sbp_target.c 58 KB

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  1. // SPDX-License-Identifier: GPL-2.0-or-later
  2. /*
  3. * SBP2 target driver (SCSI over IEEE1394 in target mode)
  4. *
  5. * Copyright (C) 2011 Chris Boot <bootc@bootc.net>
  6. */
  7. #define pr_fmt(fmt) "sbp_target: " fmt
  8. #include <linux/kernel.h>
  9. #include <linux/module.h>
  10. #include <linux/init.h>
  11. #include <linux/types.h>
  12. #include <linux/string.h>
  13. #include <linux/configfs.h>
  14. #include <linux/ctype.h>
  15. #include <linux/delay.h>
  16. #include <linux/firewire.h>
  17. #include <linux/firewire-constants.h>
  18. #include <scsi/scsi_proto.h>
  19. #include <scsi/scsi_tcq.h>
  20. #include <target/target_core_base.h>
  21. #include <target/target_core_backend.h>
  22. #include <target/target_core_fabric.h>
  23. #include <linux/unaligned.h>
  24. #include "sbp_target.h"
  25. /* FireWire address region for management and command block address handlers */
  26. static const struct fw_address_region sbp_register_region = {
  27. .start = CSR_REGISTER_BASE + 0x10000,
  28. .end = 0x1000000000000ULL,
  29. };
  30. static const u32 sbp_unit_directory_template[] = {
  31. 0x1200609e, /* unit_specifier_id: NCITS/T10 */
  32. 0x13010483, /* unit_sw_version: 1155D Rev 4 */
  33. 0x3800609e, /* command_set_specifier_id: NCITS/T10 */
  34. 0x390104d8, /* command_set: SPC-2 */
  35. 0x3b000000, /* command_set_revision: 0 */
  36. 0x3c000001, /* firmware_revision: 1 */
  37. };
  38. #define SESSION_MAINTENANCE_INTERVAL HZ
  39. static atomic_t login_id = ATOMIC_INIT(0);
  40. static void session_maintenance_work(struct work_struct *);
  41. static int sbp_run_transaction(struct fw_card *, int, int, int, int,
  42. unsigned long long, void *, size_t);
  43. static int read_peer_guid(u64 *guid, const struct sbp_management_request *req)
  44. {
  45. int ret;
  46. __be32 high, low;
  47. ret = sbp_run_transaction(req->card, TCODE_READ_QUADLET_REQUEST,
  48. req->node_addr, req->generation, req->speed,
  49. (CSR_REGISTER_BASE | CSR_CONFIG_ROM) + 3 * 4,
  50. &high, sizeof(high));
  51. if (ret != RCODE_COMPLETE)
  52. return ret;
  53. ret = sbp_run_transaction(req->card, TCODE_READ_QUADLET_REQUEST,
  54. req->node_addr, req->generation, req->speed,
  55. (CSR_REGISTER_BASE | CSR_CONFIG_ROM) + 4 * 4,
  56. &low, sizeof(low));
  57. if (ret != RCODE_COMPLETE)
  58. return ret;
  59. *guid = (u64)be32_to_cpu(high) << 32 | be32_to_cpu(low);
  60. return RCODE_COMPLETE;
  61. }
  62. static struct sbp_session *sbp_session_find_by_guid(
  63. struct sbp_tpg *tpg, u64 guid)
  64. {
  65. struct se_session *se_sess;
  66. struct sbp_session *sess, *found = NULL;
  67. spin_lock_bh(&tpg->se_tpg.session_lock);
  68. list_for_each_entry(se_sess, &tpg->se_tpg.tpg_sess_list, sess_list) {
  69. sess = se_sess->fabric_sess_ptr;
  70. if (sess->guid == guid)
  71. found = sess;
  72. }
  73. spin_unlock_bh(&tpg->se_tpg.session_lock);
  74. return found;
  75. }
  76. static struct sbp_login_descriptor *sbp_login_find_by_lun(
  77. struct sbp_session *session, u32 unpacked_lun)
  78. {
  79. struct sbp_login_descriptor *login, *found = NULL;
  80. spin_lock_bh(&session->lock);
  81. list_for_each_entry(login, &session->login_list, link) {
  82. if (login->login_lun == unpacked_lun)
  83. found = login;
  84. }
  85. spin_unlock_bh(&session->lock);
  86. return found;
  87. }
  88. static int sbp_login_count_all_by_lun(
  89. struct sbp_tpg *tpg,
  90. u32 unpacked_lun,
  91. int exclusive)
  92. {
  93. struct se_session *se_sess;
  94. struct sbp_session *sess;
  95. struct sbp_login_descriptor *login;
  96. int count = 0;
  97. spin_lock_bh(&tpg->se_tpg.session_lock);
  98. list_for_each_entry(se_sess, &tpg->se_tpg.tpg_sess_list, sess_list) {
  99. sess = se_sess->fabric_sess_ptr;
  100. spin_lock_bh(&sess->lock);
  101. list_for_each_entry(login, &sess->login_list, link) {
  102. if (login->login_lun != unpacked_lun)
  103. continue;
  104. if (!exclusive || login->exclusive)
  105. count++;
  106. }
  107. spin_unlock_bh(&sess->lock);
  108. }
  109. spin_unlock_bh(&tpg->se_tpg.session_lock);
  110. return count;
  111. }
  112. static struct sbp_login_descriptor *sbp_login_find_by_id(
  113. struct sbp_tpg *tpg, int login_id)
  114. {
  115. struct se_session *se_sess;
  116. struct sbp_session *sess;
  117. struct sbp_login_descriptor *login, *found = NULL;
  118. spin_lock_bh(&tpg->se_tpg.session_lock);
  119. list_for_each_entry(se_sess, &tpg->se_tpg.tpg_sess_list, sess_list) {
  120. sess = se_sess->fabric_sess_ptr;
  121. spin_lock_bh(&sess->lock);
  122. list_for_each_entry(login, &sess->login_list, link) {
  123. if (login->login_id == login_id)
  124. found = login;
  125. }
  126. spin_unlock_bh(&sess->lock);
  127. }
  128. spin_unlock_bh(&tpg->se_tpg.session_lock);
  129. return found;
  130. }
  131. static u32 sbp_get_lun_from_tpg(struct sbp_tpg *tpg, u32 login_lun, int *err)
  132. {
  133. struct se_portal_group *se_tpg = &tpg->se_tpg;
  134. struct se_lun *se_lun;
  135. rcu_read_lock();
  136. hlist_for_each_entry_rcu(se_lun, &se_tpg->tpg_lun_hlist, link) {
  137. if (se_lun->unpacked_lun == login_lun) {
  138. rcu_read_unlock();
  139. *err = 0;
  140. return login_lun;
  141. }
  142. }
  143. rcu_read_unlock();
  144. *err = -ENODEV;
  145. return login_lun;
  146. }
  147. static struct sbp_session *sbp_session_create(
  148. struct sbp_tpg *tpg,
  149. u64 guid)
  150. {
  151. struct sbp_session *sess;
  152. int ret;
  153. char guid_str[17];
  154. snprintf(guid_str, sizeof(guid_str), "%016llx", guid);
  155. sess = kmalloc_obj(*sess);
  156. if (!sess)
  157. return ERR_PTR(-ENOMEM);
  158. spin_lock_init(&sess->lock);
  159. INIT_LIST_HEAD(&sess->login_list);
  160. INIT_DELAYED_WORK(&sess->maint_work, session_maintenance_work);
  161. sess->guid = guid;
  162. sess->se_sess = target_setup_session(&tpg->se_tpg, 128,
  163. sizeof(struct sbp_target_request),
  164. TARGET_PROT_NORMAL, guid_str,
  165. sess, NULL);
  166. if (IS_ERR(sess->se_sess)) {
  167. pr_err("failed to init se_session\n");
  168. ret = PTR_ERR(sess->se_sess);
  169. kfree(sess);
  170. return ERR_PTR(ret);
  171. }
  172. return sess;
  173. }
  174. static void sbp_session_release(struct sbp_session *sess, bool cancel_work)
  175. {
  176. spin_lock_bh(&sess->lock);
  177. if (!list_empty(&sess->login_list)) {
  178. spin_unlock_bh(&sess->lock);
  179. return;
  180. }
  181. spin_unlock_bh(&sess->lock);
  182. if (cancel_work)
  183. cancel_delayed_work_sync(&sess->maint_work);
  184. target_remove_session(sess->se_sess);
  185. if (sess->card)
  186. fw_card_put(sess->card);
  187. kfree(sess);
  188. }
  189. static void sbp_target_agent_unregister(struct sbp_target_agent *);
  190. static void sbp_login_release(struct sbp_login_descriptor *login,
  191. bool cancel_work)
  192. {
  193. struct sbp_session *sess = login->sess;
  194. /* FIXME: abort/wait on tasks */
  195. sbp_target_agent_unregister(login->tgt_agt);
  196. if (sess) {
  197. spin_lock_bh(&sess->lock);
  198. list_del(&login->link);
  199. spin_unlock_bh(&sess->lock);
  200. sbp_session_release(sess, cancel_work);
  201. }
  202. kfree(login);
  203. }
  204. static struct sbp_target_agent *sbp_target_agent_register(
  205. struct sbp_login_descriptor *);
  206. static void sbp_management_request_login(
  207. struct sbp_management_agent *agent, struct sbp_management_request *req,
  208. int *status_data_size)
  209. {
  210. struct sbp_tport *tport = agent->tport;
  211. struct sbp_tpg *tpg = tport->tpg;
  212. struct sbp_session *sess;
  213. struct sbp_login_descriptor *login;
  214. struct sbp_login_response_block *response;
  215. u64 guid;
  216. u32 unpacked_lun;
  217. int login_response_len, ret;
  218. unpacked_lun = sbp_get_lun_from_tpg(tpg,
  219. LOGIN_ORB_LUN(be32_to_cpu(req->orb.misc)), &ret);
  220. if (ret) {
  221. pr_notice("login to unknown LUN: %d\n",
  222. LOGIN_ORB_LUN(be32_to_cpu(req->orb.misc)));
  223. req->status.status = cpu_to_be32(
  224. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  225. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_LUN_NOTSUPP));
  226. return;
  227. }
  228. ret = read_peer_guid(&guid, req);
  229. if (ret != RCODE_COMPLETE) {
  230. pr_warn("failed to read peer GUID: %d\n", ret);
  231. req->status.status = cpu_to_be32(
  232. STATUS_BLOCK_RESP(STATUS_RESP_TRANSPORT_FAILURE) |
  233. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_UNSPECIFIED_ERROR));
  234. return;
  235. }
  236. pr_notice("mgt_agent LOGIN to LUN %d from %016llx\n",
  237. unpacked_lun, guid);
  238. sess = sbp_session_find_by_guid(tpg, guid);
  239. if (sess) {
  240. login = sbp_login_find_by_lun(sess, unpacked_lun);
  241. if (login) {
  242. pr_notice("initiator already logged-in\n");
  243. /*
  244. * SBP-2 R4 says we should return access denied, but
  245. * that can confuse initiators. Instead we need to
  246. * treat this like a reconnect, but send the login
  247. * response block like a fresh login.
  248. *
  249. * This is required particularly in the case of Apple
  250. * devices booting off the FireWire target, where
  251. * the firmware has an active login to the target. When
  252. * the OS takes control of the session it issues its own
  253. * LOGIN rather than a RECONNECT. To avoid the machine
  254. * waiting until the reconnect_hold expires, we can skip
  255. * the ACCESS_DENIED errors to speed things up.
  256. */
  257. goto already_logged_in;
  258. }
  259. }
  260. /*
  261. * check exclusive bit in login request
  262. * reject with access_denied if any logins present
  263. */
  264. if (LOGIN_ORB_EXCLUSIVE(be32_to_cpu(req->orb.misc)) &&
  265. sbp_login_count_all_by_lun(tpg, unpacked_lun, 0)) {
  266. pr_warn("refusing exclusive login with other active logins\n");
  267. req->status.status = cpu_to_be32(
  268. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  269. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_ACCESS_DENIED));
  270. return;
  271. }
  272. /*
  273. * check exclusive bit in any existing login descriptor
  274. * reject with access_denied if any exclusive logins present
  275. */
  276. if (sbp_login_count_all_by_lun(tpg, unpacked_lun, 1)) {
  277. pr_warn("refusing login while another exclusive login present\n");
  278. req->status.status = cpu_to_be32(
  279. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  280. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_ACCESS_DENIED));
  281. return;
  282. }
  283. /*
  284. * check we haven't exceeded the number of allowed logins
  285. * reject with resources_unavailable if we have
  286. */
  287. if (sbp_login_count_all_by_lun(tpg, unpacked_lun, 0) >=
  288. tport->max_logins_per_lun) {
  289. pr_warn("max number of logins reached\n");
  290. req->status.status = cpu_to_be32(
  291. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  292. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_RESOURCES_UNAVAIL));
  293. return;
  294. }
  295. if (!sess) {
  296. sess = sbp_session_create(tpg, guid);
  297. if (IS_ERR(sess)) {
  298. switch (PTR_ERR(sess)) {
  299. case -EPERM:
  300. ret = SBP_STATUS_ACCESS_DENIED;
  301. break;
  302. default:
  303. ret = SBP_STATUS_RESOURCES_UNAVAIL;
  304. break;
  305. }
  306. req->status.status = cpu_to_be32(
  307. STATUS_BLOCK_RESP(
  308. STATUS_RESP_REQUEST_COMPLETE) |
  309. STATUS_BLOCK_SBP_STATUS(ret));
  310. return;
  311. }
  312. sess->node_id = req->node_addr;
  313. sess->card = fw_card_get(req->card);
  314. sess->generation = req->generation;
  315. sess->speed = req->speed;
  316. schedule_delayed_work(&sess->maint_work,
  317. SESSION_MAINTENANCE_INTERVAL);
  318. }
  319. /* only take the latest reconnect_hold into account */
  320. sess->reconnect_hold = min(
  321. 1 << LOGIN_ORB_RECONNECT(be32_to_cpu(req->orb.misc)),
  322. tport->max_reconnect_timeout) - 1;
  323. login = kmalloc_obj(*login);
  324. if (!login) {
  325. pr_err("failed to allocate login descriptor\n");
  326. sbp_session_release(sess, true);
  327. req->status.status = cpu_to_be32(
  328. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  329. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_RESOURCES_UNAVAIL));
  330. return;
  331. }
  332. login->sess = sess;
  333. login->login_lun = unpacked_lun;
  334. login->status_fifo_addr = sbp2_pointer_to_addr(&req->orb.status_fifo);
  335. login->exclusive = LOGIN_ORB_EXCLUSIVE(be32_to_cpu(req->orb.misc));
  336. login->login_id = atomic_inc_return(&login_id);
  337. login->tgt_agt = sbp_target_agent_register(login);
  338. if (IS_ERR(login->tgt_agt)) {
  339. ret = PTR_ERR(login->tgt_agt);
  340. pr_err("failed to map command block handler: %d\n", ret);
  341. sbp_session_release(sess, true);
  342. kfree(login);
  343. req->status.status = cpu_to_be32(
  344. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  345. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_RESOURCES_UNAVAIL));
  346. return;
  347. }
  348. spin_lock_bh(&sess->lock);
  349. list_add_tail(&login->link, &sess->login_list);
  350. spin_unlock_bh(&sess->lock);
  351. already_logged_in:
  352. response = kzalloc_obj(*response);
  353. if (!response) {
  354. pr_err("failed to allocate login response block\n");
  355. sbp_login_release(login, true);
  356. req->status.status = cpu_to_be32(
  357. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  358. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_RESOURCES_UNAVAIL));
  359. return;
  360. }
  361. login_response_len = clamp_val(
  362. LOGIN_ORB_RESPONSE_LENGTH(be32_to_cpu(req->orb.length)),
  363. 12, sizeof(*response));
  364. response->misc = cpu_to_be32(
  365. ((login_response_len & 0xffff) << 16) |
  366. (login->login_id & 0xffff));
  367. response->reconnect_hold = cpu_to_be32(sess->reconnect_hold & 0xffff);
  368. addr_to_sbp2_pointer(login->tgt_agt->handler.offset,
  369. &response->command_block_agent);
  370. ret = sbp_run_transaction(sess->card, TCODE_WRITE_BLOCK_REQUEST,
  371. sess->node_id, sess->generation, sess->speed,
  372. sbp2_pointer_to_addr(&req->orb.ptr2), response,
  373. login_response_len);
  374. if (ret != RCODE_COMPLETE) {
  375. pr_debug("failed to write login response block: %x\n", ret);
  376. kfree(response);
  377. sbp_login_release(login, true);
  378. req->status.status = cpu_to_be32(
  379. STATUS_BLOCK_RESP(STATUS_RESP_TRANSPORT_FAILURE) |
  380. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_UNSPECIFIED_ERROR));
  381. return;
  382. }
  383. kfree(response);
  384. req->status.status = cpu_to_be32(
  385. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  386. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_OK));
  387. }
  388. static void sbp_management_request_query_logins(
  389. struct sbp_management_agent *agent, struct sbp_management_request *req,
  390. int *status_data_size)
  391. {
  392. pr_notice("QUERY LOGINS not implemented\n");
  393. /* FIXME: implement */
  394. req->status.status = cpu_to_be32(
  395. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  396. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_REQ_TYPE_NOTSUPP));
  397. }
  398. static void sbp_management_request_reconnect(
  399. struct sbp_management_agent *agent, struct sbp_management_request *req,
  400. int *status_data_size)
  401. {
  402. struct sbp_tport *tport = agent->tport;
  403. struct sbp_tpg *tpg = tport->tpg;
  404. int ret;
  405. u64 guid;
  406. struct sbp_login_descriptor *login;
  407. ret = read_peer_guid(&guid, req);
  408. if (ret != RCODE_COMPLETE) {
  409. pr_warn("failed to read peer GUID: %d\n", ret);
  410. req->status.status = cpu_to_be32(
  411. STATUS_BLOCK_RESP(STATUS_RESP_TRANSPORT_FAILURE) |
  412. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_UNSPECIFIED_ERROR));
  413. return;
  414. }
  415. pr_notice("mgt_agent RECONNECT from %016llx\n", guid);
  416. login = sbp_login_find_by_id(tpg,
  417. RECONNECT_ORB_LOGIN_ID(be32_to_cpu(req->orb.misc)));
  418. if (!login) {
  419. pr_err("mgt_agent RECONNECT unknown login ID\n");
  420. req->status.status = cpu_to_be32(
  421. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  422. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_ACCESS_DENIED));
  423. return;
  424. }
  425. if (login->sess->guid != guid) {
  426. pr_err("mgt_agent RECONNECT login GUID doesn't match\n");
  427. req->status.status = cpu_to_be32(
  428. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  429. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_ACCESS_DENIED));
  430. return;
  431. }
  432. spin_lock_bh(&login->sess->lock);
  433. if (login->sess->card)
  434. fw_card_put(login->sess->card);
  435. /* update the node details */
  436. login->sess->generation = req->generation;
  437. login->sess->node_id = req->node_addr;
  438. login->sess->card = fw_card_get(req->card);
  439. login->sess->speed = req->speed;
  440. spin_unlock_bh(&login->sess->lock);
  441. req->status.status = cpu_to_be32(
  442. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  443. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_OK));
  444. }
  445. static void sbp_management_request_logout(
  446. struct sbp_management_agent *agent, struct sbp_management_request *req,
  447. int *status_data_size)
  448. {
  449. struct sbp_tport *tport = agent->tport;
  450. struct sbp_tpg *tpg = tport->tpg;
  451. int id;
  452. struct sbp_login_descriptor *login;
  453. id = LOGOUT_ORB_LOGIN_ID(be32_to_cpu(req->orb.misc));
  454. login = sbp_login_find_by_id(tpg, id);
  455. if (!login) {
  456. pr_warn("cannot find login: %d\n", id);
  457. req->status.status = cpu_to_be32(
  458. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  459. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_LOGIN_ID_UNKNOWN));
  460. return;
  461. }
  462. pr_info("mgt_agent LOGOUT from LUN %d session %d\n",
  463. login->login_lun, login->login_id);
  464. if (req->node_addr != login->sess->node_id) {
  465. pr_warn("logout from different node ID\n");
  466. req->status.status = cpu_to_be32(
  467. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  468. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_ACCESS_DENIED));
  469. return;
  470. }
  471. sbp_login_release(login, true);
  472. req->status.status = cpu_to_be32(
  473. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  474. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_OK));
  475. }
  476. static void session_check_for_reset(struct sbp_session *sess)
  477. {
  478. bool card_valid = false;
  479. spin_lock_bh(&sess->lock);
  480. if (sess->card) {
  481. spin_lock_irq(&sess->card->lock);
  482. card_valid = (sess->card->local_node != NULL);
  483. spin_unlock_irq(&sess->card->lock);
  484. if (!card_valid) {
  485. fw_card_put(sess->card);
  486. sess->card = NULL;
  487. }
  488. }
  489. if (!card_valid || (sess->generation != sess->card->generation)) {
  490. pr_info("Waiting for reconnect from node: %016llx\n",
  491. sess->guid);
  492. sess->node_id = -1;
  493. sess->reconnect_expires = get_jiffies_64() +
  494. ((sess->reconnect_hold + 1) * HZ);
  495. }
  496. spin_unlock_bh(&sess->lock);
  497. }
  498. static void session_reconnect_expired(struct sbp_session *sess)
  499. {
  500. struct sbp_login_descriptor *login, *temp;
  501. LIST_HEAD(login_list);
  502. pr_info("Reconnect timer expired for node: %016llx\n", sess->guid);
  503. spin_lock_bh(&sess->lock);
  504. list_for_each_entry_safe(login, temp, &sess->login_list, link) {
  505. login->sess = NULL;
  506. list_move_tail(&login->link, &login_list);
  507. }
  508. spin_unlock_bh(&sess->lock);
  509. list_for_each_entry_safe(login, temp, &login_list, link) {
  510. list_del(&login->link);
  511. sbp_login_release(login, false);
  512. }
  513. sbp_session_release(sess, false);
  514. }
  515. static void session_maintenance_work(struct work_struct *work)
  516. {
  517. struct sbp_session *sess = container_of(work, struct sbp_session,
  518. maint_work.work);
  519. /* could be called while tearing down the session */
  520. spin_lock_bh(&sess->lock);
  521. if (list_empty(&sess->login_list)) {
  522. spin_unlock_bh(&sess->lock);
  523. return;
  524. }
  525. spin_unlock_bh(&sess->lock);
  526. if (sess->node_id != -1) {
  527. /* check for bus reset and make node_id invalid */
  528. session_check_for_reset(sess);
  529. schedule_delayed_work(&sess->maint_work,
  530. SESSION_MAINTENANCE_INTERVAL);
  531. } else if (!time_after64(get_jiffies_64(), sess->reconnect_expires)) {
  532. /* still waiting for reconnect */
  533. schedule_delayed_work(&sess->maint_work,
  534. SESSION_MAINTENANCE_INTERVAL);
  535. } else {
  536. /* reconnect timeout has expired */
  537. session_reconnect_expired(sess);
  538. }
  539. }
  540. static int tgt_agent_rw_agent_state(struct fw_card *card, int tcode, void *data,
  541. struct sbp_target_agent *agent)
  542. {
  543. int state;
  544. switch (tcode) {
  545. case TCODE_READ_QUADLET_REQUEST:
  546. pr_debug("tgt_agent AGENT_STATE READ\n");
  547. spin_lock_bh(&agent->lock);
  548. state = agent->state;
  549. spin_unlock_bh(&agent->lock);
  550. *(__be32 *)data = cpu_to_be32(state);
  551. return RCODE_COMPLETE;
  552. case TCODE_WRITE_QUADLET_REQUEST:
  553. /* ignored */
  554. return RCODE_COMPLETE;
  555. default:
  556. return RCODE_TYPE_ERROR;
  557. }
  558. }
  559. static int tgt_agent_rw_agent_reset(struct fw_card *card, int tcode, void *data,
  560. struct sbp_target_agent *agent)
  561. {
  562. switch (tcode) {
  563. case TCODE_WRITE_QUADLET_REQUEST:
  564. pr_debug("tgt_agent AGENT_RESET\n");
  565. spin_lock_bh(&agent->lock);
  566. agent->state = AGENT_STATE_RESET;
  567. spin_unlock_bh(&agent->lock);
  568. return RCODE_COMPLETE;
  569. default:
  570. return RCODE_TYPE_ERROR;
  571. }
  572. }
  573. static int tgt_agent_rw_orb_pointer(struct fw_card *card, int tcode, void *data,
  574. struct sbp_target_agent *agent)
  575. {
  576. struct sbp2_pointer *ptr = data;
  577. switch (tcode) {
  578. case TCODE_WRITE_BLOCK_REQUEST:
  579. spin_lock_bh(&agent->lock);
  580. if (agent->state != AGENT_STATE_SUSPENDED &&
  581. agent->state != AGENT_STATE_RESET) {
  582. spin_unlock_bh(&agent->lock);
  583. pr_notice("Ignoring ORB_POINTER write while active.\n");
  584. return RCODE_CONFLICT_ERROR;
  585. }
  586. agent->state = AGENT_STATE_ACTIVE;
  587. spin_unlock_bh(&agent->lock);
  588. agent->orb_pointer = sbp2_pointer_to_addr(ptr);
  589. agent->doorbell = false;
  590. pr_debug("tgt_agent ORB_POINTER write: 0x%llx\n",
  591. agent->orb_pointer);
  592. queue_work(system_dfl_wq, &agent->work);
  593. return RCODE_COMPLETE;
  594. case TCODE_READ_BLOCK_REQUEST:
  595. pr_debug("tgt_agent ORB_POINTER READ\n");
  596. spin_lock_bh(&agent->lock);
  597. addr_to_sbp2_pointer(agent->orb_pointer, ptr);
  598. spin_unlock_bh(&agent->lock);
  599. return RCODE_COMPLETE;
  600. default:
  601. return RCODE_TYPE_ERROR;
  602. }
  603. }
  604. static int tgt_agent_rw_doorbell(struct fw_card *card, int tcode, void *data,
  605. struct sbp_target_agent *agent)
  606. {
  607. switch (tcode) {
  608. case TCODE_WRITE_QUADLET_REQUEST:
  609. spin_lock_bh(&agent->lock);
  610. if (agent->state != AGENT_STATE_SUSPENDED) {
  611. spin_unlock_bh(&agent->lock);
  612. pr_debug("Ignoring DOORBELL while active.\n");
  613. return RCODE_CONFLICT_ERROR;
  614. }
  615. agent->state = AGENT_STATE_ACTIVE;
  616. spin_unlock_bh(&agent->lock);
  617. agent->doorbell = true;
  618. pr_debug("tgt_agent DOORBELL\n");
  619. queue_work(system_dfl_wq, &agent->work);
  620. return RCODE_COMPLETE;
  621. case TCODE_READ_QUADLET_REQUEST:
  622. return RCODE_COMPLETE;
  623. default:
  624. return RCODE_TYPE_ERROR;
  625. }
  626. }
  627. static int tgt_agent_rw_unsolicited_status_enable(struct fw_card *card,
  628. int tcode, void *data, struct sbp_target_agent *agent)
  629. {
  630. switch (tcode) {
  631. case TCODE_WRITE_QUADLET_REQUEST:
  632. pr_debug("tgt_agent UNSOLICITED_STATUS_ENABLE\n");
  633. /* ignored as we don't send unsolicited status */
  634. return RCODE_COMPLETE;
  635. case TCODE_READ_QUADLET_REQUEST:
  636. return RCODE_COMPLETE;
  637. default:
  638. return RCODE_TYPE_ERROR;
  639. }
  640. }
  641. static void tgt_agent_rw(struct fw_card *card, struct fw_request *request,
  642. int tcode, int destination, int source, int generation,
  643. unsigned long long offset, void *data, size_t length,
  644. void *callback_data)
  645. {
  646. struct sbp_target_agent *agent = callback_data;
  647. struct sbp_session *sess = agent->login->sess;
  648. int sess_gen, sess_node, rcode;
  649. spin_lock_bh(&sess->lock);
  650. sess_gen = sess->generation;
  651. sess_node = sess->node_id;
  652. spin_unlock_bh(&sess->lock);
  653. if (generation != sess_gen) {
  654. pr_notice("ignoring request with wrong generation\n");
  655. rcode = RCODE_TYPE_ERROR;
  656. goto out;
  657. }
  658. if (source != sess_node) {
  659. pr_notice("ignoring request from foreign node (%x != %x)\n",
  660. source, sess_node);
  661. rcode = RCODE_TYPE_ERROR;
  662. goto out;
  663. }
  664. /* turn offset into the offset from the start of the block */
  665. offset -= agent->handler.offset;
  666. if (offset == 0x00 && length == 4) {
  667. /* AGENT_STATE */
  668. rcode = tgt_agent_rw_agent_state(card, tcode, data, agent);
  669. } else if (offset == 0x04 && length == 4) {
  670. /* AGENT_RESET */
  671. rcode = tgt_agent_rw_agent_reset(card, tcode, data, agent);
  672. } else if (offset == 0x08 && length == 8) {
  673. /* ORB_POINTER */
  674. rcode = tgt_agent_rw_orb_pointer(card, tcode, data, agent);
  675. } else if (offset == 0x10 && length == 4) {
  676. /* DOORBELL */
  677. rcode = tgt_agent_rw_doorbell(card, tcode, data, agent);
  678. } else if (offset == 0x14 && length == 4) {
  679. /* UNSOLICITED_STATUS_ENABLE */
  680. rcode = tgt_agent_rw_unsolicited_status_enable(card, tcode,
  681. data, agent);
  682. } else {
  683. rcode = RCODE_ADDRESS_ERROR;
  684. }
  685. out:
  686. fw_send_response(card, request, rcode);
  687. }
  688. static void sbp_handle_command(struct sbp_target_request *);
  689. static int sbp_send_status(struct sbp_target_request *);
  690. static void sbp_free_request(struct sbp_target_request *);
  691. static void tgt_agent_process_work(struct work_struct *work)
  692. {
  693. struct sbp_target_request *req =
  694. container_of(work, struct sbp_target_request, work);
  695. pr_debug("tgt_orb ptr:0x%llx next_ORB:0x%llx data_descriptor:0x%llx misc:0x%x\n",
  696. req->orb_pointer,
  697. sbp2_pointer_to_addr(&req->orb.next_orb),
  698. sbp2_pointer_to_addr(&req->orb.data_descriptor),
  699. be32_to_cpu(req->orb.misc));
  700. if (req->orb_pointer >> 32)
  701. pr_debug("ORB with high bits set\n");
  702. switch (ORB_REQUEST_FORMAT(be32_to_cpu(req->orb.misc))) {
  703. case 0:/* Format specified by this standard */
  704. sbp_handle_command(req);
  705. return;
  706. case 1: /* Reserved for future standardization */
  707. case 2: /* Vendor-dependent */
  708. req->status.status |= cpu_to_be32(
  709. STATUS_BLOCK_RESP(
  710. STATUS_RESP_REQUEST_COMPLETE) |
  711. STATUS_BLOCK_DEAD(0) |
  712. STATUS_BLOCK_LEN(1) |
  713. STATUS_BLOCK_SBP_STATUS(
  714. SBP_STATUS_REQ_TYPE_NOTSUPP));
  715. sbp_send_status(req);
  716. return;
  717. case 3: /* Dummy ORB */
  718. req->status.status |= cpu_to_be32(
  719. STATUS_BLOCK_RESP(
  720. STATUS_RESP_REQUEST_COMPLETE) |
  721. STATUS_BLOCK_DEAD(0) |
  722. STATUS_BLOCK_LEN(1) |
  723. STATUS_BLOCK_SBP_STATUS(
  724. SBP_STATUS_DUMMY_ORB_COMPLETE));
  725. sbp_send_status(req);
  726. return;
  727. default:
  728. BUG();
  729. }
  730. }
  731. /* used to double-check we haven't been issued an AGENT_RESET */
  732. static inline bool tgt_agent_check_active(struct sbp_target_agent *agent)
  733. {
  734. bool active;
  735. spin_lock_bh(&agent->lock);
  736. active = (agent->state == AGENT_STATE_ACTIVE);
  737. spin_unlock_bh(&agent->lock);
  738. return active;
  739. }
  740. static struct sbp_target_request *sbp_mgt_get_req(struct sbp_session *sess,
  741. struct fw_card *card, u64 next_orb)
  742. {
  743. struct se_session *se_sess = sess->se_sess;
  744. struct sbp_target_request *req;
  745. int tag, cpu;
  746. tag = sbitmap_queue_get(&se_sess->sess_tag_pool, &cpu);
  747. if (tag < 0)
  748. return ERR_PTR(-ENOMEM);
  749. req = &((struct sbp_target_request *)se_sess->sess_cmd_map)[tag];
  750. memset(req, 0, sizeof(*req));
  751. req->se_cmd.map_tag = tag;
  752. req->se_cmd.map_cpu = cpu;
  753. req->se_cmd.tag = next_orb;
  754. return req;
  755. }
  756. static void tgt_agent_fetch_work(struct work_struct *work)
  757. {
  758. struct sbp_target_agent *agent =
  759. container_of(work, struct sbp_target_agent, work);
  760. struct sbp_session *sess = agent->login->sess;
  761. struct sbp_target_request *req;
  762. int ret;
  763. bool doorbell = agent->doorbell;
  764. u64 next_orb = agent->orb_pointer;
  765. while (next_orb && tgt_agent_check_active(agent)) {
  766. req = sbp_mgt_get_req(sess, sess->card, next_orb);
  767. if (IS_ERR(req)) {
  768. spin_lock_bh(&agent->lock);
  769. agent->state = AGENT_STATE_DEAD;
  770. spin_unlock_bh(&agent->lock);
  771. return;
  772. }
  773. req->login = agent->login;
  774. req->orb_pointer = next_orb;
  775. req->status.status = cpu_to_be32(STATUS_BLOCK_ORB_OFFSET_HIGH(
  776. req->orb_pointer >> 32));
  777. req->status.orb_low = cpu_to_be32(
  778. req->orb_pointer & 0xfffffffc);
  779. /* read in the ORB */
  780. ret = sbp_run_transaction(sess->card, TCODE_READ_BLOCK_REQUEST,
  781. sess->node_id, sess->generation, sess->speed,
  782. req->orb_pointer, &req->orb, sizeof(req->orb));
  783. if (ret != RCODE_COMPLETE) {
  784. pr_debug("tgt_orb fetch failed: %x\n", ret);
  785. req->status.status |= cpu_to_be32(
  786. STATUS_BLOCK_SRC(
  787. STATUS_SRC_ORB_FINISHED) |
  788. STATUS_BLOCK_RESP(
  789. STATUS_RESP_TRANSPORT_FAILURE) |
  790. STATUS_BLOCK_DEAD(1) |
  791. STATUS_BLOCK_LEN(1) |
  792. STATUS_BLOCK_SBP_STATUS(
  793. SBP_STATUS_UNSPECIFIED_ERROR));
  794. spin_lock_bh(&agent->lock);
  795. agent->state = AGENT_STATE_DEAD;
  796. spin_unlock_bh(&agent->lock);
  797. sbp_send_status(req);
  798. return;
  799. }
  800. /* check the next_ORB field */
  801. if (be32_to_cpu(req->orb.next_orb.high) & 0x80000000) {
  802. next_orb = 0;
  803. req->status.status |= cpu_to_be32(STATUS_BLOCK_SRC(
  804. STATUS_SRC_ORB_FINISHED));
  805. } else {
  806. next_orb = sbp2_pointer_to_addr(&req->orb.next_orb);
  807. req->status.status |= cpu_to_be32(STATUS_BLOCK_SRC(
  808. STATUS_SRC_ORB_CONTINUING));
  809. }
  810. if (tgt_agent_check_active(agent) && !doorbell) {
  811. INIT_WORK(&req->work, tgt_agent_process_work);
  812. queue_work(system_dfl_wq, &req->work);
  813. } else {
  814. /* don't process this request, just check next_ORB */
  815. sbp_free_request(req);
  816. }
  817. spin_lock_bh(&agent->lock);
  818. doorbell = agent->doorbell = false;
  819. /* check if we should carry on processing */
  820. if (next_orb)
  821. agent->orb_pointer = next_orb;
  822. else
  823. agent->state = AGENT_STATE_SUSPENDED;
  824. spin_unlock_bh(&agent->lock);
  825. }
  826. }
  827. static struct sbp_target_agent *sbp_target_agent_register(
  828. struct sbp_login_descriptor *login)
  829. {
  830. struct sbp_target_agent *agent;
  831. int ret;
  832. agent = kmalloc_obj(*agent);
  833. if (!agent)
  834. return ERR_PTR(-ENOMEM);
  835. spin_lock_init(&agent->lock);
  836. agent->handler.length = 0x20;
  837. agent->handler.address_callback = tgt_agent_rw;
  838. agent->handler.callback_data = agent;
  839. agent->login = login;
  840. agent->state = AGENT_STATE_RESET;
  841. INIT_WORK(&agent->work, tgt_agent_fetch_work);
  842. agent->orb_pointer = 0;
  843. agent->doorbell = false;
  844. ret = fw_core_add_address_handler(&agent->handler,
  845. &sbp_register_region);
  846. if (ret < 0) {
  847. kfree(agent);
  848. return ERR_PTR(ret);
  849. }
  850. return agent;
  851. }
  852. static void sbp_target_agent_unregister(struct sbp_target_agent *agent)
  853. {
  854. fw_core_remove_address_handler(&agent->handler);
  855. cancel_work_sync(&agent->work);
  856. kfree(agent);
  857. }
  858. /*
  859. * Simple wrapper around fw_run_transaction that retries the transaction several
  860. * times in case of failure, with an exponential backoff.
  861. */
  862. static int sbp_run_transaction(struct fw_card *card, int tcode, int destination_id,
  863. int generation, int speed, unsigned long long offset,
  864. void *payload, size_t length)
  865. {
  866. int attempt, ret, delay;
  867. for (attempt = 1; attempt <= 5; attempt++) {
  868. ret = fw_run_transaction(card, tcode, destination_id,
  869. generation, speed, offset, payload, length);
  870. switch (ret) {
  871. case RCODE_COMPLETE:
  872. case RCODE_TYPE_ERROR:
  873. case RCODE_ADDRESS_ERROR:
  874. case RCODE_GENERATION:
  875. return ret;
  876. default:
  877. delay = 5 * attempt * attempt;
  878. usleep_range(delay, delay * 2);
  879. }
  880. }
  881. return ret;
  882. }
  883. /*
  884. * Wrapper around sbp_run_transaction that gets the card, destination,
  885. * generation and speed out of the request's session.
  886. */
  887. static int sbp_run_request_transaction(struct sbp_target_request *req,
  888. int tcode, unsigned long long offset, void *payload,
  889. size_t length)
  890. {
  891. struct sbp_login_descriptor *login = req->login;
  892. struct sbp_session *sess = login->sess;
  893. struct fw_card *card;
  894. int node_id, generation, speed, ret;
  895. spin_lock_bh(&sess->lock);
  896. card = fw_card_get(sess->card);
  897. node_id = sess->node_id;
  898. generation = sess->generation;
  899. speed = sess->speed;
  900. spin_unlock_bh(&sess->lock);
  901. ret = sbp_run_transaction(card, tcode, node_id, generation, speed,
  902. offset, payload, length);
  903. fw_card_put(card);
  904. return ret;
  905. }
  906. static int sbp_fetch_command(struct sbp_target_request *req)
  907. {
  908. int ret, cmd_len, copy_len;
  909. cmd_len = scsi_command_size(req->orb.command_block);
  910. req->cmd_buf = kmalloc(cmd_len, GFP_KERNEL);
  911. if (!req->cmd_buf)
  912. return -ENOMEM;
  913. memcpy(req->cmd_buf, req->orb.command_block,
  914. min_t(int, cmd_len, sizeof(req->orb.command_block)));
  915. if (cmd_len > sizeof(req->orb.command_block)) {
  916. pr_debug("sbp_fetch_command: filling in long command\n");
  917. copy_len = cmd_len - sizeof(req->orb.command_block);
  918. ret = sbp_run_request_transaction(req,
  919. TCODE_READ_BLOCK_REQUEST,
  920. req->orb_pointer + sizeof(req->orb),
  921. req->cmd_buf + sizeof(req->orb.command_block),
  922. copy_len);
  923. if (ret != RCODE_COMPLETE)
  924. return -EIO;
  925. }
  926. return 0;
  927. }
  928. static int sbp_fetch_page_table(struct sbp_target_request *req)
  929. {
  930. int pg_tbl_sz, ret;
  931. struct sbp_page_table_entry *pg_tbl;
  932. if (!CMDBLK_ORB_PG_TBL_PRESENT(be32_to_cpu(req->orb.misc)))
  933. return 0;
  934. pg_tbl_sz = CMDBLK_ORB_DATA_SIZE(be32_to_cpu(req->orb.misc)) *
  935. sizeof(struct sbp_page_table_entry);
  936. pg_tbl = kmalloc(pg_tbl_sz, GFP_KERNEL);
  937. if (!pg_tbl)
  938. return -ENOMEM;
  939. ret = sbp_run_request_transaction(req, TCODE_READ_BLOCK_REQUEST,
  940. sbp2_pointer_to_addr(&req->orb.data_descriptor),
  941. pg_tbl, pg_tbl_sz);
  942. if (ret != RCODE_COMPLETE) {
  943. kfree(pg_tbl);
  944. return -EIO;
  945. }
  946. req->pg_tbl = pg_tbl;
  947. return 0;
  948. }
  949. static void sbp_calc_data_length_direction(struct sbp_target_request *req,
  950. u32 *data_len, enum dma_data_direction *data_dir)
  951. {
  952. int data_size, direction, idx;
  953. data_size = CMDBLK_ORB_DATA_SIZE(be32_to_cpu(req->orb.misc));
  954. direction = CMDBLK_ORB_DIRECTION(be32_to_cpu(req->orb.misc));
  955. if (!data_size) {
  956. *data_len = 0;
  957. *data_dir = DMA_NONE;
  958. return;
  959. }
  960. *data_dir = direction ? DMA_FROM_DEVICE : DMA_TO_DEVICE;
  961. if (req->pg_tbl) {
  962. *data_len = 0;
  963. for (idx = 0; idx < data_size; idx++) {
  964. *data_len += be16_to_cpu(
  965. req->pg_tbl[idx].segment_length);
  966. }
  967. } else {
  968. *data_len = data_size;
  969. }
  970. }
  971. static void sbp_handle_command(struct sbp_target_request *req)
  972. {
  973. struct sbp_login_descriptor *login = req->login;
  974. struct sbp_session *sess = login->sess;
  975. int ret, unpacked_lun;
  976. u32 data_length;
  977. enum dma_data_direction data_dir;
  978. ret = sbp_fetch_command(req);
  979. if (ret) {
  980. pr_debug("sbp_handle_command: fetch command failed: %d\n", ret);
  981. goto err;
  982. }
  983. ret = sbp_fetch_page_table(req);
  984. if (ret) {
  985. pr_debug("sbp_handle_command: fetch page table failed: %d\n",
  986. ret);
  987. goto err;
  988. }
  989. unpacked_lun = req->login->login_lun;
  990. sbp_calc_data_length_direction(req, &data_length, &data_dir);
  991. pr_debug("sbp_handle_command ORB:0x%llx unpacked_lun:%d data_len:%d data_dir:%d\n",
  992. req->orb_pointer, unpacked_lun, data_length, data_dir);
  993. /* only used for printk until we do TMRs */
  994. req->se_cmd.tag = req->orb_pointer;
  995. target_submit_cmd(&req->se_cmd, sess->se_sess, req->cmd_buf,
  996. req->sense_buf, unpacked_lun, data_length,
  997. TCM_SIMPLE_TAG, data_dir, TARGET_SCF_ACK_KREF);
  998. return;
  999. err:
  1000. req->status.status |= cpu_to_be32(
  1001. STATUS_BLOCK_RESP(STATUS_RESP_TRANSPORT_FAILURE) |
  1002. STATUS_BLOCK_DEAD(0) |
  1003. STATUS_BLOCK_LEN(1) |
  1004. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_UNSPECIFIED_ERROR));
  1005. sbp_send_status(req);
  1006. }
  1007. /*
  1008. * DMA_TO_DEVICE = read from initiator (SCSI WRITE)
  1009. * DMA_FROM_DEVICE = write to initiator (SCSI READ)
  1010. */
  1011. static int sbp_rw_data(struct sbp_target_request *req)
  1012. {
  1013. struct sbp_session *sess = req->login->sess;
  1014. int tcode, sg_miter_flags, max_payload, pg_size, speed, node_id,
  1015. generation, num_pte, length, tfr_length,
  1016. rcode = RCODE_COMPLETE;
  1017. struct sbp_page_table_entry *pte;
  1018. unsigned long long offset;
  1019. struct fw_card *card;
  1020. struct sg_mapping_iter iter;
  1021. if (req->se_cmd.data_direction == DMA_FROM_DEVICE) {
  1022. tcode = TCODE_WRITE_BLOCK_REQUEST;
  1023. sg_miter_flags = SG_MITER_FROM_SG;
  1024. } else {
  1025. tcode = TCODE_READ_BLOCK_REQUEST;
  1026. sg_miter_flags = SG_MITER_TO_SG;
  1027. }
  1028. max_payload = 4 << CMDBLK_ORB_MAX_PAYLOAD(be32_to_cpu(req->orb.misc));
  1029. speed = CMDBLK_ORB_SPEED(be32_to_cpu(req->orb.misc));
  1030. pg_size = CMDBLK_ORB_PG_SIZE(be32_to_cpu(req->orb.misc));
  1031. if (pg_size) {
  1032. pr_err("sbp_run_transaction: page size ignored\n");
  1033. }
  1034. spin_lock_bh(&sess->lock);
  1035. card = fw_card_get(sess->card);
  1036. node_id = sess->node_id;
  1037. generation = sess->generation;
  1038. spin_unlock_bh(&sess->lock);
  1039. if (req->pg_tbl) {
  1040. pte = req->pg_tbl;
  1041. num_pte = CMDBLK_ORB_DATA_SIZE(be32_to_cpu(req->orb.misc));
  1042. offset = 0;
  1043. length = 0;
  1044. } else {
  1045. pte = NULL;
  1046. num_pte = 0;
  1047. offset = sbp2_pointer_to_addr(&req->orb.data_descriptor);
  1048. length = req->se_cmd.data_length;
  1049. }
  1050. sg_miter_start(&iter, req->se_cmd.t_data_sg, req->se_cmd.t_data_nents,
  1051. sg_miter_flags);
  1052. while (length || num_pte) {
  1053. if (!length) {
  1054. offset = (u64)be16_to_cpu(pte->segment_base_hi) << 32 |
  1055. be32_to_cpu(pte->segment_base_lo);
  1056. length = be16_to_cpu(pte->segment_length);
  1057. pte++;
  1058. num_pte--;
  1059. }
  1060. sg_miter_next(&iter);
  1061. tfr_length = min3(length, max_payload, (int)iter.length);
  1062. /* FIXME: take page_size into account */
  1063. rcode = sbp_run_transaction(card, tcode, node_id,
  1064. generation, speed,
  1065. offset, iter.addr, tfr_length);
  1066. if (rcode != RCODE_COMPLETE)
  1067. break;
  1068. length -= tfr_length;
  1069. offset += tfr_length;
  1070. iter.consumed = tfr_length;
  1071. }
  1072. sg_miter_stop(&iter);
  1073. fw_card_put(card);
  1074. if (rcode == RCODE_COMPLETE) {
  1075. WARN_ON(length != 0);
  1076. return 0;
  1077. } else {
  1078. return -EIO;
  1079. }
  1080. }
  1081. static int sbp_send_status(struct sbp_target_request *req)
  1082. {
  1083. int rc, ret = 0, length;
  1084. struct sbp_login_descriptor *login = req->login;
  1085. length = (((be32_to_cpu(req->status.status) >> 24) & 0x07) + 1) * 4;
  1086. rc = sbp_run_request_transaction(req, TCODE_WRITE_BLOCK_REQUEST,
  1087. login->status_fifo_addr, &req->status, length);
  1088. if (rc != RCODE_COMPLETE) {
  1089. pr_debug("sbp_send_status: write failed: 0x%x\n", rc);
  1090. ret = -EIO;
  1091. goto put_ref;
  1092. }
  1093. pr_debug("sbp_send_status: status write complete for ORB: 0x%llx\n",
  1094. req->orb_pointer);
  1095. /*
  1096. * Drop the extra ACK_KREF reference taken by target_submit_cmd()
  1097. * ahead of sbp_check_stop_free() -> transport_generic_free_cmd()
  1098. * final se_cmd->cmd_kref put.
  1099. */
  1100. put_ref:
  1101. target_put_sess_cmd(&req->se_cmd);
  1102. return ret;
  1103. }
  1104. static void sbp_sense_mangle(struct sbp_target_request *req)
  1105. {
  1106. struct se_cmd *se_cmd = &req->se_cmd;
  1107. u8 *sense = req->sense_buf;
  1108. u8 *status = req->status.data;
  1109. WARN_ON(se_cmd->scsi_sense_length < 18);
  1110. switch (sense[0] & 0x7f) { /* sfmt */
  1111. case 0x70: /* current, fixed */
  1112. status[0] = 0 << 6;
  1113. break;
  1114. case 0x71: /* deferred, fixed */
  1115. status[0] = 1 << 6;
  1116. break;
  1117. case 0x72: /* current, descriptor */
  1118. case 0x73: /* deferred, descriptor */
  1119. default:
  1120. /*
  1121. * TODO: SBP-3 specifies what we should do with descriptor
  1122. * format sense data
  1123. */
  1124. pr_err("sbp_send_sense: unknown sense format: 0x%x\n",
  1125. sense[0]);
  1126. req->status.status |= cpu_to_be32(
  1127. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  1128. STATUS_BLOCK_DEAD(0) |
  1129. STATUS_BLOCK_LEN(1) |
  1130. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_REQUEST_ABORTED));
  1131. return;
  1132. }
  1133. status[0] |= se_cmd->scsi_status & 0x3f;/* status */
  1134. status[1] =
  1135. (sense[0] & 0x80) | /* valid */
  1136. ((sense[2] & 0xe0) >> 1) | /* mark, eom, ili */
  1137. (sense[2] & 0x0f); /* sense_key */
  1138. status[2] = 0; /* XXX sense_code */
  1139. status[3] = 0; /* XXX sense_qualifier */
  1140. /* information */
  1141. status[4] = sense[3];
  1142. status[5] = sense[4];
  1143. status[6] = sense[5];
  1144. status[7] = sense[6];
  1145. /* CDB-dependent */
  1146. status[8] = sense[8];
  1147. status[9] = sense[9];
  1148. status[10] = sense[10];
  1149. status[11] = sense[11];
  1150. /* fru */
  1151. status[12] = sense[14];
  1152. /* sense_key-dependent */
  1153. status[13] = sense[15];
  1154. status[14] = sense[16];
  1155. status[15] = sense[17];
  1156. req->status.status |= cpu_to_be32(
  1157. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  1158. STATUS_BLOCK_DEAD(0) |
  1159. STATUS_BLOCK_LEN(5) |
  1160. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_OK));
  1161. }
  1162. static int sbp_send_sense(struct sbp_target_request *req)
  1163. {
  1164. struct se_cmd *se_cmd = &req->se_cmd;
  1165. if (se_cmd->scsi_sense_length) {
  1166. sbp_sense_mangle(req);
  1167. } else {
  1168. req->status.status |= cpu_to_be32(
  1169. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  1170. STATUS_BLOCK_DEAD(0) |
  1171. STATUS_BLOCK_LEN(1) |
  1172. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_OK));
  1173. }
  1174. return sbp_send_status(req);
  1175. }
  1176. static void sbp_free_request(struct sbp_target_request *req)
  1177. {
  1178. struct se_cmd *se_cmd = &req->se_cmd;
  1179. struct se_session *se_sess = se_cmd->se_sess;
  1180. kfree(req->pg_tbl);
  1181. kfree(req->cmd_buf);
  1182. target_free_tag(se_sess, se_cmd);
  1183. }
  1184. static void sbp_mgt_agent_process(struct work_struct *work)
  1185. {
  1186. struct sbp_management_agent *agent =
  1187. container_of(work, struct sbp_management_agent, work);
  1188. struct sbp_management_request *req = agent->request;
  1189. int ret;
  1190. int status_data_len = 0;
  1191. /* fetch the ORB from the initiator */
  1192. ret = sbp_run_transaction(req->card, TCODE_READ_BLOCK_REQUEST,
  1193. req->node_addr, req->generation, req->speed,
  1194. agent->orb_offset, &req->orb, sizeof(req->orb));
  1195. if (ret != RCODE_COMPLETE) {
  1196. pr_debug("mgt_orb fetch failed: %x\n", ret);
  1197. goto out;
  1198. }
  1199. pr_debug("mgt_orb ptr1:0x%llx ptr2:0x%llx misc:0x%x len:0x%x status_fifo:0x%llx\n",
  1200. sbp2_pointer_to_addr(&req->orb.ptr1),
  1201. sbp2_pointer_to_addr(&req->orb.ptr2),
  1202. be32_to_cpu(req->orb.misc), be32_to_cpu(req->orb.length),
  1203. sbp2_pointer_to_addr(&req->orb.status_fifo));
  1204. if (!ORB_NOTIFY(be32_to_cpu(req->orb.misc)) ||
  1205. ORB_REQUEST_FORMAT(be32_to_cpu(req->orb.misc)) != 0) {
  1206. pr_err("mgt_orb bad request\n");
  1207. goto out;
  1208. }
  1209. switch (MANAGEMENT_ORB_FUNCTION(be32_to_cpu(req->orb.misc))) {
  1210. case MANAGEMENT_ORB_FUNCTION_LOGIN:
  1211. sbp_management_request_login(agent, req, &status_data_len);
  1212. break;
  1213. case MANAGEMENT_ORB_FUNCTION_QUERY_LOGINS:
  1214. sbp_management_request_query_logins(agent, req,
  1215. &status_data_len);
  1216. break;
  1217. case MANAGEMENT_ORB_FUNCTION_RECONNECT:
  1218. sbp_management_request_reconnect(agent, req, &status_data_len);
  1219. break;
  1220. case MANAGEMENT_ORB_FUNCTION_SET_PASSWORD:
  1221. pr_notice("SET PASSWORD not implemented\n");
  1222. req->status.status = cpu_to_be32(
  1223. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  1224. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_REQ_TYPE_NOTSUPP));
  1225. break;
  1226. case MANAGEMENT_ORB_FUNCTION_LOGOUT:
  1227. sbp_management_request_logout(agent, req, &status_data_len);
  1228. break;
  1229. case MANAGEMENT_ORB_FUNCTION_ABORT_TASK:
  1230. pr_notice("ABORT TASK not implemented\n");
  1231. req->status.status = cpu_to_be32(
  1232. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  1233. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_REQ_TYPE_NOTSUPP));
  1234. break;
  1235. case MANAGEMENT_ORB_FUNCTION_ABORT_TASK_SET:
  1236. pr_notice("ABORT TASK SET not implemented\n");
  1237. req->status.status = cpu_to_be32(
  1238. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  1239. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_REQ_TYPE_NOTSUPP));
  1240. break;
  1241. case MANAGEMENT_ORB_FUNCTION_LOGICAL_UNIT_RESET:
  1242. pr_notice("LOGICAL UNIT RESET not implemented\n");
  1243. req->status.status = cpu_to_be32(
  1244. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  1245. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_REQ_TYPE_NOTSUPP));
  1246. break;
  1247. case MANAGEMENT_ORB_FUNCTION_TARGET_RESET:
  1248. pr_notice("TARGET RESET not implemented\n");
  1249. req->status.status = cpu_to_be32(
  1250. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  1251. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_REQ_TYPE_NOTSUPP));
  1252. break;
  1253. default:
  1254. pr_notice("unknown management function 0x%x\n",
  1255. MANAGEMENT_ORB_FUNCTION(be32_to_cpu(req->orb.misc)));
  1256. req->status.status = cpu_to_be32(
  1257. STATUS_BLOCK_RESP(STATUS_RESP_REQUEST_COMPLETE) |
  1258. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_REQ_TYPE_NOTSUPP));
  1259. break;
  1260. }
  1261. req->status.status |= cpu_to_be32(
  1262. STATUS_BLOCK_SRC(1) | /* Response to ORB, next_ORB absent */
  1263. STATUS_BLOCK_LEN(DIV_ROUND_UP(status_data_len, 4) + 1) |
  1264. STATUS_BLOCK_ORB_OFFSET_HIGH(agent->orb_offset >> 32));
  1265. req->status.orb_low = cpu_to_be32(agent->orb_offset);
  1266. /* write the status block back to the initiator */
  1267. ret = sbp_run_transaction(req->card, TCODE_WRITE_BLOCK_REQUEST,
  1268. req->node_addr, req->generation, req->speed,
  1269. sbp2_pointer_to_addr(&req->orb.status_fifo),
  1270. &req->status, 8 + status_data_len);
  1271. if (ret != RCODE_COMPLETE) {
  1272. pr_debug("mgt_orb status write failed: %x\n", ret);
  1273. goto out;
  1274. }
  1275. out:
  1276. fw_card_put(req->card);
  1277. kfree(req);
  1278. spin_lock_bh(&agent->lock);
  1279. agent->state = MANAGEMENT_AGENT_STATE_IDLE;
  1280. spin_unlock_bh(&agent->lock);
  1281. }
  1282. static void sbp_mgt_agent_rw(struct fw_card *card,
  1283. struct fw_request *request, int tcode, int destination, int source,
  1284. int generation, unsigned long long offset, void *data, size_t length,
  1285. void *callback_data)
  1286. {
  1287. struct sbp_management_agent *agent = callback_data;
  1288. struct sbp2_pointer *ptr = data;
  1289. int rcode = RCODE_ADDRESS_ERROR;
  1290. if (!agent->tport->enable)
  1291. goto out;
  1292. if ((offset != agent->handler.offset) || (length != 8))
  1293. goto out;
  1294. if (tcode == TCODE_WRITE_BLOCK_REQUEST) {
  1295. struct sbp_management_request *req;
  1296. int prev_state;
  1297. spin_lock_bh(&agent->lock);
  1298. prev_state = agent->state;
  1299. agent->state = MANAGEMENT_AGENT_STATE_BUSY;
  1300. spin_unlock_bh(&agent->lock);
  1301. if (prev_state == MANAGEMENT_AGENT_STATE_BUSY) {
  1302. pr_notice("ignoring management request while busy\n");
  1303. rcode = RCODE_CONFLICT_ERROR;
  1304. goto out;
  1305. }
  1306. req = kzalloc_obj(*req, GFP_ATOMIC);
  1307. if (!req) {
  1308. rcode = RCODE_CONFLICT_ERROR;
  1309. goto out;
  1310. }
  1311. req->card = fw_card_get(card);
  1312. req->generation = generation;
  1313. req->node_addr = source;
  1314. req->speed = fw_get_request_speed(request);
  1315. agent->orb_offset = sbp2_pointer_to_addr(ptr);
  1316. agent->request = req;
  1317. queue_work(system_dfl_wq, &agent->work);
  1318. rcode = RCODE_COMPLETE;
  1319. } else if (tcode == TCODE_READ_BLOCK_REQUEST) {
  1320. addr_to_sbp2_pointer(agent->orb_offset, ptr);
  1321. rcode = RCODE_COMPLETE;
  1322. } else {
  1323. rcode = RCODE_TYPE_ERROR;
  1324. }
  1325. out:
  1326. fw_send_response(card, request, rcode);
  1327. }
  1328. static struct sbp_management_agent *sbp_management_agent_register(
  1329. struct sbp_tport *tport)
  1330. {
  1331. int ret;
  1332. struct sbp_management_agent *agent;
  1333. agent = kmalloc_obj(*agent);
  1334. if (!agent)
  1335. return ERR_PTR(-ENOMEM);
  1336. spin_lock_init(&agent->lock);
  1337. agent->tport = tport;
  1338. agent->handler.length = 0x08;
  1339. agent->handler.address_callback = sbp_mgt_agent_rw;
  1340. agent->handler.callback_data = agent;
  1341. agent->state = MANAGEMENT_AGENT_STATE_IDLE;
  1342. INIT_WORK(&agent->work, sbp_mgt_agent_process);
  1343. agent->orb_offset = 0;
  1344. agent->request = NULL;
  1345. ret = fw_core_add_address_handler(&agent->handler,
  1346. &sbp_register_region);
  1347. if (ret < 0) {
  1348. kfree(agent);
  1349. return ERR_PTR(ret);
  1350. }
  1351. return agent;
  1352. }
  1353. static void sbp_management_agent_unregister(struct sbp_management_agent *agent)
  1354. {
  1355. fw_core_remove_address_handler(&agent->handler);
  1356. cancel_work_sync(&agent->work);
  1357. kfree(agent);
  1358. }
  1359. static int sbp_check_true(struct se_portal_group *se_tpg)
  1360. {
  1361. return 1;
  1362. }
  1363. static char *sbp_get_fabric_wwn(struct se_portal_group *se_tpg)
  1364. {
  1365. struct sbp_tpg *tpg = container_of(se_tpg, struct sbp_tpg, se_tpg);
  1366. struct sbp_tport *tport = tpg->tport;
  1367. return &tport->tport_name[0];
  1368. }
  1369. static u16 sbp_get_tag(struct se_portal_group *se_tpg)
  1370. {
  1371. struct sbp_tpg *tpg = container_of(se_tpg, struct sbp_tpg, se_tpg);
  1372. return tpg->tport_tpgt;
  1373. }
  1374. static void sbp_release_cmd(struct se_cmd *se_cmd)
  1375. {
  1376. struct sbp_target_request *req = container_of(se_cmd,
  1377. struct sbp_target_request, se_cmd);
  1378. sbp_free_request(req);
  1379. }
  1380. static int sbp_write_pending(struct se_cmd *se_cmd)
  1381. {
  1382. struct sbp_target_request *req = container_of(se_cmd,
  1383. struct sbp_target_request, se_cmd);
  1384. int ret;
  1385. ret = sbp_rw_data(req);
  1386. if (ret) {
  1387. req->status.status |= cpu_to_be32(
  1388. STATUS_BLOCK_RESP(
  1389. STATUS_RESP_TRANSPORT_FAILURE) |
  1390. STATUS_BLOCK_DEAD(0) |
  1391. STATUS_BLOCK_LEN(1) |
  1392. STATUS_BLOCK_SBP_STATUS(
  1393. SBP_STATUS_UNSPECIFIED_ERROR));
  1394. sbp_send_status(req);
  1395. return ret;
  1396. }
  1397. target_execute_cmd(se_cmd);
  1398. return 0;
  1399. }
  1400. static int sbp_queue_data_in(struct se_cmd *se_cmd)
  1401. {
  1402. struct sbp_target_request *req = container_of(se_cmd,
  1403. struct sbp_target_request, se_cmd);
  1404. int ret;
  1405. ret = sbp_rw_data(req);
  1406. if (ret) {
  1407. req->status.status |= cpu_to_be32(
  1408. STATUS_BLOCK_RESP(STATUS_RESP_TRANSPORT_FAILURE) |
  1409. STATUS_BLOCK_DEAD(0) |
  1410. STATUS_BLOCK_LEN(1) |
  1411. STATUS_BLOCK_SBP_STATUS(SBP_STATUS_UNSPECIFIED_ERROR));
  1412. sbp_send_status(req);
  1413. return ret;
  1414. }
  1415. return sbp_send_sense(req);
  1416. }
  1417. /*
  1418. * Called after command (no data transfer) or after the write (to device)
  1419. * operation is completed
  1420. */
  1421. static int sbp_queue_status(struct se_cmd *se_cmd)
  1422. {
  1423. struct sbp_target_request *req = container_of(se_cmd,
  1424. struct sbp_target_request, se_cmd);
  1425. return sbp_send_sense(req);
  1426. }
  1427. static void sbp_queue_tm_rsp(struct se_cmd *se_cmd)
  1428. {
  1429. }
  1430. static void sbp_aborted_task(struct se_cmd *se_cmd)
  1431. {
  1432. return;
  1433. }
  1434. static int sbp_check_stop_free(struct se_cmd *se_cmd)
  1435. {
  1436. struct sbp_target_request *req = container_of(se_cmd,
  1437. struct sbp_target_request, se_cmd);
  1438. return transport_generic_free_cmd(&req->se_cmd, 0);
  1439. }
  1440. static int sbp_count_se_tpg_luns(struct se_portal_group *tpg)
  1441. {
  1442. struct se_lun *lun;
  1443. int count = 0;
  1444. rcu_read_lock();
  1445. hlist_for_each_entry_rcu(lun, &tpg->tpg_lun_hlist, link)
  1446. count++;
  1447. rcu_read_unlock();
  1448. return count;
  1449. }
  1450. static int sbp_update_unit_directory(struct sbp_tport *tport)
  1451. {
  1452. struct se_lun *lun;
  1453. int num_luns, num_entries, idx = 0, mgt_agt_addr, ret;
  1454. u32 *data;
  1455. if (tport->unit_directory.data) {
  1456. fw_core_remove_descriptor(&tport->unit_directory);
  1457. kfree(tport->unit_directory.data);
  1458. tport->unit_directory.data = NULL;
  1459. }
  1460. if (!tport->enable || !tport->tpg)
  1461. return 0;
  1462. num_luns = sbp_count_se_tpg_luns(&tport->tpg->se_tpg);
  1463. /*
  1464. * Number of entries in the final unit directory:
  1465. * - all of those in the template
  1466. * - management_agent
  1467. * - unit_characteristics
  1468. * - reconnect_timeout
  1469. * - unit unique ID
  1470. * - one for each LUN
  1471. *
  1472. * MUST NOT include leaf or sub-directory entries
  1473. */
  1474. num_entries = ARRAY_SIZE(sbp_unit_directory_template) + 4 + num_luns;
  1475. if (tport->directory_id != -1)
  1476. num_entries++;
  1477. /* allocate num_entries + 4 for the header and unique ID leaf */
  1478. data = kcalloc((num_entries + 4), sizeof(u32), GFP_KERNEL);
  1479. if (!data)
  1480. return -ENOMEM;
  1481. /* directory_length */
  1482. data[idx++] = num_entries << 16;
  1483. /* directory_id */
  1484. if (tport->directory_id != -1)
  1485. data[idx++] = (CSR_DIRECTORY_ID << 24) | tport->directory_id;
  1486. /* unit directory template */
  1487. memcpy(&data[idx], sbp_unit_directory_template,
  1488. sizeof(sbp_unit_directory_template));
  1489. idx += ARRAY_SIZE(sbp_unit_directory_template);
  1490. /* management_agent */
  1491. mgt_agt_addr = (tport->mgt_agt->handler.offset - CSR_REGISTER_BASE) / 4;
  1492. data[idx++] = 0x54000000 | (mgt_agt_addr & 0x00ffffff);
  1493. /* unit_characteristics */
  1494. data[idx++] = 0x3a000000 |
  1495. (((tport->mgt_orb_timeout * 2) << 8) & 0xff00) |
  1496. SBP_ORB_FETCH_SIZE;
  1497. /* reconnect_timeout */
  1498. data[idx++] = 0x3d000000 | (tport->max_reconnect_timeout & 0xffff);
  1499. /* unit unique ID (leaf is just after LUNs) */
  1500. data[idx++] = 0x8d000000 | (num_luns + 1);
  1501. rcu_read_lock();
  1502. hlist_for_each_entry_rcu(lun, &tport->tpg->se_tpg.tpg_lun_hlist, link) {
  1503. struct se_device *dev;
  1504. int type;
  1505. /*
  1506. * rcu_dereference_raw protected by se_lun->lun_group symlink
  1507. * reference to se_device->dev_group.
  1508. */
  1509. dev = rcu_dereference_raw(lun->lun_se_dev);
  1510. type = dev->transport->get_device_type(dev);
  1511. /* logical_unit_number */
  1512. data[idx++] = 0x14000000 |
  1513. ((type << 16) & 0x1f0000) |
  1514. (lun->unpacked_lun & 0xffff);
  1515. }
  1516. rcu_read_unlock();
  1517. /* unit unique ID leaf */
  1518. data[idx++] = 2 << 16;
  1519. data[idx++] = tport->guid >> 32;
  1520. data[idx++] = tport->guid;
  1521. tport->unit_directory.length = idx;
  1522. tport->unit_directory.key = (CSR_DIRECTORY | CSR_UNIT) << 24;
  1523. tport->unit_directory.data = data;
  1524. ret = fw_core_add_descriptor(&tport->unit_directory);
  1525. if (ret < 0) {
  1526. kfree(tport->unit_directory.data);
  1527. tport->unit_directory.data = NULL;
  1528. }
  1529. return ret;
  1530. }
  1531. static ssize_t sbp_parse_wwn(const char *name, u64 *wwn)
  1532. {
  1533. const char *cp;
  1534. char c, nibble;
  1535. int pos = 0, err;
  1536. *wwn = 0;
  1537. for (cp = name; cp < &name[SBP_NAMELEN - 1]; cp++) {
  1538. c = *cp;
  1539. if (c == '\n' && cp[1] == '\0')
  1540. continue;
  1541. if (c == '\0') {
  1542. err = 2;
  1543. if (pos != 16)
  1544. goto fail;
  1545. return cp - name;
  1546. }
  1547. err = 3;
  1548. if (isdigit(c))
  1549. nibble = c - '0';
  1550. else if (isxdigit(c))
  1551. nibble = tolower(c) - 'a' + 10;
  1552. else
  1553. goto fail;
  1554. *wwn = (*wwn << 4) | nibble;
  1555. pos++;
  1556. }
  1557. err = 4;
  1558. fail:
  1559. printk(KERN_INFO "err %u len %zu pos %u\n",
  1560. err, cp - name, pos);
  1561. return -1;
  1562. }
  1563. static ssize_t sbp_format_wwn(char *buf, size_t len, u64 wwn)
  1564. {
  1565. return snprintf(buf, len, "%016llx", wwn);
  1566. }
  1567. static int sbp_init_nodeacl(struct se_node_acl *se_nacl, const char *name)
  1568. {
  1569. u64 guid = 0;
  1570. if (sbp_parse_wwn(name, &guid) < 0)
  1571. return -EINVAL;
  1572. return 0;
  1573. }
  1574. static int sbp_post_link_lun(
  1575. struct se_portal_group *se_tpg,
  1576. struct se_lun *se_lun)
  1577. {
  1578. struct sbp_tpg *tpg = container_of(se_tpg, struct sbp_tpg, se_tpg);
  1579. return sbp_update_unit_directory(tpg->tport);
  1580. }
  1581. static void sbp_pre_unlink_lun(
  1582. struct se_portal_group *se_tpg,
  1583. struct se_lun *se_lun)
  1584. {
  1585. struct sbp_tpg *tpg = container_of(se_tpg, struct sbp_tpg, se_tpg);
  1586. struct sbp_tport *tport = tpg->tport;
  1587. int ret;
  1588. if (sbp_count_se_tpg_luns(&tpg->se_tpg) == 0)
  1589. tport->enable = 0;
  1590. ret = sbp_update_unit_directory(tport);
  1591. if (ret < 0)
  1592. pr_err("unlink LUN: failed to update unit directory\n");
  1593. }
  1594. static struct se_portal_group *sbp_make_tpg(struct se_wwn *wwn,
  1595. const char *name)
  1596. {
  1597. struct sbp_tport *tport =
  1598. container_of(wwn, struct sbp_tport, tport_wwn);
  1599. struct sbp_tpg *tpg;
  1600. u16 tpgt;
  1601. int ret;
  1602. if (strstr(name, "tpgt_") != name)
  1603. return ERR_PTR(-EINVAL);
  1604. if (kstrtou16(name + 5, 10, &tpgt))
  1605. return ERR_PTR(-EINVAL);
  1606. if (tport->tpg) {
  1607. pr_err("Only one TPG per Unit is possible.\n");
  1608. return ERR_PTR(-EBUSY);
  1609. }
  1610. tpg = kzalloc_obj(*tpg);
  1611. if (!tpg)
  1612. return ERR_PTR(-ENOMEM);
  1613. tpg->tport = tport;
  1614. tpg->tport_tpgt = tpgt;
  1615. tport->tpg = tpg;
  1616. /* default attribute values */
  1617. tport->enable = 0;
  1618. tport->directory_id = -1;
  1619. tport->mgt_orb_timeout = 15;
  1620. tport->max_reconnect_timeout = 5;
  1621. tport->max_logins_per_lun = 1;
  1622. tport->mgt_agt = sbp_management_agent_register(tport);
  1623. if (IS_ERR(tport->mgt_agt)) {
  1624. ret = PTR_ERR(tport->mgt_agt);
  1625. goto out_free_tpg;
  1626. }
  1627. ret = core_tpg_register(wwn, &tpg->se_tpg, SCSI_PROTOCOL_SBP);
  1628. if (ret < 0)
  1629. goto out_unreg_mgt_agt;
  1630. return &tpg->se_tpg;
  1631. out_unreg_mgt_agt:
  1632. sbp_management_agent_unregister(tport->mgt_agt);
  1633. out_free_tpg:
  1634. tport->tpg = NULL;
  1635. kfree(tpg);
  1636. return ERR_PTR(ret);
  1637. }
  1638. static void sbp_drop_tpg(struct se_portal_group *se_tpg)
  1639. {
  1640. struct sbp_tpg *tpg = container_of(se_tpg, struct sbp_tpg, se_tpg);
  1641. struct sbp_tport *tport = tpg->tport;
  1642. core_tpg_deregister(se_tpg);
  1643. sbp_management_agent_unregister(tport->mgt_agt);
  1644. tport->tpg = NULL;
  1645. kfree(tpg);
  1646. }
  1647. static struct se_wwn *sbp_make_tport(
  1648. struct target_fabric_configfs *tf,
  1649. struct config_group *group,
  1650. const char *name)
  1651. {
  1652. struct sbp_tport *tport;
  1653. u64 guid = 0;
  1654. if (sbp_parse_wwn(name, &guid) < 0)
  1655. return ERR_PTR(-EINVAL);
  1656. tport = kzalloc_obj(*tport);
  1657. if (!tport)
  1658. return ERR_PTR(-ENOMEM);
  1659. tport->guid = guid;
  1660. sbp_format_wwn(tport->tport_name, SBP_NAMELEN, guid);
  1661. return &tport->tport_wwn;
  1662. }
  1663. static void sbp_drop_tport(struct se_wwn *wwn)
  1664. {
  1665. struct sbp_tport *tport =
  1666. container_of(wwn, struct sbp_tport, tport_wwn);
  1667. kfree(tport);
  1668. }
  1669. static ssize_t sbp_wwn_version_show(struct config_item *item, char *page)
  1670. {
  1671. return sprintf(page, "FireWire SBP fabric module %s\n", SBP_VERSION);
  1672. }
  1673. CONFIGFS_ATTR_RO(sbp_wwn_, version);
  1674. static struct configfs_attribute *sbp_wwn_attrs[] = {
  1675. &sbp_wwn_attr_version,
  1676. NULL,
  1677. };
  1678. static ssize_t sbp_tpg_directory_id_show(struct config_item *item, char *page)
  1679. {
  1680. struct se_portal_group *se_tpg = to_tpg(item);
  1681. struct sbp_tpg *tpg = container_of(se_tpg, struct sbp_tpg, se_tpg);
  1682. struct sbp_tport *tport = tpg->tport;
  1683. if (tport->directory_id == -1)
  1684. return sprintf(page, "implicit\n");
  1685. else
  1686. return sprintf(page, "%06x\n", tport->directory_id);
  1687. }
  1688. static ssize_t sbp_tpg_directory_id_store(struct config_item *item,
  1689. const char *page, size_t count)
  1690. {
  1691. struct se_portal_group *se_tpg = to_tpg(item);
  1692. struct sbp_tpg *tpg = container_of(se_tpg, struct sbp_tpg, se_tpg);
  1693. struct sbp_tport *tport = tpg->tport;
  1694. unsigned long val;
  1695. if (tport->enable) {
  1696. pr_err("Cannot change the directory_id on an active target.\n");
  1697. return -EBUSY;
  1698. }
  1699. if (strstr(page, "implicit") == page) {
  1700. tport->directory_id = -1;
  1701. } else {
  1702. if (kstrtoul(page, 16, &val) < 0)
  1703. return -EINVAL;
  1704. if (val > 0xffffff)
  1705. return -EINVAL;
  1706. tport->directory_id = val;
  1707. }
  1708. return count;
  1709. }
  1710. static int sbp_enable_tpg(struct se_portal_group *se_tpg, bool enable)
  1711. {
  1712. struct sbp_tpg *tpg = container_of(se_tpg, struct sbp_tpg, se_tpg);
  1713. struct sbp_tport *tport = tpg->tport;
  1714. int ret;
  1715. if (enable) {
  1716. if (sbp_count_se_tpg_luns(&tpg->se_tpg) == 0) {
  1717. pr_err("Cannot enable a target with no LUNs!\n");
  1718. return -EINVAL;
  1719. }
  1720. } else {
  1721. /* XXX: force-shutdown sessions instead? */
  1722. spin_lock_bh(&se_tpg->session_lock);
  1723. if (!list_empty(&se_tpg->tpg_sess_list)) {
  1724. spin_unlock_bh(&se_tpg->session_lock);
  1725. return -EBUSY;
  1726. }
  1727. spin_unlock_bh(&se_tpg->session_lock);
  1728. }
  1729. tport->enable = enable;
  1730. ret = sbp_update_unit_directory(tport);
  1731. if (ret < 0) {
  1732. pr_err("Could not update Config ROM\n");
  1733. return ret;
  1734. }
  1735. return 0;
  1736. }
  1737. CONFIGFS_ATTR(sbp_tpg_, directory_id);
  1738. static struct configfs_attribute *sbp_tpg_base_attrs[] = {
  1739. &sbp_tpg_attr_directory_id,
  1740. NULL,
  1741. };
  1742. static ssize_t sbp_tpg_attrib_mgt_orb_timeout_show(struct config_item *item,
  1743. char *page)
  1744. {
  1745. struct se_portal_group *se_tpg = attrib_to_tpg(item);
  1746. struct sbp_tpg *tpg = container_of(se_tpg, struct sbp_tpg, se_tpg);
  1747. struct sbp_tport *tport = tpg->tport;
  1748. return sprintf(page, "%d\n", tport->mgt_orb_timeout);
  1749. }
  1750. static ssize_t sbp_tpg_attrib_mgt_orb_timeout_store(struct config_item *item,
  1751. const char *page, size_t count)
  1752. {
  1753. struct se_portal_group *se_tpg = attrib_to_tpg(item);
  1754. struct sbp_tpg *tpg = container_of(se_tpg, struct sbp_tpg, se_tpg);
  1755. struct sbp_tport *tport = tpg->tport;
  1756. unsigned long val;
  1757. int ret;
  1758. if (kstrtoul(page, 0, &val) < 0)
  1759. return -EINVAL;
  1760. if ((val < 1) || (val > 127))
  1761. return -EINVAL;
  1762. if (tport->mgt_orb_timeout == val)
  1763. return count;
  1764. tport->mgt_orb_timeout = val;
  1765. ret = sbp_update_unit_directory(tport);
  1766. if (ret < 0)
  1767. return ret;
  1768. return count;
  1769. }
  1770. static ssize_t sbp_tpg_attrib_max_reconnect_timeout_show(struct config_item *item,
  1771. char *page)
  1772. {
  1773. struct se_portal_group *se_tpg = attrib_to_tpg(item);
  1774. struct sbp_tpg *tpg = container_of(se_tpg, struct sbp_tpg, se_tpg);
  1775. struct sbp_tport *tport = tpg->tport;
  1776. return sprintf(page, "%d\n", tport->max_reconnect_timeout);
  1777. }
  1778. static ssize_t sbp_tpg_attrib_max_reconnect_timeout_store(struct config_item *item,
  1779. const char *page, size_t count)
  1780. {
  1781. struct se_portal_group *se_tpg = attrib_to_tpg(item);
  1782. struct sbp_tpg *tpg = container_of(se_tpg, struct sbp_tpg, se_tpg);
  1783. struct sbp_tport *tport = tpg->tport;
  1784. unsigned long val;
  1785. int ret;
  1786. if (kstrtoul(page, 0, &val) < 0)
  1787. return -EINVAL;
  1788. if ((val < 1) || (val > 32767))
  1789. return -EINVAL;
  1790. if (tport->max_reconnect_timeout == val)
  1791. return count;
  1792. tport->max_reconnect_timeout = val;
  1793. ret = sbp_update_unit_directory(tport);
  1794. if (ret < 0)
  1795. return ret;
  1796. return count;
  1797. }
  1798. static ssize_t sbp_tpg_attrib_max_logins_per_lun_show(struct config_item *item,
  1799. char *page)
  1800. {
  1801. struct se_portal_group *se_tpg = attrib_to_tpg(item);
  1802. struct sbp_tpg *tpg = container_of(se_tpg, struct sbp_tpg, se_tpg);
  1803. struct sbp_tport *tport = tpg->tport;
  1804. return sprintf(page, "%d\n", tport->max_logins_per_lun);
  1805. }
  1806. static ssize_t sbp_tpg_attrib_max_logins_per_lun_store(struct config_item *item,
  1807. const char *page, size_t count)
  1808. {
  1809. struct se_portal_group *se_tpg = attrib_to_tpg(item);
  1810. struct sbp_tpg *tpg = container_of(se_tpg, struct sbp_tpg, se_tpg);
  1811. struct sbp_tport *tport = tpg->tport;
  1812. unsigned long val;
  1813. if (kstrtoul(page, 0, &val) < 0)
  1814. return -EINVAL;
  1815. if ((val < 1) || (val > 127))
  1816. return -EINVAL;
  1817. /* XXX: also check against current count? */
  1818. tport->max_logins_per_lun = val;
  1819. return count;
  1820. }
  1821. CONFIGFS_ATTR(sbp_tpg_attrib_, mgt_orb_timeout);
  1822. CONFIGFS_ATTR(sbp_tpg_attrib_, max_reconnect_timeout);
  1823. CONFIGFS_ATTR(sbp_tpg_attrib_, max_logins_per_lun);
  1824. static struct configfs_attribute *sbp_tpg_attrib_attrs[] = {
  1825. &sbp_tpg_attrib_attr_mgt_orb_timeout,
  1826. &sbp_tpg_attrib_attr_max_reconnect_timeout,
  1827. &sbp_tpg_attrib_attr_max_logins_per_lun,
  1828. NULL,
  1829. };
  1830. static const struct target_core_fabric_ops sbp_ops = {
  1831. .module = THIS_MODULE,
  1832. .fabric_name = "sbp",
  1833. .tpg_get_wwn = sbp_get_fabric_wwn,
  1834. .tpg_get_tag = sbp_get_tag,
  1835. .tpg_check_demo_mode = sbp_check_true,
  1836. .tpg_check_demo_mode_cache = sbp_check_true,
  1837. .release_cmd = sbp_release_cmd,
  1838. .write_pending = sbp_write_pending,
  1839. .queue_data_in = sbp_queue_data_in,
  1840. .queue_status = sbp_queue_status,
  1841. .queue_tm_rsp = sbp_queue_tm_rsp,
  1842. .aborted_task = sbp_aborted_task,
  1843. .check_stop_free = sbp_check_stop_free,
  1844. .fabric_make_wwn = sbp_make_tport,
  1845. .fabric_drop_wwn = sbp_drop_tport,
  1846. .fabric_make_tpg = sbp_make_tpg,
  1847. .fabric_enable_tpg = sbp_enable_tpg,
  1848. .fabric_drop_tpg = sbp_drop_tpg,
  1849. .fabric_post_link = sbp_post_link_lun,
  1850. .fabric_pre_unlink = sbp_pre_unlink_lun,
  1851. .fabric_make_np = NULL,
  1852. .fabric_drop_np = NULL,
  1853. .fabric_init_nodeacl = sbp_init_nodeacl,
  1854. .tfc_wwn_attrs = sbp_wwn_attrs,
  1855. .tfc_tpg_base_attrs = sbp_tpg_base_attrs,
  1856. .tfc_tpg_attrib_attrs = sbp_tpg_attrib_attrs,
  1857. .default_submit_type = TARGET_DIRECT_SUBMIT,
  1858. .direct_submit_supp = 1,
  1859. };
  1860. static int __init sbp_init(void)
  1861. {
  1862. return target_register_template(&sbp_ops);
  1863. };
  1864. static void __exit sbp_exit(void)
  1865. {
  1866. target_unregister_template(&sbp_ops);
  1867. };
  1868. MODULE_DESCRIPTION("FireWire SBP fabric driver");
  1869. MODULE_LICENSE("GPL");
  1870. module_init(sbp_init);
  1871. module_exit(sbp_exit);