bfa_defs.h 38 KB

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  1. /*
  2. * Copyright (c) 2005-2010 Brocade Communications Systems, Inc.
  3. * All rights reserved
  4. * www.brocade.com
  5. *
  6. * Linux driver for Brocade Fibre Channel Host Bus Adapter.
  7. *
  8. * This program is free software; you can redistribute it and/or modify it
  9. * under the terms of the GNU General Public License (GPL) Version 2 as
  10. * published by the Free Software Foundation
  11. *
  12. * This program is distributed in the hope that it will be useful, but
  13. * WITHOUT ANY WARRANTY; without even the implied warranty of
  14. * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
  15. * General Public License for more details.
  16. */
  17. #ifndef __BFA_DEFS_H__
  18. #define __BFA_DEFS_H__
  19. #include "bfa_fc.h"
  20. #include "bfad_drv.h"
  21. #define BFA_MFG_SERIALNUM_SIZE 11
  22. #define STRSZ(_n) (((_n) + 4) & ~3)
  23. /*
  24. * Manufacturing card type
  25. */
  26. enum {
  27. BFA_MFG_TYPE_CB_MAX = 825, /* Crossbow card type max */
  28. BFA_MFG_TYPE_FC8P2 = 825, /* 8G 2port FC card */
  29. BFA_MFG_TYPE_FC8P1 = 815, /* 8G 1port FC card */
  30. BFA_MFG_TYPE_FC4P2 = 425, /* 4G 2port FC card */
  31. BFA_MFG_TYPE_FC4P1 = 415, /* 4G 1port FC card */
  32. BFA_MFG_TYPE_CNA10P2 = 1020, /* 10G 2port CNA card */
  33. BFA_MFG_TYPE_CNA10P1 = 1010, /* 10G 1port CNA card */
  34. BFA_MFG_TYPE_JAYHAWK = 804, /* Jayhawk mezz card */
  35. BFA_MFG_TYPE_WANCHESE = 1007, /* Wanchese mezz card */
  36. BFA_MFG_TYPE_ASTRA = 807, /* Astra mezz card */
  37. BFA_MFG_TYPE_LIGHTNING_P0 = 902, /* Lightning mezz card - old */
  38. BFA_MFG_TYPE_LIGHTNING = 1741, /* Lightning mezz card */
  39. BFA_MFG_TYPE_PROWLER_F = 1560, /* Prowler FC only cards */
  40. BFA_MFG_TYPE_PROWLER_N = 1410, /* Prowler NIC only cards */
  41. BFA_MFG_TYPE_PROWLER_C = 1710, /* Prowler CNA only cards */
  42. BFA_MFG_TYPE_PROWLER_D = 1860, /* Prowler Dual cards */
  43. BFA_MFG_TYPE_CHINOOK = 1867, /* Chinook cards */
  44. BFA_MFG_TYPE_CHINOOK2 = 1869, /*!< Chinook2 cards */
  45. BFA_MFG_TYPE_INVALID = 0, /* Invalid card type */
  46. };
  47. #pragma pack(1)
  48. /*
  49. * Check if Mezz card
  50. */
  51. #define bfa_mfg_is_mezz(type) (( \
  52. (type) == BFA_MFG_TYPE_JAYHAWK || \
  53. (type) == BFA_MFG_TYPE_WANCHESE || \
  54. (type) == BFA_MFG_TYPE_ASTRA || \
  55. (type) == BFA_MFG_TYPE_LIGHTNING_P0 || \
  56. (type) == BFA_MFG_TYPE_LIGHTNING || \
  57. (type) == BFA_MFG_TYPE_CHINOOK || \
  58. (type) == BFA_MFG_TYPE_CHINOOK2))
  59. /*
  60. * Check if the card having old wwn/mac handling
  61. */
  62. #define bfa_mfg_is_old_wwn_mac_model(type) (( \
  63. (type) == BFA_MFG_TYPE_FC8P2 || \
  64. (type) == BFA_MFG_TYPE_FC8P1 || \
  65. (type) == BFA_MFG_TYPE_FC4P2 || \
  66. (type) == BFA_MFG_TYPE_FC4P1 || \
  67. (type) == BFA_MFG_TYPE_CNA10P2 || \
  68. (type) == BFA_MFG_TYPE_CNA10P1 || \
  69. (type) == BFA_MFG_TYPE_JAYHAWK || \
  70. (type) == BFA_MFG_TYPE_WANCHESE))
  71. #define bfa_mfg_increment_wwn_mac(m, i) \
  72. do { \
  73. u32 t = ((u32)(m)[0] << 16) | ((u32)(m)[1] << 8) | \
  74. (u32)(m)[2]; \
  75. t += (i); \
  76. (m)[0] = (t >> 16) & 0xFF; \
  77. (m)[1] = (t >> 8) & 0xFF; \
  78. (m)[2] = t & 0xFF; \
  79. } while (0)
  80. /*
  81. * VPD data length
  82. */
  83. #define BFA_MFG_VPD_LEN 512
  84. /*
  85. * VPD vendor tag
  86. */
  87. enum {
  88. BFA_MFG_VPD_UNKNOWN = 0, /* vendor unknown */
  89. BFA_MFG_VPD_IBM = 1, /* vendor IBM */
  90. BFA_MFG_VPD_HP = 2, /* vendor HP */
  91. BFA_MFG_VPD_DELL = 3, /* vendor DELL */
  92. BFA_MFG_VPD_PCI_IBM = 0x08, /* PCI VPD IBM */
  93. BFA_MFG_VPD_PCI_HP = 0x10, /* PCI VPD HP */
  94. BFA_MFG_VPD_PCI_DELL = 0x20, /* PCI VPD DELL */
  95. BFA_MFG_VPD_PCI_BRCD = 0xf8, /* PCI VPD Brocade */
  96. };
  97. /*
  98. * All numerical fields are in big-endian format.
  99. */
  100. struct bfa_mfg_vpd_s {
  101. u8 version; /* vpd data version */
  102. u8 vpd_sig[3]; /* characters 'V', 'P', 'D' */
  103. u8 chksum; /* u8 checksum */
  104. u8 vendor; /* vendor */
  105. u8 len; /* vpd data length excluding header */
  106. u8 rsv;
  107. u8 data[BFA_MFG_VPD_LEN]; /* vpd data */
  108. };
  109. #pragma pack()
  110. /*
  111. * Status return values
  112. */
  113. enum bfa_status {
  114. BFA_STATUS_OK = 0, /* Success */
  115. BFA_STATUS_FAILED = 1, /* Operation failed */
  116. BFA_STATUS_EINVAL = 2, /* Invalid params Check input
  117. * parameters */
  118. BFA_STATUS_ENOMEM = 3, /* Out of resources */
  119. BFA_STATUS_ETIMER = 5, /* Timer expired - Retry, if persists,
  120. * contact support */
  121. BFA_STATUS_EPROTOCOL = 6, /* Protocol error */
  122. BFA_STATUS_BADFLASH = 9, /* Flash is bad */
  123. BFA_STATUS_SFP_UNSUPP = 10, /* Unsupported SFP - Replace SFP */
  124. BFA_STATUS_UNKNOWN_VFID = 11, /* VF_ID not found */
  125. BFA_STATUS_DATACORRUPTED = 12, /* Diag returned data corrupted */
  126. BFA_STATUS_DEVBUSY = 13, /* Device busy - Retry operation */
  127. BFA_STATUS_HDMA_FAILED = 16, /* Host dma failed contact support */
  128. BFA_STATUS_FLASH_BAD_LEN = 17, /* Flash bad length */
  129. BFA_STATUS_UNKNOWN_LWWN = 18, /* LPORT PWWN not found */
  130. BFA_STATUS_UNKNOWN_RWWN = 19, /* RPORT PWWN not found */
  131. BFA_STATUS_VPORT_EXISTS = 21, /* VPORT already exists */
  132. BFA_STATUS_VPORT_MAX = 22, /* Reached max VPORT supported limit */
  133. BFA_STATUS_UNSUPP_SPEED = 23, /* Invalid Speed Check speed setting */
  134. BFA_STATUS_INVLD_DFSZ = 24, /* Invalid Max data field size */
  135. BFA_STATUS_CMD_NOTSUPP = 26, /* Command/API not supported */
  136. BFA_STATUS_FABRIC_RJT = 29, /* Reject from attached fabric */
  137. BFA_STATUS_UNKNOWN_VWWN = 30, /* VPORT PWWN not found */
  138. BFA_STATUS_PORT_OFFLINE = 34, /* Port is not online */
  139. BFA_STATUS_VPORT_WWN_BP = 46, /* WWN is same as base port's WWN */
  140. BFA_STATUS_PORT_NOT_DISABLED = 47, /* Port not disabled disable port */
  141. BFA_STATUS_NO_FCPIM_NEXUS = 52, /* No FCP Nexus exists with the rport */
  142. BFA_STATUS_IOC_FAILURE = 56, /* IOC failure - Retry, if persists
  143. * contact support */
  144. BFA_STATUS_INVALID_WWN = 57, /* Invalid WWN */
  145. BFA_STATUS_ADAPTER_ENABLED = 60, /* Adapter is not disabled */
  146. BFA_STATUS_IOC_NON_OP = 61, /* IOC is not operational */
  147. BFA_STATUS_VERSION_FAIL = 70, /* Application/Driver version mismatch */
  148. BFA_STATUS_DIAG_BUSY = 71, /* diag busy */
  149. BFA_STATUS_BEACON_ON = 72, /* Port Beacon already on */
  150. BFA_STATUS_ENOFSAVE = 78, /* No saved firmware trace */
  151. BFA_STATUS_IOC_DISABLED = 82, /* IOC is already disabled */
  152. BFA_STATUS_ERROR_TRL_ENABLED = 87, /* TRL is enabled */
  153. BFA_STATUS_ERROR_QOS_ENABLED = 88, /* QoS is enabled */
  154. BFA_STATUS_NO_SFP_DEV = 89, /* No SFP device check or replace SFP */
  155. BFA_STATUS_MEMTEST_FAILED = 90, /* Memory test failed contact support */
  156. BFA_STATUS_LEDTEST_OP = 109, /* LED test is operating */
  157. BFA_STATUS_INVALID_MAC = 134, /* Invalid MAC address */
  158. BFA_STATUS_CMD_NOTSUPP_CNA = 146, /* Command not supported for CNA */
  159. BFA_STATUS_PBC = 154, /* Operation not allowed for pre-boot
  160. * configuration */
  161. BFA_STATUS_BAD_FWCFG = 156, /* Bad firmware configuration */
  162. BFA_STATUS_INVALID_VENDOR = 158, /* Invalid switch vendor */
  163. BFA_STATUS_SFP_NOT_READY = 159, /* SFP info is not ready. Retry */
  164. BFA_STATUS_TRUNK_ENABLED = 164, /* Trunk is already enabled on
  165. * this adapter */
  166. BFA_STATUS_TRUNK_DISABLED = 165, /* Trunking is disabled on
  167. * the adapter */
  168. BFA_STATUS_IOPROFILE_OFF = 175, /* IO profile OFF */
  169. BFA_STATUS_PHY_NOT_PRESENT = 183, /* PHY module not present */
  170. BFA_STATUS_FEATURE_NOT_SUPPORTED = 192, /* Feature not supported */
  171. BFA_STATUS_ENTRY_EXISTS = 193, /* Entry already exists */
  172. BFA_STATUS_ENTRY_NOT_EXISTS = 194, /* Entry does not exist */
  173. BFA_STATUS_NO_CHANGE = 195, /* Feature already in that state */
  174. BFA_STATUS_FAA_ENABLED = 197, /* FAA is already enabled */
  175. BFA_STATUS_FAA_DISABLED = 198, /* FAA is already disabled */
  176. BFA_STATUS_FAA_ACQUIRED = 199, /* FAA is already acquired */
  177. BFA_STATUS_FAA_ACQ_ADDR = 200, /* Acquiring addr */
  178. BFA_STATUS_BBCR_FC_ONLY = 201, /*!< BBCredit Recovery is supported for *
  179. * FC mode only */
  180. BFA_STATUS_ERROR_TRUNK_ENABLED = 203, /* Trunk enabled on adapter */
  181. BFA_STATUS_MAX_ENTRY_REACHED = 212, /* MAX entry reached */
  182. BFA_STATUS_TOPOLOGY_LOOP = 230, /* Topology is set to Loop */
  183. BFA_STATUS_LOOP_UNSUPP_MEZZ = 231, /* Loop topology is not supported
  184. * on mezz cards */
  185. BFA_STATUS_INVALID_BW = 233, /* Invalid bandwidth value */
  186. BFA_STATUS_QOS_BW_INVALID = 234, /* Invalid QOS bandwidth
  187. * configuration */
  188. BFA_STATUS_DPORT_ENABLED = 235, /* D-port mode is already enabled */
  189. BFA_STATUS_DPORT_DISABLED = 236, /* D-port mode is already disabled */
  190. BFA_STATUS_CMD_NOTSUPP_MEZZ = 239, /* Cmd not supported for MEZZ card */
  191. BFA_STATUS_FRU_NOT_PRESENT = 240, /* fru module not present */
  192. BFA_STATUS_DPORT_NO_SFP = 243, /* SFP is not present.\n D-port will be
  193. * enabled but it will be operational
  194. * only after inserting a valid SFP. */
  195. BFA_STATUS_DPORT_ERR = 245, /* D-port mode is enabled */
  196. BFA_STATUS_DPORT_ENOSYS = 254, /* Switch has no D_Port functionality */
  197. BFA_STATUS_DPORT_CANT_PERF = 255, /* Switch port is not D_Port capable
  198. * or D_Port is disabled */
  199. BFA_STATUS_DPORT_LOGICALERR = 256, /* Switch D_Port fail */
  200. BFA_STATUS_DPORT_SWBUSY = 257, /* Switch port busy */
  201. BFA_STATUS_ERR_BBCR_SPEED_UNSUPPORT = 258, /*!< BB credit recovery is
  202. * supported at max port speed alone */
  203. BFA_STATUS_ERROR_BBCR_ENABLED = 259, /*!< BB credit recovery
  204. * is enabled */
  205. BFA_STATUS_INVALID_BBSCN = 260, /*!< Invalid BBSCN value.
  206. * Valid range is [1-15] */
  207. BFA_STATUS_DDPORT_ERR = 261, /* Dynamic D_Port mode is active.\n To
  208. * exit dynamic mode, disable D_Port on
  209. * the remote port */
  210. BFA_STATUS_DPORT_SFPWRAP_ERR = 262, /* Clear e/o_wrap fail, check or
  211. * replace SFP */
  212. BFA_STATUS_BBCR_CFG_NO_CHANGE = 265, /*!< BBCR is operational.
  213. * Disable BBCR and try this operation again. */
  214. BFA_STATUS_DPORT_SW_NOTREADY = 268, /* Remote port is not ready to
  215. * start dport test. Check remote
  216. * port status. */
  217. BFA_STATUS_DPORT_INV_SFP = 271, /* Invalid SFP for D-PORT mode. */
  218. BFA_STATUS_DPORT_CMD_NOTSUPP = 273, /* Dport is not supported by
  219. * remote port */
  220. BFA_STATUS_MAX_VAL /* Unknown error code */
  221. };
  222. #define bfa_status_t enum bfa_status
  223. enum bfa_eproto_status {
  224. BFA_EPROTO_BAD_ACCEPT = 0,
  225. BFA_EPROTO_UNKNOWN_RSP = 1
  226. };
  227. #define bfa_eproto_status_t enum bfa_eproto_status
  228. enum bfa_boolean {
  229. BFA_FALSE = 0,
  230. BFA_TRUE = 1
  231. };
  232. #define bfa_boolean_t enum bfa_boolean
  233. #define BFA_STRING_32 32
  234. #define BFA_VERSION_LEN 64
  235. /*
  236. * ---------------------- adapter definitions ------------
  237. */
  238. /*
  239. * BFA adapter level attributes.
  240. */
  241. enum {
  242. BFA_ADAPTER_SERIAL_NUM_LEN = STRSZ(BFA_MFG_SERIALNUM_SIZE),
  243. /*
  244. *!< adapter serial num length
  245. */
  246. BFA_ADAPTER_MODEL_NAME_LEN = 16, /* model name length */
  247. BFA_ADAPTER_MODEL_DESCR_LEN = 128, /* model description length */
  248. BFA_ADAPTER_MFG_NAME_LEN = 8, /* manufacturer name length */
  249. BFA_ADAPTER_SYM_NAME_LEN = 64, /* adapter symbolic name length */
  250. BFA_ADAPTER_OS_TYPE_LEN = 64, /* adapter os type length */
  251. BFA_ADAPTER_UUID_LEN = 16, /* adapter uuid length */
  252. };
  253. struct bfa_adapter_attr_s {
  254. char manufacturer[BFA_ADAPTER_MFG_NAME_LEN];
  255. char serial_num[BFA_ADAPTER_SERIAL_NUM_LEN];
  256. u32 card_type;
  257. char model[BFA_ADAPTER_MODEL_NAME_LEN];
  258. char model_descr[BFA_ADAPTER_MODEL_DESCR_LEN];
  259. wwn_t pwwn;
  260. char node_symname[FC_SYMNAME_MAX];
  261. char hw_ver[BFA_VERSION_LEN];
  262. char fw_ver[BFA_VERSION_LEN];
  263. char optrom_ver[BFA_VERSION_LEN];
  264. char os_type[BFA_ADAPTER_OS_TYPE_LEN];
  265. struct bfa_mfg_vpd_s vpd;
  266. struct mac_s mac;
  267. u8 nports;
  268. u8 max_speed;
  269. u8 prototype;
  270. char asic_rev;
  271. u8 pcie_gen;
  272. u8 pcie_lanes_orig;
  273. u8 pcie_lanes;
  274. u8 cna_capable;
  275. u8 is_mezz;
  276. u8 trunk_capable;
  277. u8 mfg_day; /* manufacturing day */
  278. u8 mfg_month; /* manufacturing month */
  279. u16 mfg_year; /* manufacturing year */
  280. u16 rsvd;
  281. u8 uuid[BFA_ADAPTER_UUID_LEN];
  282. };
  283. /*
  284. * ---------------------- IOC definitions ------------
  285. */
  286. enum {
  287. BFA_IOC_DRIVER_LEN = 16,
  288. BFA_IOC_CHIP_REV_LEN = 8,
  289. };
  290. /*
  291. * Driver and firmware versions.
  292. */
  293. struct bfa_ioc_driver_attr_s {
  294. char driver[BFA_IOC_DRIVER_LEN]; /* driver name */
  295. char driver_ver[BFA_VERSION_LEN]; /* driver version */
  296. char fw_ver[BFA_VERSION_LEN]; /* firmware version */
  297. char bios_ver[BFA_VERSION_LEN]; /* bios version */
  298. char efi_ver[BFA_VERSION_LEN]; /* EFI version */
  299. char ob_ver[BFA_VERSION_LEN]; /* openboot version */
  300. };
  301. /*
  302. * IOC PCI device attributes
  303. */
  304. struct bfa_ioc_pci_attr_s {
  305. u16 vendor_id; /* PCI vendor ID */
  306. u16 device_id; /* PCI device ID */
  307. u16 ssid; /* subsystem ID */
  308. u16 ssvid; /* subsystem vendor ID */
  309. u32 pcifn; /* PCI device function */
  310. u32 rsvd; /* padding */
  311. char chip_rev[BFA_IOC_CHIP_REV_LEN]; /* chip revision */
  312. };
  313. /*
  314. * IOC states
  315. */
  316. enum bfa_ioc_state {
  317. BFA_IOC_UNINIT = 1, /* IOC is in uninit state */
  318. BFA_IOC_RESET = 2, /* IOC is in reset state */
  319. BFA_IOC_SEMWAIT = 3, /* Waiting for IOC h/w semaphore */
  320. BFA_IOC_HWINIT = 4, /* IOC h/w is being initialized */
  321. BFA_IOC_GETATTR = 5, /* IOC is being configured */
  322. BFA_IOC_OPERATIONAL = 6, /* IOC is operational */
  323. BFA_IOC_INITFAIL = 7, /* IOC hardware failure */
  324. BFA_IOC_FAIL = 8, /* IOC heart-beat failure */
  325. BFA_IOC_DISABLING = 9, /* IOC is being disabled */
  326. BFA_IOC_DISABLED = 10, /* IOC is disabled */
  327. BFA_IOC_FWMISMATCH = 11, /* IOC f/w different from drivers */
  328. BFA_IOC_ENABLING = 12, /* IOC is being enabled */
  329. BFA_IOC_HWFAIL = 13, /* PCI mapping doesn't exist */
  330. BFA_IOC_ACQ_ADDR = 14, /* Acquiring addr from fabric */
  331. };
  332. /*
  333. * IOC firmware stats
  334. */
  335. struct bfa_fw_ioc_stats_s {
  336. u32 enable_reqs;
  337. u32 disable_reqs;
  338. u32 get_attr_reqs;
  339. u32 dbg_sync;
  340. u32 dbg_dump;
  341. u32 unknown_reqs;
  342. };
  343. /*
  344. * IOC driver stats
  345. */
  346. struct bfa_ioc_drv_stats_s {
  347. u32 ioc_isrs;
  348. u32 ioc_enables;
  349. u32 ioc_disables;
  350. u32 ioc_hbfails;
  351. u32 ioc_boots;
  352. u32 stats_tmos;
  353. u32 hb_count;
  354. u32 disable_reqs;
  355. u32 enable_reqs;
  356. u32 disable_replies;
  357. u32 enable_replies;
  358. u32 rsvd;
  359. };
  360. /*
  361. * IOC statistics
  362. */
  363. struct bfa_ioc_stats_s {
  364. struct bfa_ioc_drv_stats_s drv_stats; /* driver IOC stats */
  365. struct bfa_fw_ioc_stats_s fw_stats; /* firmware IOC stats */
  366. };
  367. enum bfa_ioc_type_e {
  368. BFA_IOC_TYPE_FC = 1,
  369. BFA_IOC_TYPE_FCoE = 2,
  370. BFA_IOC_TYPE_LL = 3,
  371. };
  372. /*
  373. * IOC attributes returned in queries
  374. */
  375. struct bfa_ioc_attr_s {
  376. enum bfa_ioc_type_e ioc_type;
  377. enum bfa_ioc_state state; /* IOC state */
  378. struct bfa_adapter_attr_s adapter_attr; /* HBA attributes */
  379. struct bfa_ioc_driver_attr_s driver_attr; /* driver attr */
  380. struct bfa_ioc_pci_attr_s pci_attr;
  381. u8 port_id; /* port number */
  382. u8 port_mode; /* bfa_mode_s */
  383. u8 cap_bm; /* capability */
  384. u8 port_mode_cfg; /* bfa_mode_s */
  385. u8 def_fn; /* 1 if default fn */
  386. u8 rsvd[3]; /* 64bit align */
  387. };
  388. /*
  389. * AEN related definitions
  390. */
  391. enum bfa_aen_category {
  392. BFA_AEN_CAT_ADAPTER = 1,
  393. BFA_AEN_CAT_PORT = 2,
  394. BFA_AEN_CAT_LPORT = 3,
  395. BFA_AEN_CAT_RPORT = 4,
  396. BFA_AEN_CAT_ITNIM = 5,
  397. BFA_AEN_CAT_AUDIT = 8,
  398. BFA_AEN_CAT_IOC = 9,
  399. };
  400. /* BFA adapter level events */
  401. enum bfa_adapter_aen_event {
  402. BFA_ADAPTER_AEN_ADD = 1, /* New Adapter found event */
  403. BFA_ADAPTER_AEN_REMOVE = 2, /* Adapter removed event */
  404. };
  405. struct bfa_adapter_aen_data_s {
  406. char serial_num[BFA_ADAPTER_SERIAL_NUM_LEN];
  407. u32 nports; /* Number of NPorts */
  408. wwn_t pwwn; /* WWN of one of its physical port */
  409. };
  410. /* BFA physical port Level events */
  411. enum bfa_port_aen_event {
  412. BFA_PORT_AEN_ONLINE = 1, /* Physical Port online event */
  413. BFA_PORT_AEN_OFFLINE = 2, /* Physical Port offline event */
  414. BFA_PORT_AEN_RLIR = 3, /* RLIR event, not supported */
  415. BFA_PORT_AEN_SFP_INSERT = 4, /* SFP inserted event */
  416. BFA_PORT_AEN_SFP_REMOVE = 5, /* SFP removed event */
  417. BFA_PORT_AEN_SFP_POM = 6, /* SFP POM event */
  418. BFA_PORT_AEN_ENABLE = 7, /* Physical Port enable event */
  419. BFA_PORT_AEN_DISABLE = 8, /* Physical Port disable event */
  420. BFA_PORT_AEN_AUTH_ON = 9, /* Physical Port auth success event */
  421. BFA_PORT_AEN_AUTH_OFF = 10, /* Physical Port auth fail event */
  422. BFA_PORT_AEN_DISCONNECT = 11, /* Physical Port disconnect event */
  423. BFA_PORT_AEN_QOS_NEG = 12, /* Base Port QOS negotiation event */
  424. BFA_PORT_AEN_FABRIC_NAME_CHANGE = 13, /* Fabric Name/WWN change */
  425. BFA_PORT_AEN_SFP_ACCESS_ERROR = 14, /* SFP read error event */
  426. BFA_PORT_AEN_SFP_UNSUPPORT = 15, /* Unsupported SFP event */
  427. };
  428. enum bfa_port_aen_sfp_pom {
  429. BFA_PORT_AEN_SFP_POM_GREEN = 1, /* Normal */
  430. BFA_PORT_AEN_SFP_POM_AMBER = 2, /* Warning */
  431. BFA_PORT_AEN_SFP_POM_RED = 3, /* Critical */
  432. BFA_PORT_AEN_SFP_POM_MAX = BFA_PORT_AEN_SFP_POM_RED
  433. };
  434. struct bfa_port_aen_data_s {
  435. wwn_t pwwn; /* WWN of the physical port */
  436. wwn_t fwwn; /* WWN of the fabric port */
  437. u32 phy_port_num; /* For SFP related events */
  438. u16 ioc_type;
  439. u16 level; /* Only transitions will be informed */
  440. mac_t mac; /* MAC address of the ethernet port */
  441. u16 rsvd;
  442. };
  443. /* BFA AEN logical port events */
  444. enum bfa_lport_aen_event {
  445. BFA_LPORT_AEN_NEW = 1, /* LPort created event */
  446. BFA_LPORT_AEN_DELETE = 2, /* LPort deleted event */
  447. BFA_LPORT_AEN_ONLINE = 3, /* LPort online event */
  448. BFA_LPORT_AEN_OFFLINE = 4, /* LPort offline event */
  449. BFA_LPORT_AEN_DISCONNECT = 5, /* LPort disconnect event */
  450. BFA_LPORT_AEN_NEW_PROP = 6, /* VPort created event */
  451. BFA_LPORT_AEN_DELETE_PROP = 7, /* VPort deleted event */
  452. BFA_LPORT_AEN_NEW_STANDARD = 8, /* VPort created event */
  453. BFA_LPORT_AEN_DELETE_STANDARD = 9, /* VPort deleted event */
  454. BFA_LPORT_AEN_NPIV_DUP_WWN = 10, /* VPort with duplicate WWN */
  455. BFA_LPORT_AEN_NPIV_FABRIC_MAX = 11, /* Max NPIV in fabric/fport */
  456. BFA_LPORT_AEN_NPIV_UNKNOWN = 12, /* Unknown NPIV Error code */
  457. };
  458. struct bfa_lport_aen_data_s {
  459. u16 vf_id; /* vf_id of this logical port */
  460. u16 roles; /* Logical port mode,IM/TM/IP etc */
  461. u32 rsvd;
  462. wwn_t ppwwn; /* WWN of its physical port */
  463. wwn_t lpwwn; /* WWN of this logical port */
  464. };
  465. /* BFA ITNIM events */
  466. enum bfa_itnim_aen_event {
  467. BFA_ITNIM_AEN_ONLINE = 1, /* Target online */
  468. BFA_ITNIM_AEN_OFFLINE = 2, /* Target offline */
  469. BFA_ITNIM_AEN_DISCONNECT = 3, /* Target disconnected */
  470. };
  471. struct bfa_itnim_aen_data_s {
  472. u16 vf_id; /* vf_id of the IT nexus */
  473. u16 rsvd[3];
  474. wwn_t ppwwn; /* WWN of its physical port */
  475. wwn_t lpwwn; /* WWN of logical port */
  476. wwn_t rpwwn; /* WWN of remote(target) port */
  477. };
  478. /* BFA audit events */
  479. enum bfa_audit_aen_event {
  480. BFA_AUDIT_AEN_AUTH_ENABLE = 1,
  481. BFA_AUDIT_AEN_AUTH_DISABLE = 2,
  482. BFA_AUDIT_AEN_FLASH_ERASE = 3,
  483. BFA_AUDIT_AEN_FLASH_UPDATE = 4,
  484. };
  485. struct bfa_audit_aen_data_s {
  486. wwn_t pwwn;
  487. int partition_inst;
  488. int partition_type;
  489. };
  490. /* BFA IOC level events */
  491. enum bfa_ioc_aen_event {
  492. BFA_IOC_AEN_HBGOOD = 1, /* Heart Beat restore event */
  493. BFA_IOC_AEN_HBFAIL = 2, /* Heart Beat failure event */
  494. BFA_IOC_AEN_ENABLE = 3, /* IOC enabled event */
  495. BFA_IOC_AEN_DISABLE = 4, /* IOC disabled event */
  496. BFA_IOC_AEN_FWMISMATCH = 5, /* IOC firmware mismatch */
  497. BFA_IOC_AEN_FWCFG_ERROR = 6, /* IOC firmware config error */
  498. BFA_IOC_AEN_INVALID_VENDOR = 7,
  499. BFA_IOC_AEN_INVALID_NWWN = 8, /* Zero NWWN */
  500. BFA_IOC_AEN_INVALID_PWWN = 9 /* Zero PWWN */
  501. };
  502. struct bfa_ioc_aen_data_s {
  503. wwn_t pwwn;
  504. u16 ioc_type;
  505. mac_t mac;
  506. };
  507. /*
  508. * ---------------------- mfg definitions ------------
  509. */
  510. /*
  511. * Checksum size
  512. */
  513. #define BFA_MFG_CHKSUM_SIZE 16
  514. #define BFA_MFG_PARTNUM_SIZE 14
  515. #define BFA_MFG_SUPPLIER_ID_SIZE 10
  516. #define BFA_MFG_SUPPLIER_PARTNUM_SIZE 20
  517. #define BFA_MFG_SUPPLIER_SERIALNUM_SIZE 20
  518. #define BFA_MFG_SUPPLIER_REVISION_SIZE 4
  519. /*
  520. * Initial capability definition
  521. */
  522. #define BFA_MFG_IC_FC 0x01
  523. #define BFA_MFG_IC_ETH 0x02
  524. /*
  525. * Adapter capability mask definition
  526. */
  527. #define BFA_CM_HBA 0x01
  528. #define BFA_CM_CNA 0x02
  529. #define BFA_CM_NIC 0x04
  530. #define BFA_CM_FC16G 0x08
  531. #define BFA_CM_SRIOV 0x10
  532. #define BFA_CM_MEZZ 0x20
  533. #pragma pack(1)
  534. /*
  535. * All numerical fields are in big-endian format.
  536. */
  537. struct bfa_mfg_block_s {
  538. u8 version; /*!< manufacturing block version */
  539. u8 mfg_sig[3]; /*!< characters 'M', 'F', 'G' */
  540. u16 mfgsize; /*!< mfg block size */
  541. u16 u16_chksum; /*!< old u16 checksum */
  542. char brcd_serialnum[STRSZ(BFA_MFG_SERIALNUM_SIZE)];
  543. char brcd_partnum[STRSZ(BFA_MFG_PARTNUM_SIZE)];
  544. u8 mfg_day; /*!< manufacturing day */
  545. u8 mfg_month; /*!< manufacturing month */
  546. u16 mfg_year; /*!< manufacturing year */
  547. wwn_t mfg_wwn; /*!< wwn base for this adapter */
  548. u8 num_wwn; /*!< number of wwns assigned */
  549. u8 mfg_speeds; /*!< speeds allowed for this adapter */
  550. u8 rsv[2];
  551. char supplier_id[STRSZ(BFA_MFG_SUPPLIER_ID_SIZE)];
  552. char supplier_partnum[STRSZ(BFA_MFG_SUPPLIER_PARTNUM_SIZE)];
  553. char supplier_serialnum[STRSZ(BFA_MFG_SUPPLIER_SERIALNUM_SIZE)];
  554. char supplier_revision[STRSZ(BFA_MFG_SUPPLIER_REVISION_SIZE)];
  555. mac_t mfg_mac; /*!< base mac address */
  556. u8 num_mac; /*!< number of mac addresses */
  557. u8 rsv2;
  558. u32 card_type; /*!< card type */
  559. char cap_nic; /*!< capability nic */
  560. char cap_cna; /*!< capability cna */
  561. char cap_hba; /*!< capability hba */
  562. char cap_fc16g; /*!< capability fc 16g */
  563. char cap_sriov; /*!< capability sriov */
  564. char cap_mezz; /*!< capability mezz */
  565. u8 rsv3;
  566. u8 mfg_nports; /*!< number of ports */
  567. char media[8]; /*!< xfi/xaui */
  568. char initial_mode[8]; /*!< initial mode: hba/cna/nic */
  569. u8 rsv4[84];
  570. u8 md5_chksum[BFA_MFG_CHKSUM_SIZE]; /*!< md5 checksum */
  571. };
  572. #pragma pack()
  573. /*
  574. * ---------------------- pci definitions ------------
  575. */
  576. /*
  577. * PCI device and vendor ID information
  578. */
  579. enum {
  580. BFA_PCI_VENDOR_ID_BROCADE = 0x1657,
  581. BFA_PCI_DEVICE_ID_FC_8G2P = 0x13,
  582. BFA_PCI_DEVICE_ID_FC_8G1P = 0x17,
  583. BFA_PCI_DEVICE_ID_CT = 0x14,
  584. BFA_PCI_DEVICE_ID_CT_FC = 0x21,
  585. BFA_PCI_DEVICE_ID_CT2 = 0x22,
  586. BFA_PCI_DEVICE_ID_CT2_QUAD = 0x23,
  587. };
  588. #define bfa_asic_id_cb(__d) \
  589. ((__d) == BFA_PCI_DEVICE_ID_FC_8G2P || \
  590. (__d) == BFA_PCI_DEVICE_ID_FC_8G1P)
  591. #define bfa_asic_id_ct(__d) \
  592. ((__d) == BFA_PCI_DEVICE_ID_CT || \
  593. (__d) == BFA_PCI_DEVICE_ID_CT_FC)
  594. #define bfa_asic_id_ct2(__d) \
  595. ((__d) == BFA_PCI_DEVICE_ID_CT2 || \
  596. (__d) == BFA_PCI_DEVICE_ID_CT2_QUAD)
  597. #define bfa_asic_id_ctc(__d) \
  598. (bfa_asic_id_ct(__d) || bfa_asic_id_ct2(__d))
  599. /*
  600. * PCI sub-system device and vendor ID information
  601. */
  602. enum {
  603. BFA_PCI_FCOE_SSDEVICE_ID = 0x14,
  604. BFA_PCI_CT2_SSID_FCoE = 0x22,
  605. BFA_PCI_CT2_SSID_ETH = 0x23,
  606. BFA_PCI_CT2_SSID_FC = 0x24,
  607. };
  608. /*
  609. * Maximum number of device address ranges mapped through different BAR(s)
  610. */
  611. #define BFA_PCI_ACCESS_RANGES 1
  612. /*
  613. * Port speed settings. Each specific speed is a bit field. Use multiple
  614. * bits to specify speeds to be selected for auto-negotiation.
  615. */
  616. enum bfa_port_speed {
  617. BFA_PORT_SPEED_UNKNOWN = 0,
  618. BFA_PORT_SPEED_1GBPS = 1,
  619. BFA_PORT_SPEED_2GBPS = 2,
  620. BFA_PORT_SPEED_4GBPS = 4,
  621. BFA_PORT_SPEED_8GBPS = 8,
  622. BFA_PORT_SPEED_10GBPS = 10,
  623. BFA_PORT_SPEED_16GBPS = 16,
  624. BFA_PORT_SPEED_AUTO = 0xf,
  625. };
  626. #define bfa_port_speed_t enum bfa_port_speed
  627. enum {
  628. BFA_BOOT_BOOTLUN_MAX = 4, /* maximum boot lun per IOC */
  629. BFA_PREBOOT_BOOTLUN_MAX = 8, /* maximum preboot lun per IOC */
  630. };
  631. #define BOOT_CFG_REV1 1
  632. #define BOOT_CFG_VLAN 1
  633. /*
  634. * Boot options setting. Boot options setting determines from where
  635. * to get the boot lun information
  636. */
  637. enum bfa_boot_bootopt {
  638. BFA_BOOT_AUTO_DISCOVER = 0, /* Boot from blun provided by fabric */
  639. BFA_BOOT_STORED_BLUN = 1, /* Boot from bluns stored in flash */
  640. BFA_BOOT_FIRST_LUN = 2, /* Boot from first discovered blun */
  641. BFA_BOOT_PBC = 3, /* Boot from pbc configured blun */
  642. };
  643. #pragma pack(1)
  644. /*
  645. * Boot lun information.
  646. */
  647. struct bfa_boot_bootlun_s {
  648. wwn_t pwwn; /* port wwn of target */
  649. struct scsi_lun lun; /* 64-bit lun */
  650. };
  651. #pragma pack()
  652. /*
  653. * BOOT boot configuraton
  654. */
  655. struct bfa_boot_cfg_s {
  656. u8 version;
  657. u8 rsvd1;
  658. u16 chksum;
  659. u8 enable; /* enable/disable SAN boot */
  660. u8 speed; /* boot speed settings */
  661. u8 topology; /* boot topology setting */
  662. u8 bootopt; /* bfa_boot_bootopt_t */
  663. u32 nbluns; /* number of boot luns */
  664. u32 rsvd2;
  665. struct bfa_boot_bootlun_s blun[BFA_BOOT_BOOTLUN_MAX];
  666. struct bfa_boot_bootlun_s blun_disc[BFA_BOOT_BOOTLUN_MAX];
  667. };
  668. struct bfa_boot_pbc_s {
  669. u8 enable; /* enable/disable SAN boot */
  670. u8 speed; /* boot speed settings */
  671. u8 topology; /* boot topology setting */
  672. u8 rsvd1;
  673. u32 nbluns; /* number of boot luns */
  674. struct bfa_boot_bootlun_s pblun[BFA_PREBOOT_BOOTLUN_MAX];
  675. };
  676. struct bfa_ethboot_cfg_s {
  677. u8 version;
  678. u8 rsvd1;
  679. u16 chksum;
  680. u8 enable; /* enable/disable Eth/PXE boot */
  681. u8 rsvd2;
  682. u16 vlan;
  683. };
  684. /*
  685. * ASIC block configuration related structures
  686. */
  687. #define BFA_ABLK_MAX_PORTS 2
  688. #define BFA_ABLK_MAX_PFS 16
  689. #define BFA_ABLK_MAX 2
  690. #pragma pack(1)
  691. enum bfa_mode_s {
  692. BFA_MODE_HBA = 1,
  693. BFA_MODE_CNA = 2,
  694. BFA_MODE_NIC = 3
  695. };
  696. struct bfa_adapter_cfg_mode_s {
  697. u16 max_pf;
  698. u16 max_vf;
  699. enum bfa_mode_s mode;
  700. };
  701. struct bfa_ablk_cfg_pf_s {
  702. u16 pers;
  703. u8 port_id;
  704. u8 optrom;
  705. u8 valid;
  706. u8 sriov;
  707. u8 max_vfs;
  708. u8 rsvd[1];
  709. u16 num_qpairs;
  710. u16 num_vectors;
  711. u16 bw_min;
  712. u16 bw_max;
  713. };
  714. struct bfa_ablk_cfg_port_s {
  715. u8 mode;
  716. u8 type;
  717. u8 max_pfs;
  718. u8 rsvd[5];
  719. };
  720. struct bfa_ablk_cfg_inst_s {
  721. u8 nports;
  722. u8 max_pfs;
  723. u8 rsvd[6];
  724. struct bfa_ablk_cfg_pf_s pf_cfg[BFA_ABLK_MAX_PFS];
  725. struct bfa_ablk_cfg_port_s port_cfg[BFA_ABLK_MAX_PORTS];
  726. };
  727. struct bfa_ablk_cfg_s {
  728. struct bfa_ablk_cfg_inst_s inst[BFA_ABLK_MAX];
  729. };
  730. /*
  731. * SFP module specific
  732. */
  733. #define SFP_DIAGMON_SIZE 10 /* num bytes of diag monitor data */
  734. /* SFP state change notification event */
  735. #define BFA_SFP_SCN_REMOVED 0
  736. #define BFA_SFP_SCN_INSERTED 1
  737. #define BFA_SFP_SCN_POM 2
  738. #define BFA_SFP_SCN_FAILED 3
  739. #define BFA_SFP_SCN_UNSUPPORT 4
  740. #define BFA_SFP_SCN_VALID 5
  741. enum bfa_defs_sfp_media_e {
  742. BFA_SFP_MEDIA_UNKNOWN = 0x00,
  743. BFA_SFP_MEDIA_CU = 0x01,
  744. BFA_SFP_MEDIA_LW = 0x02,
  745. BFA_SFP_MEDIA_SW = 0x03,
  746. BFA_SFP_MEDIA_EL = 0x04,
  747. BFA_SFP_MEDIA_UNSUPPORT = 0x05,
  748. };
  749. /*
  750. * values for xmtr_tech above
  751. */
  752. enum {
  753. SFP_XMTR_TECH_CU = (1 << 0), /* copper FC-BaseT */
  754. SFP_XMTR_TECH_CP = (1 << 1), /* copper passive */
  755. SFP_XMTR_TECH_CA = (1 << 2), /* copper active */
  756. SFP_XMTR_TECH_LL = (1 << 3), /* longwave laser */
  757. SFP_XMTR_TECH_SL = (1 << 4), /* shortwave laser w/ OFC */
  758. SFP_XMTR_TECH_SN = (1 << 5), /* shortwave laser w/o OFC */
  759. SFP_XMTR_TECH_EL_INTRA = (1 << 6), /* elec intra-enclosure */
  760. SFP_XMTR_TECH_EL_INTER = (1 << 7), /* elec inter-enclosure */
  761. SFP_XMTR_TECH_LC = (1 << 8), /* longwave laser */
  762. SFP_XMTR_TECH_SA = (1 << 9)
  763. };
  764. /*
  765. * Serial ID: Data Fields -- Address A0h
  766. * Basic ID field total 64 bytes
  767. */
  768. struct sfp_srlid_base_s {
  769. u8 id; /* 00: Identifier */
  770. u8 extid; /* 01: Extended Identifier */
  771. u8 connector; /* 02: Connector */
  772. u8 xcvr[8]; /* 03-10: Transceiver */
  773. u8 encoding; /* 11: Encoding */
  774. u8 br_norm; /* 12: BR, Nominal */
  775. u8 rate_id; /* 13: Rate Identifier */
  776. u8 len_km; /* 14: Length single mode km */
  777. u8 len_100m; /* 15: Length single mode 100m */
  778. u8 len_om2; /* 16: Length om2 fiber 10m */
  779. u8 len_om1; /* 17: Length om1 fiber 10m */
  780. u8 len_cu; /* 18: Length copper 1m */
  781. u8 len_om3; /* 19: Length om3 fiber 10m */
  782. u8 vendor_name[16];/* 20-35 */
  783. u8 unalloc1;
  784. u8 vendor_oui[3]; /* 37-39 */
  785. u8 vendor_pn[16]; /* 40-55 */
  786. u8 vendor_rev[4]; /* 56-59 */
  787. u8 wavelen[2]; /* 60-61 */
  788. u8 unalloc2;
  789. u8 cc_base; /* 63: check code for base id field */
  790. };
  791. /*
  792. * Serial ID: Data Fields -- Address A0h
  793. * Extended id field total 32 bytes
  794. */
  795. struct sfp_srlid_ext_s {
  796. u8 options[2];
  797. u8 br_max;
  798. u8 br_min;
  799. u8 vendor_sn[16];
  800. u8 date_code[8];
  801. u8 diag_mon_type; /* 92: Diagnostic Monitoring type */
  802. u8 en_options;
  803. u8 sff_8472;
  804. u8 cc_ext;
  805. };
  806. /*
  807. * Diagnostic: Data Fields -- Address A2h
  808. * Diagnostic and control/status base field total 96 bytes
  809. */
  810. struct sfp_diag_base_s {
  811. /*
  812. * Alarm and warning Thresholds 40 bytes
  813. */
  814. u8 temp_high_alarm[2]; /* 00-01 */
  815. u8 temp_low_alarm[2]; /* 02-03 */
  816. u8 temp_high_warning[2]; /* 04-05 */
  817. u8 temp_low_warning[2]; /* 06-07 */
  818. u8 volt_high_alarm[2]; /* 08-09 */
  819. u8 volt_low_alarm[2]; /* 10-11 */
  820. u8 volt_high_warning[2]; /* 12-13 */
  821. u8 volt_low_warning[2]; /* 14-15 */
  822. u8 bias_high_alarm[2]; /* 16-17 */
  823. u8 bias_low_alarm[2]; /* 18-19 */
  824. u8 bias_high_warning[2]; /* 20-21 */
  825. u8 bias_low_warning[2]; /* 22-23 */
  826. u8 tx_pwr_high_alarm[2]; /* 24-25 */
  827. u8 tx_pwr_low_alarm[2]; /* 26-27 */
  828. u8 tx_pwr_high_warning[2]; /* 28-29 */
  829. u8 tx_pwr_low_warning[2]; /* 30-31 */
  830. u8 rx_pwr_high_alarm[2]; /* 32-33 */
  831. u8 rx_pwr_low_alarm[2]; /* 34-35 */
  832. u8 rx_pwr_high_warning[2]; /* 36-37 */
  833. u8 rx_pwr_low_warning[2]; /* 38-39 */
  834. u8 unallocate_1[16];
  835. /*
  836. * ext_cal_const[36]
  837. */
  838. u8 rx_pwr[20];
  839. u8 tx_i[4];
  840. u8 tx_pwr[4];
  841. u8 temp[4];
  842. u8 volt[4];
  843. u8 unallocate_2[3];
  844. u8 cc_dmi;
  845. };
  846. /*
  847. * Diagnostic: Data Fields -- Address A2h
  848. * Diagnostic and control/status extended field total 24 bytes
  849. */
  850. struct sfp_diag_ext_s {
  851. u8 diag[SFP_DIAGMON_SIZE];
  852. u8 unalloc1[4];
  853. u8 status_ctl;
  854. u8 rsvd;
  855. u8 alarm_flags[2];
  856. u8 unalloc2[2];
  857. u8 warning_flags[2];
  858. u8 ext_status_ctl[2];
  859. };
  860. /*
  861. * Diagnostic: Data Fields -- Address A2h
  862. * General Use Fields: User Writable Table - Features's Control Registers
  863. * Total 32 bytes
  864. */
  865. struct sfp_usr_eeprom_s {
  866. u8 rsvd1[2]; /* 128-129 */
  867. u8 ewrap; /* 130 */
  868. u8 rsvd2[2]; /* */
  869. u8 owrap; /* 133 */
  870. u8 rsvd3[2]; /* */
  871. u8 prbs; /* 136: PRBS 7 generator */
  872. u8 rsvd4[2]; /* */
  873. u8 tx_eqz_16; /* 139: TX Equalizer (16xFC) */
  874. u8 tx_eqz_8; /* 140: TX Equalizer (8xFC) */
  875. u8 rsvd5[2]; /* */
  876. u8 rx_emp_16; /* 143: RX Emphasis (16xFC) */
  877. u8 rx_emp_8; /* 144: RX Emphasis (8xFC) */
  878. u8 rsvd6[2]; /* */
  879. u8 tx_eye_adj; /* 147: TX eye Threshold Adjust */
  880. u8 rsvd7[3]; /* */
  881. u8 tx_eye_qctl; /* 151: TX eye Quality Control */
  882. u8 tx_eye_qres; /* 152: TX eye Quality Result */
  883. u8 rsvd8[2]; /* */
  884. u8 poh[3]; /* 155-157: Power On Hours */
  885. u8 rsvd9[2]; /* */
  886. };
  887. struct sfp_mem_s {
  888. struct sfp_srlid_base_s srlid_base;
  889. struct sfp_srlid_ext_s srlid_ext;
  890. struct sfp_diag_base_s diag_base;
  891. struct sfp_diag_ext_s diag_ext;
  892. struct sfp_usr_eeprom_s usr_eeprom;
  893. };
  894. /*
  895. * transceiver codes (SFF-8472 Rev 10.2 Table 3.5)
  896. */
  897. union sfp_xcvr_e10g_code_u {
  898. u8 b;
  899. struct {
  900. #ifdef __BIG_ENDIAN
  901. u8 e10g_unall:1; /* 10G Ethernet compliance */
  902. u8 e10g_lrm:1;
  903. u8 e10g_lr:1;
  904. u8 e10g_sr:1;
  905. u8 ib_sx:1; /* Infiniband compliance */
  906. u8 ib_lx:1;
  907. u8 ib_cu_a:1;
  908. u8 ib_cu_p:1;
  909. #else
  910. u8 ib_cu_p:1;
  911. u8 ib_cu_a:1;
  912. u8 ib_lx:1;
  913. u8 ib_sx:1; /* Infiniband compliance */
  914. u8 e10g_sr:1;
  915. u8 e10g_lr:1;
  916. u8 e10g_lrm:1;
  917. u8 e10g_unall:1; /* 10G Ethernet compliance */
  918. #endif
  919. } r;
  920. };
  921. union sfp_xcvr_so1_code_u {
  922. u8 b;
  923. struct {
  924. u8 escon:2; /* ESCON compliance code */
  925. u8 oc192_reach:1; /* SONET compliance code */
  926. u8 so_reach:2;
  927. u8 oc48_reach:3;
  928. } r;
  929. };
  930. union sfp_xcvr_so2_code_u {
  931. u8 b;
  932. struct {
  933. u8 reserved:1;
  934. u8 oc12_reach:3; /* OC12 reach */
  935. u8 reserved1:1;
  936. u8 oc3_reach:3; /* OC3 reach */
  937. } r;
  938. };
  939. union sfp_xcvr_eth_code_u {
  940. u8 b;
  941. struct {
  942. u8 base_px:1;
  943. u8 base_bx10:1;
  944. u8 e100base_fx:1;
  945. u8 e100base_lx:1;
  946. u8 e1000base_t:1;
  947. u8 e1000base_cx:1;
  948. u8 e1000base_lx:1;
  949. u8 e1000base_sx:1;
  950. } r;
  951. };
  952. struct sfp_xcvr_fc1_code_s {
  953. u8 link_len:5; /* FC link length */
  954. u8 xmtr_tech2:3;
  955. u8 xmtr_tech1:7; /* FC transmitter technology */
  956. u8 reserved1:1;
  957. };
  958. union sfp_xcvr_fc2_code_u {
  959. u8 b;
  960. struct {
  961. u8 tw_media:1; /* twin axial pair (tw) */
  962. u8 tp_media:1; /* shielded twisted pair (sp) */
  963. u8 mi_media:1; /* miniature coax (mi) */
  964. u8 tv_media:1; /* video coax (tv) */
  965. u8 m6_media:1; /* multimode, 62.5m (m6) */
  966. u8 m5_media:1; /* multimode, 50m (m5) */
  967. u8 reserved:1;
  968. u8 sm_media:1; /* single mode (sm) */
  969. } r;
  970. };
  971. union sfp_xcvr_fc3_code_u {
  972. u8 b;
  973. struct {
  974. #ifdef __BIG_ENDIAN
  975. u8 rsv4:1;
  976. u8 mb800:1; /* 800 Mbytes/sec */
  977. u8 mb1600:1; /* 1600 Mbytes/sec */
  978. u8 mb400:1; /* 400 Mbytes/sec */
  979. u8 rsv2:1;
  980. u8 mb200:1; /* 200 Mbytes/sec */
  981. u8 rsv1:1;
  982. u8 mb100:1; /* 100 Mbytes/sec */
  983. #else
  984. u8 mb100:1; /* 100 Mbytes/sec */
  985. u8 rsv1:1;
  986. u8 mb200:1; /* 200 Mbytes/sec */
  987. u8 rsv2:1;
  988. u8 mb400:1; /* 400 Mbytes/sec */
  989. u8 mb1600:1; /* 1600 Mbytes/sec */
  990. u8 mb800:1; /* 800 Mbytes/sec */
  991. u8 rsv4:1;
  992. #endif
  993. } r;
  994. };
  995. struct sfp_xcvr_s {
  996. union sfp_xcvr_e10g_code_u e10g;
  997. union sfp_xcvr_so1_code_u so1;
  998. union sfp_xcvr_so2_code_u so2;
  999. union sfp_xcvr_eth_code_u eth;
  1000. struct sfp_xcvr_fc1_code_s fc1;
  1001. union sfp_xcvr_fc2_code_u fc2;
  1002. union sfp_xcvr_fc3_code_u fc3;
  1003. };
  1004. /*
  1005. * Flash module specific
  1006. */
  1007. #define BFA_FLASH_PART_ENTRY_SIZE 32 /* partition entry size */
  1008. #define BFA_FLASH_PART_MAX 32 /* maximal # of partitions */
  1009. enum bfa_flash_part_type {
  1010. BFA_FLASH_PART_OPTROM = 1, /* option rom partition */
  1011. BFA_FLASH_PART_FWIMG = 2, /* firmware image partition */
  1012. BFA_FLASH_PART_FWCFG = 3, /* firmware tuneable config */
  1013. BFA_FLASH_PART_DRV = 4, /* IOC driver config */
  1014. BFA_FLASH_PART_BOOT = 5, /* boot config */
  1015. BFA_FLASH_PART_ASIC = 6, /* asic bootstrap configuration */
  1016. BFA_FLASH_PART_MFG = 7, /* manufacturing block partition */
  1017. BFA_FLASH_PART_OPTROM2 = 8, /* 2nd option rom partition */
  1018. BFA_FLASH_PART_VPD = 9, /* vpd data of OEM info */
  1019. BFA_FLASH_PART_PBC = 10, /* pre-boot config */
  1020. BFA_FLASH_PART_BOOTOVL = 11, /* boot overlay partition */
  1021. BFA_FLASH_PART_LOG = 12, /* firmware log partition */
  1022. BFA_FLASH_PART_PXECFG = 13, /* pxe boot config partition */
  1023. BFA_FLASH_PART_PXEOVL = 14, /* pxe boot overlay partition */
  1024. BFA_FLASH_PART_PORTCFG = 15, /* port cfg partition */
  1025. BFA_FLASH_PART_ASICBK = 16, /* asic backup partition */
  1026. };
  1027. /*
  1028. * flash partition attributes
  1029. */
  1030. struct bfa_flash_part_attr_s {
  1031. u32 part_type; /* partition type */
  1032. u32 part_instance; /* partition instance */
  1033. u32 part_off; /* partition offset */
  1034. u32 part_size; /* partition size */
  1035. u32 part_len; /* partition content length */
  1036. u32 part_status; /* partition status */
  1037. char rsv[BFA_FLASH_PART_ENTRY_SIZE - 24];
  1038. };
  1039. /*
  1040. * flash attributes
  1041. */
  1042. struct bfa_flash_attr_s {
  1043. u32 status; /* flash overall status */
  1044. u32 npart; /* num of partitions */
  1045. struct bfa_flash_part_attr_s part[BFA_FLASH_PART_MAX];
  1046. };
  1047. /*
  1048. * DIAG module specific
  1049. */
  1050. #define LB_PATTERN_DEFAULT 0xB5B5B5B5
  1051. #define QTEST_CNT_DEFAULT 10
  1052. #define QTEST_PAT_DEFAULT LB_PATTERN_DEFAULT
  1053. #define DPORT_ENABLE_LOOPCNT_DEFAULT (1024 * 1024)
  1054. struct bfa_diag_memtest_s {
  1055. u8 algo;
  1056. u8 rsvd[7];
  1057. };
  1058. struct bfa_diag_memtest_result {
  1059. u32 status;
  1060. u32 addr;
  1061. u32 exp; /* expect value read from reg */
  1062. u32 act; /* actually value read */
  1063. u32 err_status; /* error status reg */
  1064. u32 err_status1; /* extra error info reg */
  1065. u32 err_addr; /* error address reg */
  1066. u8 algo;
  1067. u8 rsv[3];
  1068. };
  1069. struct bfa_diag_loopback_result_s {
  1070. u32 numtxmfrm; /* no. of transmit frame */
  1071. u32 numosffrm; /* no. of outstanding frame */
  1072. u32 numrcvfrm; /* no. of received good frame */
  1073. u32 badfrminf; /* mis-match info */
  1074. u32 badfrmnum; /* mis-match fram number */
  1075. u8 status; /* loopback test result */
  1076. u8 rsvd[3];
  1077. };
  1078. enum bfa_diag_dport_test_status {
  1079. DPORT_TEST_ST_IDLE = 0, /* the test has not started yet. */
  1080. DPORT_TEST_ST_FINAL = 1, /* the test done successfully */
  1081. DPORT_TEST_ST_SKIP = 2, /* the test skipped */
  1082. DPORT_TEST_ST_FAIL = 3, /* the test failed */
  1083. DPORT_TEST_ST_INPRG = 4, /* the testing is in progress */
  1084. DPORT_TEST_ST_RESPONDER = 5, /* test triggered from remote port */
  1085. DPORT_TEST_ST_STOPPED = 6, /* the test stopped by user. */
  1086. DPORT_TEST_ST_MAX
  1087. };
  1088. enum bfa_diag_dport_test_type {
  1089. DPORT_TEST_ELOOP = 0,
  1090. DPORT_TEST_OLOOP = 1,
  1091. DPORT_TEST_ROLOOP = 2,
  1092. DPORT_TEST_LINK = 3,
  1093. DPORT_TEST_MAX
  1094. };
  1095. enum bfa_diag_dport_test_opmode {
  1096. BFA_DPORT_OPMODE_AUTO = 0,
  1097. BFA_DPORT_OPMODE_MANU = 1,
  1098. };
  1099. struct bfa_diag_dport_subtest_result_s {
  1100. u8 status; /* bfa_diag_dport_test_status */
  1101. u8 rsvd[7]; /* 64bit align */
  1102. u64 start_time; /* timestamp */
  1103. };
  1104. struct bfa_diag_dport_result_s {
  1105. wwn_t rp_pwwn; /* switch port wwn */
  1106. wwn_t rp_nwwn; /* switch node wwn */
  1107. u64 start_time; /* user/sw start time */
  1108. u64 end_time; /* timestamp */
  1109. u8 status; /* bfa_diag_dport_test_status */
  1110. u8 mode; /* bfa_diag_dport_test_opmode */
  1111. u8 rsvd; /* 64bit align */
  1112. u8 speed; /* link speed for buf_reqd */
  1113. u16 buffer_required;
  1114. u16 frmsz; /* frame size for buf_reqd */
  1115. u32 lpcnt; /* Frame count */
  1116. u32 pat; /* Pattern */
  1117. u32 roundtrip_latency; /* in nano sec */
  1118. u32 est_cable_distance; /* in meter */
  1119. struct bfa_diag_dport_subtest_result_s subtest[DPORT_TEST_MAX];
  1120. };
  1121. struct bfa_diag_ledtest_s {
  1122. u32 cmd; /* bfa_led_op_t */
  1123. u32 color; /* bfa_led_color_t */
  1124. u16 freq; /* no. of blinks every 10 secs */
  1125. u8 led; /* bitmap of LEDs to be tested */
  1126. u8 rsvd[5];
  1127. };
  1128. struct bfa_diag_loopback_s {
  1129. u32 loopcnt;
  1130. u32 pattern;
  1131. u8 lb_mode; /* bfa_port_opmode_t */
  1132. u8 speed; /* bfa_port_speed_t */
  1133. u8 rsvd[2];
  1134. };
  1135. /*
  1136. * PHY module specific
  1137. */
  1138. enum bfa_phy_status_e {
  1139. BFA_PHY_STATUS_GOOD = 0, /* phy is good */
  1140. BFA_PHY_STATUS_NOT_PRESENT = 1, /* phy does not exist */
  1141. BFA_PHY_STATUS_BAD = 2, /* phy is bad */
  1142. };
  1143. /*
  1144. * phy attributes for phy query
  1145. */
  1146. struct bfa_phy_attr_s {
  1147. u32 status; /* phy present/absent status */
  1148. u32 length; /* firmware length */
  1149. u32 fw_ver; /* firmware version */
  1150. u32 an_status; /* AN status */
  1151. u32 pma_pmd_status; /* PMA/PMD link status */
  1152. u32 pma_pmd_signal; /* PMA/PMD signal detect */
  1153. u32 pcs_status; /* PCS link status */
  1154. };
  1155. /*
  1156. * phy stats
  1157. */
  1158. struct bfa_phy_stats_s {
  1159. u32 status; /* phy stats status */
  1160. u32 link_breaks; /* Num of link breaks after linkup */
  1161. u32 pma_pmd_fault; /* NPMA/PMD fault */
  1162. u32 pcs_fault; /* PCS fault */
  1163. u32 speed_neg; /* Num of speed negotiation */
  1164. u32 tx_eq_training; /* Num of TX EQ training */
  1165. u32 tx_eq_timeout; /* Num of TX EQ timeout */
  1166. u32 crc_error; /* Num of CRC errors */
  1167. };
  1168. #pragma pack()
  1169. #endif /* __BFA_DEFS_H__ */