VAR(cmn_write_object, sizeof(*bde)));
  3089. if (noc)
  3090. dwflags |= SLI4_RQ_DES_WRITE_LEN_NOC;
  3091. if (eof)
  3092. dwflags |= SLI4_RQ_DES_WRITE_LEN_EOF;
  3093. dwflags |= (desired_write_length & SLI4_RQ_DES_WRITE_LEN);
  3094. wr_obj->desired_write_len_dword = cpu_to_le32(dwflags);
  3095. wr_obj->write_offset = cpu_to_le32(offset);
  3096. strscpy(wr_obj->object_name, obj_name);
  3097. wr_obj->host_buffer_descriptor_count = cpu_to_le32(1);
  3098. bde = (struct sli4_bde *)wr_obj->host_buffer_descriptor;
  3099. /* Setup to transfer xfer_size bytes to device */
  3100. bde->bde_type_buflen =
  3101. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  3102. (desired_write_length & SLI4_BDE_LEN_MASK));
  3103. bde->u.data.low = cpu_to_le32(lower_32_bits(dma->phys));
  3104. bde->u.data.high = cpu_to_le32(upper_32_bits(dma->phys));
  3105. return 0;
  3106. }
  3107. int
  3108. sli_cmd_common_delete_object(struct sli4 *sli4, void *buf, char *obj_name)
  3109. {
  3110. struct sli4_rqst_cmn_delete_object *req = NULL;
  3111. req = sli_config_cmd_init(sli4, buf,
  3112. SLI4_RQST_CMDSZ(cmn_delete_object), NULL);
  3113. if (!req)
  3114. return -EIO;
  3115. sli_cmd_fill_hdr(&req->hdr, SLI4_CMN_DELETE_OBJECT,
  3116. SLI4_SUBSYSTEM_COMMON, CMD_V0,
  3117. SLI4_RQST_PYLD_LEN(cmn_delete_object));
  3118. strscpy(req->object_name, obj_name);
  3119. return 0;
  3120. }
  3121. int
  3122. sli_cmd_common_read_object(struct sli4 *sli4, void *buf, u32 desired_read_len,
  3123. u32 offset, char *obj_name, struct efc_dma *dma)
  3124. {
  3125. struct sli4_rqst_cmn_read_object *rd_obj = NULL;
  3126. struct sli4_bde *bde;
  3127. rd_obj = sli_config_cmd_init(sli4, buf,
  3128. SLI4_RQST_CMDSZ(cmn_read_object) + sizeof(*bde), NULL);
  3129. if (!rd_obj)
  3130. return -EIO;
  3131. sli_cmd_fill_hdr(&rd_obj->hdr, SLI4_CMN_READ_OBJECT,
  3132. SLI4_SUBSYSTEM_COMMON, CMD_V0,
  3133. SLI4_RQST_PYLD_LEN_VAR(cmn_read_object, sizeof(*bde)));
  3134. rd_obj->desired_read_length_dword =
  3135. cpu_to_le32(desired_read_len & SLI4_REQ_DESIRE_READLEN);
  3136. rd_obj->read_offset = cpu_to_le32(offset);
  3137. strscpy(rd_obj->object_name, obj_name);
  3138. rd_obj->host_buffer_descriptor_count = cpu_to_le32(1);
  3139. bde = (struct sli4_bde *)rd_obj->host_buffer_descriptor;
  3140. /* Setup to transfer xfer_size bytes to device */
  3141. bde->bde_type_buflen =
  3142. cpu_to_le32((SLI4_BDE_TYPE_VAL(64)) |
  3143. (desired_read_len & SLI4_BDE_LEN_MASK));
  3144. if (dma) {
  3145. bde->u.data.low = cpu_to_le32(lower_32_bits(dma->phys));
  3146. bde->u.data.high = cpu_to_le32(upper_32_bits(dma->phys));
  3147. } else {
  3148. bde->u.data.low = 0;
  3149. bde->u.data.high = 0;
  3150. }
  3151. return 0;
  3152. }
  3153. int
  3154. sli_cmd_dmtf_exec_clp_cmd(struct sli4 *sli4, void *buf, struct efc_dma *cmd,
  3155. struct efc_dma *resp)
  3156. {
  3157. struct sli4_rqst_dmtf_exec_clp_cmd *clp_cmd = NULL;
  3158. clp_cmd = sli_config_cmd_init(sli4, buf,
  3159. SLI4_RQST_CMDSZ(dmtf_exec_clp_cmd), NULL);
  3160. if (!clp_cmd)
  3161. return -EIO;
  3162. sli_cmd_fill_hdr(&clp_cmd->hdr, DMTF_EXEC_CLP_CMD, SLI4_SUBSYSTEM_DMTF,
  3163. CMD_V0, SLI4_RQST_PYLD_LEN(dmtf_exec_clp_cmd));
  3164. clp_cmd->cmd_buf_length = cpu_to_le32(cmd->size);
  3165. clp_cmd->cmd_buf_addr_low = cpu_to_le32(lower_32_bits(cmd->phys));
  3166. clp_cmd->cmd_buf_addr_high = cpu_to_le32(upper_32_bits(cmd->phys));
  3167. clp_cmd->resp_buf_length = cpu_to_le32(resp->size);
  3168. clp_cmd->resp_buf_addr_low = cpu_to_le32(lower_32_bits(resp->phys));
  3169. clp_cmd->resp_buf_addr_high = cpu_to_le32(upper_32_bits(resp->phys));
  3170. return 0;
  3171. }
  3172. int
  3173. sli_cmd_common_set_dump_location(struct sli4 *sli4, void *buf, bool query,
  3174. bool is_buffer_list,
  3175. struct efc_dma *buffer, u8 fdb)
  3176. {
  3177. struct sli4_rqst_cmn_set_dump_location *set_dump_loc = NULL;
  3178. u32 buffer_length_flag = 0;
  3179. set_dump_loc = sli_config_cmd_init(sli4, buf,
  3180. SLI4_RQST_CMDSZ(cmn_set_dump_location), NULL);
  3181. if (!set_dump_loc)
  3182. return -EIO;
  3183. sli_cmd_fill_hdr(&set_dump_loc->hdr, SLI4_CMN_SET_DUMP_LOCATION,
  3184. SLI4_SUBSYSTEM_COMMON, CMD_V0,
  3185. SLI4_RQST_PYLD_LEN(cmn_set_dump_location));
  3186. if (is_buffer_list)
  3187. buffer_length_flag |= SLI4_CMN_SET_DUMP_BLP;
  3188. if (query)
  3189. buffer_length_flag |= SLI4_CMN_SET_DUMP_QRY;
  3190. if (fdb)
  3191. buffer_length_flag |= SLI4_CMN_SET_DUMP_FDB;
  3192. if (buffer) {
  3193. set_dump_loc->buf_addr_low =
  3194. cpu_to_le32(lower_32_bits(buffer->phys));
  3195. set_dump_loc->buf_addr_high =
  3196. cpu_to_le32(upper_32_bits(buffer->phys));
  3197. buffer_length_flag |=
  3198. buffer->len & SLI4_CMN_SET_DUMP_BUFFER_LEN;
  3199. } else {
  3200. set_dump_loc->buf_addr_low = 0;
  3201. set_dump_loc->buf_addr_high = 0;
  3202. set_dump_loc->buffer_length_dword = 0;
  3203. }
  3204. set_dump_loc->buffer_length_dword = cpu_to_le32(buffer_length_flag);
  3205. return 0;
  3206. }
  3207. int
  3208. sli_cmd_common_set_features(struct sli4 *sli4, void *buf, u32 feature,
  3209. u32 param_len, void *parameter)
  3210. {
  3211. struct sli4_rqst_cmn_set_features *cmd = NULL;
  3212. cmd = sli_config_cmd_init(sli4, buf,
  3213. SLI4_RQST_CMDSZ(cmn_set_features), NULL);
  3214. if (!cmd)
  3215. return -EIO;
  3216. sli_cmd_fill_hdr(&cmd->hdr, SLI4_CMN_SET_FEATURES,
  3217. SLI4_SUBSYSTEM_COMMON, CMD_V0,
  3218. SLI4_RQST_PYLD_LEN(cmn_set_features));
  3219. cmd->feature = cpu_to_le32(feature);
  3220. cmd->param_len = cpu_to_le32(param_len);
  3221. memcpy(cmd->params, parameter, param_len);
  3222. return 0;
  3223. }
  3224. int
  3225. sli_cqe_mq(struct sli4 *sli4, void *buf)
  3226. {
  3227. struct sli4_mcqe *mcqe = buf;
  3228. u32 dwflags = le32_to_cpu(mcqe->dw3_flags);
  3229. /*
  3230. * Firmware can split mbx completions into two MCQEs: first with only
  3231. * the "consumed" bit set and a second with the "complete" bit set.
  3232. * Thus, ignore MCQE unless "complete" is set.
  3233. */
  3234. if (!(dwflags & SLI4_MCQE_COMPLETED))
  3235. return SLI4_MCQE_STATUS_NOT_COMPLETED;
  3236. if (le16_to_cpu(mcqe->completion_status)) {
  3237. efc_log_info(sli4, "status(st=%#x ext=%#x con=%d cmp=%d ae=%d val=%d)\n",
  3238. le16_to_cpu(mcqe->completion_status),
  3239. le16_to_cpu(mcqe->extended_status),
  3240. (dwflags & SLI4_MCQE_CONSUMED),
  3241. (dwflags & SLI4_MCQE_COMPLETED),
  3242. (dwflags & SLI4_MCQE_AE),
  3243. (dwflags & SLI4_MCQE_VALID));
  3244. }
  3245. return le16_to_cpu(mcqe->completion_status);
  3246. }
  3247. int
  3248. sli_cqe_async(struct sli4 *sli4, void *buf)
  3249. {
  3250. struct sli4_acqe *acqe = buf;
  3251. int rc = -EIO;
  3252. if (!buf) {
  3253. efc_log_err(sli4, "bad parameter sli4=%p buf=%p\n", sli4, buf);
  3254. return -EIO;
  3255. }
  3256. switch (acqe->event_code) {
  3257. case SLI4_ACQE_EVENT_CODE_LINK_STATE:
  3258. efc_log_info(sli4, "Unsupported by FC link, evt code:%#x\n",
  3259. acqe->event_code);
  3260. break;
  3261. case SLI4_ACQE_EVENT_CODE_GRP_5:
  3262. efc_log_info(sli4, "ACQE GRP5\n");
  3263. break;
  3264. case SLI4_ACQE_EVENT_CODE_SLI_PORT_EVENT:
  3265. efc_log_info(sli4, "ACQE SLI Port, type=0x%x, data1,2=0x%08x,0x%08x\n",
  3266. acqe->event_type,
  3267. le32_to_cpu(acqe->event_data[0]),
  3268. le32_to_cpu(acqe->event_data[1]));
  3269. break;
  3270. case SLI4_ACQE_EVENT_CODE_FC_LINK_EVENT:
  3271. rc = sli_fc_process_link_attention(sli4, buf);
  3272. break;
  3273. default:
  3274. efc_log_info(sli4, "ACQE unknown=%#x\n", acqe->event_code);
  3275. }
  3276. return rc;
  3277. }
  3278. bool
  3279. sli_fw_ready(struct sli4 *sli4)
  3280. {
  3281. u32 val;
  3282. /* Determine if the chip FW is in a ready state */
  3283. val = sli_reg_read_status(sli4);
  3284. return (val & SLI4_PORT_STATUS_RDY) ? 1 : 0;
  3285. }
  3286. static bool
  3287. sli_wait_for_fw_ready(struct sli4 *sli4, u32 timeout_ms)
  3288. {
  3289. unsigned long end;
  3290. end = jiffies + msecs_to_jiffies(timeout_ms);
  3291. do {
  3292. if (sli_fw_ready(sli4))
  3293. return true;
  3294. usleep_range(1000, 2000);
  3295. } while (time_before(jiffies, end));
  3296. return false;
  3297. }
  3298. static bool
  3299. sli_sliport_reset(struct sli4 *sli4)
  3300. {
  3301. bool rc;
  3302. u32 val;
  3303. val = SLI4_PORT_CTRL_IP;
  3304. /* Initialize port, endian */
  3305. writel(val, (sli4->reg[0] + SLI4_PORT_CTRL_REG));
  3306. rc = sli_wait_for_fw_ready(sli4, SLI4_FW_READY_TIMEOUT_MSEC);
  3307. if (!rc)
  3308. efc_log_crit(sli4, "port failed to become ready after initialization\n");
  3309. return rc;
  3310. }
  3311. static bool
  3312. sli_fw_init(struct sli4 *sli4)
  3313. {
  3314. /*
  3315. * Is firmware ready for operation?
  3316. */
  3317. if (!sli_wait_for_fw_ready(sli4, SLI4_FW_READY_TIMEOUT_MSEC)) {
  3318. efc_log_crit(sli4, "FW status is NOT ready\n");
  3319. return false;
  3320. }
  3321. /*
  3322. * Reset port to a known state
  3323. */
  3324. return sli_sliport_reset(sli4);
  3325. }
  3326. static int
  3327. sli_request_features(struct sli4 *sli4, u32 *features, bool query)
  3328. {
  3329. struct sli4_cmd_request_features *req_features = sli4->bmbx.virt;
  3330. if (sli_cmd_request_features(sli4, sli4->bmbx.virt, *features, query)) {
  3331. efc_log_err(sli4, "bad REQUEST_FEATURES write\n");
  3332. return -EIO;
  3333. }
  3334. if (sli_bmbx_command(sli4)) {
  3335. efc_log_crit(sli4, "bootstrap mailbox write fail\n");
  3336. return -EIO;
  3337. }
  3338. if (le16_to_cpu(req_features->hdr.status)) {
  3339. efc_log_err(sli4, "REQUEST_FEATURES bad status %#x\n",
  3340. le16_to_cpu(req_features->hdr.status));
  3341. return -EIO;
  3342. }
  3343. *features = le32_to_cpu(req_features->resp);
  3344. return 0;
  3345. }
  3346. void
  3347. sli_calc_max_qentries(struct sli4 *sli4)
  3348. {
  3349. enum sli4_qtype q;
  3350. u32 qentries;
  3351. for (q = SLI4_QTYPE_EQ; q < SLI4_QTYPE_MAX; q++) {
  3352. sli4->qinfo.max_qentries[q] =
  3353. sli_convert_mask_to_count(sli4->qinfo.count_method[q],
  3354. sli4->qinfo.count_mask[q]);
  3355. }
  3356. /* single, contiguous DMA allocations will be called for each queue
  3357. * of size (max_qentries * queue entry size); since these can be large,
  3358. * check against the OS max DMA allocation size
  3359. */
  3360. for (q = SLI4_QTYPE_EQ; q < SLI4_QTYPE_MAX; q++) {
  3361. qentries = sli4->qinfo.max_qentries[q];
  3362. efc_log_info(sli4, "[%s]: max_qentries from %d to %d\n",
  3363. SLI4_QNAME[q],
  3364. sli4->qinfo.max_qentries[q], qentries);
  3365. sli4->qinfo.max_qentries[q] = qentries;
  3366. }
  3367. }
  3368. static int
  3369. sli_get_read_config(struct sli4 *sli4)
  3370. {
  3371. struct sli4_rsp_read_config *conf = sli4->bmbx.virt;
  3372. u32 i, total;
  3373. u32 *base;
  3374. if (sli_cmd_read_config(sli4, sli4->bmbx.virt)) {
  3375. efc_log_err(sli4, "bad READ_CONFIG write\n");
  3376. return -EIO;
  3377. }
  3378. if (sli_bmbx_command(sli4)) {
  3379. efc_log_crit(sli4, "bootstrap mailbox fail (READ_CONFIG)\n");
  3380. return -EIO;
  3381. }
  3382. if (le16_to_cpu(conf->hdr.status)) {
  3383. efc_log_err(sli4, "READ_CONFIG bad status %#x\n",
  3384. le16_to_cpu(conf->hdr.status));
  3385. return -EIO;
  3386. }
  3387. sli4->params.has_extents =
  3388. le32_to_cpu(conf->ext_dword) & SLI4_READ_CFG_RESP_RESOURCE_EXT;
  3389. if (sli4->params.has_extents) {
  3390. efc_log_err(sli4, "extents not supported\n");
  3391. return -EIO;
  3392. }
  3393. base = sli4->ext[0].base;
  3394. if (!base) {
  3395. int size = SLI4_RSRC_MAX * sizeof(u32);
  3396. base = kzalloc(size, GFP_KERNEL);
  3397. if (!base)
  3398. return -EIO;
  3399. }
  3400. for (i = 0; i < SLI4_RSRC_MAX; i++) {
  3401. sli4->ext[i].number = 1;
  3402. sli4->ext[i].n_alloc = 0;
  3403. sli4->ext[i].base = &base[i];
  3404. }
  3405. sli4->ext[SLI4_RSRC_VFI].base[0] = le16_to_cpu(conf->vfi_base);
  3406. sli4->ext[SLI4_RSRC_VFI].size = le16_to_cpu(conf->vfi_count);
  3407. sli4->ext[SLI4_RSRC_VPI].base[0] = le16_to_cpu(conf->vpi_base);
  3408. sli4->ext[SLI4_RSRC_VPI].size = le16_to_cpu(conf->vpi_count);
  3409. sli4->ext[SLI4_RSRC_RPI].base[0] = le16_to_cpu(conf->rpi_base);
  3410. sli4->ext[SLI4_RSRC_RPI].size = le16_to_cpu(conf->rpi_count);
  3411. sli4->ext[SLI4_RSRC_XRI].base[0] = le16_to_cpu(conf->xri_base);
  3412. sli4->ext[SLI4_RSRC_XRI].size = le16_to_cpu(conf->xri_count);
  3413. sli4->ext[SLI4_RSRC_FCFI].base[0] = 0;
  3414. sli4->ext[SLI4_RSRC_FCFI].size = le16_to_cpu(conf->fcfi_count);
  3415. for (i = 0; i < SLI4_RSRC_MAX; i++) {
  3416. total = sli4->ext[i].number * sli4->ext[i].size;
  3417. sli4->ext[i].use_map = bitmap_zalloc(total, GFP_KERNEL);
  3418. if (!sli4->ext[i].use_map) {
  3419. efc_log_err(sli4, "bitmap memory allocation failed %d\n",
  3420. i);
  3421. return -EIO;
  3422. }
  3423. sli4->ext[i].map_size = total;
  3424. }
  3425. sli4->topology = (le32_to_cpu(conf->topology_dword) &
  3426. SLI4_READ_CFG_RESP_TOPOLOGY) >> 24;
  3427. switch (sli4->topology) {
  3428. case SLI4_READ_CFG_TOPO_FC:
  3429. efc_log_info(sli4, "FC (unknown)\n");
  3430. break;
  3431. case SLI4_READ_CFG_TOPO_NON_FC_AL:
  3432. efc_log_info(sli4, "FC (direct attach)\n");
  3433. break;
  3434. case SLI4_READ_CFG_TOPO_FC_AL:
  3435. efc_log_info(sli4, "FC (arbitrated loop)\n");
  3436. break;
  3437. default:
  3438. efc_log_info(sli4, "bad topology %#x\n", sli4->topology);
  3439. }
  3440. sli4->e_d_tov = le16_to_cpu(conf->e_d_tov);
  3441. sli4->r_a_tov = le16_to_cpu(conf->r_a_tov);
  3442. sli4->link_module_type = le16_to_cpu(conf->lmt);
  3443. sli4->qinfo.max_qcount[SLI4_QTYPE_EQ] = le16_to_cpu(conf->eq_count);
  3444. sli4->qinfo.max_qcount[SLI4_QTYPE_CQ] = le16_to_cpu(conf->cq_count);
  3445. sli4->qinfo.max_qcount[SLI4_QTYPE_WQ] = le16_to_cpu(conf->wq_count);
  3446. sli4->qinfo.max_qcount[SLI4_QTYPE_RQ] = le16_to_cpu(conf->rq_count);
  3447. /*
  3448. * READ_CONFIG doesn't give the max number of MQ. Applications
  3449. * will typically want 1, but we may need another at some future
  3450. * date. Dummy up a "max" MQ count here.
  3451. */
  3452. sli4->qinfo.max_qcount[SLI4_QTYPE_MQ] = SLI4_USER_MQ_COUNT;
  3453. return 0;
  3454. }
  3455. static int
  3456. sli_get_sli4_parameters(struct sli4 *sli4)
  3457. {
  3458. struct sli4_rsp_cmn_get_sli4_params *parms;
  3459. u32 dw_loopback;
  3460. u32 dw_eq_pg_cnt;
  3461. u32 dw_cq_pg_cnt;
  3462. u32 dw_mq_pg_cnt;
  3463. u32 dw_wq_pg_cnt;
  3464. u32 dw_rq_pg_cnt;
  3465. u32 dw_sgl_pg_cnt;
  3466. if (sli_cmd_common_get_sli4_parameters(sli4, sli4->bmbx.virt))
  3467. return -EIO;
  3468. parms = (struct sli4_rsp_cmn_get_sli4_params *)
  3469. (((u8 *)sli4->bmbx.virt) +
  3470. offsetof(struct sli4_cmd_sli_config, payload.embed));
  3471. if (sli_bmbx_command(sli4)) {
  3472. efc_log_crit(sli4, "bootstrap mailbox write fail\n");
  3473. return -EIO;
  3474. }
  3475. if (parms->hdr.status) {
  3476. efc_log_err(sli4, "COMMON_GET_SLI4_PARAMETERS bad status %#x",
  3477. parms->hdr.status);
  3478. efc_log_err(sli4, "additional status %#x\n",
  3479. parms->hdr.additional_status);
  3480. return -EIO;
  3481. }
  3482. dw_loopback = le32_to_cpu(parms->dw16_loopback_scope);
  3483. dw_eq_pg_cnt = le32_to_cpu(parms->dw6_eq_page_cnt);
  3484. dw_cq_pg_cnt = le32_to_cpu(parms->dw8_cq_page_cnt);
  3485. dw_mq_pg_cnt = le32_to_cpu(parms->dw10_mq_page_cnt);
  3486. dw_wq_pg_cnt = le32_to_cpu(parms->dw12_wq_page_cnt);
  3487. dw_rq_pg_cnt = le32_to_cpu(parms->dw14_rq_page_cnt);
  3488. sli4->params.auto_reg = (dw_loopback & SLI4_PARAM_AREG);
  3489. sli4->params.auto_xfer_rdy = (dw_loopback & SLI4_PARAM_AGXF);
  3490. sli4->params.hdr_template_req = (dw_loopback & SLI4_PARAM_HDRR);
  3491. sli4->params.t10_dif_inline_capable = (dw_loopback & SLI4_PARAM_TIMM);
  3492. sli4->params.t10_dif_separate_capable = (dw_loopback & SLI4_PARAM_TSMM);
  3493. sli4->params.mq_create_version = GET_Q_CREATE_VERSION(dw_mq_pg_cnt);
  3494. sli4->params.cq_create_version = GET_Q_CREATE_VERSION(dw_cq_pg_cnt);
  3495. sli4->rq_min_buf_size = le16_to_cpu(parms->min_rq_buffer_size);
  3496. sli4->rq_max_buf_size = le32_to_cpu(parms->max_rq_buffer_size);
  3497. sli4->qinfo.qpage_count[SLI4_QTYPE_EQ] =
  3498. (dw_eq_pg_cnt & SLI4_PARAM_EQ_PAGE_CNT_MASK);
  3499. sli4->qinfo.qpage_count[SLI4_QTYPE_CQ] =
  3500. (dw_cq_pg_cnt & SLI4_PARAM_CQ_PAGE_CNT_MASK);
  3501. sli4->qinfo.qpage_count[SLI4_QTYPE_MQ] =
  3502. (dw_mq_pg_cnt & SLI4_PARAM_MQ_PAGE_CNT_MASK);
  3503. sli4->qinfo.qpage_count[SLI4_QTYPE_WQ] =
  3504. (dw_wq_pg_cnt & SLI4_PARAM_WQ_PAGE_CNT_MASK);
  3505. sli4->qinfo.qpage_count[SLI4_QTYPE_RQ] =
  3506. (dw_rq_pg_cnt & SLI4_PARAM_RQ_PAGE_CNT_MASK);
  3507. /* save count methods and masks for each queue type */
  3508. sli4->qinfo.count_mask[SLI4_QTYPE_EQ] =
  3509. le16_to_cpu(parms->eqe_count_mask);
  3510. sli4->qinfo.count_method[SLI4_QTYPE_EQ] =
  3511. GET_Q_CNT_METHOD(dw_eq_pg_cnt);
  3512. sli4->qinfo.count_mask[SLI4_QTYPE_CQ] =
  3513. le16_to_cpu(parms->cqe_count_mask);
  3514. sli4->qinfo.count_method[SLI4_QTYPE_CQ] =
  3515. GET_Q_CNT_METHOD(dw_cq_pg_cnt);
  3516. sli4->qinfo.count_mask[SLI4_QTYPE_MQ] =
  3517. le16_to_cpu(parms->mqe_count_mask);
  3518. sli4->qinfo.count_method[SLI4_QTYPE_MQ] =
  3519. GET_Q_CNT_METHOD(dw_mq_pg_cnt);
  3520. sli4->qinfo.count_mask[SLI4_QTYPE_WQ] =
  3521. le16_to_cpu(parms->wqe_count_mask);
  3522. sli4->qinfo.count_method[SLI4_QTYPE_WQ] =
  3523. GET_Q_CNT_METHOD(dw_wq_pg_cnt);
  3524. sli4->qinfo.count_mask[SLI4_QTYPE_RQ] =
  3525. le16_to_cpu(parms->rqe_count_mask);
  3526. sli4->qinfo.count_method[SLI4_QTYPE_RQ] =
  3527. GET_Q_CNT_METHOD(dw_rq_pg_cnt);
  3528. /* now calculate max queue entries */
  3529. sli_calc_max_qentries(sli4);
  3530. dw_sgl_pg_cnt = le32_to_cpu(parms->dw18_sgl_page_cnt);
  3531. /* max # of pages */
  3532. sli4->max_sgl_pages = (dw_sgl_pg_cnt & SLI4_PARAM_SGL_PAGE_CNT_MASK);
  3533. /* bit map of available sizes */
  3534. sli4->sgl_page_sizes = (dw_sgl_pg_cnt &
  3535. SLI4_PARAM_SGL_PAGE_SZS_MASK) >> 8;
  3536. /* ignore HLM here. Use value from REQUEST_FEATURES */
  3537. sli4->sge_supported_length = le32_to_cpu(parms->sge_supported_length);
  3538. sli4->params.sgl_pre_reg_required = (dw_loopback & SLI4_PARAM_SGLR);
  3539. /* default to using pre-registered SGL's */
  3540. sli4->params.sgl_pre_registered = true;
  3541. sli4->params.perf_hint = dw_loopback & SLI4_PARAM_PHON;
  3542. sli4->params.perf_wq_id_association = (dw_loopback & SLI4_PARAM_PHWQ);
  3543. sli4->rq_batch = (le16_to_cpu(parms->dw15w1_rq_db_window) &
  3544. SLI4_PARAM_RQ_DB_WINDOW_MASK) >> 12;
  3545. /* Use the highest available WQE size. */
  3546. if (((dw_wq_pg_cnt & SLI4_PARAM_WQE_SZS_MASK) >> 8) &
  3547. SLI4_128BYTE_WQE_SUPPORT)
  3548. sli4->wqe_size = SLI4_WQE_EXT_BYTES;
  3549. else
  3550. sli4->wqe_size = SLI4_WQE_BYTES;
  3551. return 0;
  3552. }
  3553. static int
  3554. sli_get_ctrl_attributes(struct sli4 *sli4)
  3555. {
  3556. struct sli4_rsp_cmn_get_cntl_attributes *attr;
  3557. struct sli4_rsp_cmn_get_cntl_addl_attributes *add_attr;
  3558. struct efc_dma data;
  3559. u32 psize;
  3560. /*
  3561. * Issue COMMON_GET_CNTL_ATTRIBUTES to get port_number. Temporarily
  3562. * uses VPD DMA buffer as the response won't fit in the embedded
  3563. * buffer.
  3564. */
  3565. memset(sli4->vpd_data.virt, 0, sli4->vpd_data.size);
  3566. if (sli_cmd_common_get_cntl_attributes(sli4, sli4->bmbx.virt,
  3567. &sli4->vpd_data)) {
  3568. efc_log_err(sli4, "bad COMMON_GET_CNTL_ATTRIBUTES write\n");
  3569. return -EIO;
  3570. }
  3571. attr = sli4->vpd_data.virt;
  3572. if (sli_bmbx_command(sli4)) {
  3573. efc_log_crit(sli4, "bootstrap mailbox write fail\n");
  3574. return -EIO;
  3575. }
  3576. if (attr->hdr.status) {
  3577. efc_log_err(sli4, "COMMON_GET_CNTL_ATTRIBUTES bad status %#x",
  3578. attr->hdr.status);
  3579. efc_log_err(sli4, "additional status %#x\n",
  3580. attr->hdr.additional_status);
  3581. return -EIO;
  3582. }
  3583. sli4->port_number = attr->port_num_type_flags & SLI4_CNTL_ATTR_PORTNUM;
  3584. memcpy(sli4->bios_version_string, attr->bios_version_str,
  3585. sizeof(sli4->bios_version_string));
  3586. /* get additional attributes */
  3587. psize = sizeof(struct sli4_rsp_cmn_get_cntl_addl_attributes);
  3588. data.size = psize;
  3589. data.virt = dma_alloc_coherent(&sli4->pci->dev, data.size,
  3590. &data.phys, GFP_KERNEL);
  3591. if (!data.virt) {
  3592. memset(&data, 0, sizeof(struct efc_dma));
  3593. efc_log_err(sli4, "Failed to allocate memory for GET_CNTL_ADDL_ATTR\n");
  3594. return -EIO;
  3595. }
  3596. if (sli_cmd_common_get_cntl_addl_attributes(sli4, sli4->bmbx.virt,
  3597. &data)) {
  3598. efc_log_err(sli4, "bad GET_CNTL_ADDL_ATTR write\n");
  3599. dma_free_coherent(&sli4->pci->dev, data.size,
  3600. data.virt, data.phys);
  3601. return -EIO;
  3602. }
  3603. if (sli_bmbx_command(sli4)) {
  3604. efc_log_crit(sli4, "mailbox fail (GET_CNTL_ADDL_ATTR)\n");
  3605. dma_free_coherent(&sli4->pci->dev, data.size,
  3606. data.virt, data.phys);
  3607. return -EIO;
  3608. }
  3609. add_attr = data.virt;
  3610. if (add_attr->hdr.status) {
  3611. efc_log_err(sli4, "GET_CNTL_ADDL_ATTR bad status %#x\n",
  3612. add_attr->hdr.status);
  3613. dma_free_coherent(&sli4->pci->dev, data.size,
  3614. data.virt, data.phys);
  3615. return -EIO;
  3616. }
  3617. memcpy(sli4->ipl_name, add_attr->ipl_file_name, sizeof(sli4->ipl_name));
  3618. efc_log_info(sli4, "IPL:%s\n", (char *)sli4->ipl_name);
  3619. dma_free_coherent(&sli4->pci->dev, data.size, data.virt,
  3620. data.phys);
  3621. memset(&data, 0, sizeof(struct efc_dma));
  3622. return 0;
  3623. }
  3624. static int
  3625. sli_get_fw_rev(struct sli4 *sli4)
  3626. {
  3627. struct sli4_cmd_read_rev *read_rev = sli4->bmbx.virt;
  3628. if (sli_cmd_read_rev(sli4, sli4->bmbx.virt, &sli4->vpd_data))
  3629. return -EIO;
  3630. if (sli_bmbx_command(sli4)) {
  3631. efc_log_crit(sli4, "bootstrap mailbox write fail (READ_REV)\n");
  3632. return -EIO;
  3633. }
  3634. if (le16_to_cpu(read_rev->hdr.status)) {
  3635. efc_log_err(sli4, "READ_REV bad status %#x\n",
  3636. le16_to_cpu(read_rev->hdr.status));
  3637. return -EIO;
  3638. }
  3639. sli4->fw_rev[0] = le32_to_cpu(read_rev->first_fw_id);
  3640. memcpy(sli4->fw_name[0], read_rev->first_fw_name,
  3641. sizeof(sli4->fw_name[0]));
  3642. sli4->fw_rev[1] = le32_to_cpu(read_rev->second_fw_id);
  3643. memcpy(sli4->fw_name[1], read_rev->second_fw_name,
  3644. sizeof(sli4->fw_name[1]));
  3645. sli4->hw_rev[0] = le32_to_cpu(read_rev->first_hw_rev);
  3646. sli4->hw_rev[1] = le32_to_cpu(read_rev->second_hw_rev);
  3647. sli4->hw_rev[2] = le32_to_cpu(read_rev->third_hw_rev);
  3648. efc_log_info(sli4, "FW1:%s (%08x) / FW2:%s (%08x)\n",
  3649. read_rev->first_fw_name, le32_to_cpu(read_rev->first_fw_id),
  3650. read_rev->second_fw_name, le32_to_cpu(read_rev->second_fw_id));
  3651. efc_log_info(sli4, "HW1: %08x / HW2: %08x\n",
  3652. le32_to_cpu(read_rev->first_hw_rev),
  3653. le32_to_cpu(read_rev->second_hw_rev));
  3654. /* Check that all VPD data was returned */
  3655. if (le32_to_cpu(read_rev->returned_vpd_length) !=
  3656. le32_to_cpu(read_rev->actual_vpd_length)) {
  3657. efc_log_info(sli4, "VPD length: avail=%d return=%d actual=%d\n",
  3658. le32_to_cpu(read_rev->available_length_dword) &
  3659. SLI4_READ_REV_AVAILABLE_LENGTH,
  3660. le32_to_cpu(read_rev->returned_vpd_length),
  3661. le32_to_cpu(read_rev->actual_vpd_length));
  3662. }
  3663. sli4->vpd_length = le32_to_cpu(read_rev->returned_vpd_length);
  3664. return 0;
  3665. }
  3666. static int
  3667. sli_get_config(struct sli4 *sli4)
  3668. {
  3669. struct sli4_rsp_cmn_get_port_name *port_name;
  3670. struct sli4_cmd_read_nvparms *read_nvparms;
  3671. /*
  3672. * Read the device configuration
  3673. */
  3674. if (sli_get_read_config(sli4))
  3675. return -EIO;
  3676. if (sli_get_sli4_parameters(sli4))
  3677. return -EIO;
  3678. if (sli_get_ctrl_attributes(sli4))
  3679. return -EIO;
  3680. if (sli_cmd_common_get_port_name(sli4, sli4->bmbx.virt))
  3681. return -EIO;
  3682. port_name = (struct sli4_rsp_cmn_get_port_name *)
  3683. (((u8 *)sli4->bmbx.virt) +
  3684. offsetof(struct sli4_cmd_sli_config, payload.embed));
  3685. if (sli_bmbx_command(sli4)) {
  3686. efc_log_crit(sli4, "bootstrap mailbox fail (GET_PORT_NAME)\n");
  3687. return -EIO;
  3688. }
  3689. sli4->port_name[0] = port_name->port_name[sli4->port_number];
  3690. sli4->port_name[1] = '\0';
  3691. if (sli_get_fw_rev(sli4))
  3692. return -EIO;
  3693. if (sli_cmd_read_nvparms(sli4, sli4->bmbx.virt)) {
  3694. efc_log_err(sli4, "bad READ_NVPARMS write\n");
  3695. return -EIO;
  3696. }
  3697. if (sli_bmbx_command(sli4)) {
  3698. efc_log_crit(sli4, "bootstrap mailbox fail (READ_NVPARMS)\n");
  3699. return -EIO;
  3700. }
  3701. read_nvparms = sli4->bmbx.virt;
  3702. if (le16_to_cpu(read_nvparms->hdr.status)) {
  3703. efc_log_err(sli4, "READ_NVPARMS bad status %#x\n",
  3704. le16_to_cpu(read_nvparms->hdr.status));
  3705. return -EIO;
  3706. }
  3707. memcpy(sli4->wwpn, read_nvparms->wwpn, sizeof(sli4->wwpn));
  3708. memcpy(sli4->wwnn, read_nvparms->wwnn, sizeof(sli4->wwnn));
  3709. efc_log_info(sli4, "WWPN %02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x\n",
  3710. sli4->wwpn[0], sli4->wwpn[1], sli4->wwpn[2], sli4->wwpn[3],
  3711. sli4->wwpn[4], sli4->wwpn[5], sli4->wwpn[6], sli4->wwpn[7]);
  3712. efc_log_info(sli4, "WWNN %02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x\n",
  3713. sli4->wwnn[0], sli4->wwnn[1], sli4->wwnn[2], sli4->wwnn[3],
  3714. sli4->wwnn[4], sli4->wwnn[5], sli4->wwnn[6], sli4->wwnn[7]);
  3715. return 0;
  3716. }
  3717. int
  3718. sli_setup(struct sli4 *sli4, void *os, struct pci_dev *pdev,
  3719. void __iomem *reg[])
  3720. {
  3721. u32 intf = U32_MAX;
  3722. u32 pci_class_rev = 0;
  3723. u32 rev_id = 0;
  3724. u32 family = 0;
  3725. u32 asic_id = 0;
  3726. u32 i;
  3727. struct sli4_asic_entry_t *asic;
  3728. memset(sli4, 0, sizeof(struct sli4));
  3729. sli4->os = os;
  3730. sli4->pci = pdev;
  3731. for (i = 0; i < 6; i++)
  3732. sli4->reg[i] = reg[i];
  3733. /*
  3734. * Read the SLI_INTF register to discover the register layout
  3735. * and other capability information
  3736. */
  3737. if (pci_read_config_dword(pdev, SLI4_INTF_REG, &intf))
  3738. return -EIO;
  3739. if ((intf & SLI4_INTF_VALID_MASK) != (u32)SLI4_INTF_VALID_VALUE) {
  3740. efc_log_err(sli4, "SLI_INTF is not valid\n");
  3741. return -EIO;
  3742. }
  3743. /* driver only support SLI-4 */
  3744. if ((intf & SLI4_INTF_REV_MASK) != SLI4_INTF_REV_S4) {
  3745. efc_log_err(sli4, "Unsupported SLI revision (intf=%#x)\n", intf);
  3746. return -EIO;
  3747. }
  3748. sli4->sli_family = intf & SLI4_INTF_FAMILY_MASK;
  3749. sli4->if_type = intf & SLI4_INTF_IF_TYPE_MASK;
  3750. efc_log_info(sli4, "status=%#x error1=%#x error2=%#x\n",
  3751. sli_reg_read_status(sli4),
  3752. sli_reg_read_err1(sli4),
  3753. sli_reg_read_err2(sli4));
  3754. /*
  3755. * set the ASIC type and revision
  3756. */
  3757. if (pci_read_config_dword(pdev, PCI_CLASS_REVISION, &pci_class_rev))
  3758. return -EIO;
  3759. rev_id = pci_class_rev & 0xff;
  3760. family = sli4->sli_family;
  3761. if (family == SLI4_FAMILY_CHECK_ASIC_TYPE) {
  3762. if (!pci_read_config_dword(pdev, SLI4_ASIC_ID_REG, &asic_id))
  3763. family = asic_id & SLI4_ASIC_GEN_MASK;
  3764. }
  3765. for (i = 0, asic = sli4_asic_table; i < ARRAY_SIZE(sli4_asic_table);
  3766. i++, asic++) {
  3767. if (rev_id == asic->rev_id && family == asic->family) {
  3768. sli4->asic_type = family;
  3769. sli4->asic_rev = rev_id;
  3770. break;
  3771. }
  3772. }
  3773. /* Fail if no matching asic type/rev was found */
  3774. if (!sli4->asic_type) {
  3775. efc_log_err(sli4, "no matching asic family/rev found: %02x/%02x\n",
  3776. family, rev_id);
  3777. return -EIO;
  3778. }
  3779. /*
  3780. * The bootstrap mailbox is equivalent to a MQ with a single 256 byte
  3781. * entry, a CQ with a single 16 byte entry, and no event queue.
  3782. * Alignment must be 16 bytes as the low order address bits in the
  3783. * address register are also control / status.
  3784. */
  3785. sli4->bmbx.size = SLI4_BMBX_SIZE + sizeof(struct sli4_mcqe);
  3786. sli4->bmbx.virt = dma_alloc_coherent(&pdev->dev, sli4->bmbx.size,
  3787. &sli4->bmbx.phys, GFP_KERNEL);
  3788. if (!sli4->bmbx.virt) {
  3789. memset(&sli4->bmbx, 0, sizeof(struct efc_dma));
  3790. efc_log_err(sli4, "bootstrap mailbox allocation failed\n");
  3791. return -EIO;
  3792. }
  3793. if (sli4->bmbx.phys & SLI4_BMBX_MASK_LO) {
  3794. efc_log_err(sli4, "bad alignment for bootstrap mailbox\n");
  3795. return -EIO;
  3796. }
  3797. efc_log_info(sli4, "bmbx v=%p p=0x%x %08x s=%zd\n", sli4->bmbx.virt,
  3798. upper_32_bits(sli4->bmbx.phys),
  3799. lower_32_bits(sli4->bmbx.phys), sli4->bmbx.size);
  3800. /* 4096 is arbitrary. What should this value actually be? */
  3801. sli4->vpd_data.size = 4096;
  3802. sli4->vpd_data.virt = dma_alloc_coherent(&pdev->dev,
  3803. sli4->vpd_data.size,
  3804. &sli4->vpd_data.phys,
  3805. GFP_KERNEL);
  3806. if (!sli4->vpd_data.virt) {
  3807. memset(&sli4->vpd_data, 0, sizeof(struct efc_dma));
  3808. /* Note that failure isn't fatal in this specific case */
  3809. efc_log_info(sli4, "VPD buffer allocation failed\n");
  3810. }
  3811. if (!sli_fw_init(sli4)) {
  3812. efc_log_err(sli4, "FW initialization failed\n");
  3813. return -EIO;
  3814. }
  3815. /*
  3816. * Set one of fcpi(initiator), fcpt(target), fcpc(combined) to true
  3817. * in addition to any other desired features
  3818. */
  3819. sli4->features = (SLI4_REQFEAT_IAAB | SLI4_REQFEAT_NPIV |
  3820. SLI4_REQFEAT_DIF | SLI4_REQFEAT_VF |
  3821. SLI4_REQFEAT_FCPC | SLI4_REQFEAT_IAAR |
  3822. SLI4_REQFEAT_HLM | SLI4_REQFEAT_PERFH |
  3823. SLI4_REQFEAT_RXSEQ | SLI4_REQFEAT_RXRI |
  3824. SLI4_REQFEAT_MRQP);
  3825. /* use performance hints if available */
  3826. if (sli4->params.perf_hint)
  3827. sli4->features |= SLI4_REQFEAT_PERFH;
  3828. if (sli_request_features(sli4, &sli4->features, true))
  3829. return -EIO;
  3830. if (sli_get_config(sli4))
  3831. return -EIO;
  3832. return 0;
  3833. }
  3834. int
  3835. sli_init(struct sli4 *sli4)
  3836. {
  3837. if (sli4->params.has_extents) {
  3838. efc_log_info(sli4, "extend allocation not supported\n");
  3839. return -EIO;
  3840. }
  3841. sli4->features &= (~SLI4_REQFEAT_HLM);
  3842. sli4->features &= (~SLI4_REQFEAT_RXSEQ);
  3843. sli4->features &= (~SLI4_REQFEAT_RXRI);
  3844. if (sli_request_features(sli4, &sli4->features, false))
  3845. return -EIO;
  3846. return 0;
  3847. }
  3848. int
  3849. sli_reset(struct sli4 *sli4)
  3850. {
  3851. u32 i;
  3852. if (!sli_fw_init(sli4)) {
  3853. efc_log_crit(sli4, "FW initialization failed\n");
  3854. return -EIO;
  3855. }
  3856. kfree(sli4->ext[0].base);
  3857. sli4->ext[0].base = NULL;
  3858. for (i = 0; i < SLI4_RSRC_MAX; i++) {
  3859. bitmap_free(sli4->ext[i].use_map);
  3860. sli4->ext[i].use_map = NULL;
  3861. sli4->ext[i].base = NULL;
  3862. }
  3863. return sli_get_config(sli4);
  3864. }
  3865. int
  3866. sli_fw_reset(struct sli4 *sli4)
  3867. {
  3868. /*
  3869. * Firmware must be ready before issuing the reset.
  3870. */
  3871. if (!sli_wait_for_fw_ready(sli4, SLI4_FW_READY_TIMEOUT_MSEC)) {
  3872. efc_log_crit(sli4, "FW status is NOT ready\n");
  3873. return -EIO;
  3874. }
  3875. /* Lancer uses PHYDEV_CONTROL */
  3876. writel(SLI4_PHYDEV_CTRL_FRST, (sli4->reg[0] + SLI4_PHYDEV_CTRL_REG));
  3877. /* wait for the FW to become ready after the reset */
  3878. if (!sli_wait_for_fw_ready(sli4, SLI4_FW_READY_TIMEOUT_MSEC)) {
  3879. efc_log_crit(sli4, "Failed to be ready after firmware reset\n");
  3880. return -EIO;
  3881. }
  3882. return 0;
  3883. }
  3884. void
  3885. sli_teardown(struct sli4 *sli4)
  3886. {
  3887. u32 i;
  3888. kfree(sli4->ext[0].base);
  3889. sli4->ext[0].base = NULL;
  3890. for (i = 0; i < SLI4_RSRC_MAX; i++) {
  3891. sli4->ext[i].base = NULL;
  3892. bitmap_free(sli4->ext[i].use_map);
  3893. sli4->ext[i].use_map = NULL;
  3894. }
  3895. if (!sli_sliport_reset(sli4))
  3896. efc_log_err(sli4, "FW deinitialization failed\n");
  3897. dma_free_coherent(&sli4->pci->dev, sli4->vpd_data.size,
  3898. sli4->vpd_data.virt, sli4->vpd_data.phys);
  3899. memset(&sli4->vpd_data, 0, sizeof(struct efc_dma));
  3900. dma_free_coherent(&sli4->pci->dev, sli4->bmbx.size,
  3901. sli4->bmbx.virt, sli4->bmbx.phys);
  3902. memset(&sli4->bmbx, 0, sizeof(struct efc_dma));
  3903. }
  3904. int
  3905. sli_callback(struct sli4 *sli4, enum sli4_callback which,
  3906. void *func, void *arg)
  3907. {
  3908. if (!func) {
  3909. efc_log_err(sli4, "bad parameter sli4=%p which=%#x func=%p\n",
  3910. sli4, which, func);
  3911. return -EIO;
  3912. }
  3913. switch (which) {
  3914. case SLI4_CB_LINK:
  3915. sli4->link = func;
  3916. sli4->link_arg = arg;
  3917. break;
  3918. default:
  3919. efc_log_info(sli4, "unknown callback %#x\n", which);
  3920. return -EIO;
  3921. }
  3922. return 0;
  3923. }
  3924. int
  3925. sli_eq_modify_delay(struct sli4 *sli4, struct sli4_queue *eq,
  3926. u32 num_eq, u32 shift, u32 delay_mult)
  3927. {
  3928. sli_cmd_common_modify_eq_delay(sli4, sli4->bmbx.virt, eq, num_eq,
  3929. shift, delay_mult);
  3930. if (sli_bmbx_command(sli4)) {
  3931. efc_log_crit(sli4, "bootstrap mailbox write fail (MODIFY EQ DELAY)\n");
  3932. return -EIO;
  3933. }
  3934. if (sli_res_sli_config(sli4, sli4->bmbx.virt)) {
  3935. efc_log_err(sli4, "bad status MODIFY EQ DELAY\n");
  3936. return -EIO;
  3937. }
  3938. return 0;
  3939. }
  3940. int
  3941. sli_resource_alloc(struct sli4 *sli4, enum sli4_resource rtype,
  3942. u32 *rid, u32 *index)
  3943. {
  3944. int rc = 0;
  3945. u32 size;
  3946. u32 ext_idx;
  3947. u32 item_idx;
  3948. u32 position;
  3949. *rid = U32_MAX;
  3950. *index = U32_MAX;
  3951. switch (rtype) {
  3952. case SLI4_RSRC_VFI:
  3953. case SLI4_RSRC_VPI:
  3954. case SLI4_RSRC_RPI:
  3955. case SLI4_RSRC_XRI:
  3956. position =
  3957. find_first_zero_bit(sli4->ext[rtype].use_map,
  3958. sli4->ext[rtype].map_size);
  3959. if (position >= sli4->ext[rtype].map_size) {
  3960. efc_log_err(sli4, "out of resource %d (alloc=%d)\n",
  3961. rtype, sli4->ext[rtype].n_alloc);
  3962. rc = -EIO;
  3963. break;
  3964. }
  3965. set_bit(position, sli4->ext[rtype].use_map);
  3966. *index = position;
  3967. size = sli4->ext[rtype].size;
  3968. ext_idx = *index / size;
  3969. item_idx = *index % size;
  3970. *rid = sli4->ext[rtype].base[ext_idx] + item_idx;
  3971. sli4->ext[rtype].n_alloc++;
  3972. break;
  3973. default:
  3974. rc = -EIO;
  3975. }
  3976. return rc;
  3977. }
  3978. int
  3979. sli_resource_free(struct sli4 *sli4, enum sli4_resource rtype, u32 rid)
  3980. {
  3981. int rc = -EIO;
  3982. u32 x;
  3983. u32 size, *base;
  3984. switch (rtype) {
  3985. case SLI4_RSRC_VFI:
  3986. case SLI4_RSRC_VPI:
  3987. case SLI4_RSRC_RPI:
  3988. case SLI4_RSRC_XRI:
  3989. /*
  3990. * Figure out which extent contains the resource ID. I.e. find
  3991. * the extent such that
  3992. * extent->base <= resource ID < extent->base + extent->size
  3993. */
  3994. base = sli4->ext[rtype].base;
  3995. size = sli4->ext[rtype].size;
  3996. /*
  3997. * In the case of FW reset, this may be cleared
  3998. * but the force_free path will still attempt to
  3999. * free the resource. Prevent a NULL pointer access.
  4000. */
  4001. if (!base)
  4002. break;
  4003. for (x = 0; x < sli4->ext[rtype].number; x++) {
  4004. if ((rid < base[x] || (rid >= (base[x] + size))))
  4005. continue;
  4006. rid -= base[x];
  4007. clear_bit((x * size) + rid, sli4->ext[rtype].use_map);
  4008. rc = 0;
  4009. break;
  4010. }
  4011. break;
  4012. default:
  4013. break;
  4014. }
  4015. return rc;
  4016. }
  4017. int
  4018. sli_resource_reset(struct sli4 *sli4, enum sli4_resource rtype)
  4019. {
  4020. int rc = -EIO;
  4021. u32 i;
  4022. switch (rtype) {
  4023. case SLI4_RSRC_VFI:
  4024. case SLI4_RSRC_VPI:
  4025. case SLI4_RSRC_RPI:
  4026. case SLI4_RSRC_XRI:
  4027. for (i = 0; i < sli4->ext[rtype].map_size; i++)
  4028. clear_bit(i, sli4->ext[rtype].use_map);
  4029. rc = 0;
  4030. break;
  4031. default:
  4032. break;
  4033. }
  4034. return rc;
  4035. }
  4036. int sli_raise_ue(struct sli4 *sli4, u8 dump)
  4037. {
  4038. u32 val = 0;
  4039. if (dump == SLI4_FUNC_DESC_DUMP) {
  4040. val = SLI4_PORT_CTRL_FDD | SLI4_PORT_CTRL_IP;
  4041. writel(val, (sli4->reg[0] + SLI4_PORT_CTRL_REG));
  4042. } else {
  4043. val = SLI4_PHYDEV_CTRL_FRST;
  4044. if (dump == SLI4_CHIP_LEVEL_DUMP)
  4045. val |= SLI4_PHYDEV_CTRL_DD;
  4046. writel(val, (sli4->reg[0] + SLI4_PHYDEV_CTRL_REG));
  4047. }
  4048. return 0;
  4049. }
  4050. int sli_dump_is_ready(struct sli4 *sli4)
  4051. {
  4052. int rc = SLI4_DUMP_READY_STATUS_NOT_READY;
  4053. u32 port_val;
  4054. u32 bmbx_val;
  4055. /*
  4056. * Ensure that the port is ready AND the mailbox is
  4057. * ready before signaling that the dump is ready to go.
  4058. */
  4059. port_val = sli_reg_read_status(sli4);
  4060. bmbx_val = readl(sli4->reg[0] + SLI4_BMBX_REG);
  4061. if ((bmbx_val & SLI4_BMBX_RDY) &&
  4062. (port_val & SLI4_PORT_STATUS_RDY)) {
  4063. if (port_val & SLI4_PORT_STATUS_DIP)
  4064. rc = SLI4_DUMP_READY_STATUS_DD_PRESENT;
  4065. else if (port_val & SLI4_PORT_STATUS_FDP)
  4066. rc = SLI4_DUMP_READY_STATUS_FDB_PRESENT;
  4067. }
  4068. return rc;
  4069. }
  4070. bool sli_reset_required(struct sli4 *sli4)
  4071. {
  4072. u32 val;
  4073. val = sli_reg_read_status(sli4);
  4074. return (val & SLI4_PORT_STATUS_RN);
  4075. }
  4076. int
  4077. sli_cmd_post_sgl_pages(struct sli4 *sli4, void *buf, u16 xri,
  4078. u32 xri_count, struct efc_dma *page0[],
  4079. struct efc_dma *page1[], struct efc_dma *dma)
  4080. {
  4081. struct sli4_rqst_post_sgl_pages *post = NULL;
  4082. u32 i;
  4083. __le32 req_len;
  4084. post = sli_config_cmd_init(sli4, buf,
  4085. SLI4_CFG_PYLD_LENGTH(post_sgl_pages), dma);
  4086. if (!post)
  4087. return -EIO;
  4088. /* payload size calculation */
  4089. /* 4 = xri_start + xri_count */
  4090. /* xri_count = # of XRI's registered */
  4091. /* sizeof(uint64_t) = physical address size */
  4092. /* 2 = # of physical addresses per page set */
  4093. req_len = cpu_to_le32(4 + (xri_count * (sizeof(uint64_t) * 2)));
  4094. sli_cmd_fill_hdr(&post->hdr, SLI4_OPC_POST_SGL_PAGES, SLI4_SUBSYSTEM_FC,
  4095. CMD_V0, req_len);
  4096. post->xri_start = cpu_to_le16(xri);
  4097. post->xri_count = cpu_to_le16(xri_count);
  4098. for (i = 0; i < xri_count; i++) {
  4099. post->page_set[i].page0_low =
  4100. cpu_to_le32(lower_32_bits(page0[i]->phys));
  4101. post->page_set[i].page0_high =
  4102. cpu_to_le32(upper_32_bits(page0[i]->phys));
  4103. }
  4104. if (page1) {
  4105. for (i = 0; i < xri_count; i++) {
  4106. post->page_set[i].page1_low =
  4107. cpu_to_le32(lower_32_bits(page1[i]->phys));
  4108. post->page_set[i].page1_high =
  4109. cpu_to_le32(upper_32_bits(page1[i]->phys));
  4110. }
  4111. }
  4112. return 0;
  4113. }
  4114. int
  4115. sli_cmd_post_hdr_templates(struct sli4 *sli4, void *buf, struct efc_dma *dma,
  4116. u16 rpi, struct efc_dma *payload_dma)
  4117. {
  4118. struct sli4_rqst_post_hdr_templates *req = NULL;
  4119. uintptr_t phys = 0;
  4120. u32 i = 0;
  4121. u32 page_count, payload_size;
  4122. page_count = sli_page_count(dma->size, SLI_PAGE_SIZE);
  4123. payload_size = ((sizeof(struct sli4_rqst_post_hdr_templates) +
  4124. (page_count * SZ_DMAADDR)) - sizeof(struct sli4_rqst_hdr));
  4125. if (page_count > 16) {
  4126. /*
  4127. * We can't fit more than 16 descriptors into an embedded mbox
  4128. * command, it has to be non-embedded
  4129. */
  4130. payload_dma->size = payload_size;
  4131. payload_dma->virt = dma_alloc_coherent(&sli4->pci->dev,
  4132. payload_dma->size,
  4133. &payload_dma->phys, GFP_KERNEL);
  4134. if (!payload_dma->virt) {
  4135. memset(payload_dma, 0, sizeof(struct efc_dma));
  4136. efc_log_err(sli4, "mbox payload memory allocation fail\n");
  4137. return -EIO;
  4138. }
  4139. req = sli_config_cmd_init(sli4, buf, payload_size, payload_dma);
  4140. } else {
  4141. req = sli_config_cmd_init(sli4, buf, payload_size, NULL);
  4142. }
  4143. if (!req)
  4144. return -EIO;
  4145. if (rpi == U16_MAX)
  4146. rpi = sli4->ext[SLI4_RSRC_RPI].base[0];
  4147. sli_cmd_fill_hdr(&req->hdr, SLI4_OPC_POST_HDR_TEMPLATES,
  4148. SLI4_SUBSYSTEM_FC, CMD_V0,
  4149. SLI4_RQST_PYLD_LEN(post_hdr_templates));
  4150. req->rpi_offset = cpu_to_le16(rpi);
  4151. req->page_count = cpu_to_le16(page_count);
  4152. phys = dma->phys;
  4153. for (i = 0; i < page_count; i++) {
  4154. req->page_descriptor[i].low = cpu_to_le32(lower_32_bits(phys));
  4155. req->page_descriptor[i].high = cpu_to_le32(upper_32_bits(phys));
  4156. phys += SLI_PAGE_SIZE;
  4157. }
  4158. return 0;
  4159. }
  4160. u32
  4161. sli_fc_get_rpi_requirements(struct sli4 *sli4, u32 n_rpi)
  4162. {
  4163. u32 bytes = 0;
  4164. /* Check if header templates needed */
  4165. if (sli4->params.hdr_template_req)
  4166. /* round up to a page */
  4167. bytes = round_up(n_rpi * SLI4_HDR_TEMPLATE_SIZE, SLI_PAGE_SIZE);
  4168. return bytes;
  4169. }
  4170. const char *
  4171. sli_fc_get_status_string(u32 status)
  4172. {
  4173. static struct {
  4174. u32 code;
  4175. const char *label;
  4176. } lookup[] = {
  4177. {SLI4_FC_WCQE_STATUS_SUCCESS, "SUCCESS"},
  4178. {SLI4_FC_WCQE_STATUS_FCP_RSP_FAILURE, "FCP_RSP_FAILURE"},
  4179. {SLI4_FC_WCQE_STATUS_REMOTE_STOP, "REMOTE_STOP"},
  4180. {SLI4_FC_WCQE_STATUS_LOCAL_REJECT, "LOCAL_REJECT"},
  4181. {SLI4_FC_WCQE_STATUS_NPORT_RJT, "NPORT_RJT"},
  4182. {SLI4_FC_WCQE_STATUS_FABRIC_RJT, "FABRIC_RJT"},
  4183. {SLI4_FC_WCQE_STATUS_NPORT_BSY, "NPORT_BSY"},
  4184. {SLI4_FC_WCQE_STATUS_FABRIC_BSY, "FABRIC_BSY"},
  4185. {SLI4_FC_WCQE_STATUS_LS_RJT, "LS_RJT"},
  4186. {SLI4_FC_WCQE_STATUS_CMD_REJECT, "CMD_REJECT"},
  4187. {SLI4_FC_WCQE_STATUS_FCP_TGT_LENCHECK, "FCP_TGT_LENCHECK"},
  4188. {SLI4_FC_WCQE_STATUS_RQ_BUF_LEN_EXCEEDED, "BUF_LEN_EXCEEDED"},
  4189. {SLI4_FC_WCQE_STATUS_RQ_INSUFF_BUF_NEEDED,
  4190. "RQ_INSUFF_BUF_NEEDED"},
  4191. {SLI4_FC_WCQE_STATUS_RQ_INSUFF_FRM_DISC, "RQ_INSUFF_FRM_DESC"},
  4192. {SLI4_FC_WCQE_STATUS_RQ_DMA_FAILURE, "RQ_DMA_FAILURE"},
  4193. {SLI4_FC_WCQE_STATUS_FCP_RSP_TRUNCATE, "FCP_RSP_TRUNCATE"},
  4194. {SLI4_FC_WCQE_STATUS_DI_ERROR, "DI_ERROR"},
  4195. {SLI4_FC_WCQE_STATUS_BA_RJT, "BA_RJT"},
  4196. {SLI4_FC_WCQE_STATUS_RQ_INSUFF_XRI_NEEDED,
  4197. "RQ_INSUFF_XRI_NEEDED"},
  4198. {SLI4_FC_WCQE_STATUS_RQ_INSUFF_XRI_DISC, "INSUFF_XRI_DISC"},
  4199. {SLI4_FC_WCQE_STATUS_RX_ERROR_DETECT, "RX_ERROR_DETECT"},
  4200. {SLI4_FC_WCQE_STATUS_RX_ABORT_REQUEST, "RX_ABORT_REQUEST"},
  4201. };
  4202. u32 i;
  4203. for (i = 0; i < ARRAY_SIZE(lookup); i++) {
  4204. if (status == lookup[i].code)
  4205. return lookup[i].label;
  4206. }
  4207. return "unknown";
  4208. }