scsi_debug.c 160 KB

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  1. /*
  2. * vvvvvvvvvvvvvvvvvvvvvvv Original vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
  3. * Copyright (C) 1992 Eric Youngdale
  4. * Simulate a host adapter with 2 disks attached. Do a lot of checking
  5. * to make sure that we are not getting blocks mixed up, and PANIC if
  6. * anything out of the ordinary is seen.
  7. * ^^^^^^^^^^^^^^^^^^^^^^^ Original ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
  8. *
  9. * This version is more generic, simulating a variable number of disk
  10. * (or disk like devices) sharing a common amount of RAM. To be more
  11. * realistic, the simulated devices have the transport attributes of
  12. * SAS disks.
  13. *
  14. *
  15. * For documentation see http://sg.danny.cz/sg/sdebug26.html
  16. *
  17. * D. Gilbert (dpg) work for Magneto-Optical device test [20010421]
  18. * dpg: work for devfs large number of disks [20010809]
  19. * forked for lk 2.5 series [20011216, 20020101]
  20. * use vmalloc() more inquiry+mode_sense [20020302]
  21. * add timers for delayed responses [20020721]
  22. * Patrick Mansfield <patmans@us.ibm.com> max_luns+scsi_level [20021031]
  23. * Mike Anderson <andmike@us.ibm.com> sysfs work [20021118]
  24. * dpg: change style of boot options to "scsi_debug.num_tgts=2" and
  25. * module options to "modprobe scsi_debug num_tgts=2" [20021221]
  26. */
  27. #include <linux/module.h>
  28. #include <linux/kernel.h>
  29. #include <linux/errno.h>
  30. #include <linux/timer.h>
  31. #include <linux/slab.h>
  32. #include <linux/types.h>
  33. #include <linux/string.h>
  34. #include <linux/genhd.h>
  35. #include <linux/fs.h>
  36. #include <linux/init.h>
  37. #include <linux/proc_fs.h>
  38. #include <linux/vmalloc.h>
  39. #include <linux/moduleparam.h>
  40. #include <linux/scatterlist.h>
  41. #include <linux/blkdev.h>
  42. #include <linux/crc-t10dif.h>
  43. #include <linux/spinlock.h>
  44. #include <linux/interrupt.h>
  45. #include <linux/atomic.h>
  46. #include <linux/hrtimer.h>
  47. #include <net/checksum.h>
  48. #include <asm/unaligned.h>
  49. #include <scsi/scsi.h>
  50. #include <scsi/scsi_cmnd.h>
  51. #include <scsi/scsi_device.h>
  52. #include <scsi/scsi_host.h>
  53. #include <scsi/scsicam.h>
  54. #include <scsi/scsi_eh.h>
  55. #include <scsi/scsi_tcq.h>
  56. #include <scsi/scsi_dbg.h>
  57. #include "sd.h"
  58. #include "scsi_logging.h"
  59. #define SCSI_DEBUG_VERSION "1.85"
  60. static const char *scsi_debug_version_date = "20141022";
  61. #define MY_NAME "scsi_debug"
  62. /* Additional Sense Code (ASC) */
  63. #define NO_ADDITIONAL_SENSE 0x0
  64. #define LOGICAL_UNIT_NOT_READY 0x4
  65. #define LOGICAL_UNIT_COMMUNICATION_FAILURE 0x8
  66. #define UNRECOVERED_READ_ERR 0x11
  67. #define PARAMETER_LIST_LENGTH_ERR 0x1a
  68. #define INVALID_OPCODE 0x20
  69. #define LBA_OUT_OF_RANGE 0x21
  70. #define INVALID_FIELD_IN_CDB 0x24
  71. #define INVALID_FIELD_IN_PARAM_LIST 0x26
  72. #define UA_RESET_ASC 0x29
  73. #define UA_CHANGED_ASC 0x2a
  74. #define TARGET_CHANGED_ASC 0x3f
  75. #define LUNS_CHANGED_ASCQ 0x0e
  76. #define INSUFF_RES_ASC 0x55
  77. #define INSUFF_RES_ASCQ 0x3
  78. #define POWER_ON_RESET_ASCQ 0x0
  79. #define BUS_RESET_ASCQ 0x2 /* scsi bus reset occurred */
  80. #define MODE_CHANGED_ASCQ 0x1 /* mode parameters changed */
  81. #define CAPACITY_CHANGED_ASCQ 0x9
  82. #define SAVING_PARAMS_UNSUP 0x39
  83. #define TRANSPORT_PROBLEM 0x4b
  84. #define THRESHOLD_EXCEEDED 0x5d
  85. #define LOW_POWER_COND_ON 0x5e
  86. #define MISCOMPARE_VERIFY_ASC 0x1d
  87. #define MICROCODE_CHANGED_ASCQ 0x1 /* with TARGET_CHANGED_ASC */
  88. #define MICROCODE_CHANGED_WO_RESET_ASCQ 0x16
  89. /* Additional Sense Code Qualifier (ASCQ) */
  90. #define ACK_NAK_TO 0x3
  91. /* Default values for driver parameters */
  92. #define DEF_NUM_HOST 1
  93. #define DEF_NUM_TGTS 1
  94. #define DEF_MAX_LUNS 1
  95. /* With these defaults, this driver will make 1 host with 1 target
  96. * (id 0) containing 1 logical unit (lun 0). That is 1 device.
  97. */
  98. #define DEF_ATO 1
  99. #define DEF_DELAY 1 /* if > 0 unit is a jiffy */
  100. #define DEF_DEV_SIZE_MB 8
  101. #define DEF_DIF 0
  102. #define DEF_DIX 0
  103. #define DEF_D_SENSE 0
  104. #define DEF_EVERY_NTH 0
  105. #define DEF_FAKE_RW 0
  106. #define DEF_GUARD 0
  107. #define DEF_HOST_LOCK 0
  108. #define DEF_LBPU 0
  109. #define DEF_LBPWS 0
  110. #define DEF_LBPWS10 0
  111. #define DEF_LBPRZ 1
  112. #define DEF_LOWEST_ALIGNED 0
  113. #define DEF_NDELAY 0 /* if > 0 unit is a nanosecond */
  114. #define DEF_NO_LUN_0 0
  115. #define DEF_NUM_PARTS 0
  116. #define DEF_OPTS 0
  117. #define DEF_OPT_BLKS 64
  118. #define DEF_PHYSBLK_EXP 0
  119. #define DEF_PTYPE 0
  120. #define DEF_REMOVABLE false
  121. #define DEF_SCSI_LEVEL 6 /* INQUIRY, byte2 [6->SPC-4] */
  122. #define DEF_SECTOR_SIZE 512
  123. #define DEF_UNMAP_ALIGNMENT 0
  124. #define DEF_UNMAP_GRANULARITY 1
  125. #define DEF_UNMAP_MAX_BLOCKS 0xFFFFFFFF
  126. #define DEF_UNMAP_MAX_DESC 256
  127. #define DEF_VIRTUAL_GB 0
  128. #define DEF_VPD_USE_HOSTNO 1
  129. #define DEF_WRITESAME_LENGTH 0xFFFF
  130. #define DEF_STRICT 0
  131. #define DELAY_OVERRIDDEN -9999
  132. /* bit mask values for scsi_debug_opts */
  133. #define SCSI_DEBUG_OPT_NOISE 1
  134. #define SCSI_DEBUG_OPT_MEDIUM_ERR 2
  135. #define SCSI_DEBUG_OPT_TIMEOUT 4
  136. #define SCSI_DEBUG_OPT_RECOVERED_ERR 8
  137. #define SCSI_DEBUG_OPT_TRANSPORT_ERR 16
  138. #define SCSI_DEBUG_OPT_DIF_ERR 32
  139. #define SCSI_DEBUG_OPT_DIX_ERR 64
  140. #define SCSI_DEBUG_OPT_MAC_TIMEOUT 128
  141. #define SCSI_DEBUG_OPT_SHORT_TRANSFER 0x100
  142. #define SCSI_DEBUG_OPT_Q_NOISE 0x200
  143. #define SCSI_DEBUG_OPT_ALL_TSF 0x400
  144. #define SCSI_DEBUG_OPT_RARE_TSF 0x800
  145. #define SCSI_DEBUG_OPT_N_WCE 0x1000
  146. #define SCSI_DEBUG_OPT_RESET_NOISE 0x2000
  147. #define SCSI_DEBUG_OPT_NO_CDB_NOISE 0x4000
  148. #define SCSI_DEBUG_OPT_ALL_NOISE (0x1 | 0x200 | 0x2000)
  149. /* When "every_nth" > 0 then modulo "every_nth" commands:
  150. * - a no response is simulated if SCSI_DEBUG_OPT_TIMEOUT is set
  151. * - a RECOVERED_ERROR is simulated on successful read and write
  152. * commands if SCSI_DEBUG_OPT_RECOVERED_ERR is set.
  153. * - a TRANSPORT_ERROR is simulated on successful read and write
  154. * commands if SCSI_DEBUG_OPT_TRANSPORT_ERR is set.
  155. *
  156. * When "every_nth" < 0 then after "- every_nth" commands:
  157. * - a no response is simulated if SCSI_DEBUG_OPT_TIMEOUT is set
  158. * - a RECOVERED_ERROR is simulated on successful read and write
  159. * commands if SCSI_DEBUG_OPT_RECOVERED_ERR is set.
  160. * - a TRANSPORT_ERROR is simulated on successful read and write
  161. * commands if SCSI_DEBUG_OPT_TRANSPORT_ERR is set.
  162. * This will continue until some other action occurs (e.g. the user
  163. * writing a new value (other than -1 or 1) to every_nth via sysfs).
  164. */
  165. /* As indicated in SAM-5 and SPC-4 Unit Attentions (UAs)are returned in
  166. * priority order. In the subset implemented here lower numbers have higher
  167. * priority. The UA numbers should be a sequence starting from 0 with
  168. * SDEBUG_NUM_UAS being 1 higher than the highest numbered UA. */
  169. #define SDEBUG_UA_POR 0 /* Power on, reset, or bus device reset */
  170. #define SDEBUG_UA_BUS_RESET 1
  171. #define SDEBUG_UA_MODE_CHANGED 2
  172. #define SDEBUG_UA_CAPACITY_CHANGED 3
  173. #define SDEBUG_UA_LUNS_CHANGED 4
  174. #define SDEBUG_UA_MICROCODE_CHANGED 5 /* simulate firmware change */
  175. #define SDEBUG_UA_MICROCODE_CHANGED_WO_RESET 6
  176. #define SDEBUG_NUM_UAS 7
  177. /* for check_readiness() */
  178. #define UAS_ONLY 1 /* check for UAs only */
  179. #define UAS_TUR 0 /* if no UAs then check if media access possible */
  180. /* when 1==SCSI_DEBUG_OPT_MEDIUM_ERR, a medium error is simulated at this
  181. * sector on read commands: */
  182. #define OPT_MEDIUM_ERR_ADDR 0x1234 /* that's sector 4660 in decimal */
  183. #define OPT_MEDIUM_ERR_NUM 10 /* number of consecutive medium errs */
  184. /* If REPORT LUNS has luns >= 256 it can choose "flat space" (value 1)
  185. * or "peripheral device" addressing (value 0) */
  186. #define SAM2_LUN_ADDRESS_METHOD 0
  187. #define SAM2_WLUN_REPORT_LUNS 0xc101
  188. /* SCSI_DEBUG_CANQUEUE is the maximum number of commands that can be queued
  189. * (for response) at one time. Can be reduced by max_queue option. Command
  190. * responses are not queued when delay=0 and ndelay=0. The per-device
  191. * DEF_CMD_PER_LUN can be changed via sysfs:
  192. * /sys/class/scsi_device/<h:c:t:l>/device/queue_depth but cannot exceed
  193. * SCSI_DEBUG_CANQUEUE. */
  194. #define SCSI_DEBUG_CANQUEUE_WORDS 9 /* a WORD is bits in a long */
  195. #define SCSI_DEBUG_CANQUEUE (SCSI_DEBUG_CANQUEUE_WORDS * BITS_PER_LONG)
  196. #define DEF_CMD_PER_LUN 255
  197. #if DEF_CMD_PER_LUN > SCSI_DEBUG_CANQUEUE
  198. #warning "Expect DEF_CMD_PER_LUN <= SCSI_DEBUG_CANQUEUE"
  199. #endif
  200. /* SCSI opcodes (first byte of cdb) mapped onto these indexes */
  201. enum sdeb_opcode_index {
  202. SDEB_I_INVALID_OPCODE = 0,
  203. SDEB_I_INQUIRY = 1,
  204. SDEB_I_REPORT_LUNS = 2,
  205. SDEB_I_REQUEST_SENSE = 3,
  206. SDEB_I_TEST_UNIT_READY = 4,
  207. SDEB_I_MODE_SENSE = 5, /* 6, 10 */
  208. SDEB_I_MODE_SELECT = 6, /* 6, 10 */
  209. SDEB_I_LOG_SENSE = 7,
  210. SDEB_I_READ_CAPACITY = 8, /* 10; 16 is in SA_IN(16) */
  211. SDEB_I_READ = 9, /* 6, 10, 12, 16 */
  212. SDEB_I_WRITE = 10, /* 6, 10, 12, 16 */
  213. SDEB_I_START_STOP = 11,
  214. SDEB_I_SERV_ACT_IN = 12, /* 12, 16 */
  215. SDEB_I_SERV_ACT_OUT = 13, /* 12, 16 */
  216. SDEB_I_MAINT_IN = 14,
  217. SDEB_I_MAINT_OUT = 15,
  218. SDEB_I_VERIFY = 16, /* 10 only */
  219. SDEB_I_VARIABLE_LEN = 17,
  220. SDEB_I_RESERVE = 18, /* 6, 10 */
  221. SDEB_I_RELEASE = 19, /* 6, 10 */
  222. SDEB_I_ALLOW_REMOVAL = 20, /* PREVENT ALLOW MEDIUM REMOVAL */
  223. SDEB_I_REZERO_UNIT = 21, /* REWIND in SSC */
  224. SDEB_I_ATA_PT = 22, /* 12, 16 */
  225. SDEB_I_SEND_DIAG = 23,
  226. SDEB_I_UNMAP = 24,
  227. SDEB_I_XDWRITEREAD = 25, /* 10 only */
  228. SDEB_I_WRITE_BUFFER = 26,
  229. SDEB_I_WRITE_SAME = 27, /* 10, 16 */
  230. SDEB_I_SYNC_CACHE = 28, /* 10 only */
  231. SDEB_I_COMP_WRITE = 29,
  232. SDEB_I_LAST_ELEMENT = 30, /* keep this last */
  233. };
  234. static const unsigned char opcode_ind_arr[256] = {
  235. /* 0x0; 0x0->0x1f: 6 byte cdbs */
  236. SDEB_I_TEST_UNIT_READY, SDEB_I_REZERO_UNIT, 0, SDEB_I_REQUEST_SENSE,
  237. 0, 0, 0, 0,
  238. SDEB_I_READ, 0, SDEB_I_WRITE, 0, 0, 0, 0, 0,
  239. 0, 0, SDEB_I_INQUIRY, 0, 0, SDEB_I_MODE_SELECT, SDEB_I_RESERVE,
  240. SDEB_I_RELEASE,
  241. 0, 0, SDEB_I_MODE_SENSE, SDEB_I_START_STOP, 0, SDEB_I_SEND_DIAG,
  242. SDEB_I_ALLOW_REMOVAL, 0,
  243. /* 0x20; 0x20->0x3f: 10 byte cdbs */
  244. 0, 0, 0, 0, 0, SDEB_I_READ_CAPACITY, 0, 0,
  245. SDEB_I_READ, 0, SDEB_I_WRITE, 0, 0, 0, 0, SDEB_I_VERIFY,
  246. 0, 0, 0, 0, 0, SDEB_I_SYNC_CACHE, 0, 0,
  247. 0, 0, 0, SDEB_I_WRITE_BUFFER, 0, 0, 0, 0,
  248. /* 0x40; 0x40->0x5f: 10 byte cdbs */
  249. 0, SDEB_I_WRITE_SAME, SDEB_I_UNMAP, 0, 0, 0, 0, 0,
  250. 0, 0, 0, 0, 0, SDEB_I_LOG_SENSE, 0, 0,
  251. 0, 0, 0, SDEB_I_XDWRITEREAD, 0, SDEB_I_MODE_SELECT, SDEB_I_RESERVE,
  252. SDEB_I_RELEASE,
  253. 0, 0, SDEB_I_MODE_SENSE, 0, 0, 0, 0, 0,
  254. /* 0x60; 0x60->0x7d are reserved */
  255. 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
  256. 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
  257. 0, SDEB_I_VARIABLE_LEN,
  258. /* 0x80; 0x80->0x9f: 16 byte cdbs */
  259. 0, 0, 0, 0, 0, SDEB_I_ATA_PT, 0, 0,
  260. SDEB_I_READ, SDEB_I_COMP_WRITE, SDEB_I_WRITE, 0, 0, 0, 0, 0,
  261. 0, 0, 0, SDEB_I_WRITE_SAME, 0, 0, 0, 0,
  262. 0, 0, 0, 0, 0, 0, SDEB_I_SERV_ACT_IN, SDEB_I_SERV_ACT_OUT,
  263. /* 0xa0; 0xa0->0xbf: 12 byte cdbs */
  264. SDEB_I_REPORT_LUNS, SDEB_I_ATA_PT, 0, SDEB_I_MAINT_IN,
  265. SDEB_I_MAINT_OUT, 0, 0, 0,
  266. SDEB_I_READ, SDEB_I_SERV_ACT_OUT, SDEB_I_WRITE, SDEB_I_SERV_ACT_IN,
  267. 0, 0, 0, 0,
  268. 0, 0, 0, 0, 0, 0, 0, 0,
  269. 0, 0, 0, 0, 0, 0, 0, 0,
  270. /* 0xc0; 0xc0->0xff: vendor specific */
  271. 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
  272. 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
  273. 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
  274. 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
  275. };
  276. #define F_D_IN 1
  277. #define F_D_OUT 2
  278. #define F_D_OUT_MAYBE 4 /* WRITE SAME, NDOB bit */
  279. #define F_D_UNKN 8
  280. #define F_RL_WLUN_OK 0x10
  281. #define F_SKIP_UA 0x20
  282. #define F_DELAY_OVERR 0x40
  283. #define F_SA_LOW 0x80 /* cdb byte 1, bits 4 to 0 */
  284. #define F_SA_HIGH 0x100 /* as used by variable length cdbs */
  285. #define F_INV_OP 0x200
  286. #define F_FAKE_RW 0x400
  287. #define F_M_ACCESS 0x800 /* media access */
  288. #define FF_RESPOND (F_RL_WLUN_OK | F_SKIP_UA | F_DELAY_OVERR)
  289. #define FF_DIRECT_IO (F_M_ACCESS | F_FAKE_RW)
  290. #define FF_SA (F_SA_HIGH | F_SA_LOW)
  291. struct sdebug_dev_info;
  292. static int resp_inquiry(struct scsi_cmnd *, struct sdebug_dev_info *);
  293. static int resp_report_luns(struct scsi_cmnd *, struct sdebug_dev_info *);
  294. static int resp_requests(struct scsi_cmnd *, struct sdebug_dev_info *);
  295. static int resp_mode_sense(struct scsi_cmnd *, struct sdebug_dev_info *);
  296. static int resp_mode_select(struct scsi_cmnd *, struct sdebug_dev_info *);
  297. static int resp_log_sense(struct scsi_cmnd *, struct sdebug_dev_info *);
  298. static int resp_readcap(struct scsi_cmnd *, struct sdebug_dev_info *);
  299. static int resp_read_dt0(struct scsi_cmnd *, struct sdebug_dev_info *);
  300. static int resp_write_dt0(struct scsi_cmnd *, struct sdebug_dev_info *);
  301. static int resp_start_stop(struct scsi_cmnd *, struct sdebug_dev_info *);
  302. static int resp_readcap16(struct scsi_cmnd *, struct sdebug_dev_info *);
  303. static int resp_get_lba_status(struct scsi_cmnd *, struct sdebug_dev_info *);
  304. static int resp_report_tgtpgs(struct scsi_cmnd *, struct sdebug_dev_info *);
  305. static int resp_unmap(struct scsi_cmnd *, struct sdebug_dev_info *);
  306. static int resp_rsup_opcodes(struct scsi_cmnd *, struct sdebug_dev_info *);
  307. static int resp_rsup_tmfs(struct scsi_cmnd *, struct sdebug_dev_info *);
  308. static int resp_write_same_10(struct scsi_cmnd *, struct sdebug_dev_info *);
  309. static int resp_write_same_16(struct scsi_cmnd *, struct sdebug_dev_info *);
  310. static int resp_xdwriteread_10(struct scsi_cmnd *, struct sdebug_dev_info *);
  311. static int resp_comp_write(struct scsi_cmnd *, struct sdebug_dev_info *);
  312. static int resp_write_buffer(struct scsi_cmnd *, struct sdebug_dev_info *);
  313. struct opcode_info_t {
  314. u8 num_attached; /* 0 if this is it (i.e. a leaf); use 0xff
  315. * for terminating element */
  316. u8 opcode; /* if num_attached > 0, preferred */
  317. u16 sa; /* service action */
  318. u32 flags; /* OR-ed set of SDEB_F_* */
  319. int (*pfp)(struct scsi_cmnd *, struct sdebug_dev_info *);
  320. const struct opcode_info_t *arrp; /* num_attached elements or NULL */
  321. u8 len_mask[16]; /* len=len_mask[0], then mask for cdb[1]... */
  322. /* ignore cdb bytes after position 15 */
  323. };
  324. static const struct opcode_info_t msense_iarr[1] = {
  325. {0, 0x1a, 0, F_D_IN, NULL, NULL,
  326. {6, 0xe8, 0xff, 0xff, 0xff, 0xc7, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  327. };
  328. static const struct opcode_info_t mselect_iarr[1] = {
  329. {0, 0x15, 0, F_D_OUT, NULL, NULL,
  330. {6, 0xf1, 0, 0, 0xff, 0xc7, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  331. };
  332. static const struct opcode_info_t read_iarr[3] = {
  333. {0, 0x28, 0, F_D_IN | FF_DIRECT_IO, resp_read_dt0, NULL,/* READ(10) */
  334. {10, 0xff, 0xff, 0xff, 0xff, 0xff, 0x1f, 0xff, 0xff, 0xc7, 0, 0,
  335. 0, 0, 0, 0} },
  336. {0, 0x8, 0, F_D_IN | FF_DIRECT_IO, resp_read_dt0, NULL, /* READ(6) */
  337. {6, 0xff, 0xff, 0xff, 0xff, 0xc7, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  338. {0, 0xa8, 0, F_D_IN | FF_DIRECT_IO, resp_read_dt0, NULL,/* READ(12) */
  339. {12, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0x9f,
  340. 0xc7, 0, 0, 0, 0} },
  341. };
  342. static const struct opcode_info_t write_iarr[3] = {
  343. {0, 0x2a, 0, F_D_OUT | FF_DIRECT_IO, resp_write_dt0, NULL, /* 10 */
  344. {10, 0xfb, 0xff, 0xff, 0xff, 0xff, 0x1f, 0xff, 0xff, 0xc7, 0, 0,
  345. 0, 0, 0, 0} },
  346. {0, 0xa, 0, F_D_OUT | FF_DIRECT_IO, resp_write_dt0, NULL, /* 6 */
  347. {6, 0xff, 0xff, 0xff, 0xff, 0xc7, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  348. {0, 0xaa, 0, F_D_OUT | FF_DIRECT_IO, resp_write_dt0, NULL, /* 12 */
  349. {12, 0xfb, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0x9f,
  350. 0xc7, 0, 0, 0, 0} },
  351. };
  352. static const struct opcode_info_t sa_in_iarr[1] = {
  353. {0, 0x9e, 0x12, F_SA_LOW | F_D_IN, resp_get_lba_status, NULL,
  354. {16, 0x12, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
  355. 0xff, 0xff, 0xff, 0, 0xc7} },
  356. };
  357. static const struct opcode_info_t vl_iarr[1] = { /* VARIABLE LENGTH */
  358. {0, 0x7f, 0xb, F_SA_HIGH | F_D_OUT | FF_DIRECT_IO, resp_write_dt0,
  359. NULL, {32, 0xc7, 0, 0, 0, 0, 0x1f, 0x18, 0x0, 0xb, 0xfa,
  360. 0, 0xff, 0xff, 0xff, 0xff} }, /* WRITE(32) */
  361. };
  362. static const struct opcode_info_t maint_in_iarr[2] = {
  363. {0, 0xa3, 0xc, F_SA_LOW | F_D_IN, resp_rsup_opcodes, NULL,
  364. {12, 0xc, 0x87, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0,
  365. 0xc7, 0, 0, 0, 0} },
  366. {0, 0xa3, 0xd, F_SA_LOW | F_D_IN, resp_rsup_tmfs, NULL,
  367. {12, 0xd, 0x80, 0, 0, 0, 0xff, 0xff, 0xff, 0xff, 0, 0xc7, 0, 0,
  368. 0, 0} },
  369. };
  370. static const struct opcode_info_t write_same_iarr[1] = {
  371. {0, 0x93, 0, F_D_OUT_MAYBE | FF_DIRECT_IO, resp_write_same_16, NULL,
  372. {16, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
  373. 0xff, 0xff, 0xff, 0x1f, 0xc7} },
  374. };
  375. static const struct opcode_info_t reserve_iarr[1] = {
  376. {0, 0x16, 0, F_D_OUT, NULL, NULL, /* RESERVE(6) */
  377. {6, 0x1f, 0xff, 0xff, 0xff, 0xc7, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  378. };
  379. static const struct opcode_info_t release_iarr[1] = {
  380. {0, 0x17, 0, F_D_OUT, NULL, NULL, /* RELEASE(6) */
  381. {6, 0x1f, 0xff, 0, 0, 0xc7, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  382. };
  383. /* This array is accessed via SDEB_I_* values. Make sure all are mapped,
  384. * plus the terminating elements for logic that scans this table such as
  385. * REPORT SUPPORTED OPERATION CODES. */
  386. static const struct opcode_info_t opcode_info_arr[SDEB_I_LAST_ELEMENT + 1] = {
  387. /* 0 */
  388. {0, 0, 0, F_INV_OP | FF_RESPOND, NULL, NULL,
  389. {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  390. {0, 0x12, 0, FF_RESPOND | F_D_IN, resp_inquiry, NULL,
  391. {6, 0xe3, 0xff, 0xff, 0xff, 0xc7, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  392. {0, 0xa0, 0, FF_RESPOND | F_D_IN, resp_report_luns, NULL,
  393. {12, 0xe3, 0xff, 0, 0, 0, 0xff, 0xff, 0xff, 0xff, 0, 0xc7, 0, 0,
  394. 0, 0} },
  395. {0, 0x3, 0, FF_RESPOND | F_D_IN, resp_requests, NULL,
  396. {6, 0xe1, 0, 0, 0xff, 0xc7, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  397. {0, 0x0, 0, F_M_ACCESS | F_RL_WLUN_OK, NULL, NULL,/* TEST UNIT READY */
  398. {6, 0, 0, 0, 0, 0xc7, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  399. {1, 0x5a, 0, F_D_IN, resp_mode_sense, msense_iarr,
  400. {10, 0xf8, 0xff, 0xff, 0, 0, 0, 0xff, 0xff, 0xc7, 0, 0, 0, 0, 0,
  401. 0} },
  402. {1, 0x55, 0, F_D_OUT, resp_mode_select, mselect_iarr,
  403. {10, 0xf1, 0, 0, 0, 0, 0, 0xff, 0xff, 0xc7, 0, 0, 0, 0, 0, 0} },
  404. {0, 0x4d, 0, F_D_IN, resp_log_sense, NULL,
  405. {10, 0xe3, 0xff, 0xff, 0, 0xff, 0xff, 0xff, 0xff, 0xc7, 0, 0, 0,
  406. 0, 0, 0} },
  407. {0, 0x25, 0, F_D_IN, resp_readcap, NULL,
  408. {10, 0xe1, 0xff, 0xff, 0xff, 0xff, 0, 0, 0x1, 0xc7, 0, 0, 0, 0,
  409. 0, 0} },
  410. {3, 0x88, 0, F_D_IN | FF_DIRECT_IO, resp_read_dt0, read_iarr,
  411. {16, 0xfe, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
  412. 0xff, 0xff, 0xff, 0x9f, 0xc7} }, /* READ(16) */
  413. /* 10 */
  414. {3, 0x8a, 0, F_D_OUT | FF_DIRECT_IO, resp_write_dt0, write_iarr,
  415. {16, 0xfa, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
  416. 0xff, 0xff, 0xff, 0x9f, 0xc7} }, /* WRITE(16) */
  417. {0, 0x1b, 0, 0, resp_start_stop, NULL, /* START STOP UNIT */
  418. {6, 0x1, 0, 0xf, 0xf7, 0xc7, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  419. {1, 0x9e, 0x10, F_SA_LOW | F_D_IN, resp_readcap16, sa_in_iarr,
  420. {16, 0x10, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
  421. 0xff, 0xff, 0xff, 0x1, 0xc7} }, /* READ CAPACITY(16) */
  422. {0, 0, 0, F_INV_OP | FF_RESPOND, NULL, NULL, /* SA OUT */
  423. {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  424. {2, 0xa3, 0xa, F_SA_LOW | F_D_IN, resp_report_tgtpgs, maint_in_iarr,
  425. {12, 0xea, 0, 0, 0, 0, 0xff, 0xff, 0xff, 0xff, 0, 0xc7, 0, 0, 0,
  426. 0} },
  427. {0, 0, 0, F_INV_OP | FF_RESPOND, NULL, NULL, /* MAINT OUT */
  428. {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  429. {0, 0, 0, F_INV_OP | FF_RESPOND, NULL, NULL, /* VERIFY */
  430. {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  431. {1, 0x7f, 0x9, F_SA_HIGH | F_D_IN | FF_DIRECT_IO, resp_read_dt0,
  432. vl_iarr, {32, 0xc7, 0, 0, 0, 0, 0x1f, 0x18, 0x0, 0x9, 0xfe, 0,
  433. 0xff, 0xff, 0xff, 0xff} },/* VARIABLE LENGTH, READ(32) */
  434. {1, 0x56, 0, F_D_OUT, NULL, reserve_iarr, /* RESERVE(10) */
  435. {10, 0xff, 0xff, 0xff, 0, 0, 0, 0xff, 0xff, 0xc7, 0, 0, 0, 0, 0,
  436. 0} },
  437. {1, 0x57, 0, F_D_OUT, NULL, release_iarr, /* RELEASE(10) */
  438. {10, 0x13, 0xff, 0xff, 0, 0, 0, 0xff, 0xff, 0xc7, 0, 0, 0, 0, 0,
  439. 0} },
  440. /* 20 */
  441. {0, 0, 0, F_INV_OP | FF_RESPOND, NULL, NULL, /* ALLOW REMOVAL */
  442. {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  443. {0, 0x1, 0, 0, resp_start_stop, NULL, /* REWIND ?? */
  444. {6, 0x1, 0, 0, 0, 0xc7, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  445. {0, 0, 0, F_INV_OP | FF_RESPOND, NULL, NULL, /* ATA_PT */
  446. {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  447. {0, 0x1d, F_D_OUT, 0, NULL, NULL, /* SEND DIAGNOSTIC */
  448. {6, 0xf7, 0, 0xff, 0xff, 0xc7, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  449. {0, 0x42, 0, F_D_OUT | FF_DIRECT_IO, resp_unmap, NULL, /* UNMAP */
  450. {10, 0x1, 0, 0, 0, 0, 0x1f, 0xff, 0xff, 0xc7, 0, 0, 0, 0, 0, 0} },
  451. {0, 0x53, 0, F_D_IN | F_D_OUT | FF_DIRECT_IO, resp_xdwriteread_10,
  452. NULL, {10, 0xff, 0xff, 0xff, 0xff, 0xff, 0x1f, 0xff, 0xff, 0xc7,
  453. 0, 0, 0, 0, 0, 0} },
  454. {0, 0x3b, 0, F_D_OUT_MAYBE, resp_write_buffer, NULL,
  455. {10, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xc7, 0, 0,
  456. 0, 0, 0, 0} }, /* WRITE_BUFFER */
  457. {1, 0x41, 0, F_D_OUT_MAYBE | FF_DIRECT_IO, resp_write_same_10,
  458. write_same_iarr, {10, 0xff, 0xff, 0xff, 0xff, 0xff, 0x1f, 0xff,
  459. 0xff, 0xc7, 0, 0, 0, 0, 0, 0} },
  460. {0, 0x35, 0, F_DELAY_OVERR | FF_DIRECT_IO, NULL, NULL, /* SYNC_CACHE */
  461. {10, 0x7, 0xff, 0xff, 0xff, 0xff, 0x1f, 0xff, 0xff, 0xc7, 0, 0,
  462. 0, 0, 0, 0} },
  463. {0, 0x89, 0, F_D_OUT | FF_DIRECT_IO, resp_comp_write, NULL,
  464. {16, 0xf8, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0, 0,
  465. 0, 0xff, 0x1f, 0xc7} }, /* COMPARE AND WRITE */
  466. /* 30 */
  467. {0xff, 0, 0, 0, NULL, NULL, /* terminating element */
  468. {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} },
  469. };
  470. struct sdebug_scmd_extra_t {
  471. bool inj_recovered;
  472. bool inj_transport;
  473. bool inj_dif;
  474. bool inj_dix;
  475. bool inj_short;
  476. };
  477. static int scsi_debug_add_host = DEF_NUM_HOST;
  478. static int scsi_debug_ato = DEF_ATO;
  479. static int scsi_debug_delay = DEF_DELAY;
  480. static int scsi_debug_dev_size_mb = DEF_DEV_SIZE_MB;
  481. static int scsi_debug_dif = DEF_DIF;
  482. static int scsi_debug_dix = DEF_DIX;
  483. static int scsi_debug_dsense = DEF_D_SENSE;
  484. static int scsi_debug_every_nth = DEF_EVERY_NTH;
  485. static int scsi_debug_fake_rw = DEF_FAKE_RW;
  486. static unsigned int scsi_debug_guard = DEF_GUARD;
  487. static int scsi_debug_lowest_aligned = DEF_LOWEST_ALIGNED;
  488. static int scsi_debug_max_luns = DEF_MAX_LUNS;
  489. static int scsi_debug_max_queue = SCSI_DEBUG_CANQUEUE;
  490. static atomic_t retired_max_queue; /* if > 0 then was prior max_queue */
  491. static int scsi_debug_ndelay = DEF_NDELAY;
  492. static int scsi_debug_no_lun_0 = DEF_NO_LUN_0;
  493. static int scsi_debug_no_uld = 0;
  494. static int scsi_debug_num_parts = DEF_NUM_PARTS;
  495. static int scsi_debug_num_tgts = DEF_NUM_TGTS; /* targets per host */
  496. static int scsi_debug_opt_blks = DEF_OPT_BLKS;
  497. static int scsi_debug_opts = DEF_OPTS;
  498. static int scsi_debug_physblk_exp = DEF_PHYSBLK_EXP;
  499. static int scsi_debug_ptype = DEF_PTYPE; /* SCSI peripheral type (0==disk) */
  500. static int scsi_debug_scsi_level = DEF_SCSI_LEVEL;
  501. static int scsi_debug_sector_size = DEF_SECTOR_SIZE;
  502. static int scsi_debug_virtual_gb = DEF_VIRTUAL_GB;
  503. static int scsi_debug_vpd_use_hostno = DEF_VPD_USE_HOSTNO;
  504. static unsigned int scsi_debug_lbpu = DEF_LBPU;
  505. static unsigned int scsi_debug_lbpws = DEF_LBPWS;
  506. static unsigned int scsi_debug_lbpws10 = DEF_LBPWS10;
  507. static unsigned int scsi_debug_lbprz = DEF_LBPRZ;
  508. static unsigned int scsi_debug_unmap_alignment = DEF_UNMAP_ALIGNMENT;
  509. static unsigned int scsi_debug_unmap_granularity = DEF_UNMAP_GRANULARITY;
  510. static unsigned int scsi_debug_unmap_max_blocks = DEF_UNMAP_MAX_BLOCKS;
  511. static unsigned int scsi_debug_unmap_max_desc = DEF_UNMAP_MAX_DESC;
  512. static unsigned int scsi_debug_write_same_length = DEF_WRITESAME_LENGTH;
  513. static bool scsi_debug_removable = DEF_REMOVABLE;
  514. static bool scsi_debug_clustering;
  515. static bool scsi_debug_host_lock = DEF_HOST_LOCK;
  516. static bool scsi_debug_strict = DEF_STRICT;
  517. static bool sdebug_any_injecting_opt;
  518. static atomic_t sdebug_cmnd_count;
  519. static atomic_t sdebug_completions;
  520. static atomic_t sdebug_a_tsf; /* counter of 'almost' TSFs */
  521. #define DEV_READONLY(TGT) (0)
  522. static unsigned int sdebug_store_sectors;
  523. static sector_t sdebug_capacity; /* in sectors */
  524. /* old BIOS stuff, kernel may get rid of them but some mode sense pages
  525. may still need them */
  526. static int sdebug_heads; /* heads per disk */
  527. static int sdebug_cylinders_per; /* cylinders per surface */
  528. static int sdebug_sectors_per; /* sectors per cylinder */
  529. #define SDEBUG_MAX_PARTS 4
  530. #define SCSI_DEBUG_MAX_CMD_LEN 32
  531. static unsigned int scsi_debug_lbp(void)
  532. {
  533. return ((0 == scsi_debug_fake_rw) &&
  534. (scsi_debug_lbpu | scsi_debug_lbpws | scsi_debug_lbpws10));
  535. }
  536. struct sdebug_dev_info {
  537. struct list_head dev_list;
  538. unsigned int channel;
  539. unsigned int target;
  540. u64 lun;
  541. struct sdebug_host_info *sdbg_host;
  542. unsigned long uas_bm[1];
  543. atomic_t num_in_q;
  544. char stopped; /* TODO: should be atomic */
  545. bool used;
  546. };
  547. struct sdebug_host_info {
  548. struct list_head host_list;
  549. struct Scsi_Host *shost;
  550. struct device dev;
  551. struct list_head dev_info_list;
  552. };
  553. #define to_sdebug_host(d) \
  554. container_of(d, struct sdebug_host_info, dev)
  555. static LIST_HEAD(sdebug_host_list);
  556. static DEFINE_SPINLOCK(sdebug_host_list_lock);
  557. struct sdebug_hrtimer { /* ... is derived from hrtimer */
  558. struct hrtimer hrt; /* must be first element */
  559. int qa_indx;
  560. };
  561. struct sdebug_queued_cmd {
  562. /* in_use flagged by a bit in queued_in_use_bm[] */
  563. struct timer_list *cmnd_timerp;
  564. struct tasklet_struct *tletp;
  565. struct sdebug_hrtimer *sd_hrtp;
  566. struct scsi_cmnd * a_cmnd;
  567. };
  568. static struct sdebug_queued_cmd queued_arr[SCSI_DEBUG_CANQUEUE];
  569. static unsigned long queued_in_use_bm[SCSI_DEBUG_CANQUEUE_WORDS];
  570. static unsigned char * fake_storep; /* ramdisk storage */
  571. static struct sd_dif_tuple *dif_storep; /* protection info */
  572. static void *map_storep; /* provisioning map */
  573. static unsigned long map_size;
  574. static int num_aborts;
  575. static int num_dev_resets;
  576. static int num_target_resets;
  577. static int num_bus_resets;
  578. static int num_host_resets;
  579. static int dix_writes;
  580. static int dix_reads;
  581. static int dif_errors;
  582. static DEFINE_SPINLOCK(queued_arr_lock);
  583. static DEFINE_RWLOCK(atomic_rw);
  584. static char sdebug_proc_name[] = MY_NAME;
  585. static const char *my_name = MY_NAME;
  586. static struct bus_type pseudo_lld_bus;
  587. static struct device_driver sdebug_driverfs_driver = {
  588. .name = sdebug_proc_name,
  589. .bus = &pseudo_lld_bus,
  590. };
  591. static const int check_condition_result =
  592. (DRIVER_SENSE << 24) | SAM_STAT_CHECK_CONDITION;
  593. static const int illegal_condition_result =
  594. (DRIVER_SENSE << 24) | (DID_ABORT << 16) | SAM_STAT_CHECK_CONDITION;
  595. static const int device_qfull_result =
  596. (DID_OK << 16) | (COMMAND_COMPLETE << 8) | SAM_STAT_TASK_SET_FULL;
  597. static unsigned char caching_pg[] = {0x8, 18, 0x14, 0, 0xff, 0xff, 0, 0,
  598. 0xff, 0xff, 0xff, 0xff, 0x80, 0x14, 0, 0,
  599. 0, 0, 0, 0};
  600. static unsigned char ctrl_m_pg[] = {0xa, 10, 2, 0, 0, 0, 0, 0,
  601. 0, 0, 0x2, 0x4b};
  602. static unsigned char iec_m_pg[] = {0x1c, 0xa, 0x08, 0, 0, 0, 0, 0,
  603. 0, 0, 0x0, 0x0};
  604. static void *fake_store(unsigned long long lba)
  605. {
  606. lba = do_div(lba, sdebug_store_sectors);
  607. return fake_storep + lba * scsi_debug_sector_size;
  608. }
  609. static struct sd_dif_tuple *dif_store(sector_t sector)
  610. {
  611. sector = do_div(sector, sdebug_store_sectors);
  612. return dif_storep + sector;
  613. }
  614. static int sdebug_add_adapter(void);
  615. static void sdebug_remove_adapter(void);
  616. static void sdebug_max_tgts_luns(void)
  617. {
  618. struct sdebug_host_info *sdbg_host;
  619. struct Scsi_Host *hpnt;
  620. spin_lock(&sdebug_host_list_lock);
  621. list_for_each_entry(sdbg_host, &sdebug_host_list, host_list) {
  622. hpnt = sdbg_host->shost;
  623. if ((hpnt->this_id >= 0) &&
  624. (scsi_debug_num_tgts > hpnt->this_id))
  625. hpnt->max_id = scsi_debug_num_tgts + 1;
  626. else
  627. hpnt->max_id = scsi_debug_num_tgts;
  628. /* scsi_debug_max_luns; */
  629. hpnt->max_lun = SAM2_WLUN_REPORT_LUNS;
  630. }
  631. spin_unlock(&sdebug_host_list_lock);
  632. }
  633. enum sdeb_cmd_data {SDEB_IN_DATA = 0, SDEB_IN_CDB = 1};
  634. /* Set in_bit to -1 to indicate no bit position of invalid field */
  635. static void
  636. mk_sense_invalid_fld(struct scsi_cmnd *scp, enum sdeb_cmd_data c_d,
  637. int in_byte, int in_bit)
  638. {
  639. unsigned char *sbuff;
  640. u8 sks[4];
  641. int sl, asc;
  642. sbuff = scp->sense_buffer;
  643. if (!sbuff) {
  644. sdev_printk(KERN_ERR, scp->device,
  645. "%s: sense_buffer is NULL\n", __func__);
  646. return;
  647. }
  648. asc = c_d ? INVALID_FIELD_IN_CDB : INVALID_FIELD_IN_PARAM_LIST;
  649. memset(sbuff, 0, SCSI_SENSE_BUFFERSIZE);
  650. scsi_build_sense_buffer(scsi_debug_dsense, sbuff, ILLEGAL_REQUEST,
  651. asc, 0);
  652. memset(sks, 0, sizeof(sks));
  653. sks[0] = 0x80;
  654. if (c_d)
  655. sks[0] |= 0x40;
  656. if (in_bit >= 0) {
  657. sks[0] |= 0x8;
  658. sks[0] |= 0x7 & in_bit;
  659. }
  660. put_unaligned_be16(in_byte, sks + 1);
  661. if (scsi_debug_dsense) {
  662. sl = sbuff[7] + 8;
  663. sbuff[7] = sl;
  664. sbuff[sl] = 0x2;
  665. sbuff[sl + 1] = 0x6;
  666. memcpy(sbuff + sl + 4, sks, 3);
  667. } else
  668. memcpy(sbuff + 15, sks, 3);
  669. if (SCSI_DEBUG_OPT_NOISE & scsi_debug_opts)
  670. sdev_printk(KERN_INFO, scp->device, "%s: [sense_key,asc,ascq"
  671. "]: [0x5,0x%x,0x0] %c byte=%d, bit=%d\n",
  672. my_name, asc, c_d ? 'C' : 'D', in_byte, in_bit);
  673. }
  674. static void mk_sense_buffer(struct scsi_cmnd *scp, int key, int asc, int asq)
  675. {
  676. unsigned char *sbuff;
  677. sbuff = scp->sense_buffer;
  678. if (!sbuff) {
  679. sdev_printk(KERN_ERR, scp->device,
  680. "%s: sense_buffer is NULL\n", __func__);
  681. return;
  682. }
  683. memset(sbuff, 0, SCSI_SENSE_BUFFERSIZE);
  684. scsi_build_sense_buffer(scsi_debug_dsense, sbuff, key, asc, asq);
  685. if (SCSI_DEBUG_OPT_NOISE & scsi_debug_opts)
  686. sdev_printk(KERN_INFO, scp->device,
  687. "%s: [sense_key,asc,ascq]: [0x%x,0x%x,0x%x]\n",
  688. my_name, key, asc, asq);
  689. }
  690. static void
  691. mk_sense_invalid_opcode(struct scsi_cmnd *scp)
  692. {
  693. mk_sense_buffer(scp, ILLEGAL_REQUEST, INVALID_OPCODE, 0);
  694. }
  695. static int scsi_debug_ioctl(struct scsi_device *dev, int cmd, void __user *arg)
  696. {
  697. if (SCSI_DEBUG_OPT_NOISE & scsi_debug_opts) {
  698. if (0x1261 == cmd)
  699. sdev_printk(KERN_INFO, dev,
  700. "%s: BLKFLSBUF [0x1261]\n", __func__);
  701. else if (0x5331 == cmd)
  702. sdev_printk(KERN_INFO, dev,
  703. "%s: CDROM_GET_CAPABILITY [0x5331]\n",
  704. __func__);
  705. else
  706. sdev_printk(KERN_INFO, dev, "%s: cmd=0x%x\n",
  707. __func__, cmd);
  708. }
  709. return -EINVAL;
  710. /* return -ENOTTY; // correct return but upsets fdisk */
  711. }
  712. static void clear_luns_changed_on_target(struct sdebug_dev_info *devip)
  713. {
  714. struct sdebug_host_info *sdhp;
  715. struct sdebug_dev_info *dp;
  716. spin_lock(&sdebug_host_list_lock);
  717. list_for_each_entry(sdhp, &sdebug_host_list, host_list) {
  718. list_for_each_entry(dp, &sdhp->dev_info_list, dev_list) {
  719. if ((devip->sdbg_host == dp->sdbg_host) &&
  720. (devip->target == dp->target))
  721. clear_bit(SDEBUG_UA_LUNS_CHANGED, dp->uas_bm);
  722. }
  723. }
  724. spin_unlock(&sdebug_host_list_lock);
  725. }
  726. static int check_readiness(struct scsi_cmnd *SCpnt, int uas_only,
  727. struct sdebug_dev_info * devip)
  728. {
  729. int k;
  730. bool debug = !!(SCSI_DEBUG_OPT_NOISE & scsi_debug_opts);
  731. k = find_first_bit(devip->uas_bm, SDEBUG_NUM_UAS);
  732. if (k != SDEBUG_NUM_UAS) {
  733. const char *cp = NULL;
  734. switch (k) {
  735. case SDEBUG_UA_POR:
  736. mk_sense_buffer(SCpnt, UNIT_ATTENTION,
  737. UA_RESET_ASC, POWER_ON_RESET_ASCQ);
  738. if (debug)
  739. cp = "power on reset";
  740. break;
  741. case SDEBUG_UA_BUS_RESET:
  742. mk_sense_buffer(SCpnt, UNIT_ATTENTION,
  743. UA_RESET_ASC, BUS_RESET_ASCQ);
  744. if (debug)
  745. cp = "bus reset";
  746. break;
  747. case SDEBUG_UA_MODE_CHANGED:
  748. mk_sense_buffer(SCpnt, UNIT_ATTENTION,
  749. UA_CHANGED_ASC, MODE_CHANGED_ASCQ);
  750. if (debug)
  751. cp = "mode parameters changed";
  752. break;
  753. case SDEBUG_UA_CAPACITY_CHANGED:
  754. mk_sense_buffer(SCpnt, UNIT_ATTENTION,
  755. UA_CHANGED_ASC, CAPACITY_CHANGED_ASCQ);
  756. if (debug)
  757. cp = "capacity data changed";
  758. break;
  759. case SDEBUG_UA_MICROCODE_CHANGED:
  760. mk_sense_buffer(SCpnt, UNIT_ATTENTION,
  761. TARGET_CHANGED_ASC, MICROCODE_CHANGED_ASCQ);
  762. if (debug)
  763. cp = "microcode has been changed";
  764. break;
  765. case SDEBUG_UA_MICROCODE_CHANGED_WO_RESET:
  766. mk_sense_buffer(SCpnt, UNIT_ATTENTION,
  767. TARGET_CHANGED_ASC,
  768. MICROCODE_CHANGED_WO_RESET_ASCQ);
  769. if (debug)
  770. cp = "microcode has been changed without reset";
  771. break;
  772. case SDEBUG_UA_LUNS_CHANGED:
  773. /*
  774. * SPC-3 behavior is to report a UNIT ATTENTION with
  775. * ASC/ASCQ REPORTED LUNS DATA HAS CHANGED on every LUN
  776. * on the target, until a REPORT LUNS command is
  777. * received. SPC-4 behavior is to report it only once.
  778. * NOTE: scsi_debug_scsi_level does not use the same
  779. * values as struct scsi_device->scsi_level.
  780. */
  781. if (scsi_debug_scsi_level >= 6) /* SPC-4 and above */
  782. clear_luns_changed_on_target(devip);
  783. mk_sense_buffer(SCpnt, UNIT_ATTENTION,
  784. TARGET_CHANGED_ASC,
  785. LUNS_CHANGED_ASCQ);
  786. if (debug)
  787. cp = "reported luns data has changed";
  788. break;
  789. default:
  790. pr_warn("%s: unexpected unit attention code=%d\n",
  791. __func__, k);
  792. if (debug)
  793. cp = "unknown";
  794. break;
  795. }
  796. clear_bit(k, devip->uas_bm);
  797. if (debug)
  798. sdev_printk(KERN_INFO, SCpnt->device,
  799. "%s reports: Unit attention: %s\n",
  800. my_name, cp);
  801. return check_condition_result;
  802. }
  803. if ((UAS_TUR == uas_only) && devip->stopped) {
  804. mk_sense_buffer(SCpnt, NOT_READY, LOGICAL_UNIT_NOT_READY,
  805. 0x2);
  806. if (debug)
  807. sdev_printk(KERN_INFO, SCpnt->device,
  808. "%s reports: Not ready: %s\n", my_name,
  809. "initializing command required");
  810. return check_condition_result;
  811. }
  812. return 0;
  813. }
  814. /* Returns 0 if ok else (DID_ERROR << 16). Sets scp->resid . */
  815. static int fill_from_dev_buffer(struct scsi_cmnd *scp, unsigned char *arr,
  816. int arr_len)
  817. {
  818. int act_len;
  819. struct scsi_data_buffer *sdb = scsi_in(scp);
  820. if (!sdb->length)
  821. return 0;
  822. if (!(scsi_bidi_cmnd(scp) || scp->sc_data_direction == DMA_FROM_DEVICE))
  823. return (DID_ERROR << 16);
  824. act_len = sg_copy_from_buffer(sdb->table.sgl, sdb->table.nents,
  825. arr, arr_len);
  826. sdb->resid = scsi_bufflen(scp) - act_len;
  827. return 0;
  828. }
  829. /* Returns number of bytes fetched into 'arr' or -1 if error. */
  830. static int fetch_to_dev_buffer(struct scsi_cmnd *scp, unsigned char *arr,
  831. int arr_len)
  832. {
  833. if (!scsi_bufflen(scp))
  834. return 0;
  835. if (!(scsi_bidi_cmnd(scp) || scp->sc_data_direction == DMA_TO_DEVICE))
  836. return -1;
  837. return scsi_sg_copy_to_buffer(scp, arr, arr_len);
  838. }
  839. static const char * inq_vendor_id = "Linux ";
  840. static const char * inq_product_id = "scsi_debug ";
  841. static const char *inq_product_rev = "0184"; /* version less '.' */
  842. /* Device identification VPD page. Returns number of bytes placed in arr */
  843. static int inquiry_evpd_83(unsigned char * arr, int port_group_id,
  844. int target_dev_id, int dev_id_num,
  845. const char * dev_id_str,
  846. int dev_id_str_len)
  847. {
  848. int num, port_a;
  849. char b[32];
  850. port_a = target_dev_id + 1;
  851. /* T10 vendor identifier field format (faked) */
  852. arr[0] = 0x2; /* ASCII */
  853. arr[1] = 0x1;
  854. arr[2] = 0x0;
  855. memcpy(&arr[4], inq_vendor_id, 8);
  856. memcpy(&arr[12], inq_product_id, 16);
  857. memcpy(&arr[28], dev_id_str, dev_id_str_len);
  858. num = 8 + 16 + dev_id_str_len;
  859. arr[3] = num;
  860. num += 4;
  861. if (dev_id_num >= 0) {
  862. /* NAA-5, Logical unit identifier (binary) */
  863. arr[num++] = 0x1; /* binary (not necessarily sas) */
  864. arr[num++] = 0x3; /* PIV=0, lu, naa */
  865. arr[num++] = 0x0;
  866. arr[num++] = 0x8;
  867. arr[num++] = 0x53; /* naa-5 ieee company id=0x333333 (fake) */
  868. arr[num++] = 0x33;
  869. arr[num++] = 0x33;
  870. arr[num++] = 0x30;
  871. arr[num++] = (dev_id_num >> 24);
  872. arr[num++] = (dev_id_num >> 16) & 0xff;
  873. arr[num++] = (dev_id_num >> 8) & 0xff;
  874. arr[num++] = dev_id_num & 0xff;
  875. /* Target relative port number */
  876. arr[num++] = 0x61; /* proto=sas, binary */
  877. arr[num++] = 0x94; /* PIV=1, target port, rel port */
  878. arr[num++] = 0x0; /* reserved */
  879. arr[num++] = 0x4; /* length */
  880. arr[num++] = 0x0; /* reserved */
  881. arr[num++] = 0x0; /* reserved */
  882. arr[num++] = 0x0;
  883. arr[num++] = 0x1; /* relative port A */
  884. }
  885. /* NAA-5, Target port identifier */
  886. arr[num++] = 0x61; /* proto=sas, binary */
  887. arr[num++] = 0x93; /* piv=1, target port, naa */
  888. arr[num++] = 0x0;
  889. arr[num++] = 0x8;
  890. arr[num++] = 0x52; /* naa-5, company id=0x222222 (fake) */
  891. arr[num++] = 0x22;
  892. arr[num++] = 0x22;
  893. arr[num++] = 0x20;
  894. arr[num++] = (port_a >> 24);
  895. arr[num++] = (port_a >> 16) & 0xff;
  896. arr[num++] = (port_a >> 8) & 0xff;
  897. arr[num++] = port_a & 0xff;
  898. /* NAA-5, Target port group identifier */
  899. arr[num++] = 0x61; /* proto=sas, binary */
  900. arr[num++] = 0x95; /* piv=1, target port group id */
  901. arr[num++] = 0x0;
  902. arr[num++] = 0x4;
  903. arr[num++] = 0;
  904. arr[num++] = 0;
  905. arr[num++] = (port_group_id >> 8) & 0xff;
  906. arr[num++] = port_group_id & 0xff;
  907. /* NAA-5, Target device identifier */
  908. arr[num++] = 0x61; /* proto=sas, binary */
  909. arr[num++] = 0xa3; /* piv=1, target device, naa */
  910. arr[num++] = 0x0;
  911. arr[num++] = 0x8;
  912. arr[num++] = 0x52; /* naa-5, company id=0x222222 (fake) */
  913. arr[num++] = 0x22;
  914. arr[num++] = 0x22;
  915. arr[num++] = 0x20;
  916. arr[num++] = (target_dev_id >> 24);
  917. arr[num++] = (target_dev_id >> 16) & 0xff;
  918. arr[num++] = (target_dev_id >> 8) & 0xff;
  919. arr[num++] = target_dev_id & 0xff;
  920. /* SCSI name string: Target device identifier */
  921. arr[num++] = 0x63; /* proto=sas, UTF-8 */
  922. arr[num++] = 0xa8; /* piv=1, target device, SCSI name string */
  923. arr[num++] = 0x0;
  924. arr[num++] = 24;
  925. memcpy(arr + num, "naa.52222220", 12);
  926. num += 12;
  927. snprintf(b, sizeof(b), "%08X", target_dev_id);
  928. memcpy(arr + num, b, 8);
  929. num += 8;
  930. memset(arr + num, 0, 4);
  931. num += 4;
  932. return num;
  933. }
  934. static unsigned char vpd84_data[] = {
  935. /* from 4th byte */ 0x22,0x22,0x22,0x0,0xbb,0x0,
  936. 0x22,0x22,0x22,0x0,0xbb,0x1,
  937. 0x22,0x22,0x22,0x0,0xbb,0x2,
  938. };
  939. /* Software interface identification VPD page */
  940. static int inquiry_evpd_84(unsigned char * arr)
  941. {
  942. memcpy(arr, vpd84_data, sizeof(vpd84_data));
  943. return sizeof(vpd84_data);
  944. }
  945. /* Management network addresses VPD page */
  946. static int inquiry_evpd_85(unsigned char * arr)
  947. {
  948. int num = 0;
  949. const char * na1 = "https://www.kernel.org/config";
  950. const char * na2 = "http://www.kernel.org/log";
  951. int plen, olen;
  952. arr[num++] = 0x1; /* lu, storage config */
  953. arr[num++] = 0x0; /* reserved */
  954. arr[num++] = 0x0;
  955. olen = strlen(na1);
  956. plen = olen + 1;
  957. if (plen % 4)
  958. plen = ((plen / 4) + 1) * 4;
  959. arr[num++] = plen; /* length, null termianted, padded */
  960. memcpy(arr + num, na1, olen);
  961. memset(arr + num + olen, 0, plen - olen);
  962. num += plen;
  963. arr[num++] = 0x4; /* lu, logging */
  964. arr[num++] = 0x0; /* reserved */
  965. arr[num++] = 0x0;
  966. olen = strlen(na2);
  967. plen = olen + 1;
  968. if (plen % 4)
  969. plen = ((plen / 4) + 1) * 4;
  970. arr[num++] = plen; /* length, null terminated, padded */
  971. memcpy(arr + num, na2, olen);
  972. memset(arr + num + olen, 0, plen - olen);
  973. num += plen;
  974. return num;
  975. }
  976. /* SCSI ports VPD page */
  977. static int inquiry_evpd_88(unsigned char * arr, int target_dev_id)
  978. {
  979. int num = 0;
  980. int port_a, port_b;
  981. port_a = target_dev_id + 1;
  982. port_b = port_a + 1;
  983. arr[num++] = 0x0; /* reserved */
  984. arr[num++] = 0x0; /* reserved */
  985. arr[num++] = 0x0;
  986. arr[num++] = 0x1; /* relative port 1 (primary) */
  987. memset(arr + num, 0, 6);
  988. num += 6;
  989. arr[num++] = 0x0;
  990. arr[num++] = 12; /* length tp descriptor */
  991. /* naa-5 target port identifier (A) */
  992. arr[num++] = 0x61; /* proto=sas, binary */
  993. arr[num++] = 0x93; /* PIV=1, target port, NAA */
  994. arr[num++] = 0x0; /* reserved */
  995. arr[num++] = 0x8; /* length */
  996. arr[num++] = 0x52; /* NAA-5, company_id=0x222222 (fake) */
  997. arr[num++] = 0x22;
  998. arr[num++] = 0x22;
  999. arr[num++] = 0x20;
  1000. arr[num++] = (port_a >> 24);
  1001. arr[num++] = (port_a >> 16) & 0xff;
  1002. arr[num++] = (port_a >> 8) & 0xff;
  1003. arr[num++] = port_a & 0xff;
  1004. arr[num++] = 0x0; /* reserved */
  1005. arr[num++] = 0x0; /* reserved */
  1006. arr[num++] = 0x0;
  1007. arr[num++] = 0x2; /* relative port 2 (secondary) */
  1008. memset(arr + num, 0, 6);
  1009. num += 6;
  1010. arr[num++] = 0x0;
  1011. arr[num++] = 12; /* length tp descriptor */
  1012. /* naa-5 target port identifier (B) */
  1013. arr[num++] = 0x61; /* proto=sas, binary */
  1014. arr[num++] = 0x93; /* PIV=1, target port, NAA */
  1015. arr[num++] = 0x0; /* reserved */
  1016. arr[num++] = 0x8; /* length */
  1017. arr[num++] = 0x52; /* NAA-5, company_id=0x222222 (fake) */
  1018. arr[num++] = 0x22;
  1019. arr[num++] = 0x22;
  1020. arr[num++] = 0x20;
  1021. arr[num++] = (port_b >> 24);
  1022. arr[num++] = (port_b >> 16) & 0xff;
  1023. arr[num++] = (port_b >> 8) & 0xff;
  1024. arr[num++] = port_b & 0xff;
  1025. return num;
  1026. }
  1027. static unsigned char vpd89_data[] = {
  1028. /* from 4th byte */ 0,0,0,0,
  1029. 'l','i','n','u','x',' ',' ',' ',
  1030. 'S','A','T',' ','s','c','s','i','_','d','e','b','u','g',' ',' ',
  1031. '1','2','3','4',
  1032. 0x34,0,0,0,1,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,
  1033. 0xec,0,0,0,
  1034. 0x5a,0xc,0xff,0x3f,0x37,0xc8,0x10,0,0,0,0,0,0x3f,0,0,0,
  1035. 0,0,0,0,0x58,0x58,0x58,0x58,0x58,0x58,0x58,0x58,0x20,0x20,0x20,0x20,
  1036. 0x20,0x20,0x20,0x20,0x20,0x20,0x20,0x20,0,0,0,0x40,0x4,0,0x2e,0x33,
  1037. 0x38,0x31,0x20,0x20,0x20,0x20,0x54,0x53,0x38,0x33,0x30,0x30,0x33,0x31,
  1038. 0x53,0x41,
  1039. 0x20,0x20,0x20,0x20,0x20,0x20,0x20,0x20,0x20,0x20,0x20,0x20,0x20,0x20,
  1040. 0x20,0x20,
  1041. 0x20,0x20,0x20,0x20,0x20,0x20,0x20,0x20,0x20,0x20,0x20,0x20,0x20,0x20,
  1042. 0x10,0x80,
  1043. 0,0,0,0x2f,0,0,0,0x2,0,0x2,0x7,0,0xff,0xff,0x1,0,
  1044. 0x3f,0,0xc1,0xff,0x3e,0,0x10,0x1,0xb0,0xf8,0x50,0x9,0,0,0x7,0,
  1045. 0x3,0,0x78,0,0x78,0,0xf0,0,0x78,0,0,0,0,0,0,0,
  1046. 0,0,0,0,0,0,0,0,0x2,0,0,0,0,0,0,0,
  1047. 0x7e,0,0x1b,0,0x6b,0x34,0x1,0x7d,0x3,0x40,0x69,0x34,0x1,0x3c,0x3,0x40,
  1048. 0x7f,0x40,0,0,0,0,0xfe,0xfe,0,0,0,0,0,0xfe,0,0,
  1049. 0,0,0,0,0,0,0,0,0xb0,0xf8,0x50,0x9,0,0,0,0,
  1050. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1051. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1052. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1053. 0x1,0,0xb0,0xf8,0x50,0x9,0xb0,0xf8,0x50,0x9,0x20,0x20,0x2,0,0xb6,0x42,
  1054. 0,0x80,0x8a,0,0x6,0x3c,0xa,0x3c,0xff,0xff,0xc6,0x7,0,0x1,0,0x8,
  1055. 0xf0,0xf,0,0x10,0x2,0,0x30,0,0,0,0,0,0,0,0x6,0xfe,
  1056. 0,0,0x2,0,0x50,0,0x8a,0,0x4f,0x95,0,0,0x21,0,0xb,0,
  1057. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1058. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1059. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1060. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1061. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1062. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1063. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1064. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1065. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1066. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1067. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1068. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0xa5,0x51,
  1069. };
  1070. /* ATA Information VPD page */
  1071. static int inquiry_evpd_89(unsigned char * arr)
  1072. {
  1073. memcpy(arr, vpd89_data, sizeof(vpd89_data));
  1074. return sizeof(vpd89_data);
  1075. }
  1076. static unsigned char vpdb0_data[] = {
  1077. /* from 4th byte */ 0,0,0,4, 0,0,0x4,0, 0,0,0,64,
  1078. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1079. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1080. 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
  1081. };
  1082. /* Block limits VPD page (SBC-3) */
  1083. static int inquiry_evpd_b0(unsigned char * arr)
  1084. {
  1085. unsigned int gran;
  1086. memcpy(arr, vpdb0_data, sizeof(vpdb0_data));
  1087. /* Optimal transfer length granularity */
  1088. gran = 1 << scsi_debug_physblk_exp;
  1089. arr[2] = (gran >> 8) & 0xff;
  1090. arr[3] = gran & 0xff;
  1091. /* Maximum Transfer Length */
  1092. if (sdebug_store_sectors > 0x400) {
  1093. arr[4] = (sdebug_store_sectors >> 24) & 0xff;
  1094. arr[5] = (sdebug_store_sectors >> 16) & 0xff;
  1095. arr[6] = (sdebug_store_sectors >> 8) & 0xff;
  1096. arr[7] = sdebug_store_sectors & 0xff;
  1097. }
  1098. /* Optimal Transfer Length */
  1099. put_unaligned_be32(scsi_debug_opt_blks, &arr[8]);
  1100. if (scsi_debug_lbpu) {
  1101. /* Maximum Unmap LBA Count */
  1102. put_unaligned_be32(scsi_debug_unmap_max_blocks, &arr[16]);
  1103. /* Maximum Unmap Block Descriptor Count */
  1104. put_unaligned_be32(scsi_debug_unmap_max_desc, &arr[20]);
  1105. }
  1106. /* Unmap Granularity Alignment */
  1107. if (scsi_debug_unmap_alignment) {
  1108. put_unaligned_be32(scsi_debug_unmap_alignment, &arr[28]);
  1109. arr[28] |= 0x80; /* UGAVALID */
  1110. }
  1111. /* Optimal Unmap Granularity */
  1112. put_unaligned_be32(scsi_debug_unmap_granularity, &arr[24]);
  1113. /* Maximum WRITE SAME Length */
  1114. put_unaligned_be64(scsi_debug_write_same_length, &arr[32]);
  1115. return 0x3c; /* Mandatory page length for Logical Block Provisioning */
  1116. return sizeof(vpdb0_data);
  1117. }
  1118. /* Block device characteristics VPD page (SBC-3) */
  1119. static int inquiry_evpd_b1(unsigned char *arr)
  1120. {
  1121. memset(arr, 0, 0x3c);
  1122. arr[0] = 0;
  1123. arr[1] = 1; /* non rotating medium (e.g. solid state) */
  1124. arr[2] = 0;
  1125. arr[3] = 5; /* less than 1.8" */
  1126. return 0x3c;
  1127. }
  1128. /* Logical block provisioning VPD page (SBC-3) */
  1129. static int inquiry_evpd_b2(unsigned char *arr)
  1130. {
  1131. memset(arr, 0, 0x4);
  1132. arr[0] = 0; /* threshold exponent */
  1133. if (scsi_debug_lbpu)
  1134. arr[1] = 1 << 7;
  1135. if (scsi_debug_lbpws)
  1136. arr[1] |= 1 << 6;
  1137. if (scsi_debug_lbpws10)
  1138. arr[1] |= 1 << 5;
  1139. if (scsi_debug_lbprz)
  1140. arr[1] |= 1 << 2;
  1141. return 0x4;
  1142. }
  1143. #define SDEBUG_LONG_INQ_SZ 96
  1144. #define SDEBUG_MAX_INQ_ARR_SZ 584
  1145. static int resp_inquiry(struct scsi_cmnd *scp, struct sdebug_dev_info *devip)
  1146. {
  1147. unsigned char pq_pdt;
  1148. unsigned char * arr;
  1149. unsigned char *cmd = scp->cmnd;
  1150. int alloc_len, n, ret;
  1151. bool have_wlun;
  1152. alloc_len = (cmd[3] << 8) + cmd[4];
  1153. arr = kzalloc(SDEBUG_MAX_INQ_ARR_SZ, GFP_ATOMIC);
  1154. if (! arr)
  1155. return DID_REQUEUE << 16;
  1156. have_wlun = (scp->device->lun == SAM2_WLUN_REPORT_LUNS);
  1157. if (have_wlun)
  1158. pq_pdt = 0x1e; /* present, wlun */
  1159. else if (scsi_debug_no_lun_0 && (0 == devip->lun))
  1160. pq_pdt = 0x7f; /* not present, no device type */
  1161. else
  1162. pq_pdt = (scsi_debug_ptype & 0x1f);
  1163. arr[0] = pq_pdt;
  1164. if (0x2 & cmd[1]) { /* CMDDT bit set */
  1165. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 1, 1);
  1166. kfree(arr);
  1167. return check_condition_result;
  1168. } else if (0x1 & cmd[1]) { /* EVPD bit set */
  1169. int lu_id_num, port_group_id, target_dev_id, len;
  1170. char lu_id_str[6];
  1171. int host_no = devip->sdbg_host->shost->host_no;
  1172. port_group_id = (((host_no + 1) & 0x7f) << 8) +
  1173. (devip->channel & 0x7f);
  1174. if (0 == scsi_debug_vpd_use_hostno)
  1175. host_no = 0;
  1176. lu_id_num = have_wlun ? -1 : (((host_no + 1) * 2000) +
  1177. (devip->target * 1000) + devip->lun);
  1178. target_dev_id = ((host_no + 1) * 2000) +
  1179. (devip->target * 1000) - 3;
  1180. len = scnprintf(lu_id_str, 6, "%d", lu_id_num);
  1181. if (0 == cmd[2]) { /* supported vital product data pages */
  1182. arr[1] = cmd[2]; /*sanity */
  1183. n = 4;
  1184. arr[n++] = 0x0; /* this page */
  1185. arr[n++] = 0x80; /* unit serial number */
  1186. arr[n++] = 0x83; /* device identification */
  1187. arr[n++] = 0x84; /* software interface ident. */
  1188. arr[n++] = 0x85; /* management network addresses */
  1189. arr[n++] = 0x86; /* extended inquiry */
  1190. arr[n++] = 0x87; /* mode page policy */
  1191. arr[n++] = 0x88; /* SCSI ports */
  1192. arr[n++] = 0x89; /* ATA information */
  1193. arr[n++] = 0xb0; /* Block limits (SBC) */
  1194. arr[n++] = 0xb1; /* Block characteristics (SBC) */
  1195. if (scsi_debug_lbp()) /* Logical Block Prov. (SBC) */
  1196. arr[n++] = 0xb2;
  1197. arr[3] = n - 4; /* number of supported VPD pages */
  1198. } else if (0x80 == cmd[2]) { /* unit serial number */
  1199. arr[1] = cmd[2]; /*sanity */
  1200. arr[3] = len;
  1201. memcpy(&arr[4], lu_id_str, len);
  1202. } else if (0x83 == cmd[2]) { /* device identification */
  1203. arr[1] = cmd[2]; /*sanity */
  1204. arr[3] = inquiry_evpd_83(&arr[4], port_group_id,
  1205. target_dev_id, lu_id_num,
  1206. lu_id_str, len);
  1207. } else if (0x84 == cmd[2]) { /* Software interface ident. */
  1208. arr[1] = cmd[2]; /*sanity */
  1209. arr[3] = inquiry_evpd_84(&arr[4]);
  1210. } else if (0x85 == cmd[2]) { /* Management network addresses */
  1211. arr[1] = cmd[2]; /*sanity */
  1212. arr[3] = inquiry_evpd_85(&arr[4]);
  1213. } else if (0x86 == cmd[2]) { /* extended inquiry */
  1214. arr[1] = cmd[2]; /*sanity */
  1215. arr[3] = 0x3c; /* number of following entries */
  1216. if (scsi_debug_dif == SD_DIF_TYPE3_PROTECTION)
  1217. arr[4] = 0x4; /* SPT: GRD_CHK:1 */
  1218. else if (scsi_debug_dif)
  1219. arr[4] = 0x5; /* SPT: GRD_CHK:1, REF_CHK:1 */
  1220. else
  1221. arr[4] = 0x0; /* no protection stuff */
  1222. arr[5] = 0x7; /* head of q, ordered + simple q's */
  1223. } else if (0x87 == cmd[2]) { /* mode page policy */
  1224. arr[1] = cmd[2]; /*sanity */
  1225. arr[3] = 0x8; /* number of following entries */
  1226. arr[4] = 0x2; /* disconnect-reconnect mp */
  1227. arr[6] = 0x80; /* mlus, shared */
  1228. arr[8] = 0x18; /* protocol specific lu */
  1229. arr[10] = 0x82; /* mlus, per initiator port */
  1230. } else if (0x88 == cmd[2]) { /* SCSI Ports */
  1231. arr[1] = cmd[2]; /*sanity */
  1232. arr[3] = inquiry_evpd_88(&arr[4], target_dev_id);
  1233. } else if (0x89 == cmd[2]) { /* ATA information */
  1234. arr[1] = cmd[2]; /*sanity */
  1235. n = inquiry_evpd_89(&arr[4]);
  1236. arr[2] = (n >> 8);
  1237. arr[3] = (n & 0xff);
  1238. } else if (0xb0 == cmd[2]) { /* Block limits (SBC) */
  1239. arr[1] = cmd[2]; /*sanity */
  1240. arr[3] = inquiry_evpd_b0(&arr[4]);
  1241. } else if (0xb1 == cmd[2]) { /* Block characteristics (SBC) */
  1242. arr[1] = cmd[2]; /*sanity */
  1243. arr[3] = inquiry_evpd_b1(&arr[4]);
  1244. } else if (0xb2 == cmd[2]) { /* Logical Block Prov. (SBC) */
  1245. arr[1] = cmd[2]; /*sanity */
  1246. arr[3] = inquiry_evpd_b2(&arr[4]);
  1247. } else {
  1248. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 2, -1);
  1249. kfree(arr);
  1250. return check_condition_result;
  1251. }
  1252. len = min(((arr[2] << 8) + arr[3]) + 4, alloc_len);
  1253. ret = fill_from_dev_buffer(scp, arr,
  1254. min(len, SDEBUG_MAX_INQ_ARR_SZ));
  1255. kfree(arr);
  1256. return ret;
  1257. }
  1258. /* drops through here for a standard inquiry */
  1259. arr[1] = scsi_debug_removable ? 0x80 : 0; /* Removable disk */
  1260. arr[2] = scsi_debug_scsi_level;
  1261. arr[3] = 2; /* response_data_format==2 */
  1262. arr[4] = SDEBUG_LONG_INQ_SZ - 5;
  1263. arr[5] = scsi_debug_dif ? 1 : 0; /* PROTECT bit */
  1264. if (0 == scsi_debug_vpd_use_hostno)
  1265. arr[5] = 0x10; /* claim: implicit TGPS */
  1266. arr[6] = 0x10; /* claim: MultiP */
  1267. /* arr[6] |= 0x40; ... claim: EncServ (enclosure services) */
  1268. arr[7] = 0xa; /* claim: LINKED + CMDQUE */
  1269. memcpy(&arr[8], inq_vendor_id, 8);
  1270. memcpy(&arr[16], inq_product_id, 16);
  1271. memcpy(&arr[32], inq_product_rev, 4);
  1272. /* version descriptors (2 bytes each) follow */
  1273. arr[58] = 0x0; arr[59] = 0xa2; /* SAM-5 rev 4 */
  1274. arr[60] = 0x4; arr[61] = 0x68; /* SPC-4 rev 37 */
  1275. n = 62;
  1276. if (scsi_debug_ptype == 0) {
  1277. arr[n++] = 0x4; arr[n++] = 0xc5; /* SBC-4 rev 36 */
  1278. } else if (scsi_debug_ptype == 1) {
  1279. arr[n++] = 0x5; arr[n++] = 0x25; /* SSC-4 rev 3 */
  1280. }
  1281. arr[n++] = 0x20; arr[n++] = 0xe6; /* SPL-3 rev 7 */
  1282. ret = fill_from_dev_buffer(scp, arr,
  1283. min(alloc_len, SDEBUG_LONG_INQ_SZ));
  1284. kfree(arr);
  1285. return ret;
  1286. }
  1287. static int resp_requests(struct scsi_cmnd * scp,
  1288. struct sdebug_dev_info * devip)
  1289. {
  1290. unsigned char * sbuff;
  1291. unsigned char *cmd = scp->cmnd;
  1292. unsigned char arr[SCSI_SENSE_BUFFERSIZE];
  1293. bool dsense, want_dsense;
  1294. int len = 18;
  1295. memset(arr, 0, sizeof(arr));
  1296. dsense = !!(cmd[1] & 1);
  1297. want_dsense = dsense || scsi_debug_dsense;
  1298. sbuff = scp->sense_buffer;
  1299. if ((iec_m_pg[2] & 0x4) && (6 == (iec_m_pg[3] & 0xf))) {
  1300. if (dsense) {
  1301. arr[0] = 0x72;
  1302. arr[1] = 0x0; /* NO_SENSE in sense_key */
  1303. arr[2] = THRESHOLD_EXCEEDED;
  1304. arr[3] = 0xff; /* TEST set and MRIE==6 */
  1305. len = 8;
  1306. } else {
  1307. arr[0] = 0x70;
  1308. arr[2] = 0x0; /* NO_SENSE in sense_key */
  1309. arr[7] = 0xa; /* 18 byte sense buffer */
  1310. arr[12] = THRESHOLD_EXCEEDED;
  1311. arr[13] = 0xff; /* TEST set and MRIE==6 */
  1312. }
  1313. } else {
  1314. memcpy(arr, sbuff, SCSI_SENSE_BUFFERSIZE);
  1315. if (arr[0] >= 0x70 && dsense == scsi_debug_dsense)
  1316. ; /* have sense and formats match */
  1317. else if (arr[0] <= 0x70) {
  1318. if (dsense) {
  1319. memset(arr, 0, 8);
  1320. arr[0] = 0x72;
  1321. len = 8;
  1322. } else {
  1323. memset(arr, 0, 18);
  1324. arr[0] = 0x70;
  1325. arr[7] = 0xa;
  1326. }
  1327. } else if (dsense) {
  1328. memset(arr, 0, 8);
  1329. arr[0] = 0x72;
  1330. arr[1] = sbuff[2]; /* sense key */
  1331. arr[2] = sbuff[12]; /* asc */
  1332. arr[3] = sbuff[13]; /* ascq */
  1333. len = 8;
  1334. } else {
  1335. memset(arr, 0, 18);
  1336. arr[0] = 0x70;
  1337. arr[2] = sbuff[1];
  1338. arr[7] = 0xa;
  1339. arr[12] = sbuff[1];
  1340. arr[13] = sbuff[3];
  1341. }
  1342. }
  1343. mk_sense_buffer(scp, 0, NO_ADDITIONAL_SENSE, 0);
  1344. return fill_from_dev_buffer(scp, arr, len);
  1345. }
  1346. static int resp_start_stop(struct scsi_cmnd * scp,
  1347. struct sdebug_dev_info * devip)
  1348. {
  1349. unsigned char *cmd = scp->cmnd;
  1350. int power_cond, start;
  1351. power_cond = (cmd[4] & 0xf0) >> 4;
  1352. if (power_cond) {
  1353. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 4, 7);
  1354. return check_condition_result;
  1355. }
  1356. start = cmd[4] & 1;
  1357. if (start == devip->stopped)
  1358. devip->stopped = !start;
  1359. return 0;
  1360. }
  1361. static sector_t get_sdebug_capacity(void)
  1362. {
  1363. if (scsi_debug_virtual_gb > 0)
  1364. return (sector_t)scsi_debug_virtual_gb *
  1365. (1073741824 / scsi_debug_sector_size);
  1366. else
  1367. return sdebug_store_sectors;
  1368. }
  1369. #define SDEBUG_READCAP_ARR_SZ 8
  1370. static int resp_readcap(struct scsi_cmnd * scp,
  1371. struct sdebug_dev_info * devip)
  1372. {
  1373. unsigned char arr[SDEBUG_READCAP_ARR_SZ];
  1374. unsigned int capac;
  1375. /* following just in case virtual_gb changed */
  1376. sdebug_capacity = get_sdebug_capacity();
  1377. memset(arr, 0, SDEBUG_READCAP_ARR_SZ);
  1378. if (sdebug_capacity < 0xffffffff) {
  1379. capac = (unsigned int)sdebug_capacity - 1;
  1380. arr[0] = (capac >> 24);
  1381. arr[1] = (capac >> 16) & 0xff;
  1382. arr[2] = (capac >> 8) & 0xff;
  1383. arr[3] = capac & 0xff;
  1384. } else {
  1385. arr[0] = 0xff;
  1386. arr[1] = 0xff;
  1387. arr[2] = 0xff;
  1388. arr[3] = 0xff;
  1389. }
  1390. arr[6] = (scsi_debug_sector_size >> 8) & 0xff;
  1391. arr[7] = scsi_debug_sector_size & 0xff;
  1392. return fill_from_dev_buffer(scp, arr, SDEBUG_READCAP_ARR_SZ);
  1393. }
  1394. #define SDEBUG_READCAP16_ARR_SZ 32
  1395. static int resp_readcap16(struct scsi_cmnd * scp,
  1396. struct sdebug_dev_info * devip)
  1397. {
  1398. unsigned char *cmd = scp->cmnd;
  1399. unsigned char arr[SDEBUG_READCAP16_ARR_SZ];
  1400. unsigned long long capac;
  1401. int k, alloc_len;
  1402. alloc_len = ((cmd[10] << 24) + (cmd[11] << 16) + (cmd[12] << 8)
  1403. + cmd[13]);
  1404. /* following just in case virtual_gb changed */
  1405. sdebug_capacity = get_sdebug_capacity();
  1406. memset(arr, 0, SDEBUG_READCAP16_ARR_SZ);
  1407. capac = sdebug_capacity - 1;
  1408. for (k = 0; k < 8; ++k, capac >>= 8)
  1409. arr[7 - k] = capac & 0xff;
  1410. arr[8] = (scsi_debug_sector_size >> 24) & 0xff;
  1411. arr[9] = (scsi_debug_sector_size >> 16) & 0xff;
  1412. arr[10] = (scsi_debug_sector_size >> 8) & 0xff;
  1413. arr[11] = scsi_debug_sector_size & 0xff;
  1414. arr[13] = scsi_debug_physblk_exp & 0xf;
  1415. arr[14] = (scsi_debug_lowest_aligned >> 8) & 0x3f;
  1416. if (scsi_debug_lbp()) {
  1417. arr[14] |= 0x80; /* LBPME */
  1418. if (scsi_debug_lbprz)
  1419. arr[14] |= 0x40; /* LBPRZ */
  1420. }
  1421. arr[15] = scsi_debug_lowest_aligned & 0xff;
  1422. if (scsi_debug_dif) {
  1423. arr[12] = (scsi_debug_dif - 1) << 1; /* P_TYPE */
  1424. arr[12] |= 1; /* PROT_EN */
  1425. }
  1426. return fill_from_dev_buffer(scp, arr,
  1427. min(alloc_len, SDEBUG_READCAP16_ARR_SZ));
  1428. }
  1429. #define SDEBUG_MAX_TGTPGS_ARR_SZ 1412
  1430. static int resp_report_tgtpgs(struct scsi_cmnd * scp,
  1431. struct sdebug_dev_info * devip)
  1432. {
  1433. unsigned char *cmd = scp->cmnd;
  1434. unsigned char * arr;
  1435. int host_no = devip->sdbg_host->shost->host_no;
  1436. int n, ret, alen, rlen;
  1437. int port_group_a, port_group_b, port_a, port_b;
  1438. alen = ((cmd[6] << 24) + (cmd[7] << 16) + (cmd[8] << 8)
  1439. + cmd[9]);
  1440. arr = kzalloc(SDEBUG_MAX_TGTPGS_ARR_SZ, GFP_ATOMIC);
  1441. if (! arr)
  1442. return DID_REQUEUE << 16;
  1443. /*
  1444. * EVPD page 0x88 states we have two ports, one
  1445. * real and a fake port with no device connected.
  1446. * So we create two port groups with one port each
  1447. * and set the group with port B to unavailable.
  1448. */
  1449. port_a = 0x1; /* relative port A */
  1450. port_b = 0x2; /* relative port B */
  1451. port_group_a = (((host_no + 1) & 0x7f) << 8) +
  1452. (devip->channel & 0x7f);
  1453. port_group_b = (((host_no + 1) & 0x7f) << 8) +
  1454. (devip->channel & 0x7f) + 0x80;
  1455. /*
  1456. * The asymmetric access state is cycled according to the host_id.
  1457. */
  1458. n = 4;
  1459. if (0 == scsi_debug_vpd_use_hostno) {
  1460. arr[n++] = host_no % 3; /* Asymm access state */
  1461. arr[n++] = 0x0F; /* claim: all states are supported */
  1462. } else {
  1463. arr[n++] = 0x0; /* Active/Optimized path */
  1464. arr[n++] = 0x01; /* claim: only support active/optimized paths */
  1465. }
  1466. arr[n++] = (port_group_a >> 8) & 0xff;
  1467. arr[n++] = port_group_a & 0xff;
  1468. arr[n++] = 0; /* Reserved */
  1469. arr[n++] = 0; /* Status code */
  1470. arr[n++] = 0; /* Vendor unique */
  1471. arr[n++] = 0x1; /* One port per group */
  1472. arr[n++] = 0; /* Reserved */
  1473. arr[n++] = 0; /* Reserved */
  1474. arr[n++] = (port_a >> 8) & 0xff;
  1475. arr[n++] = port_a & 0xff;
  1476. arr[n++] = 3; /* Port unavailable */
  1477. arr[n++] = 0x08; /* claim: only unavailalbe paths are supported */
  1478. arr[n++] = (port_group_b >> 8) & 0xff;
  1479. arr[n++] = port_group_b & 0xff;
  1480. arr[n++] = 0; /* Reserved */
  1481. arr[n++] = 0; /* Status code */
  1482. arr[n++] = 0; /* Vendor unique */
  1483. arr[n++] = 0x1; /* One port per group */
  1484. arr[n++] = 0; /* Reserved */
  1485. arr[n++] = 0; /* Reserved */
  1486. arr[n++] = (port_b >> 8) & 0xff;
  1487. arr[n++] = port_b & 0xff;
  1488. rlen = n - 4;
  1489. arr[0] = (rlen >> 24) & 0xff;
  1490. arr[1] = (rlen >> 16) & 0xff;
  1491. arr[2] = (rlen >> 8) & 0xff;
  1492. arr[3] = rlen & 0xff;
  1493. /*
  1494. * Return the smallest value of either
  1495. * - The allocated length
  1496. * - The constructed command length
  1497. * - The maximum array size
  1498. */
  1499. rlen = min(alen,n);
  1500. ret = fill_from_dev_buffer(scp, arr,
  1501. min(rlen, SDEBUG_MAX_TGTPGS_ARR_SZ));
  1502. kfree(arr);
  1503. return ret;
  1504. }
  1505. static int
  1506. resp_rsup_opcodes(struct scsi_cmnd *scp, struct sdebug_dev_info *devip)
  1507. {
  1508. bool rctd;
  1509. u8 reporting_opts, req_opcode, sdeb_i, supp;
  1510. u16 req_sa, u;
  1511. u32 alloc_len, a_len;
  1512. int k, offset, len, errsts, count, bump, na;
  1513. const struct opcode_info_t *oip;
  1514. const struct opcode_info_t *r_oip;
  1515. u8 *arr;
  1516. u8 *cmd = scp->cmnd;
  1517. rctd = !!(cmd[2] & 0x80);
  1518. reporting_opts = cmd[2] & 0x7;
  1519. req_opcode = cmd[3];
  1520. req_sa = get_unaligned_be16(cmd + 4);
  1521. alloc_len = get_unaligned_be32(cmd + 6);
  1522. if (alloc_len < 4 || alloc_len > 0xffff) {
  1523. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 6, -1);
  1524. return check_condition_result;
  1525. }
  1526. if (alloc_len > 8192)
  1527. a_len = 8192;
  1528. else
  1529. a_len = alloc_len;
  1530. arr = kzalloc((a_len < 256) ? 320 : a_len + 64, GFP_ATOMIC);
  1531. if (NULL == arr) {
  1532. mk_sense_buffer(scp, ILLEGAL_REQUEST, INSUFF_RES_ASC,
  1533. INSUFF_RES_ASCQ);
  1534. return check_condition_result;
  1535. }
  1536. switch (reporting_opts) {
  1537. case 0: /* all commands */
  1538. /* count number of commands */
  1539. for (count = 0, oip = opcode_info_arr;
  1540. oip->num_attached != 0xff; ++oip) {
  1541. if (F_INV_OP & oip->flags)
  1542. continue;
  1543. count += (oip->num_attached + 1);
  1544. }
  1545. bump = rctd ? 20 : 8;
  1546. put_unaligned_be32(count * bump, arr);
  1547. for (offset = 4, oip = opcode_info_arr;
  1548. oip->num_attached != 0xff && offset < a_len; ++oip) {
  1549. if (F_INV_OP & oip->flags)
  1550. continue;
  1551. na = oip->num_attached;
  1552. arr[offset] = oip->opcode;
  1553. put_unaligned_be16(oip->sa, arr + offset + 2);
  1554. if (rctd)
  1555. arr[offset + 5] |= 0x2;
  1556. if (FF_SA & oip->flags)
  1557. arr[offset + 5] |= 0x1;
  1558. put_unaligned_be16(oip->len_mask[0], arr + offset + 6);
  1559. if (rctd)
  1560. put_unaligned_be16(0xa, arr + offset + 8);
  1561. r_oip = oip;
  1562. for (k = 0, oip = oip->arrp; k < na; ++k, ++oip) {
  1563. if (F_INV_OP & oip->flags)
  1564. continue;
  1565. offset += bump;
  1566. arr[offset] = oip->opcode;
  1567. put_unaligned_be16(oip->sa, arr + offset + 2);
  1568. if (rctd)
  1569. arr[offset + 5] |= 0x2;
  1570. if (FF_SA & oip->flags)
  1571. arr[offset + 5] |= 0x1;
  1572. put_unaligned_be16(oip->len_mask[0],
  1573. arr + offset + 6);
  1574. if (rctd)
  1575. put_unaligned_be16(0xa,
  1576. arr + offset + 8);
  1577. }
  1578. oip = r_oip;
  1579. offset += bump;
  1580. }
  1581. break;
  1582. case 1: /* one command: opcode only */
  1583. case 2: /* one command: opcode plus service action */
  1584. case 3: /* one command: if sa==0 then opcode only else opcode+sa */
  1585. sdeb_i = opcode_ind_arr[req_opcode];
  1586. oip = &opcode_info_arr[sdeb_i];
  1587. if (F_INV_OP & oip->flags) {
  1588. supp = 1;
  1589. offset = 4;
  1590. } else {
  1591. if (1 == reporting_opts) {
  1592. if (FF_SA & oip->flags) {
  1593. mk_sense_invalid_fld(scp, SDEB_IN_CDB,
  1594. 2, 2);
  1595. kfree(arr);
  1596. return check_condition_result;
  1597. }
  1598. req_sa = 0;
  1599. } else if (2 == reporting_opts &&
  1600. 0 == (FF_SA & oip->flags)) {
  1601. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 4, -1);
  1602. kfree(arr); /* point at requested sa */
  1603. return check_condition_result;
  1604. }
  1605. if (0 == (FF_SA & oip->flags) &&
  1606. req_opcode == oip->opcode)
  1607. supp = 3;
  1608. else if (0 == (FF_SA & oip->flags)) {
  1609. na = oip->num_attached;
  1610. for (k = 0, oip = oip->arrp; k < na;
  1611. ++k, ++oip) {
  1612. if (req_opcode == oip->opcode)
  1613. break;
  1614. }
  1615. supp = (k >= na) ? 1 : 3;
  1616. } else if (req_sa != oip->sa) {
  1617. na = oip->num_attached;
  1618. for (k = 0, oip = oip->arrp; k < na;
  1619. ++k, ++oip) {
  1620. if (req_sa == oip->sa)
  1621. break;
  1622. }
  1623. supp = (k >= na) ? 1 : 3;
  1624. } else
  1625. supp = 3;
  1626. if (3 == supp) {
  1627. u = oip->len_mask[0];
  1628. put_unaligned_be16(u, arr + 2);
  1629. arr[4] = oip->opcode;
  1630. for (k = 1; k < u; ++k)
  1631. arr[4 + k] = (k < 16) ?
  1632. oip->len_mask[k] : 0xff;
  1633. offset = 4 + u;
  1634. } else
  1635. offset = 4;
  1636. }
  1637. arr[1] = (rctd ? 0x80 : 0) | supp;
  1638. if (rctd) {
  1639. put_unaligned_be16(0xa, arr + offset);
  1640. offset += 12;
  1641. }
  1642. break;
  1643. default:
  1644. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 2, 2);
  1645. kfree(arr);
  1646. return check_condition_result;
  1647. }
  1648. offset = (offset < a_len) ? offset : a_len;
  1649. len = (offset < alloc_len) ? offset : alloc_len;
  1650. errsts = fill_from_dev_buffer(scp, arr, len);
  1651. kfree(arr);
  1652. return errsts;
  1653. }
  1654. static int
  1655. resp_rsup_tmfs(struct scsi_cmnd *scp, struct sdebug_dev_info *devip)
  1656. {
  1657. bool repd;
  1658. u32 alloc_len, len;
  1659. u8 arr[16];
  1660. u8 *cmd = scp->cmnd;
  1661. memset(arr, 0, sizeof(arr));
  1662. repd = !!(cmd[2] & 0x80);
  1663. alloc_len = get_unaligned_be32(cmd + 6);
  1664. if (alloc_len < 4) {
  1665. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 6, -1);
  1666. return check_condition_result;
  1667. }
  1668. arr[0] = 0xc8; /* ATS | ATSS | LURS */
  1669. arr[1] = 0x1; /* ITNRS */
  1670. if (repd) {
  1671. arr[3] = 0xc;
  1672. len = 16;
  1673. } else
  1674. len = 4;
  1675. len = (len < alloc_len) ? len : alloc_len;
  1676. return fill_from_dev_buffer(scp, arr, len);
  1677. }
  1678. /* <<Following mode page info copied from ST318451LW>> */
  1679. static int resp_err_recov_pg(unsigned char * p, int pcontrol, int target)
  1680. { /* Read-Write Error Recovery page for mode_sense */
  1681. unsigned char err_recov_pg[] = {0x1, 0xa, 0xc0, 11, 240, 0, 0, 0,
  1682. 5, 0, 0xff, 0xff};
  1683. memcpy(p, err_recov_pg, sizeof(err_recov_pg));
  1684. if (1 == pcontrol)
  1685. memset(p + 2, 0, sizeof(err_recov_pg) - 2);
  1686. return sizeof(err_recov_pg);
  1687. }
  1688. static int resp_disconnect_pg(unsigned char * p, int pcontrol, int target)
  1689. { /* Disconnect-Reconnect page for mode_sense */
  1690. unsigned char disconnect_pg[] = {0x2, 0xe, 128, 128, 0, 10, 0, 0,
  1691. 0, 0, 0, 0, 0, 0, 0, 0};
  1692. memcpy(p, disconnect_pg, sizeof(disconnect_pg));
  1693. if (1 == pcontrol)
  1694. memset(p + 2, 0, sizeof(disconnect_pg) - 2);
  1695. return sizeof(disconnect_pg);
  1696. }
  1697. static int resp_format_pg(unsigned char * p, int pcontrol, int target)
  1698. { /* Format device page for mode_sense */
  1699. unsigned char format_pg[] = {0x3, 0x16, 0, 0, 0, 0, 0, 0,
  1700. 0, 0, 0, 0, 0, 0, 0, 0,
  1701. 0, 0, 0, 0, 0x40, 0, 0, 0};
  1702. memcpy(p, format_pg, sizeof(format_pg));
  1703. p[10] = (sdebug_sectors_per >> 8) & 0xff;
  1704. p[11] = sdebug_sectors_per & 0xff;
  1705. p[12] = (scsi_debug_sector_size >> 8) & 0xff;
  1706. p[13] = scsi_debug_sector_size & 0xff;
  1707. if (scsi_debug_removable)
  1708. p[20] |= 0x20; /* should agree with INQUIRY */
  1709. if (1 == pcontrol)
  1710. memset(p + 2, 0, sizeof(format_pg) - 2);
  1711. return sizeof(format_pg);
  1712. }
  1713. static int resp_caching_pg(unsigned char * p, int pcontrol, int target)
  1714. { /* Caching page for mode_sense */
  1715. unsigned char ch_caching_pg[] = {/* 0x8, 18, */ 0x4, 0, 0, 0, 0, 0,
  1716. 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
  1717. unsigned char d_caching_pg[] = {0x8, 18, 0x14, 0, 0xff, 0xff, 0, 0,
  1718. 0xff, 0xff, 0xff, 0xff, 0x80, 0x14, 0, 0, 0, 0, 0, 0};
  1719. if (SCSI_DEBUG_OPT_N_WCE & scsi_debug_opts)
  1720. caching_pg[2] &= ~0x4; /* set WCE=0 (default WCE=1) */
  1721. memcpy(p, caching_pg, sizeof(caching_pg));
  1722. if (1 == pcontrol)
  1723. memcpy(p + 2, ch_caching_pg, sizeof(ch_caching_pg));
  1724. else if (2 == pcontrol)
  1725. memcpy(p, d_caching_pg, sizeof(d_caching_pg));
  1726. return sizeof(caching_pg);
  1727. }
  1728. static int resp_ctrl_m_pg(unsigned char * p, int pcontrol, int target)
  1729. { /* Control mode page for mode_sense */
  1730. unsigned char ch_ctrl_m_pg[] = {/* 0xa, 10, */ 0x6, 0, 0, 0, 0, 0,
  1731. 0, 0, 0, 0};
  1732. unsigned char d_ctrl_m_pg[] = {0xa, 10, 2, 0, 0, 0, 0, 0,
  1733. 0, 0, 0x2, 0x4b};
  1734. if (scsi_debug_dsense)
  1735. ctrl_m_pg[2] |= 0x4;
  1736. else
  1737. ctrl_m_pg[2] &= ~0x4;
  1738. if (scsi_debug_ato)
  1739. ctrl_m_pg[5] |= 0x80; /* ATO=1 */
  1740. memcpy(p, ctrl_m_pg, sizeof(ctrl_m_pg));
  1741. if (1 == pcontrol)
  1742. memcpy(p + 2, ch_ctrl_m_pg, sizeof(ch_ctrl_m_pg));
  1743. else if (2 == pcontrol)
  1744. memcpy(p, d_ctrl_m_pg, sizeof(d_ctrl_m_pg));
  1745. return sizeof(ctrl_m_pg);
  1746. }
  1747. static int resp_iec_m_pg(unsigned char * p, int pcontrol, int target)
  1748. { /* Informational Exceptions control mode page for mode_sense */
  1749. unsigned char ch_iec_m_pg[] = {/* 0x1c, 0xa, */ 0x4, 0xf, 0, 0, 0, 0,
  1750. 0, 0, 0x0, 0x0};
  1751. unsigned char d_iec_m_pg[] = {0x1c, 0xa, 0x08, 0, 0, 0, 0, 0,
  1752. 0, 0, 0x0, 0x0};
  1753. memcpy(p, iec_m_pg, sizeof(iec_m_pg));
  1754. if (1 == pcontrol)
  1755. memcpy(p + 2, ch_iec_m_pg, sizeof(ch_iec_m_pg));
  1756. else if (2 == pcontrol)
  1757. memcpy(p, d_iec_m_pg, sizeof(d_iec_m_pg));
  1758. return sizeof(iec_m_pg);
  1759. }
  1760. static int resp_sas_sf_m_pg(unsigned char * p, int pcontrol, int target)
  1761. { /* SAS SSP mode page - short format for mode_sense */
  1762. unsigned char sas_sf_m_pg[] = {0x19, 0x6,
  1763. 0x6, 0x0, 0x7, 0xd0, 0x0, 0x0};
  1764. memcpy(p, sas_sf_m_pg, sizeof(sas_sf_m_pg));
  1765. if (1 == pcontrol)
  1766. memset(p + 2, 0, sizeof(sas_sf_m_pg) - 2);
  1767. return sizeof(sas_sf_m_pg);
  1768. }
  1769. static int resp_sas_pcd_m_spg(unsigned char * p, int pcontrol, int target,
  1770. int target_dev_id)
  1771. { /* SAS phy control and discover mode page for mode_sense */
  1772. unsigned char sas_pcd_m_pg[] = {0x59, 0x1, 0, 0x64, 0, 0x6, 0, 2,
  1773. 0, 0, 0, 0, 0x10, 0x9, 0x8, 0x0,
  1774. 0x52, 0x22, 0x22, 0x20, 0x0, 0x0, 0x0, 0x0,
  1775. 0x51, 0x11, 0x11, 0x10, 0x0, 0x0, 0x0, 0x1,
  1776. 0x2, 0, 0, 0, 0, 0, 0, 0,
  1777. 0x88, 0x99, 0, 0, 0, 0, 0, 0,
  1778. 0, 0, 0, 0, 0, 0, 0, 0,
  1779. 0, 1, 0, 0, 0x10, 0x9, 0x8, 0x0,
  1780. 0x52, 0x22, 0x22, 0x20, 0x0, 0x0, 0x0, 0x0,
  1781. 0x51, 0x11, 0x11, 0x10, 0x0, 0x0, 0x0, 0x1,
  1782. 0x3, 0, 0, 0, 0, 0, 0, 0,
  1783. 0x88, 0x99, 0, 0, 0, 0, 0, 0,
  1784. 0, 0, 0, 0, 0, 0, 0, 0,
  1785. };
  1786. int port_a, port_b;
  1787. port_a = target_dev_id + 1;
  1788. port_b = port_a + 1;
  1789. memcpy(p, sas_pcd_m_pg, sizeof(sas_pcd_m_pg));
  1790. p[20] = (port_a >> 24);
  1791. p[21] = (port_a >> 16) & 0xff;
  1792. p[22] = (port_a >> 8) & 0xff;
  1793. p[23] = port_a & 0xff;
  1794. p[48 + 20] = (port_b >> 24);
  1795. p[48 + 21] = (port_b >> 16) & 0xff;
  1796. p[48 + 22] = (port_b >> 8) & 0xff;
  1797. p[48 + 23] = port_b & 0xff;
  1798. if (1 == pcontrol)
  1799. memset(p + 4, 0, sizeof(sas_pcd_m_pg) - 4);
  1800. return sizeof(sas_pcd_m_pg);
  1801. }
  1802. static int resp_sas_sha_m_spg(unsigned char * p, int pcontrol)
  1803. { /* SAS SSP shared protocol specific port mode subpage */
  1804. unsigned char sas_sha_m_pg[] = {0x59, 0x2, 0, 0xc, 0, 0x6, 0x10, 0,
  1805. 0, 0, 0, 0, 0, 0, 0, 0,
  1806. };
  1807. memcpy(p, sas_sha_m_pg, sizeof(sas_sha_m_pg));
  1808. if (1 == pcontrol)
  1809. memset(p + 4, 0, sizeof(sas_sha_m_pg) - 4);
  1810. return sizeof(sas_sha_m_pg);
  1811. }
  1812. #define SDEBUG_MAX_MSENSE_SZ 256
  1813. static int
  1814. resp_mode_sense(struct scsi_cmnd *scp, struct sdebug_dev_info *devip)
  1815. {
  1816. unsigned char dbd, llbaa;
  1817. int pcontrol, pcode, subpcode, bd_len;
  1818. unsigned char dev_spec;
  1819. int k, alloc_len, msense_6, offset, len, target_dev_id;
  1820. int target = scp->device->id;
  1821. unsigned char * ap;
  1822. unsigned char arr[SDEBUG_MAX_MSENSE_SZ];
  1823. unsigned char *cmd = scp->cmnd;
  1824. dbd = !!(cmd[1] & 0x8);
  1825. pcontrol = (cmd[2] & 0xc0) >> 6;
  1826. pcode = cmd[2] & 0x3f;
  1827. subpcode = cmd[3];
  1828. msense_6 = (MODE_SENSE == cmd[0]);
  1829. llbaa = msense_6 ? 0 : !!(cmd[1] & 0x10);
  1830. if ((0 == scsi_debug_ptype) && (0 == dbd))
  1831. bd_len = llbaa ? 16 : 8;
  1832. else
  1833. bd_len = 0;
  1834. alloc_len = msense_6 ? cmd[4] : ((cmd[7] << 8) | cmd[8]);
  1835. memset(arr, 0, SDEBUG_MAX_MSENSE_SZ);
  1836. if (0x3 == pcontrol) { /* Saving values not supported */
  1837. mk_sense_buffer(scp, ILLEGAL_REQUEST, SAVING_PARAMS_UNSUP, 0);
  1838. return check_condition_result;
  1839. }
  1840. target_dev_id = ((devip->sdbg_host->shost->host_no + 1) * 2000) +
  1841. (devip->target * 1000) - 3;
  1842. /* set DPOFUA bit for disks */
  1843. if (0 == scsi_debug_ptype)
  1844. dev_spec = (DEV_READONLY(target) ? 0x80 : 0x0) | 0x10;
  1845. else
  1846. dev_spec = 0x0;
  1847. if (msense_6) {
  1848. arr[2] = dev_spec;
  1849. arr[3] = bd_len;
  1850. offset = 4;
  1851. } else {
  1852. arr[3] = dev_spec;
  1853. if (16 == bd_len)
  1854. arr[4] = 0x1; /* set LONGLBA bit */
  1855. arr[7] = bd_len; /* assume 255 or less */
  1856. offset = 8;
  1857. }
  1858. ap = arr + offset;
  1859. if ((bd_len > 0) && (!sdebug_capacity))
  1860. sdebug_capacity = get_sdebug_capacity();
  1861. if (8 == bd_len) {
  1862. if (sdebug_capacity > 0xfffffffe) {
  1863. ap[0] = 0xff;
  1864. ap[1] = 0xff;
  1865. ap[2] = 0xff;
  1866. ap[3] = 0xff;
  1867. } else {
  1868. ap[0] = (sdebug_capacity >> 24) & 0xff;
  1869. ap[1] = (sdebug_capacity >> 16) & 0xff;
  1870. ap[2] = (sdebug_capacity >> 8) & 0xff;
  1871. ap[3] = sdebug_capacity & 0xff;
  1872. }
  1873. ap[6] = (scsi_debug_sector_size >> 8) & 0xff;
  1874. ap[7] = scsi_debug_sector_size & 0xff;
  1875. offset += bd_len;
  1876. ap = arr + offset;
  1877. } else if (16 == bd_len) {
  1878. unsigned long long capac = sdebug_capacity;
  1879. for (k = 0; k < 8; ++k, capac >>= 8)
  1880. ap[7 - k] = capac & 0xff;
  1881. ap[12] = (scsi_debug_sector_size >> 24) & 0xff;
  1882. ap[13] = (scsi_debug_sector_size >> 16) & 0xff;
  1883. ap[14] = (scsi_debug_sector_size >> 8) & 0xff;
  1884. ap[15] = scsi_debug_sector_size & 0xff;
  1885. offset += bd_len;
  1886. ap = arr + offset;
  1887. }
  1888. if ((subpcode > 0x0) && (subpcode < 0xff) && (0x19 != pcode)) {
  1889. /* TODO: Control Extension page */
  1890. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 3, -1);
  1891. return check_condition_result;
  1892. }
  1893. switch (pcode) {
  1894. case 0x1: /* Read-Write error recovery page, direct access */
  1895. len = resp_err_recov_pg(ap, pcontrol, target);
  1896. offset += len;
  1897. break;
  1898. case 0x2: /* Disconnect-Reconnect page, all devices */
  1899. len = resp_disconnect_pg(ap, pcontrol, target);
  1900. offset += len;
  1901. break;
  1902. case 0x3: /* Format device page, direct access */
  1903. len = resp_format_pg(ap, pcontrol, target);
  1904. offset += len;
  1905. break;
  1906. case 0x8: /* Caching page, direct access */
  1907. len = resp_caching_pg(ap, pcontrol, target);
  1908. offset += len;
  1909. break;
  1910. case 0xa: /* Control Mode page, all devices */
  1911. len = resp_ctrl_m_pg(ap, pcontrol, target);
  1912. offset += len;
  1913. break;
  1914. case 0x19: /* if spc==1 then sas phy, control+discover */
  1915. if ((subpcode > 0x2) && (subpcode < 0xff)) {
  1916. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 3, -1);
  1917. return check_condition_result;
  1918. }
  1919. len = 0;
  1920. if ((0x0 == subpcode) || (0xff == subpcode))
  1921. len += resp_sas_sf_m_pg(ap + len, pcontrol, target);
  1922. if ((0x1 == subpcode) || (0xff == subpcode))
  1923. len += resp_sas_pcd_m_spg(ap + len, pcontrol, target,
  1924. target_dev_id);
  1925. if ((0x2 == subpcode) || (0xff == subpcode))
  1926. len += resp_sas_sha_m_spg(ap + len, pcontrol);
  1927. offset += len;
  1928. break;
  1929. case 0x1c: /* Informational Exceptions Mode page, all devices */
  1930. len = resp_iec_m_pg(ap, pcontrol, target);
  1931. offset += len;
  1932. break;
  1933. case 0x3f: /* Read all Mode pages */
  1934. if ((0 == subpcode) || (0xff == subpcode)) {
  1935. len = resp_err_recov_pg(ap, pcontrol, target);
  1936. len += resp_disconnect_pg(ap + len, pcontrol, target);
  1937. len += resp_format_pg(ap + len, pcontrol, target);
  1938. len += resp_caching_pg(ap + len, pcontrol, target);
  1939. len += resp_ctrl_m_pg(ap + len, pcontrol, target);
  1940. len += resp_sas_sf_m_pg(ap + len, pcontrol, target);
  1941. if (0xff == subpcode) {
  1942. len += resp_sas_pcd_m_spg(ap + len, pcontrol,
  1943. target, target_dev_id);
  1944. len += resp_sas_sha_m_spg(ap + len, pcontrol);
  1945. }
  1946. len += resp_iec_m_pg(ap + len, pcontrol, target);
  1947. } else {
  1948. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 3, -1);
  1949. return check_condition_result;
  1950. }
  1951. offset += len;
  1952. break;
  1953. default:
  1954. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 2, 5);
  1955. return check_condition_result;
  1956. }
  1957. if (msense_6)
  1958. arr[0] = offset - 1;
  1959. else {
  1960. arr[0] = ((offset - 2) >> 8) & 0xff;
  1961. arr[1] = (offset - 2) & 0xff;
  1962. }
  1963. return fill_from_dev_buffer(scp, arr, min(alloc_len, offset));
  1964. }
  1965. #define SDEBUG_MAX_MSELECT_SZ 512
  1966. static int
  1967. resp_mode_select(struct scsi_cmnd *scp, struct sdebug_dev_info *devip)
  1968. {
  1969. int pf, sp, ps, md_len, bd_len, off, spf, pg_len;
  1970. int param_len, res, mpage;
  1971. unsigned char arr[SDEBUG_MAX_MSELECT_SZ];
  1972. unsigned char *cmd = scp->cmnd;
  1973. int mselect6 = (MODE_SELECT == cmd[0]);
  1974. memset(arr, 0, sizeof(arr));
  1975. pf = cmd[1] & 0x10;
  1976. sp = cmd[1] & 0x1;
  1977. param_len = mselect6 ? cmd[4] : ((cmd[7] << 8) + cmd[8]);
  1978. if ((0 == pf) || sp || (param_len > SDEBUG_MAX_MSELECT_SZ)) {
  1979. mk_sense_invalid_fld(scp, SDEB_IN_CDB, mselect6 ? 4 : 7, -1);
  1980. return check_condition_result;
  1981. }
  1982. res = fetch_to_dev_buffer(scp, arr, param_len);
  1983. if (-1 == res)
  1984. return (DID_ERROR << 16);
  1985. else if ((res < param_len) &&
  1986. (SCSI_DEBUG_OPT_NOISE & scsi_debug_opts))
  1987. sdev_printk(KERN_INFO, scp->device,
  1988. "%s: cdb indicated=%d, IO sent=%d bytes\n",
  1989. __func__, param_len, res);
  1990. md_len = mselect6 ? (arr[0] + 1) : ((arr[0] << 8) + arr[1] + 2);
  1991. bd_len = mselect6 ? arr[3] : ((arr[6] << 8) + arr[7]);
  1992. if (md_len > 2) {
  1993. mk_sense_invalid_fld(scp, SDEB_IN_DATA, 0, -1);
  1994. return check_condition_result;
  1995. }
  1996. off = bd_len + (mselect6 ? 4 : 8);
  1997. mpage = arr[off] & 0x3f;
  1998. ps = !!(arr[off] & 0x80);
  1999. if (ps) {
  2000. mk_sense_invalid_fld(scp, SDEB_IN_DATA, off, 7);
  2001. return check_condition_result;
  2002. }
  2003. spf = !!(arr[off] & 0x40);
  2004. pg_len = spf ? ((arr[off + 2] << 8) + arr[off + 3] + 4) :
  2005. (arr[off + 1] + 2);
  2006. if ((pg_len + off) > param_len) {
  2007. mk_sense_buffer(scp, ILLEGAL_REQUEST,
  2008. PARAMETER_LIST_LENGTH_ERR, 0);
  2009. return check_condition_result;
  2010. }
  2011. switch (mpage) {
  2012. case 0x8: /* Caching Mode page */
  2013. if (caching_pg[1] == arr[off + 1]) {
  2014. memcpy(caching_pg + 2, arr + off + 2,
  2015. sizeof(caching_pg) - 2);
  2016. goto set_mode_changed_ua;
  2017. }
  2018. break;
  2019. case 0xa: /* Control Mode page */
  2020. if (ctrl_m_pg[1] == arr[off + 1]) {
  2021. memcpy(ctrl_m_pg + 2, arr + off + 2,
  2022. sizeof(ctrl_m_pg) - 2);
  2023. scsi_debug_dsense = !!(ctrl_m_pg[2] & 0x4);
  2024. goto set_mode_changed_ua;
  2025. }
  2026. break;
  2027. case 0x1c: /* Informational Exceptions Mode page */
  2028. if (iec_m_pg[1] == arr[off + 1]) {
  2029. memcpy(iec_m_pg + 2, arr + off + 2,
  2030. sizeof(iec_m_pg) - 2);
  2031. goto set_mode_changed_ua;
  2032. }
  2033. break;
  2034. default:
  2035. break;
  2036. }
  2037. mk_sense_invalid_fld(scp, SDEB_IN_DATA, off, 5);
  2038. return check_condition_result;
  2039. set_mode_changed_ua:
  2040. set_bit(SDEBUG_UA_MODE_CHANGED, devip->uas_bm);
  2041. return 0;
  2042. }
  2043. static int resp_temp_l_pg(unsigned char * arr)
  2044. {
  2045. unsigned char temp_l_pg[] = {0x0, 0x0, 0x3, 0x2, 0x0, 38,
  2046. 0x0, 0x1, 0x3, 0x2, 0x0, 65,
  2047. };
  2048. memcpy(arr, temp_l_pg, sizeof(temp_l_pg));
  2049. return sizeof(temp_l_pg);
  2050. }
  2051. static int resp_ie_l_pg(unsigned char * arr)
  2052. {
  2053. unsigned char ie_l_pg[] = {0x0, 0x0, 0x3, 0x3, 0x0, 0x0, 38,
  2054. };
  2055. memcpy(arr, ie_l_pg, sizeof(ie_l_pg));
  2056. if (iec_m_pg[2] & 0x4) { /* TEST bit set */
  2057. arr[4] = THRESHOLD_EXCEEDED;
  2058. arr[5] = 0xff;
  2059. }
  2060. return sizeof(ie_l_pg);
  2061. }
  2062. #define SDEBUG_MAX_LSENSE_SZ 512
  2063. static int resp_log_sense(struct scsi_cmnd * scp,
  2064. struct sdebug_dev_info * devip)
  2065. {
  2066. int ppc, sp, pcontrol, pcode, subpcode, alloc_len, len, n;
  2067. unsigned char arr[SDEBUG_MAX_LSENSE_SZ];
  2068. unsigned char *cmd = scp->cmnd;
  2069. memset(arr, 0, sizeof(arr));
  2070. ppc = cmd[1] & 0x2;
  2071. sp = cmd[1] & 0x1;
  2072. if (ppc || sp) {
  2073. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 1, ppc ? 1 : 0);
  2074. return check_condition_result;
  2075. }
  2076. pcontrol = (cmd[2] & 0xc0) >> 6;
  2077. pcode = cmd[2] & 0x3f;
  2078. subpcode = cmd[3] & 0xff;
  2079. alloc_len = (cmd[7] << 8) + cmd[8];
  2080. arr[0] = pcode;
  2081. if (0 == subpcode) {
  2082. switch (pcode) {
  2083. case 0x0: /* Supported log pages log page */
  2084. n = 4;
  2085. arr[n++] = 0x0; /* this page */
  2086. arr[n++] = 0xd; /* Temperature */
  2087. arr[n++] = 0x2f; /* Informational exceptions */
  2088. arr[3] = n - 4;
  2089. break;
  2090. case 0xd: /* Temperature log page */
  2091. arr[3] = resp_temp_l_pg(arr + 4);
  2092. break;
  2093. case 0x2f: /* Informational exceptions log page */
  2094. arr[3] = resp_ie_l_pg(arr + 4);
  2095. break;
  2096. default:
  2097. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 2, 5);
  2098. return check_condition_result;
  2099. }
  2100. } else if (0xff == subpcode) {
  2101. arr[0] |= 0x40;
  2102. arr[1] = subpcode;
  2103. switch (pcode) {
  2104. case 0x0: /* Supported log pages and subpages log page */
  2105. n = 4;
  2106. arr[n++] = 0x0;
  2107. arr[n++] = 0x0; /* 0,0 page */
  2108. arr[n++] = 0x0;
  2109. arr[n++] = 0xff; /* this page */
  2110. arr[n++] = 0xd;
  2111. arr[n++] = 0x0; /* Temperature */
  2112. arr[n++] = 0x2f;
  2113. arr[n++] = 0x0; /* Informational exceptions */
  2114. arr[3] = n - 4;
  2115. break;
  2116. case 0xd: /* Temperature subpages */
  2117. n = 4;
  2118. arr[n++] = 0xd;
  2119. arr[n++] = 0x0; /* Temperature */
  2120. arr[3] = n - 4;
  2121. break;
  2122. case 0x2f: /* Informational exceptions subpages */
  2123. n = 4;
  2124. arr[n++] = 0x2f;
  2125. arr[n++] = 0x0; /* Informational exceptions */
  2126. arr[3] = n - 4;
  2127. break;
  2128. default:
  2129. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 2, 5);
  2130. return check_condition_result;
  2131. }
  2132. } else {
  2133. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 3, -1);
  2134. return check_condition_result;
  2135. }
  2136. len = min(((arr[2] << 8) + arr[3]) + 4, alloc_len);
  2137. return fill_from_dev_buffer(scp, arr,
  2138. min(len, SDEBUG_MAX_INQ_ARR_SZ));
  2139. }
  2140. static int check_device_access_params(struct scsi_cmnd *scp,
  2141. unsigned long long lba, unsigned int num)
  2142. {
  2143. if (lba + num > sdebug_capacity) {
  2144. mk_sense_buffer(scp, ILLEGAL_REQUEST, LBA_OUT_OF_RANGE, 0);
  2145. return check_condition_result;
  2146. }
  2147. /* transfer length excessive (tie in to block limits VPD page) */
  2148. if (num > sdebug_store_sectors) {
  2149. /* needs work to find which cdb byte 'num' comes from */
  2150. mk_sense_buffer(scp, ILLEGAL_REQUEST, INVALID_FIELD_IN_CDB, 0);
  2151. return check_condition_result;
  2152. }
  2153. return 0;
  2154. }
  2155. /* Returns number of bytes copied or -1 if error. */
  2156. static int
  2157. do_device_access(struct scsi_cmnd *scmd, u64 lba, u32 num, bool do_write)
  2158. {
  2159. int ret;
  2160. u64 block, rest = 0;
  2161. struct scsi_data_buffer *sdb;
  2162. enum dma_data_direction dir;
  2163. if (do_write) {
  2164. sdb = scsi_out(scmd);
  2165. dir = DMA_TO_DEVICE;
  2166. } else {
  2167. sdb = scsi_in(scmd);
  2168. dir = DMA_FROM_DEVICE;
  2169. }
  2170. if (!sdb->length)
  2171. return 0;
  2172. if (!(scsi_bidi_cmnd(scmd) || scmd->sc_data_direction == dir))
  2173. return -1;
  2174. block = do_div(lba, sdebug_store_sectors);
  2175. if (block + num > sdebug_store_sectors)
  2176. rest = block + num - sdebug_store_sectors;
  2177. ret = sg_copy_buffer(sdb->table.sgl, sdb->table.nents,
  2178. fake_storep + (block * scsi_debug_sector_size),
  2179. (num - rest) * scsi_debug_sector_size, 0, do_write);
  2180. if (ret != (num - rest) * scsi_debug_sector_size)
  2181. return ret;
  2182. if (rest) {
  2183. ret += sg_copy_buffer(sdb->table.sgl, sdb->table.nents,
  2184. fake_storep, rest * scsi_debug_sector_size,
  2185. (num - rest) * scsi_debug_sector_size, do_write);
  2186. }
  2187. return ret;
  2188. }
  2189. /* If fake_store(lba,num) compares equal to arr(num), then copy top half of
  2190. * arr into fake_store(lba,num) and return true. If comparison fails then
  2191. * return false. */
  2192. static bool
  2193. comp_write_worker(u64 lba, u32 num, const u8 *arr)
  2194. {
  2195. bool res;
  2196. u64 block, rest = 0;
  2197. u32 store_blks = sdebug_store_sectors;
  2198. u32 lb_size = scsi_debug_sector_size;
  2199. block = do_div(lba, store_blks);
  2200. if (block + num > store_blks)
  2201. rest = block + num - store_blks;
  2202. res = !memcmp(fake_storep + (block * lb_size), arr,
  2203. (num - rest) * lb_size);
  2204. if (!res)
  2205. return res;
  2206. if (rest)
  2207. res = memcmp(fake_storep, arr + ((num - rest) * lb_size),
  2208. rest * lb_size);
  2209. if (!res)
  2210. return res;
  2211. arr += num * lb_size;
  2212. memcpy(fake_storep + (block * lb_size), arr, (num - rest) * lb_size);
  2213. if (rest)
  2214. memcpy(fake_storep, arr + ((num - rest) * lb_size),
  2215. rest * lb_size);
  2216. return res;
  2217. }
  2218. static __be16 dif_compute_csum(const void *buf, int len)
  2219. {
  2220. __be16 csum;
  2221. if (scsi_debug_guard)
  2222. csum = (__force __be16)ip_compute_csum(buf, len);
  2223. else
  2224. csum = cpu_to_be16(crc_t10dif(buf, len));
  2225. return csum;
  2226. }
  2227. static int dif_verify(struct sd_dif_tuple *sdt, const void *data,
  2228. sector_t sector, u32 ei_lba)
  2229. {
  2230. __be16 csum = dif_compute_csum(data, scsi_debug_sector_size);
  2231. if (sdt->guard_tag != csum) {
  2232. pr_err("%s: GUARD check failed on sector %lu rcvd 0x%04x, data 0x%04x\n",
  2233. __func__,
  2234. (unsigned long)sector,
  2235. be16_to_cpu(sdt->guard_tag),
  2236. be16_to_cpu(csum));
  2237. return 0x01;
  2238. }
  2239. if (scsi_debug_dif == SD_DIF_TYPE1_PROTECTION &&
  2240. be32_to_cpu(sdt->ref_tag) != (sector & 0xffffffff)) {
  2241. pr_err("%s: REF check failed on sector %lu\n",
  2242. __func__, (unsigned long)sector);
  2243. return 0x03;
  2244. }
  2245. if (scsi_debug_dif == SD_DIF_TYPE2_PROTECTION &&
  2246. be32_to_cpu(sdt->ref_tag) != ei_lba) {
  2247. pr_err("%s: REF check failed on sector %lu\n",
  2248. __func__, (unsigned long)sector);
  2249. return 0x03;
  2250. }
  2251. return 0;
  2252. }
  2253. static void dif_copy_prot(struct scsi_cmnd *SCpnt, sector_t sector,
  2254. unsigned int sectors, bool read)
  2255. {
  2256. size_t resid;
  2257. void *paddr;
  2258. const void *dif_store_end = dif_storep + sdebug_store_sectors;
  2259. struct sg_mapping_iter miter;
  2260. /* Bytes of protection data to copy into sgl */
  2261. resid = sectors * sizeof(*dif_storep);
  2262. sg_miter_start(&miter, scsi_prot_sglist(SCpnt),
  2263. scsi_prot_sg_count(SCpnt), SG_MITER_ATOMIC |
  2264. (read ? SG_MITER_TO_SG : SG_MITER_FROM_SG));
  2265. while (sg_miter_next(&miter) && resid > 0) {
  2266. size_t len = min(miter.length, resid);
  2267. void *start = dif_store(sector);
  2268. size_t rest = 0;
  2269. if (dif_store_end < start + len)
  2270. rest = start + len - dif_store_end;
  2271. paddr = miter.addr;
  2272. if (read)
  2273. memcpy(paddr, start, len - rest);
  2274. else
  2275. memcpy(start, paddr, len - rest);
  2276. if (rest) {
  2277. if (read)
  2278. memcpy(paddr + len - rest, dif_storep, rest);
  2279. else
  2280. memcpy(dif_storep, paddr + len - rest, rest);
  2281. }
  2282. sector += len / sizeof(*dif_storep);
  2283. resid -= len;
  2284. }
  2285. sg_miter_stop(&miter);
  2286. }
  2287. static int prot_verify_read(struct scsi_cmnd *SCpnt, sector_t start_sec,
  2288. unsigned int sectors, u32 ei_lba)
  2289. {
  2290. unsigned int i;
  2291. struct sd_dif_tuple *sdt;
  2292. sector_t sector;
  2293. for (i = 0; i < sectors; i++, ei_lba++) {
  2294. int ret;
  2295. sector = start_sec + i;
  2296. sdt = dif_store(sector);
  2297. if (sdt->app_tag == cpu_to_be16(0xffff))
  2298. continue;
  2299. ret = dif_verify(sdt, fake_store(sector), sector, ei_lba);
  2300. if (ret) {
  2301. dif_errors++;
  2302. return ret;
  2303. }
  2304. }
  2305. dif_copy_prot(SCpnt, start_sec, sectors, true);
  2306. dix_reads++;
  2307. return 0;
  2308. }
  2309. static int
  2310. resp_read_dt0(struct scsi_cmnd *scp, struct sdebug_dev_info *devip)
  2311. {
  2312. u8 *cmd = scp->cmnd;
  2313. u64 lba;
  2314. u32 num;
  2315. u32 ei_lba;
  2316. unsigned long iflags;
  2317. int ret;
  2318. bool check_prot;
  2319. switch (cmd[0]) {
  2320. case READ_16:
  2321. ei_lba = 0;
  2322. lba = get_unaligned_be64(cmd + 2);
  2323. num = get_unaligned_be32(cmd + 10);
  2324. check_prot = true;
  2325. break;
  2326. case READ_10:
  2327. ei_lba = 0;
  2328. lba = get_unaligned_be32(cmd + 2);
  2329. num = get_unaligned_be16(cmd + 7);
  2330. check_prot = true;
  2331. break;
  2332. case READ_6:
  2333. ei_lba = 0;
  2334. lba = (u32)cmd[3] | (u32)cmd[2] << 8 |
  2335. (u32)(cmd[1] & 0x1f) << 16;
  2336. num = (0 == cmd[4]) ? 256 : cmd[4];
  2337. check_prot = true;
  2338. break;
  2339. case READ_12:
  2340. ei_lba = 0;
  2341. lba = get_unaligned_be32(cmd + 2);
  2342. num = get_unaligned_be32(cmd + 6);
  2343. check_prot = true;
  2344. break;
  2345. case XDWRITEREAD_10:
  2346. ei_lba = 0;
  2347. lba = get_unaligned_be32(cmd + 2);
  2348. num = get_unaligned_be16(cmd + 7);
  2349. check_prot = false;
  2350. break;
  2351. default: /* assume READ(32) */
  2352. lba = get_unaligned_be64(cmd + 12);
  2353. ei_lba = get_unaligned_be32(cmd + 20);
  2354. num = get_unaligned_be32(cmd + 28);
  2355. check_prot = false;
  2356. break;
  2357. }
  2358. if (check_prot) {
  2359. if (scsi_debug_dif == SD_DIF_TYPE2_PROTECTION &&
  2360. (cmd[1] & 0xe0)) {
  2361. mk_sense_invalid_opcode(scp);
  2362. return check_condition_result;
  2363. }
  2364. if ((scsi_debug_dif == SD_DIF_TYPE1_PROTECTION ||
  2365. scsi_debug_dif == SD_DIF_TYPE3_PROTECTION) &&
  2366. (cmd[1] & 0xe0) == 0)
  2367. sdev_printk(KERN_ERR, scp->device, "Unprotected RD "
  2368. "to DIF device\n");
  2369. }
  2370. if (sdebug_any_injecting_opt) {
  2371. struct sdebug_scmd_extra_t *ep = scsi_cmd_priv(scp);
  2372. if (ep->inj_short)
  2373. num /= 2;
  2374. }
  2375. /* inline check_device_access_params() */
  2376. if (lba + num > sdebug_capacity) {
  2377. mk_sense_buffer(scp, ILLEGAL_REQUEST, LBA_OUT_OF_RANGE, 0);
  2378. return check_condition_result;
  2379. }
  2380. /* transfer length excessive (tie in to block limits VPD page) */
  2381. if (num > sdebug_store_sectors) {
  2382. /* needs work to find which cdb byte 'num' comes from */
  2383. mk_sense_buffer(scp, ILLEGAL_REQUEST, INVALID_FIELD_IN_CDB, 0);
  2384. return check_condition_result;
  2385. }
  2386. if ((SCSI_DEBUG_OPT_MEDIUM_ERR & scsi_debug_opts) &&
  2387. (lba <= (OPT_MEDIUM_ERR_ADDR + OPT_MEDIUM_ERR_NUM - 1)) &&
  2388. ((lba + num) > OPT_MEDIUM_ERR_ADDR)) {
  2389. /* claim unrecoverable read error */
  2390. mk_sense_buffer(scp, MEDIUM_ERROR, UNRECOVERED_READ_ERR, 0);
  2391. /* set info field and valid bit for fixed descriptor */
  2392. if (0x70 == (scp->sense_buffer[0] & 0x7f)) {
  2393. scp->sense_buffer[0] |= 0x80; /* Valid bit */
  2394. ret = (lba < OPT_MEDIUM_ERR_ADDR)
  2395. ? OPT_MEDIUM_ERR_ADDR : (int)lba;
  2396. put_unaligned_be32(ret, scp->sense_buffer + 3);
  2397. }
  2398. scsi_set_resid(scp, scsi_bufflen(scp));
  2399. return check_condition_result;
  2400. }
  2401. read_lock_irqsave(&atomic_rw, iflags);
  2402. /* DIX + T10 DIF */
  2403. if (scsi_debug_dix && scsi_prot_sg_count(scp)) {
  2404. int prot_ret = prot_verify_read(scp, lba, num, ei_lba);
  2405. if (prot_ret) {
  2406. read_unlock_irqrestore(&atomic_rw, iflags);
  2407. mk_sense_buffer(scp, ABORTED_COMMAND, 0x10, prot_ret);
  2408. return illegal_condition_result;
  2409. }
  2410. }
  2411. ret = do_device_access(scp, lba, num, false);
  2412. read_unlock_irqrestore(&atomic_rw, iflags);
  2413. if (ret == -1)
  2414. return DID_ERROR << 16;
  2415. scsi_in(scp)->resid = scsi_bufflen(scp) - ret;
  2416. if (sdebug_any_injecting_opt) {
  2417. struct sdebug_scmd_extra_t *ep = scsi_cmd_priv(scp);
  2418. if (ep->inj_recovered) {
  2419. mk_sense_buffer(scp, RECOVERED_ERROR,
  2420. THRESHOLD_EXCEEDED, 0);
  2421. return check_condition_result;
  2422. } else if (ep->inj_transport) {
  2423. mk_sense_buffer(scp, ABORTED_COMMAND,
  2424. TRANSPORT_PROBLEM, ACK_NAK_TO);
  2425. return check_condition_result;
  2426. } else if (ep->inj_dif) {
  2427. /* Logical block guard check failed */
  2428. mk_sense_buffer(scp, ABORTED_COMMAND, 0x10, 1);
  2429. return illegal_condition_result;
  2430. } else if (ep->inj_dix) {
  2431. mk_sense_buffer(scp, ILLEGAL_REQUEST, 0x10, 1);
  2432. return illegal_condition_result;
  2433. }
  2434. }
  2435. return 0;
  2436. }
  2437. void dump_sector(unsigned char *buf, int len)
  2438. {
  2439. int i, j, n;
  2440. pr_err(">>> Sector Dump <<<\n");
  2441. for (i = 0 ; i < len ; i += 16) {
  2442. char b[128];
  2443. for (j = 0, n = 0; j < 16; j++) {
  2444. unsigned char c = buf[i+j];
  2445. if (c >= 0x20 && c < 0x7e)
  2446. n += scnprintf(b + n, sizeof(b) - n,
  2447. " %c ", buf[i+j]);
  2448. else
  2449. n += scnprintf(b + n, sizeof(b) - n,
  2450. "%02x ", buf[i+j]);
  2451. }
  2452. pr_err("%04d: %s\n", i, b);
  2453. }
  2454. }
  2455. static int prot_verify_write(struct scsi_cmnd *SCpnt, sector_t start_sec,
  2456. unsigned int sectors, u32 ei_lba)
  2457. {
  2458. int ret;
  2459. struct sd_dif_tuple *sdt;
  2460. void *daddr;
  2461. sector_t sector = start_sec;
  2462. int ppage_offset;
  2463. int dpage_offset;
  2464. struct sg_mapping_iter diter;
  2465. struct sg_mapping_iter piter;
  2466. BUG_ON(scsi_sg_count(SCpnt) == 0);
  2467. BUG_ON(scsi_prot_sg_count(SCpnt) == 0);
  2468. sg_miter_start(&piter, scsi_prot_sglist(SCpnt),
  2469. scsi_prot_sg_count(SCpnt),
  2470. SG_MITER_ATOMIC | SG_MITER_FROM_SG);
  2471. sg_miter_start(&diter, scsi_sglist(SCpnt), scsi_sg_count(SCpnt),
  2472. SG_MITER_ATOMIC | SG_MITER_FROM_SG);
  2473. /* For each protection page */
  2474. while (sg_miter_next(&piter)) {
  2475. dpage_offset = 0;
  2476. if (WARN_ON(!sg_miter_next(&diter))) {
  2477. ret = 0x01;
  2478. goto out;
  2479. }
  2480. for (ppage_offset = 0; ppage_offset < piter.length;
  2481. ppage_offset += sizeof(struct sd_dif_tuple)) {
  2482. /* If we're at the end of the current
  2483. * data page advance to the next one
  2484. */
  2485. if (dpage_offset >= diter.length) {
  2486. if (WARN_ON(!sg_miter_next(&diter))) {
  2487. ret = 0x01;
  2488. goto out;
  2489. }
  2490. dpage_offset = 0;
  2491. }
  2492. sdt = piter.addr + ppage_offset;
  2493. daddr = diter.addr + dpage_offset;
  2494. ret = dif_verify(sdt, daddr, sector, ei_lba);
  2495. if (ret) {
  2496. dump_sector(daddr, scsi_debug_sector_size);
  2497. goto out;
  2498. }
  2499. sector++;
  2500. ei_lba++;
  2501. dpage_offset += scsi_debug_sector_size;
  2502. }
  2503. diter.consumed = dpage_offset;
  2504. sg_miter_stop(&diter);
  2505. }
  2506. sg_miter_stop(&piter);
  2507. dif_copy_prot(SCpnt, start_sec, sectors, false);
  2508. dix_writes++;
  2509. return 0;
  2510. out:
  2511. dif_errors++;
  2512. sg_miter_stop(&diter);
  2513. sg_miter_stop(&piter);
  2514. return ret;
  2515. }
  2516. static unsigned long lba_to_map_index(sector_t lba)
  2517. {
  2518. if (scsi_debug_unmap_alignment) {
  2519. lba += scsi_debug_unmap_granularity -
  2520. scsi_debug_unmap_alignment;
  2521. }
  2522. do_div(lba, scsi_debug_unmap_granularity);
  2523. return lba;
  2524. }
  2525. static sector_t map_index_to_lba(unsigned long index)
  2526. {
  2527. sector_t lba = index * scsi_debug_unmap_granularity;
  2528. if (scsi_debug_unmap_alignment) {
  2529. lba -= scsi_debug_unmap_granularity -
  2530. scsi_debug_unmap_alignment;
  2531. }
  2532. return lba;
  2533. }
  2534. static unsigned int map_state(sector_t lba, unsigned int *num)
  2535. {
  2536. sector_t end;
  2537. unsigned int mapped;
  2538. unsigned long index;
  2539. unsigned long next;
  2540. index = lba_to_map_index(lba);
  2541. mapped = test_bit(index, map_storep);
  2542. if (mapped)
  2543. next = find_next_zero_bit(map_storep, map_size, index);
  2544. else
  2545. next = find_next_bit(map_storep, map_size, index);
  2546. end = min_t(sector_t, sdebug_store_sectors, map_index_to_lba(next));
  2547. *num = end - lba;
  2548. return mapped;
  2549. }
  2550. static void map_region(sector_t lba, unsigned int len)
  2551. {
  2552. sector_t end = lba + len;
  2553. while (lba < end) {
  2554. unsigned long index = lba_to_map_index(lba);
  2555. if (index < map_size)
  2556. set_bit(index, map_storep);
  2557. lba = map_index_to_lba(index + 1);
  2558. }
  2559. }
  2560. static void unmap_region(sector_t lba, unsigned int len)
  2561. {
  2562. sector_t end = lba + len;
  2563. while (lba < end) {
  2564. unsigned long index = lba_to_map_index(lba);
  2565. if (lba == map_index_to_lba(index) &&
  2566. lba + scsi_debug_unmap_granularity <= end &&
  2567. index < map_size) {
  2568. clear_bit(index, map_storep);
  2569. if (scsi_debug_lbprz) {
  2570. memset(fake_storep +
  2571. lba * scsi_debug_sector_size, 0,
  2572. scsi_debug_sector_size *
  2573. scsi_debug_unmap_granularity);
  2574. }
  2575. if (dif_storep) {
  2576. memset(dif_storep + lba, 0xff,
  2577. sizeof(*dif_storep) *
  2578. scsi_debug_unmap_granularity);
  2579. }
  2580. }
  2581. lba = map_index_to_lba(index + 1);
  2582. }
  2583. }
  2584. static int
  2585. resp_write_dt0(struct scsi_cmnd *scp, struct sdebug_dev_info *devip)
  2586. {
  2587. u8 *cmd = scp->cmnd;
  2588. u64 lba;
  2589. u32 num;
  2590. u32 ei_lba;
  2591. unsigned long iflags;
  2592. int ret;
  2593. bool check_prot;
  2594. switch (cmd[0]) {
  2595. case WRITE_16:
  2596. ei_lba = 0;
  2597. lba = get_unaligned_be64(cmd + 2);
  2598. num = get_unaligned_be32(cmd + 10);
  2599. check_prot = true;
  2600. break;
  2601. case WRITE_10:
  2602. ei_lba = 0;
  2603. lba = get_unaligned_be32(cmd + 2);
  2604. num = get_unaligned_be16(cmd + 7);
  2605. check_prot = true;
  2606. break;
  2607. case WRITE_6:
  2608. ei_lba = 0;
  2609. lba = (u32)cmd[3] | (u32)cmd[2] << 8 |
  2610. (u32)(cmd[1] & 0x1f) << 16;
  2611. num = (0 == cmd[4]) ? 256 : cmd[4];
  2612. check_prot = true;
  2613. break;
  2614. case WRITE_12:
  2615. ei_lba = 0;
  2616. lba = get_unaligned_be32(cmd + 2);
  2617. num = get_unaligned_be32(cmd + 6);
  2618. check_prot = true;
  2619. break;
  2620. case 0x53: /* XDWRITEREAD(10) */
  2621. ei_lba = 0;
  2622. lba = get_unaligned_be32(cmd + 2);
  2623. num = get_unaligned_be16(cmd + 7);
  2624. check_prot = false;
  2625. break;
  2626. default: /* assume WRITE(32) */
  2627. lba = get_unaligned_be64(cmd + 12);
  2628. ei_lba = get_unaligned_be32(cmd + 20);
  2629. num = get_unaligned_be32(cmd + 28);
  2630. check_prot = false;
  2631. break;
  2632. }
  2633. if (check_prot) {
  2634. if (scsi_debug_dif == SD_DIF_TYPE2_PROTECTION &&
  2635. (cmd[1] & 0xe0)) {
  2636. mk_sense_invalid_opcode(scp);
  2637. return check_condition_result;
  2638. }
  2639. if ((scsi_debug_dif == SD_DIF_TYPE1_PROTECTION ||
  2640. scsi_debug_dif == SD_DIF_TYPE3_PROTECTION) &&
  2641. (cmd[1] & 0xe0) == 0)
  2642. sdev_printk(KERN_ERR, scp->device, "Unprotected WR "
  2643. "to DIF device\n");
  2644. }
  2645. /* inline check_device_access_params() */
  2646. if (lba + num > sdebug_capacity) {
  2647. mk_sense_buffer(scp, ILLEGAL_REQUEST, LBA_OUT_OF_RANGE, 0);
  2648. return check_condition_result;
  2649. }
  2650. /* transfer length excessive (tie in to block limits VPD page) */
  2651. if (num > sdebug_store_sectors) {
  2652. /* needs work to find which cdb byte 'num' comes from */
  2653. mk_sense_buffer(scp, ILLEGAL_REQUEST, INVALID_FIELD_IN_CDB, 0);
  2654. return check_condition_result;
  2655. }
  2656. write_lock_irqsave(&atomic_rw, iflags);
  2657. /* DIX + T10 DIF */
  2658. if (scsi_debug_dix && scsi_prot_sg_count(scp)) {
  2659. int prot_ret = prot_verify_write(scp, lba, num, ei_lba);
  2660. if (prot_ret) {
  2661. write_unlock_irqrestore(&atomic_rw, iflags);
  2662. mk_sense_buffer(scp, ILLEGAL_REQUEST, 0x10, prot_ret);
  2663. return illegal_condition_result;
  2664. }
  2665. }
  2666. ret = do_device_access(scp, lba, num, true);
  2667. if (scsi_debug_lbp())
  2668. map_region(lba, num);
  2669. write_unlock_irqrestore(&atomic_rw, iflags);
  2670. if (-1 == ret)
  2671. return (DID_ERROR << 16);
  2672. else if ((ret < (num * scsi_debug_sector_size)) &&
  2673. (SCSI_DEBUG_OPT_NOISE & scsi_debug_opts))
  2674. sdev_printk(KERN_INFO, scp->device,
  2675. "%s: write: cdb indicated=%u, IO sent=%d bytes\n",
  2676. my_name, num * scsi_debug_sector_size, ret);
  2677. if (sdebug_any_injecting_opt) {
  2678. struct sdebug_scmd_extra_t *ep = scsi_cmd_priv(scp);
  2679. if (ep->inj_recovered) {
  2680. mk_sense_buffer(scp, RECOVERED_ERROR,
  2681. THRESHOLD_EXCEEDED, 0);
  2682. return check_condition_result;
  2683. } else if (ep->inj_dif) {
  2684. /* Logical block guard check failed */
  2685. mk_sense_buffer(scp, ABORTED_COMMAND, 0x10, 1);
  2686. return illegal_condition_result;
  2687. } else if (ep->inj_dix) {
  2688. mk_sense_buffer(scp, ILLEGAL_REQUEST, 0x10, 1);
  2689. return illegal_condition_result;
  2690. }
  2691. }
  2692. return 0;
  2693. }
  2694. static int
  2695. resp_write_same(struct scsi_cmnd *scp, u64 lba, u32 num, u32 ei_lba,
  2696. bool unmap, bool ndob)
  2697. {
  2698. unsigned long iflags;
  2699. unsigned long long i;
  2700. int ret;
  2701. ret = check_device_access_params(scp, lba, num);
  2702. if (ret)
  2703. return ret;
  2704. write_lock_irqsave(&atomic_rw, iflags);
  2705. if (unmap && scsi_debug_lbp()) {
  2706. unmap_region(lba, num);
  2707. goto out;
  2708. }
  2709. /* if ndob then zero 1 logical block, else fetch 1 logical block */
  2710. if (ndob) {
  2711. memset(fake_storep + (lba * scsi_debug_sector_size), 0,
  2712. scsi_debug_sector_size);
  2713. ret = 0;
  2714. } else
  2715. ret = fetch_to_dev_buffer(scp, fake_storep +
  2716. (lba * scsi_debug_sector_size),
  2717. scsi_debug_sector_size);
  2718. if (-1 == ret) {
  2719. write_unlock_irqrestore(&atomic_rw, iflags);
  2720. return (DID_ERROR << 16);
  2721. } else if ((ret < (num * scsi_debug_sector_size)) &&
  2722. (SCSI_DEBUG_OPT_NOISE & scsi_debug_opts))
  2723. sdev_printk(KERN_INFO, scp->device,
  2724. "%s: %s: cdb indicated=%u, IO sent=%d bytes\n",
  2725. my_name, "write same",
  2726. num * scsi_debug_sector_size, ret);
  2727. /* Copy first sector to remaining blocks */
  2728. for (i = 1 ; i < num ; i++)
  2729. memcpy(fake_storep + ((lba + i) * scsi_debug_sector_size),
  2730. fake_storep + (lba * scsi_debug_sector_size),
  2731. scsi_debug_sector_size);
  2732. if (scsi_debug_lbp())
  2733. map_region(lba, num);
  2734. out:
  2735. write_unlock_irqrestore(&atomic_rw, iflags);
  2736. return 0;
  2737. }
  2738. static int
  2739. resp_write_same_10(struct scsi_cmnd *scp, struct sdebug_dev_info *devip)
  2740. {
  2741. u8 *cmd = scp->cmnd;
  2742. u32 lba;
  2743. u16 num;
  2744. u32 ei_lba = 0;
  2745. bool unmap = false;
  2746. if (cmd[1] & 0x8) {
  2747. if (scsi_debug_lbpws10 == 0) {
  2748. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 1, 3);
  2749. return check_condition_result;
  2750. } else
  2751. unmap = true;
  2752. }
  2753. lba = get_unaligned_be32(cmd + 2);
  2754. num = get_unaligned_be16(cmd + 7);
  2755. if (num > scsi_debug_write_same_length) {
  2756. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 7, -1);
  2757. return check_condition_result;
  2758. }
  2759. return resp_write_same(scp, lba, num, ei_lba, unmap, false);
  2760. }
  2761. static int
  2762. resp_write_same_16(struct scsi_cmnd *scp, struct sdebug_dev_info *devip)
  2763. {
  2764. u8 *cmd = scp->cmnd;
  2765. u64 lba;
  2766. u32 num;
  2767. u32 ei_lba = 0;
  2768. bool unmap = false;
  2769. bool ndob = false;
  2770. if (cmd[1] & 0x8) { /* UNMAP */
  2771. if (scsi_debug_lbpws == 0) {
  2772. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 1, 3);
  2773. return check_condition_result;
  2774. } else
  2775. unmap = true;
  2776. }
  2777. if (cmd[1] & 0x1) /* NDOB (no data-out buffer, assumes zeroes) */
  2778. ndob = true;
  2779. lba = get_unaligned_be64(cmd + 2);
  2780. num = get_unaligned_be32(cmd + 10);
  2781. if (num > scsi_debug_write_same_length) {
  2782. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 10, -1);
  2783. return check_condition_result;
  2784. }
  2785. return resp_write_same(scp, lba, num, ei_lba, unmap, ndob);
  2786. }
  2787. /* Note the mode field is in the same position as the (lower) service action
  2788. * field. For the Report supported operation codes command, SPC-4 suggests
  2789. * each mode of this command should be reported separately; for future. */
  2790. static int
  2791. resp_write_buffer(struct scsi_cmnd *scp, struct sdebug_dev_info *devip)
  2792. {
  2793. u8 *cmd = scp->cmnd;
  2794. struct scsi_device *sdp = scp->device;
  2795. struct sdebug_dev_info *dp;
  2796. u8 mode;
  2797. mode = cmd[1] & 0x1f;
  2798. switch (mode) {
  2799. case 0x4: /* download microcode (MC) and activate (ACT) */
  2800. /* set UAs on this device only */
  2801. set_bit(SDEBUG_UA_BUS_RESET, devip->uas_bm);
  2802. set_bit(SDEBUG_UA_MICROCODE_CHANGED, devip->uas_bm);
  2803. break;
  2804. case 0x5: /* download MC, save and ACT */
  2805. set_bit(SDEBUG_UA_MICROCODE_CHANGED_WO_RESET, devip->uas_bm);
  2806. break;
  2807. case 0x6: /* download MC with offsets and ACT */
  2808. /* set UAs on most devices (LUs) in this target */
  2809. list_for_each_entry(dp,
  2810. &devip->sdbg_host->dev_info_list,
  2811. dev_list)
  2812. if (dp->target == sdp->id) {
  2813. set_bit(SDEBUG_UA_BUS_RESET, dp->uas_bm);
  2814. if (devip != dp)
  2815. set_bit(SDEBUG_UA_MICROCODE_CHANGED,
  2816. dp->uas_bm);
  2817. }
  2818. break;
  2819. case 0x7: /* download MC with offsets, save, and ACT */
  2820. /* set UA on all devices (LUs) in this target */
  2821. list_for_each_entry(dp,
  2822. &devip->sdbg_host->dev_info_list,
  2823. dev_list)
  2824. if (dp->target == sdp->id)
  2825. set_bit(SDEBUG_UA_MICROCODE_CHANGED_WO_RESET,
  2826. dp->uas_bm);
  2827. break;
  2828. default:
  2829. /* do nothing for this command for other mode values */
  2830. break;
  2831. }
  2832. return 0;
  2833. }
  2834. static int
  2835. resp_comp_write(struct scsi_cmnd *scp, struct sdebug_dev_info *devip)
  2836. {
  2837. u8 *cmd = scp->cmnd;
  2838. u8 *arr;
  2839. u8 *fake_storep_hold;
  2840. u64 lba;
  2841. u32 dnum;
  2842. u32 lb_size = scsi_debug_sector_size;
  2843. u8 num;
  2844. unsigned long iflags;
  2845. int ret;
  2846. int retval = 0;
  2847. lba = get_unaligned_be64(cmd + 2);
  2848. num = cmd[13]; /* 1 to a maximum of 255 logical blocks */
  2849. if (0 == num)
  2850. return 0; /* degenerate case, not an error */
  2851. if (scsi_debug_dif == SD_DIF_TYPE2_PROTECTION &&
  2852. (cmd[1] & 0xe0)) {
  2853. mk_sense_invalid_opcode(scp);
  2854. return check_condition_result;
  2855. }
  2856. if ((scsi_debug_dif == SD_DIF_TYPE1_PROTECTION ||
  2857. scsi_debug_dif == SD_DIF_TYPE3_PROTECTION) &&
  2858. (cmd[1] & 0xe0) == 0)
  2859. sdev_printk(KERN_ERR, scp->device, "Unprotected WR "
  2860. "to DIF device\n");
  2861. /* inline check_device_access_params() */
  2862. if (lba + num > sdebug_capacity) {
  2863. mk_sense_buffer(scp, ILLEGAL_REQUEST, LBA_OUT_OF_RANGE, 0);
  2864. return check_condition_result;
  2865. }
  2866. /* transfer length excessive (tie in to block limits VPD page) */
  2867. if (num > sdebug_store_sectors) {
  2868. /* needs work to find which cdb byte 'num' comes from */
  2869. mk_sense_buffer(scp, ILLEGAL_REQUEST, INVALID_FIELD_IN_CDB, 0);
  2870. return check_condition_result;
  2871. }
  2872. dnum = 2 * num;
  2873. arr = kzalloc(dnum * lb_size, GFP_ATOMIC);
  2874. if (NULL == arr) {
  2875. mk_sense_buffer(scp, ILLEGAL_REQUEST, INSUFF_RES_ASC,
  2876. INSUFF_RES_ASCQ);
  2877. return check_condition_result;
  2878. }
  2879. write_lock_irqsave(&atomic_rw, iflags);
  2880. /* trick do_device_access() to fetch both compare and write buffers
  2881. * from data-in into arr. Safe (atomic) since write_lock held. */
  2882. fake_storep_hold = fake_storep;
  2883. fake_storep = arr;
  2884. ret = do_device_access(scp, 0, dnum, true);
  2885. fake_storep = fake_storep_hold;
  2886. if (ret == -1) {
  2887. retval = DID_ERROR << 16;
  2888. goto cleanup;
  2889. } else if ((ret < (dnum * lb_size)) &&
  2890. (SCSI_DEBUG_OPT_NOISE & scsi_debug_opts))
  2891. sdev_printk(KERN_INFO, scp->device, "%s: compare_write: cdb "
  2892. "indicated=%u, IO sent=%d bytes\n", my_name,
  2893. dnum * lb_size, ret);
  2894. if (!comp_write_worker(lba, num, arr)) {
  2895. mk_sense_buffer(scp, MISCOMPARE, MISCOMPARE_VERIFY_ASC, 0);
  2896. retval = check_condition_result;
  2897. goto cleanup;
  2898. }
  2899. if (scsi_debug_lbp())
  2900. map_region(lba, num);
  2901. cleanup:
  2902. write_unlock_irqrestore(&atomic_rw, iflags);
  2903. kfree(arr);
  2904. return retval;
  2905. }
  2906. struct unmap_block_desc {
  2907. __be64 lba;
  2908. __be32 blocks;
  2909. __be32 __reserved;
  2910. };
  2911. static int
  2912. resp_unmap(struct scsi_cmnd *scp, struct sdebug_dev_info *devip)
  2913. {
  2914. unsigned char *buf;
  2915. struct unmap_block_desc *desc;
  2916. unsigned int i, payload_len, descriptors;
  2917. int ret;
  2918. unsigned long iflags;
  2919. if (!scsi_debug_lbp())
  2920. return 0; /* fib and say its done */
  2921. payload_len = get_unaligned_be16(scp->cmnd + 7);
  2922. BUG_ON(scsi_bufflen(scp) != payload_len);
  2923. descriptors = (payload_len - 8) / 16;
  2924. if (descriptors > scsi_debug_unmap_max_desc) {
  2925. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 7, -1);
  2926. return check_condition_result;
  2927. }
  2928. buf = kmalloc(scsi_bufflen(scp), GFP_ATOMIC);
  2929. if (!buf) {
  2930. mk_sense_buffer(scp, ILLEGAL_REQUEST, INSUFF_RES_ASC,
  2931. INSUFF_RES_ASCQ);
  2932. return check_condition_result;
  2933. }
  2934. scsi_sg_copy_to_buffer(scp, buf, scsi_bufflen(scp));
  2935. BUG_ON(get_unaligned_be16(&buf[0]) != payload_len - 2);
  2936. BUG_ON(get_unaligned_be16(&buf[2]) != descriptors * 16);
  2937. desc = (void *)&buf[8];
  2938. write_lock_irqsave(&atomic_rw, iflags);
  2939. for (i = 0 ; i < descriptors ; i++) {
  2940. unsigned long long lba = get_unaligned_be64(&desc[i].lba);
  2941. unsigned int num = get_unaligned_be32(&desc[i].blocks);
  2942. ret = check_device_access_params(scp, lba, num);
  2943. if (ret)
  2944. goto out;
  2945. unmap_region(lba, num);
  2946. }
  2947. ret = 0;
  2948. out:
  2949. write_unlock_irqrestore(&atomic_rw, iflags);
  2950. kfree(buf);
  2951. return ret;
  2952. }
  2953. #define SDEBUG_GET_LBA_STATUS_LEN 32
  2954. static int
  2955. resp_get_lba_status(struct scsi_cmnd *scp, struct sdebug_dev_info *devip)
  2956. {
  2957. u8 *cmd = scp->cmnd;
  2958. u64 lba;
  2959. u32 alloc_len, mapped, num;
  2960. u8 arr[SDEBUG_GET_LBA_STATUS_LEN];
  2961. int ret;
  2962. lba = get_unaligned_be64(cmd + 2);
  2963. alloc_len = get_unaligned_be32(cmd + 10);
  2964. if (alloc_len < 24)
  2965. return 0;
  2966. ret = check_device_access_params(scp, lba, 1);
  2967. if (ret)
  2968. return ret;
  2969. if (scsi_debug_lbp())
  2970. mapped = map_state(lba, &num);
  2971. else {
  2972. mapped = 1;
  2973. /* following just in case virtual_gb changed */
  2974. sdebug_capacity = get_sdebug_capacity();
  2975. if (sdebug_capacity - lba <= 0xffffffff)
  2976. num = sdebug_capacity - lba;
  2977. else
  2978. num = 0xffffffff;
  2979. }
  2980. memset(arr, 0, SDEBUG_GET_LBA_STATUS_LEN);
  2981. put_unaligned_be32(20, arr); /* Parameter Data Length */
  2982. put_unaligned_be64(lba, arr + 8); /* LBA */
  2983. put_unaligned_be32(num, arr + 16); /* Number of blocks */
  2984. arr[20] = !mapped; /* prov_stat=0: mapped; 1: dealloc */
  2985. return fill_from_dev_buffer(scp, arr, SDEBUG_GET_LBA_STATUS_LEN);
  2986. }
  2987. #define SDEBUG_RLUN_ARR_SZ 256
  2988. static int resp_report_luns(struct scsi_cmnd * scp,
  2989. struct sdebug_dev_info * devip)
  2990. {
  2991. unsigned int alloc_len;
  2992. int lun_cnt, i, upper, num, n, want_wlun, shortish;
  2993. u64 lun;
  2994. unsigned char *cmd = scp->cmnd;
  2995. int select_report = (int)cmd[2];
  2996. struct scsi_lun *one_lun;
  2997. unsigned char arr[SDEBUG_RLUN_ARR_SZ];
  2998. unsigned char * max_addr;
  2999. clear_luns_changed_on_target(devip);
  3000. alloc_len = cmd[9] + (cmd[8] << 8) + (cmd[7] << 16) + (cmd[6] << 24);
  3001. shortish = (alloc_len < 4);
  3002. if (shortish || (select_report > 2)) {
  3003. mk_sense_invalid_fld(scp, SDEB_IN_CDB, shortish ? 6 : 2, -1);
  3004. return check_condition_result;
  3005. }
  3006. /* can produce response with up to 16k luns (lun 0 to lun 16383) */
  3007. memset(arr, 0, SDEBUG_RLUN_ARR_SZ);
  3008. lun_cnt = scsi_debug_max_luns;
  3009. if (1 == select_report)
  3010. lun_cnt = 0;
  3011. else if (scsi_debug_no_lun_0 && (lun_cnt > 0))
  3012. --lun_cnt;
  3013. want_wlun = (select_report > 0) ? 1 : 0;
  3014. num = lun_cnt + want_wlun;
  3015. arr[2] = ((sizeof(struct scsi_lun) * num) >> 8) & 0xff;
  3016. arr[3] = (sizeof(struct scsi_lun) * num) & 0xff;
  3017. n = min((int)((SDEBUG_RLUN_ARR_SZ - 8) /
  3018. sizeof(struct scsi_lun)), num);
  3019. if (n < num) {
  3020. want_wlun = 0;
  3021. lun_cnt = n;
  3022. }
  3023. one_lun = (struct scsi_lun *) &arr[8];
  3024. max_addr = arr + SDEBUG_RLUN_ARR_SZ;
  3025. for (i = 0, lun = (scsi_debug_no_lun_0 ? 1 : 0);
  3026. ((i < lun_cnt) && ((unsigned char *)(one_lun + i) < max_addr));
  3027. i++, lun++) {
  3028. upper = (lun >> 8) & 0x3f;
  3029. if (upper)
  3030. one_lun[i].scsi_lun[0] =
  3031. (upper | (SAM2_LUN_ADDRESS_METHOD << 6));
  3032. one_lun[i].scsi_lun[1] = lun & 0xff;
  3033. }
  3034. if (want_wlun) {
  3035. one_lun[i].scsi_lun[0] = (SAM2_WLUN_REPORT_LUNS >> 8) & 0xff;
  3036. one_lun[i].scsi_lun[1] = SAM2_WLUN_REPORT_LUNS & 0xff;
  3037. i++;
  3038. }
  3039. alloc_len = (unsigned char *)(one_lun + i) - arr;
  3040. return fill_from_dev_buffer(scp, arr,
  3041. min((int)alloc_len, SDEBUG_RLUN_ARR_SZ));
  3042. }
  3043. static int resp_xdwriteread(struct scsi_cmnd *scp, unsigned long long lba,
  3044. unsigned int num, struct sdebug_dev_info *devip)
  3045. {
  3046. int j;
  3047. unsigned char *kaddr, *buf;
  3048. unsigned int offset;
  3049. struct scsi_data_buffer *sdb = scsi_in(scp);
  3050. struct sg_mapping_iter miter;
  3051. /* better not to use temporary buffer. */
  3052. buf = kmalloc(scsi_bufflen(scp), GFP_ATOMIC);
  3053. if (!buf) {
  3054. mk_sense_buffer(scp, ILLEGAL_REQUEST, INSUFF_RES_ASC,
  3055. INSUFF_RES_ASCQ);
  3056. return check_condition_result;
  3057. }
  3058. scsi_sg_copy_to_buffer(scp, buf, scsi_bufflen(scp));
  3059. offset = 0;
  3060. sg_miter_start(&miter, sdb->table.sgl, sdb->table.nents,
  3061. SG_MITER_ATOMIC | SG_MITER_TO_SG);
  3062. while (sg_miter_next(&miter)) {
  3063. kaddr = miter.addr;
  3064. for (j = 0; j < miter.length; j++)
  3065. *(kaddr + j) ^= *(buf + offset + j);
  3066. offset += miter.length;
  3067. }
  3068. sg_miter_stop(&miter);
  3069. kfree(buf);
  3070. return 0;
  3071. }
  3072. static int
  3073. resp_xdwriteread_10(struct scsi_cmnd *scp, struct sdebug_dev_info *devip)
  3074. {
  3075. u8 *cmd = scp->cmnd;
  3076. u64 lba;
  3077. u32 num;
  3078. int errsts;
  3079. if (!scsi_bidi_cmnd(scp)) {
  3080. mk_sense_buffer(scp, ILLEGAL_REQUEST, INSUFF_RES_ASC,
  3081. INSUFF_RES_ASCQ);
  3082. return check_condition_result;
  3083. }
  3084. errsts = resp_read_dt0(scp, devip);
  3085. if (errsts)
  3086. return errsts;
  3087. if (!(cmd[1] & 0x4)) { /* DISABLE_WRITE is not set */
  3088. errsts = resp_write_dt0(scp, devip);
  3089. if (errsts)
  3090. return errsts;
  3091. }
  3092. lba = get_unaligned_be32(cmd + 2);
  3093. num = get_unaligned_be16(cmd + 7);
  3094. return resp_xdwriteread(scp, lba, num, devip);
  3095. }
  3096. /* When timer or tasklet goes off this function is called. */
  3097. static void sdebug_q_cmd_complete(unsigned long indx)
  3098. {
  3099. int qa_indx;
  3100. int retiring = 0;
  3101. unsigned long iflags;
  3102. struct sdebug_queued_cmd *sqcp;
  3103. struct scsi_cmnd *scp;
  3104. struct sdebug_dev_info *devip;
  3105. atomic_inc(&sdebug_completions);
  3106. qa_indx = indx;
  3107. if ((qa_indx < 0) || (qa_indx >= SCSI_DEBUG_CANQUEUE)) {
  3108. pr_err("%s: wild qa_indx=%d\n", __func__, qa_indx);
  3109. return;
  3110. }
  3111. spin_lock_irqsave(&queued_arr_lock, iflags);
  3112. sqcp = &queued_arr[qa_indx];
  3113. scp = sqcp->a_cmnd;
  3114. if (NULL == scp) {
  3115. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3116. pr_err("%s: scp is NULL\n", __func__);
  3117. return;
  3118. }
  3119. devip = (struct sdebug_dev_info *)scp->device->hostdata;
  3120. if (devip)
  3121. atomic_dec(&devip->num_in_q);
  3122. else
  3123. pr_err("%s: devip=NULL\n", __func__);
  3124. if (atomic_read(&retired_max_queue) > 0)
  3125. retiring = 1;
  3126. sqcp->a_cmnd = NULL;
  3127. if (!test_and_clear_bit(qa_indx, queued_in_use_bm)) {
  3128. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3129. pr_err("%s: Unexpected completion\n", __func__);
  3130. return;
  3131. }
  3132. if (unlikely(retiring)) { /* user has reduced max_queue */
  3133. int k, retval;
  3134. retval = atomic_read(&retired_max_queue);
  3135. if (qa_indx >= retval) {
  3136. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3137. pr_err("%s: index %d too large\n", __func__, retval);
  3138. return;
  3139. }
  3140. k = find_last_bit(queued_in_use_bm, retval);
  3141. if ((k < scsi_debug_max_queue) || (k == retval))
  3142. atomic_set(&retired_max_queue, 0);
  3143. else
  3144. atomic_set(&retired_max_queue, k + 1);
  3145. }
  3146. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3147. scp->scsi_done(scp); /* callback to mid level */
  3148. }
  3149. /* When high resolution timer goes off this function is called. */
  3150. static enum hrtimer_restart
  3151. sdebug_q_cmd_hrt_complete(struct hrtimer *timer)
  3152. {
  3153. int qa_indx;
  3154. int retiring = 0;
  3155. unsigned long iflags;
  3156. struct sdebug_hrtimer *sd_hrtp = (struct sdebug_hrtimer *)timer;
  3157. struct sdebug_queued_cmd *sqcp;
  3158. struct scsi_cmnd *scp;
  3159. struct sdebug_dev_info *devip;
  3160. atomic_inc(&sdebug_completions);
  3161. qa_indx = sd_hrtp->qa_indx;
  3162. if ((qa_indx < 0) || (qa_indx >= SCSI_DEBUG_CANQUEUE)) {
  3163. pr_err("%s: wild qa_indx=%d\n", __func__, qa_indx);
  3164. goto the_end;
  3165. }
  3166. spin_lock_irqsave(&queued_arr_lock, iflags);
  3167. sqcp = &queued_arr[qa_indx];
  3168. scp = sqcp->a_cmnd;
  3169. if (NULL == scp) {
  3170. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3171. pr_err("%s: scp is NULL\n", __func__);
  3172. goto the_end;
  3173. }
  3174. devip = (struct sdebug_dev_info *)scp->device->hostdata;
  3175. if (devip)
  3176. atomic_dec(&devip->num_in_q);
  3177. else
  3178. pr_err("%s: devip=NULL\n", __func__);
  3179. if (atomic_read(&retired_max_queue) > 0)
  3180. retiring = 1;
  3181. sqcp->a_cmnd = NULL;
  3182. if (!test_and_clear_bit(qa_indx, queued_in_use_bm)) {
  3183. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3184. pr_err("%s: Unexpected completion\n", __func__);
  3185. goto the_end;
  3186. }
  3187. if (unlikely(retiring)) { /* user has reduced max_queue */
  3188. int k, retval;
  3189. retval = atomic_read(&retired_max_queue);
  3190. if (qa_indx >= retval) {
  3191. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3192. pr_err("%s: index %d too large\n", __func__, retval);
  3193. goto the_end;
  3194. }
  3195. k = find_last_bit(queued_in_use_bm, retval);
  3196. if ((k < scsi_debug_max_queue) || (k == retval))
  3197. atomic_set(&retired_max_queue, 0);
  3198. else
  3199. atomic_set(&retired_max_queue, k + 1);
  3200. }
  3201. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3202. scp->scsi_done(scp); /* callback to mid level */
  3203. the_end:
  3204. return HRTIMER_NORESTART;
  3205. }
  3206. static struct sdebug_dev_info *
  3207. sdebug_device_create(struct sdebug_host_info *sdbg_host, gfp_t flags)
  3208. {
  3209. struct sdebug_dev_info *devip;
  3210. devip = kzalloc(sizeof(*devip), flags);
  3211. if (devip) {
  3212. devip->sdbg_host = sdbg_host;
  3213. list_add_tail(&devip->dev_list, &sdbg_host->dev_info_list);
  3214. }
  3215. return devip;
  3216. }
  3217. static struct sdebug_dev_info * devInfoReg(struct scsi_device * sdev)
  3218. {
  3219. struct sdebug_host_info * sdbg_host;
  3220. struct sdebug_dev_info * open_devip = NULL;
  3221. struct sdebug_dev_info * devip =
  3222. (struct sdebug_dev_info *)sdev->hostdata;
  3223. if (devip)
  3224. return devip;
  3225. sdbg_host = *(struct sdebug_host_info **)shost_priv(sdev->host);
  3226. if (!sdbg_host) {
  3227. pr_err("%s: Host info NULL\n", __func__);
  3228. return NULL;
  3229. }
  3230. list_for_each_entry(devip, &sdbg_host->dev_info_list, dev_list) {
  3231. if ((devip->used) && (devip->channel == sdev->channel) &&
  3232. (devip->target == sdev->id) &&
  3233. (devip->lun == sdev->lun))
  3234. return devip;
  3235. else {
  3236. if ((!devip->used) && (!open_devip))
  3237. open_devip = devip;
  3238. }
  3239. }
  3240. if (!open_devip) { /* try and make a new one */
  3241. open_devip = sdebug_device_create(sdbg_host, GFP_ATOMIC);
  3242. if (!open_devip) {
  3243. printk(KERN_ERR "%s: out of memory at line %d\n",
  3244. __func__, __LINE__);
  3245. return NULL;
  3246. }
  3247. }
  3248. open_devip->channel = sdev->channel;
  3249. open_devip->target = sdev->id;
  3250. open_devip->lun = sdev->lun;
  3251. open_devip->sdbg_host = sdbg_host;
  3252. atomic_set(&open_devip->num_in_q, 0);
  3253. set_bit(SDEBUG_UA_POR, open_devip->uas_bm);
  3254. open_devip->used = true;
  3255. return open_devip;
  3256. }
  3257. static int scsi_debug_slave_alloc(struct scsi_device *sdp)
  3258. {
  3259. if (SCSI_DEBUG_OPT_NOISE & scsi_debug_opts)
  3260. printk(KERN_INFO "scsi_debug: slave_alloc <%u %u %u %llu>\n",
  3261. sdp->host->host_no, sdp->channel, sdp->id, sdp->lun);
  3262. queue_flag_set_unlocked(QUEUE_FLAG_BIDI, sdp->request_queue);
  3263. return 0;
  3264. }
  3265. static int scsi_debug_slave_configure(struct scsi_device *sdp)
  3266. {
  3267. struct sdebug_dev_info *devip;
  3268. if (SCSI_DEBUG_OPT_NOISE & scsi_debug_opts)
  3269. printk(KERN_INFO "scsi_debug: slave_configure <%u %u %u %llu>\n",
  3270. sdp->host->host_no, sdp->channel, sdp->id, sdp->lun);
  3271. if (sdp->host->max_cmd_len != SCSI_DEBUG_MAX_CMD_LEN)
  3272. sdp->host->max_cmd_len = SCSI_DEBUG_MAX_CMD_LEN;
  3273. devip = devInfoReg(sdp);
  3274. if (NULL == devip)
  3275. return 1; /* no resources, will be marked offline */
  3276. sdp->hostdata = devip;
  3277. blk_queue_max_segment_size(sdp->request_queue, -1U);
  3278. if (scsi_debug_no_uld)
  3279. sdp->no_uld_attach = 1;
  3280. return 0;
  3281. }
  3282. static void scsi_debug_slave_destroy(struct scsi_device *sdp)
  3283. {
  3284. struct sdebug_dev_info *devip =
  3285. (struct sdebug_dev_info *)sdp->hostdata;
  3286. if (SCSI_DEBUG_OPT_NOISE & scsi_debug_opts)
  3287. printk(KERN_INFO "scsi_debug: slave_destroy <%u %u %u %llu>\n",
  3288. sdp->host->host_no, sdp->channel, sdp->id, sdp->lun);
  3289. if (devip) {
  3290. /* make this slot available for re-use */
  3291. devip->used = false;
  3292. sdp->hostdata = NULL;
  3293. }
  3294. }
  3295. /* Returns 1 if cmnd found (deletes its timer or tasklet), else returns 0 */
  3296. static int stop_queued_cmnd(struct scsi_cmnd *cmnd)
  3297. {
  3298. unsigned long iflags;
  3299. int k, qmax, r_qmax;
  3300. struct sdebug_queued_cmd *sqcp;
  3301. struct sdebug_dev_info *devip;
  3302. spin_lock_irqsave(&queued_arr_lock, iflags);
  3303. qmax = scsi_debug_max_queue;
  3304. r_qmax = atomic_read(&retired_max_queue);
  3305. if (r_qmax > qmax)
  3306. qmax = r_qmax;
  3307. for (k = 0; k < qmax; ++k) {
  3308. if (test_bit(k, queued_in_use_bm)) {
  3309. sqcp = &queued_arr[k];
  3310. if (cmnd == sqcp->a_cmnd) {
  3311. devip = (struct sdebug_dev_info *)
  3312. cmnd->device->hostdata;
  3313. if (devip)
  3314. atomic_dec(&devip->num_in_q);
  3315. sqcp->a_cmnd = NULL;
  3316. spin_unlock_irqrestore(&queued_arr_lock,
  3317. iflags);
  3318. if (scsi_debug_ndelay > 0) {
  3319. if (sqcp->sd_hrtp)
  3320. hrtimer_cancel(
  3321. &sqcp->sd_hrtp->hrt);
  3322. } else if (scsi_debug_delay > 0) {
  3323. if (sqcp->cmnd_timerp)
  3324. del_timer_sync(
  3325. sqcp->cmnd_timerp);
  3326. } else if (scsi_debug_delay < 0) {
  3327. if (sqcp->tletp)
  3328. tasklet_kill(sqcp->tletp);
  3329. }
  3330. clear_bit(k, queued_in_use_bm);
  3331. return 1;
  3332. }
  3333. }
  3334. }
  3335. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3336. return 0;
  3337. }
  3338. /* Deletes (stops) timers or tasklets of all queued commands */
  3339. static void stop_all_queued(void)
  3340. {
  3341. unsigned long iflags;
  3342. int k;
  3343. struct sdebug_queued_cmd *sqcp;
  3344. struct sdebug_dev_info *devip;
  3345. spin_lock_irqsave(&queued_arr_lock, iflags);
  3346. for (k = 0; k < SCSI_DEBUG_CANQUEUE; ++k) {
  3347. if (test_bit(k, queued_in_use_bm)) {
  3348. sqcp = &queued_arr[k];
  3349. if (sqcp->a_cmnd) {
  3350. devip = (struct sdebug_dev_info *)
  3351. sqcp->a_cmnd->device->hostdata;
  3352. if (devip)
  3353. atomic_dec(&devip->num_in_q);
  3354. sqcp->a_cmnd = NULL;
  3355. spin_unlock_irqrestore(&queued_arr_lock,
  3356. iflags);
  3357. if (scsi_debug_ndelay > 0) {
  3358. if (sqcp->sd_hrtp)
  3359. hrtimer_cancel(
  3360. &sqcp->sd_hrtp->hrt);
  3361. } else if (scsi_debug_delay > 0) {
  3362. if (sqcp->cmnd_timerp)
  3363. del_timer_sync(
  3364. sqcp->cmnd_timerp);
  3365. } else if (scsi_debug_delay < 0) {
  3366. if (sqcp->tletp)
  3367. tasklet_kill(sqcp->tletp);
  3368. }
  3369. clear_bit(k, queued_in_use_bm);
  3370. spin_lock_irqsave(&queued_arr_lock, iflags);
  3371. }
  3372. }
  3373. }
  3374. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3375. }
  3376. /* Free queued command memory on heap */
  3377. static void free_all_queued(void)
  3378. {
  3379. unsigned long iflags;
  3380. int k;
  3381. struct sdebug_queued_cmd *sqcp;
  3382. spin_lock_irqsave(&queued_arr_lock, iflags);
  3383. for (k = 0; k < SCSI_DEBUG_CANQUEUE; ++k) {
  3384. sqcp = &queued_arr[k];
  3385. kfree(sqcp->cmnd_timerp);
  3386. sqcp->cmnd_timerp = NULL;
  3387. kfree(sqcp->tletp);
  3388. sqcp->tletp = NULL;
  3389. kfree(sqcp->sd_hrtp);
  3390. sqcp->sd_hrtp = NULL;
  3391. }
  3392. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3393. }
  3394. static int scsi_debug_abort(struct scsi_cmnd *SCpnt)
  3395. {
  3396. ++num_aborts;
  3397. if (SCpnt) {
  3398. if (SCpnt->device &&
  3399. (SCSI_DEBUG_OPT_ALL_NOISE & scsi_debug_opts))
  3400. sdev_printk(KERN_INFO, SCpnt->device, "%s\n",
  3401. __func__);
  3402. stop_queued_cmnd(SCpnt);
  3403. }
  3404. return SUCCESS;
  3405. }
  3406. static int scsi_debug_device_reset(struct scsi_cmnd * SCpnt)
  3407. {
  3408. struct sdebug_dev_info * devip;
  3409. ++num_dev_resets;
  3410. if (SCpnt && SCpnt->device) {
  3411. struct scsi_device *sdp = SCpnt->device;
  3412. if (SCSI_DEBUG_OPT_ALL_NOISE & scsi_debug_opts)
  3413. sdev_printk(KERN_INFO, sdp, "%s\n", __func__);
  3414. devip = devInfoReg(sdp);
  3415. if (devip)
  3416. set_bit(SDEBUG_UA_POR, devip->uas_bm);
  3417. }
  3418. return SUCCESS;
  3419. }
  3420. static int scsi_debug_target_reset(struct scsi_cmnd *SCpnt)
  3421. {
  3422. struct sdebug_host_info *sdbg_host;
  3423. struct sdebug_dev_info *devip;
  3424. struct scsi_device *sdp;
  3425. struct Scsi_Host *hp;
  3426. int k = 0;
  3427. ++num_target_resets;
  3428. if (!SCpnt)
  3429. goto lie;
  3430. sdp = SCpnt->device;
  3431. if (!sdp)
  3432. goto lie;
  3433. if (SCSI_DEBUG_OPT_ALL_NOISE & scsi_debug_opts)
  3434. sdev_printk(KERN_INFO, sdp, "%s\n", __func__);
  3435. hp = sdp->host;
  3436. if (!hp)
  3437. goto lie;
  3438. sdbg_host = *(struct sdebug_host_info **)shost_priv(hp);
  3439. if (sdbg_host) {
  3440. list_for_each_entry(devip,
  3441. &sdbg_host->dev_info_list,
  3442. dev_list)
  3443. if (devip->target == sdp->id) {
  3444. set_bit(SDEBUG_UA_BUS_RESET, devip->uas_bm);
  3445. ++k;
  3446. }
  3447. }
  3448. if (SCSI_DEBUG_OPT_RESET_NOISE & scsi_debug_opts)
  3449. sdev_printk(KERN_INFO, sdp,
  3450. "%s: %d device(s) found in target\n", __func__, k);
  3451. lie:
  3452. return SUCCESS;
  3453. }
  3454. static int scsi_debug_bus_reset(struct scsi_cmnd * SCpnt)
  3455. {
  3456. struct sdebug_host_info *sdbg_host;
  3457. struct sdebug_dev_info *devip;
  3458. struct scsi_device * sdp;
  3459. struct Scsi_Host * hp;
  3460. int k = 0;
  3461. ++num_bus_resets;
  3462. if (!(SCpnt && SCpnt->device))
  3463. goto lie;
  3464. sdp = SCpnt->device;
  3465. if (SCSI_DEBUG_OPT_ALL_NOISE & scsi_debug_opts)
  3466. sdev_printk(KERN_INFO, sdp, "%s\n", __func__);
  3467. hp = sdp->host;
  3468. if (hp) {
  3469. sdbg_host = *(struct sdebug_host_info **)shost_priv(hp);
  3470. if (sdbg_host) {
  3471. list_for_each_entry(devip,
  3472. &sdbg_host->dev_info_list,
  3473. dev_list) {
  3474. set_bit(SDEBUG_UA_BUS_RESET, devip->uas_bm);
  3475. ++k;
  3476. }
  3477. }
  3478. }
  3479. if (SCSI_DEBUG_OPT_RESET_NOISE & scsi_debug_opts)
  3480. sdev_printk(KERN_INFO, sdp,
  3481. "%s: %d device(s) found in host\n", __func__, k);
  3482. lie:
  3483. return SUCCESS;
  3484. }
  3485. static int scsi_debug_host_reset(struct scsi_cmnd * SCpnt)
  3486. {
  3487. struct sdebug_host_info * sdbg_host;
  3488. struct sdebug_dev_info *devip;
  3489. int k = 0;
  3490. ++num_host_resets;
  3491. if ((SCpnt->device) && (SCSI_DEBUG_OPT_ALL_NOISE & scsi_debug_opts))
  3492. sdev_printk(KERN_INFO, SCpnt->device, "%s\n", __func__);
  3493. spin_lock(&sdebug_host_list_lock);
  3494. list_for_each_entry(sdbg_host, &sdebug_host_list, host_list) {
  3495. list_for_each_entry(devip, &sdbg_host->dev_info_list,
  3496. dev_list) {
  3497. set_bit(SDEBUG_UA_BUS_RESET, devip->uas_bm);
  3498. ++k;
  3499. }
  3500. }
  3501. spin_unlock(&sdebug_host_list_lock);
  3502. stop_all_queued();
  3503. if (SCSI_DEBUG_OPT_RESET_NOISE & scsi_debug_opts)
  3504. sdev_printk(KERN_INFO, SCpnt->device,
  3505. "%s: %d device(s) found\n", __func__, k);
  3506. return SUCCESS;
  3507. }
  3508. static void __init sdebug_build_parts(unsigned char *ramp,
  3509. unsigned long store_size)
  3510. {
  3511. struct partition * pp;
  3512. int starts[SDEBUG_MAX_PARTS + 2];
  3513. int sectors_per_part, num_sectors, k;
  3514. int heads_by_sects, start_sec, end_sec;
  3515. /* assume partition table already zeroed */
  3516. if ((scsi_debug_num_parts < 1) || (store_size < 1048576))
  3517. return;
  3518. if (scsi_debug_num_parts > SDEBUG_MAX_PARTS) {
  3519. scsi_debug_num_parts = SDEBUG_MAX_PARTS;
  3520. pr_warn("%s: reducing partitions to %d\n", __func__,
  3521. SDEBUG_MAX_PARTS);
  3522. }
  3523. num_sectors = (int)sdebug_store_sectors;
  3524. sectors_per_part = (num_sectors - sdebug_sectors_per)
  3525. / scsi_debug_num_parts;
  3526. heads_by_sects = sdebug_heads * sdebug_sectors_per;
  3527. starts[0] = sdebug_sectors_per;
  3528. for (k = 1; k < scsi_debug_num_parts; ++k)
  3529. starts[k] = ((k * sectors_per_part) / heads_by_sects)
  3530. * heads_by_sects;
  3531. starts[scsi_debug_num_parts] = num_sectors;
  3532. starts[scsi_debug_num_parts + 1] = 0;
  3533. ramp[510] = 0x55; /* magic partition markings */
  3534. ramp[511] = 0xAA;
  3535. pp = (struct partition *)(ramp + 0x1be);
  3536. for (k = 0; starts[k + 1]; ++k, ++pp) {
  3537. start_sec = starts[k];
  3538. end_sec = starts[k + 1] - 1;
  3539. pp->boot_ind = 0;
  3540. pp->cyl = start_sec / heads_by_sects;
  3541. pp->head = (start_sec - (pp->cyl * heads_by_sects))
  3542. / sdebug_sectors_per;
  3543. pp->sector = (start_sec % sdebug_sectors_per) + 1;
  3544. pp->end_cyl = end_sec / heads_by_sects;
  3545. pp->end_head = (end_sec - (pp->end_cyl * heads_by_sects))
  3546. / sdebug_sectors_per;
  3547. pp->end_sector = (end_sec % sdebug_sectors_per) + 1;
  3548. pp->start_sect = cpu_to_le32(start_sec);
  3549. pp->nr_sects = cpu_to_le32(end_sec - start_sec + 1);
  3550. pp->sys_ind = 0x83; /* plain Linux partition */
  3551. }
  3552. }
  3553. static int
  3554. schedule_resp(struct scsi_cmnd *cmnd, struct sdebug_dev_info *devip,
  3555. int scsi_result, int delta_jiff)
  3556. {
  3557. unsigned long iflags;
  3558. int k, num_in_q, qdepth, inject;
  3559. struct sdebug_queued_cmd *sqcp = NULL;
  3560. struct scsi_device *sdp = cmnd->device;
  3561. if (NULL == cmnd || NULL == devip) {
  3562. pr_warn("%s: called with NULL cmnd or devip pointer\n",
  3563. __func__);
  3564. /* no particularly good error to report back */
  3565. return SCSI_MLQUEUE_HOST_BUSY;
  3566. }
  3567. if ((scsi_result) && (SCSI_DEBUG_OPT_NOISE & scsi_debug_opts))
  3568. sdev_printk(KERN_INFO, sdp, "%s: non-zero result=0x%x\n",
  3569. __func__, scsi_result);
  3570. if (delta_jiff == 0)
  3571. goto respond_in_thread;
  3572. /* schedule the response at a later time if resources permit */
  3573. spin_lock_irqsave(&queued_arr_lock, iflags);
  3574. num_in_q = atomic_read(&devip->num_in_q);
  3575. qdepth = cmnd->device->queue_depth;
  3576. inject = 0;
  3577. if ((qdepth > 0) && (num_in_q >= qdepth)) {
  3578. if (scsi_result) {
  3579. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3580. goto respond_in_thread;
  3581. } else
  3582. scsi_result = device_qfull_result;
  3583. } else if ((scsi_debug_every_nth != 0) &&
  3584. (SCSI_DEBUG_OPT_RARE_TSF & scsi_debug_opts) &&
  3585. (scsi_result == 0)) {
  3586. if ((num_in_q == (qdepth - 1)) &&
  3587. (atomic_inc_return(&sdebug_a_tsf) >=
  3588. abs(scsi_debug_every_nth))) {
  3589. atomic_set(&sdebug_a_tsf, 0);
  3590. inject = 1;
  3591. scsi_result = device_qfull_result;
  3592. }
  3593. }
  3594. k = find_first_zero_bit(queued_in_use_bm, scsi_debug_max_queue);
  3595. if (k >= scsi_debug_max_queue) {
  3596. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3597. if (scsi_result)
  3598. goto respond_in_thread;
  3599. else if (SCSI_DEBUG_OPT_ALL_TSF & scsi_debug_opts)
  3600. scsi_result = device_qfull_result;
  3601. if (SCSI_DEBUG_OPT_Q_NOISE & scsi_debug_opts)
  3602. sdev_printk(KERN_INFO, sdp,
  3603. "%s: max_queue=%d exceeded, %s\n",
  3604. __func__, scsi_debug_max_queue,
  3605. (scsi_result ? "status: TASK SET FULL" :
  3606. "report: host busy"));
  3607. if (scsi_result)
  3608. goto respond_in_thread;
  3609. else
  3610. return SCSI_MLQUEUE_HOST_BUSY;
  3611. }
  3612. __set_bit(k, queued_in_use_bm);
  3613. atomic_inc(&devip->num_in_q);
  3614. sqcp = &queued_arr[k];
  3615. sqcp->a_cmnd = cmnd;
  3616. cmnd->result = scsi_result;
  3617. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3618. if (delta_jiff > 0) {
  3619. if (NULL == sqcp->cmnd_timerp) {
  3620. sqcp->cmnd_timerp = kmalloc(sizeof(struct timer_list),
  3621. GFP_ATOMIC);
  3622. if (NULL == sqcp->cmnd_timerp)
  3623. return SCSI_MLQUEUE_HOST_BUSY;
  3624. init_timer(sqcp->cmnd_timerp);
  3625. }
  3626. sqcp->cmnd_timerp->function = sdebug_q_cmd_complete;
  3627. sqcp->cmnd_timerp->data = k;
  3628. sqcp->cmnd_timerp->expires = get_jiffies_64() + delta_jiff;
  3629. add_timer(sqcp->cmnd_timerp);
  3630. } else if (scsi_debug_ndelay > 0) {
  3631. ktime_t kt = ktime_set(0, scsi_debug_ndelay);
  3632. struct sdebug_hrtimer *sd_hp = sqcp->sd_hrtp;
  3633. if (NULL == sd_hp) {
  3634. sd_hp = kmalloc(sizeof(*sd_hp), GFP_ATOMIC);
  3635. if (NULL == sd_hp)
  3636. return SCSI_MLQUEUE_HOST_BUSY;
  3637. sqcp->sd_hrtp = sd_hp;
  3638. hrtimer_init(&sd_hp->hrt, CLOCK_MONOTONIC,
  3639. HRTIMER_MODE_REL);
  3640. sd_hp->hrt.function = sdebug_q_cmd_hrt_complete;
  3641. sd_hp->qa_indx = k;
  3642. }
  3643. hrtimer_start(&sd_hp->hrt, kt, HRTIMER_MODE_REL);
  3644. } else { /* delay < 0 */
  3645. if (NULL == sqcp->tletp) {
  3646. sqcp->tletp = kmalloc(sizeof(*sqcp->tletp),
  3647. GFP_ATOMIC);
  3648. if (NULL == sqcp->tletp)
  3649. return SCSI_MLQUEUE_HOST_BUSY;
  3650. tasklet_init(sqcp->tletp,
  3651. sdebug_q_cmd_complete, k);
  3652. }
  3653. if (-1 == delta_jiff)
  3654. tasklet_hi_schedule(sqcp->tletp);
  3655. else
  3656. tasklet_schedule(sqcp->tletp);
  3657. }
  3658. if ((SCSI_DEBUG_OPT_Q_NOISE & scsi_debug_opts) &&
  3659. (scsi_result == device_qfull_result))
  3660. sdev_printk(KERN_INFO, sdp,
  3661. "%s: num_in_q=%d +1, %s%s\n", __func__,
  3662. num_in_q, (inject ? "<inject> " : ""),
  3663. "status: TASK SET FULL");
  3664. return 0;
  3665. respond_in_thread: /* call back to mid-layer using invocation thread */
  3666. cmnd->result = scsi_result;
  3667. cmnd->scsi_done(cmnd);
  3668. return 0;
  3669. }
  3670. /* Note: The following macros create attribute files in the
  3671. /sys/module/scsi_debug/parameters directory. Unfortunately this
  3672. driver is unaware of a change and cannot trigger auxiliary actions
  3673. as it can when the corresponding attribute in the
  3674. /sys/bus/pseudo/drivers/scsi_debug directory is changed.
  3675. */
  3676. module_param_named(add_host, scsi_debug_add_host, int, S_IRUGO | S_IWUSR);
  3677. module_param_named(ato, scsi_debug_ato, int, S_IRUGO);
  3678. module_param_named(clustering, scsi_debug_clustering, bool, S_IRUGO | S_IWUSR);
  3679. module_param_named(delay, scsi_debug_delay, int, S_IRUGO | S_IWUSR);
  3680. module_param_named(dev_size_mb, scsi_debug_dev_size_mb, int, S_IRUGO);
  3681. module_param_named(dif, scsi_debug_dif, int, S_IRUGO);
  3682. module_param_named(dix, scsi_debug_dix, int, S_IRUGO);
  3683. module_param_named(dsense, scsi_debug_dsense, int, S_IRUGO | S_IWUSR);
  3684. module_param_named(every_nth, scsi_debug_every_nth, int, S_IRUGO | S_IWUSR);
  3685. module_param_named(fake_rw, scsi_debug_fake_rw, int, S_IRUGO | S_IWUSR);
  3686. module_param_named(guard, scsi_debug_guard, uint, S_IRUGO);
  3687. module_param_named(host_lock, scsi_debug_host_lock, bool, S_IRUGO | S_IWUSR);
  3688. module_param_named(lbpu, scsi_debug_lbpu, int, S_IRUGO);
  3689. module_param_named(lbpws, scsi_debug_lbpws, int, S_IRUGO);
  3690. module_param_named(lbpws10, scsi_debug_lbpws10, int, S_IRUGO);
  3691. module_param_named(lbprz, scsi_debug_lbprz, int, S_IRUGO);
  3692. module_param_named(lowest_aligned, scsi_debug_lowest_aligned, int, S_IRUGO);
  3693. module_param_named(max_luns, scsi_debug_max_luns, int, S_IRUGO | S_IWUSR);
  3694. module_param_named(max_queue, scsi_debug_max_queue, int, S_IRUGO | S_IWUSR);
  3695. module_param_named(ndelay, scsi_debug_ndelay, int, S_IRUGO | S_IWUSR);
  3696. module_param_named(no_lun_0, scsi_debug_no_lun_0, int, S_IRUGO | S_IWUSR);
  3697. module_param_named(no_uld, scsi_debug_no_uld, int, S_IRUGO);
  3698. module_param_named(num_parts, scsi_debug_num_parts, int, S_IRUGO);
  3699. module_param_named(num_tgts, scsi_debug_num_tgts, int, S_IRUGO | S_IWUSR);
  3700. module_param_named(opt_blks, scsi_debug_opt_blks, int, S_IRUGO);
  3701. module_param_named(opts, scsi_debug_opts, int, S_IRUGO | S_IWUSR);
  3702. module_param_named(physblk_exp, scsi_debug_physblk_exp, int, S_IRUGO);
  3703. module_param_named(ptype, scsi_debug_ptype, int, S_IRUGO | S_IWUSR);
  3704. module_param_named(removable, scsi_debug_removable, bool, S_IRUGO | S_IWUSR);
  3705. module_param_named(scsi_level, scsi_debug_scsi_level, int, S_IRUGO);
  3706. module_param_named(sector_size, scsi_debug_sector_size, int, S_IRUGO);
  3707. module_param_named(strict, scsi_debug_strict, bool, S_IRUGO | S_IWUSR);
  3708. module_param_named(unmap_alignment, scsi_debug_unmap_alignment, int, S_IRUGO);
  3709. module_param_named(unmap_granularity, scsi_debug_unmap_granularity, int, S_IRUGO);
  3710. module_param_named(unmap_max_blocks, scsi_debug_unmap_max_blocks, int, S_IRUGO);
  3711. module_param_named(unmap_max_desc, scsi_debug_unmap_max_desc, int, S_IRUGO);
  3712. module_param_named(virtual_gb, scsi_debug_virtual_gb, int, S_IRUGO | S_IWUSR);
  3713. module_param_named(vpd_use_hostno, scsi_debug_vpd_use_hostno, int,
  3714. S_IRUGO | S_IWUSR);
  3715. module_param_named(write_same_length, scsi_debug_write_same_length, int,
  3716. S_IRUGO | S_IWUSR);
  3717. MODULE_AUTHOR("Eric Youngdale + Douglas Gilbert");
  3718. MODULE_DESCRIPTION("SCSI debug adapter driver");
  3719. MODULE_LICENSE("GPL");
  3720. MODULE_VERSION(SCSI_DEBUG_VERSION);
  3721. MODULE_PARM_DESC(add_host, "0..127 hosts allowed(def=1)");
  3722. MODULE_PARM_DESC(ato, "application tag ownership: 0=disk 1=host (def=1)");
  3723. MODULE_PARM_DESC(clustering, "when set enables larger transfers (def=0)");
  3724. MODULE_PARM_DESC(delay, "response delay (def=1 jiffy); 0:imm, -1,-2:tiny");
  3725. MODULE_PARM_DESC(dev_size_mb, "size in MiB of ram shared by devs(def=8)");
  3726. MODULE_PARM_DESC(dif, "data integrity field type: 0-3 (def=0)");
  3727. MODULE_PARM_DESC(dix, "data integrity extensions mask (def=0)");
  3728. MODULE_PARM_DESC(dsense, "use descriptor sense format(def=0 -> fixed)");
  3729. MODULE_PARM_DESC(every_nth, "timeout every nth command(def=0)");
  3730. MODULE_PARM_DESC(fake_rw, "fake reads/writes instead of copying (def=0)");
  3731. MODULE_PARM_DESC(guard, "protection checksum: 0=crc, 1=ip (def=0)");
  3732. MODULE_PARM_DESC(host_lock, "use host_lock around all commands (def=0)");
  3733. MODULE_PARM_DESC(lbpu, "enable LBP, support UNMAP command (def=0)");
  3734. MODULE_PARM_DESC(lbpws, "enable LBP, support WRITE SAME(16) with UNMAP bit (def=0)");
  3735. MODULE_PARM_DESC(lbpws10, "enable LBP, support WRITE SAME(10) with UNMAP bit (def=0)");
  3736. MODULE_PARM_DESC(lbprz, "unmapped blocks return 0 on read (def=1)");
  3737. MODULE_PARM_DESC(lowest_aligned, "lowest aligned lba (def=0)");
  3738. MODULE_PARM_DESC(max_luns, "number of LUNs per target to simulate(def=1)");
  3739. MODULE_PARM_DESC(max_queue, "max number of queued commands (1 to max(def))");
  3740. MODULE_PARM_DESC(ndelay, "response delay in nanoseconds (def=0 -> ignore)");
  3741. MODULE_PARM_DESC(no_lun_0, "no LU number 0 (def=0 -> have lun 0)");
  3742. MODULE_PARM_DESC(no_uld, "stop ULD (e.g. sd driver) attaching (def=0))");
  3743. MODULE_PARM_DESC(num_parts, "number of partitions(def=0)");
  3744. MODULE_PARM_DESC(num_tgts, "number of targets per host to simulate(def=1)");
  3745. MODULE_PARM_DESC(opt_blks, "optimal transfer length in block (def=64)");
  3746. MODULE_PARM_DESC(opts, "1->noise, 2->medium_err, 4->timeout, 8->recovered_err... (def=0)");
  3747. MODULE_PARM_DESC(physblk_exp, "physical block exponent (def=0)");
  3748. MODULE_PARM_DESC(ptype, "SCSI peripheral type(def=0[disk])");
  3749. MODULE_PARM_DESC(removable, "claim to have removable media (def=0)");
  3750. MODULE_PARM_DESC(scsi_level, "SCSI level to simulate(def=6[SPC-4])");
  3751. MODULE_PARM_DESC(sector_size, "logical block size in bytes (def=512)");
  3752. MODULE_PARM_DESC(strict, "stricter checks: reserved field in cdb (def=0)");
  3753. MODULE_PARM_DESC(unmap_alignment, "lowest aligned thin provisioning lba (def=0)");
  3754. MODULE_PARM_DESC(unmap_granularity, "thin provisioning granularity in blocks (def=1)");
  3755. MODULE_PARM_DESC(unmap_max_blocks, "max # of blocks can be unmapped in one cmd (def=0xffffffff)");
  3756. MODULE_PARM_DESC(unmap_max_desc, "max # of ranges that can be unmapped in one cmd (def=256)");
  3757. MODULE_PARM_DESC(virtual_gb, "virtual gigabyte (GiB) size (def=0 -> use dev_size_mb)");
  3758. MODULE_PARM_DESC(vpd_use_hostno, "0 -> dev ids ignore hostno (def=1 -> unique dev ids)");
  3759. MODULE_PARM_DESC(write_same_length, "Maximum blocks per WRITE SAME cmd (def=0xffff)");
  3760. static char sdebug_info[256];
  3761. static const char * scsi_debug_info(struct Scsi_Host * shp)
  3762. {
  3763. sprintf(sdebug_info, "scsi_debug, version %s [%s], "
  3764. "dev_size_mb=%d, opts=0x%x", SCSI_DEBUG_VERSION,
  3765. scsi_debug_version_date, scsi_debug_dev_size_mb,
  3766. scsi_debug_opts);
  3767. return sdebug_info;
  3768. }
  3769. /* 'echo <val> > /proc/scsi/scsi_debug/<host_id>' writes to opts */
  3770. static int scsi_debug_write_info(struct Scsi_Host *host, char *buffer, int length)
  3771. {
  3772. char arr[16];
  3773. int opts;
  3774. int minLen = length > 15 ? 15 : length;
  3775. if (!capable(CAP_SYS_ADMIN) || !capable(CAP_SYS_RAWIO))
  3776. return -EACCES;
  3777. memcpy(arr, buffer, minLen);
  3778. arr[minLen] = '\0';
  3779. if (1 != sscanf(arr, "%d", &opts))
  3780. return -EINVAL;
  3781. scsi_debug_opts = opts;
  3782. if (scsi_debug_every_nth != 0)
  3783. atomic_set(&sdebug_cmnd_count, 0);
  3784. return length;
  3785. }
  3786. /* Output seen with 'cat /proc/scsi/scsi_debug/<host_id>'. It will be the
  3787. * same for each scsi_debug host (if more than one). Some of the counters
  3788. * output are not atomics so might be inaccurate in a busy system. */
  3789. static int scsi_debug_show_info(struct seq_file *m, struct Scsi_Host *host)
  3790. {
  3791. int f, l;
  3792. char b[32];
  3793. if (scsi_debug_every_nth > 0)
  3794. snprintf(b, sizeof(b), " (curr:%d)",
  3795. ((SCSI_DEBUG_OPT_RARE_TSF & scsi_debug_opts) ?
  3796. atomic_read(&sdebug_a_tsf) :
  3797. atomic_read(&sdebug_cmnd_count)));
  3798. else
  3799. b[0] = '\0';
  3800. seq_printf(m, "scsi_debug adapter driver, version %s [%s]\n"
  3801. "num_tgts=%d, shared (ram) size=%d MB, opts=0x%x, "
  3802. "every_nth=%d%s\n"
  3803. "delay=%d, ndelay=%d, max_luns=%d, q_completions=%d\n"
  3804. "sector_size=%d bytes, cylinders=%d, heads=%d, sectors=%d\n"
  3805. "command aborts=%d; RESETs: device=%d, target=%d, bus=%d, "
  3806. "host=%d\ndix_reads=%d dix_writes=%d dif_errors=%d "
  3807. "usec_in_jiffy=%lu\n",
  3808. SCSI_DEBUG_VERSION, scsi_debug_version_date,
  3809. scsi_debug_num_tgts, scsi_debug_dev_size_mb, scsi_debug_opts,
  3810. scsi_debug_every_nth, b, scsi_debug_delay, scsi_debug_ndelay,
  3811. scsi_debug_max_luns, atomic_read(&sdebug_completions),
  3812. scsi_debug_sector_size, sdebug_cylinders_per, sdebug_heads,
  3813. sdebug_sectors_per, num_aborts, num_dev_resets,
  3814. num_target_resets, num_bus_resets, num_host_resets,
  3815. dix_reads, dix_writes, dif_errors, TICK_NSEC / 1000);
  3816. f = find_first_bit(queued_in_use_bm, scsi_debug_max_queue);
  3817. if (f != scsi_debug_max_queue) {
  3818. l = find_last_bit(queued_in_use_bm, scsi_debug_max_queue);
  3819. seq_printf(m, " %s BUSY: first,last bits set: %d,%d\n",
  3820. "queued_in_use_bm", f, l);
  3821. }
  3822. return 0;
  3823. }
  3824. static ssize_t delay_show(struct device_driver *ddp, char *buf)
  3825. {
  3826. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_delay);
  3827. }
  3828. /* Returns -EBUSY if delay is being changed and commands are queued */
  3829. static ssize_t delay_store(struct device_driver *ddp, const char *buf,
  3830. size_t count)
  3831. {
  3832. int delay, res;
  3833. if ((count > 0) && (1 == sscanf(buf, "%d", &delay))) {
  3834. res = count;
  3835. if (scsi_debug_delay != delay) {
  3836. unsigned long iflags;
  3837. int k;
  3838. spin_lock_irqsave(&queued_arr_lock, iflags);
  3839. k = find_first_bit(queued_in_use_bm,
  3840. scsi_debug_max_queue);
  3841. if (k != scsi_debug_max_queue)
  3842. res = -EBUSY; /* have queued commands */
  3843. else {
  3844. scsi_debug_delay = delay;
  3845. scsi_debug_ndelay = 0;
  3846. }
  3847. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3848. }
  3849. return res;
  3850. }
  3851. return -EINVAL;
  3852. }
  3853. static DRIVER_ATTR_RW(delay);
  3854. static ssize_t ndelay_show(struct device_driver *ddp, char *buf)
  3855. {
  3856. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_ndelay);
  3857. }
  3858. /* Returns -EBUSY if ndelay is being changed and commands are queued */
  3859. /* If > 0 and accepted then scsi_debug_delay is set to DELAY_OVERRIDDEN */
  3860. static ssize_t ndelay_store(struct device_driver *ddp, const char *buf,
  3861. size_t count)
  3862. {
  3863. unsigned long iflags;
  3864. int ndelay, res, k;
  3865. if ((count > 0) && (1 == sscanf(buf, "%d", &ndelay)) &&
  3866. (ndelay >= 0) && (ndelay < 1000000000)) {
  3867. res = count;
  3868. if (scsi_debug_ndelay != ndelay) {
  3869. spin_lock_irqsave(&queued_arr_lock, iflags);
  3870. k = find_first_bit(queued_in_use_bm,
  3871. scsi_debug_max_queue);
  3872. if (k != scsi_debug_max_queue)
  3873. res = -EBUSY; /* have queued commands */
  3874. else {
  3875. scsi_debug_ndelay = ndelay;
  3876. scsi_debug_delay = ndelay ? DELAY_OVERRIDDEN
  3877. : DEF_DELAY;
  3878. }
  3879. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  3880. }
  3881. return res;
  3882. }
  3883. return -EINVAL;
  3884. }
  3885. static DRIVER_ATTR_RW(ndelay);
  3886. static ssize_t opts_show(struct device_driver *ddp, char *buf)
  3887. {
  3888. return scnprintf(buf, PAGE_SIZE, "0x%x\n", scsi_debug_opts);
  3889. }
  3890. static ssize_t opts_store(struct device_driver *ddp, const char *buf,
  3891. size_t count)
  3892. {
  3893. int opts;
  3894. char work[20];
  3895. if (1 == sscanf(buf, "%10s", work)) {
  3896. if (0 == strncasecmp(work,"0x", 2)) {
  3897. if (1 == sscanf(&work[2], "%x", &opts))
  3898. goto opts_done;
  3899. } else {
  3900. if (1 == sscanf(work, "%d", &opts))
  3901. goto opts_done;
  3902. }
  3903. }
  3904. return -EINVAL;
  3905. opts_done:
  3906. scsi_debug_opts = opts;
  3907. if (SCSI_DEBUG_OPT_RECOVERED_ERR & opts)
  3908. sdebug_any_injecting_opt = true;
  3909. else if (SCSI_DEBUG_OPT_TRANSPORT_ERR & opts)
  3910. sdebug_any_injecting_opt = true;
  3911. else if (SCSI_DEBUG_OPT_DIF_ERR & opts)
  3912. sdebug_any_injecting_opt = true;
  3913. else if (SCSI_DEBUG_OPT_DIX_ERR & opts)
  3914. sdebug_any_injecting_opt = true;
  3915. else if (SCSI_DEBUG_OPT_SHORT_TRANSFER & opts)
  3916. sdebug_any_injecting_opt = true;
  3917. atomic_set(&sdebug_cmnd_count, 0);
  3918. atomic_set(&sdebug_a_tsf, 0);
  3919. return count;
  3920. }
  3921. static DRIVER_ATTR_RW(opts);
  3922. static ssize_t ptype_show(struct device_driver *ddp, char *buf)
  3923. {
  3924. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_ptype);
  3925. }
  3926. static ssize_t ptype_store(struct device_driver *ddp, const char *buf,
  3927. size_t count)
  3928. {
  3929. int n;
  3930. if ((count > 0) && (1 == sscanf(buf, "%d", &n)) && (n >= 0)) {
  3931. scsi_debug_ptype = n;
  3932. return count;
  3933. }
  3934. return -EINVAL;
  3935. }
  3936. static DRIVER_ATTR_RW(ptype);
  3937. static ssize_t dsense_show(struct device_driver *ddp, char *buf)
  3938. {
  3939. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_dsense);
  3940. }
  3941. static ssize_t dsense_store(struct device_driver *ddp, const char *buf,
  3942. size_t count)
  3943. {
  3944. int n;
  3945. if ((count > 0) && (1 == sscanf(buf, "%d", &n)) && (n >= 0)) {
  3946. scsi_debug_dsense = n;
  3947. return count;
  3948. }
  3949. return -EINVAL;
  3950. }
  3951. static DRIVER_ATTR_RW(dsense);
  3952. static ssize_t fake_rw_show(struct device_driver *ddp, char *buf)
  3953. {
  3954. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_fake_rw);
  3955. }
  3956. static ssize_t fake_rw_store(struct device_driver *ddp, const char *buf,
  3957. size_t count)
  3958. {
  3959. int n;
  3960. if ((count > 0) && (1 == sscanf(buf, "%d", &n)) && (n >= 0)) {
  3961. n = (n > 0);
  3962. scsi_debug_fake_rw = (scsi_debug_fake_rw > 0);
  3963. if (scsi_debug_fake_rw != n) {
  3964. if ((0 == n) && (NULL == fake_storep)) {
  3965. unsigned long sz =
  3966. (unsigned long)scsi_debug_dev_size_mb *
  3967. 1048576;
  3968. fake_storep = vmalloc(sz);
  3969. if (NULL == fake_storep) {
  3970. pr_err("%s: out of memory, 9\n",
  3971. __func__);
  3972. return -ENOMEM;
  3973. }
  3974. memset(fake_storep, 0, sz);
  3975. }
  3976. scsi_debug_fake_rw = n;
  3977. }
  3978. return count;
  3979. }
  3980. return -EINVAL;
  3981. }
  3982. static DRIVER_ATTR_RW(fake_rw);
  3983. static ssize_t no_lun_0_show(struct device_driver *ddp, char *buf)
  3984. {
  3985. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_no_lun_0);
  3986. }
  3987. static ssize_t no_lun_0_store(struct device_driver *ddp, const char *buf,
  3988. size_t count)
  3989. {
  3990. int n;
  3991. if ((count > 0) && (1 == sscanf(buf, "%d", &n)) && (n >= 0)) {
  3992. scsi_debug_no_lun_0 = n;
  3993. return count;
  3994. }
  3995. return -EINVAL;
  3996. }
  3997. static DRIVER_ATTR_RW(no_lun_0);
  3998. static ssize_t num_tgts_show(struct device_driver *ddp, char *buf)
  3999. {
  4000. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_num_tgts);
  4001. }
  4002. static ssize_t num_tgts_store(struct device_driver *ddp, const char *buf,
  4003. size_t count)
  4004. {
  4005. int n;
  4006. if ((count > 0) && (1 == sscanf(buf, "%d", &n)) && (n >= 0)) {
  4007. scsi_debug_num_tgts = n;
  4008. sdebug_max_tgts_luns();
  4009. return count;
  4010. }
  4011. return -EINVAL;
  4012. }
  4013. static DRIVER_ATTR_RW(num_tgts);
  4014. static ssize_t dev_size_mb_show(struct device_driver *ddp, char *buf)
  4015. {
  4016. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_dev_size_mb);
  4017. }
  4018. static DRIVER_ATTR_RO(dev_size_mb);
  4019. static ssize_t num_parts_show(struct device_driver *ddp, char *buf)
  4020. {
  4021. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_num_parts);
  4022. }
  4023. static DRIVER_ATTR_RO(num_parts);
  4024. static ssize_t every_nth_show(struct device_driver *ddp, char *buf)
  4025. {
  4026. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_every_nth);
  4027. }
  4028. static ssize_t every_nth_store(struct device_driver *ddp, const char *buf,
  4029. size_t count)
  4030. {
  4031. int nth;
  4032. if ((count > 0) && (1 == sscanf(buf, "%d", &nth))) {
  4033. scsi_debug_every_nth = nth;
  4034. atomic_set(&sdebug_cmnd_count, 0);
  4035. return count;
  4036. }
  4037. return -EINVAL;
  4038. }
  4039. static DRIVER_ATTR_RW(every_nth);
  4040. static ssize_t max_luns_show(struct device_driver *ddp, char *buf)
  4041. {
  4042. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_max_luns);
  4043. }
  4044. static ssize_t max_luns_store(struct device_driver *ddp, const char *buf,
  4045. size_t count)
  4046. {
  4047. int n;
  4048. bool changed;
  4049. if ((count > 0) && (1 == sscanf(buf, "%d", &n)) && (n >= 0)) {
  4050. changed = (scsi_debug_max_luns != n);
  4051. scsi_debug_max_luns = n;
  4052. sdebug_max_tgts_luns();
  4053. if (changed && (scsi_debug_scsi_level >= 5)) { /* >= SPC-3 */
  4054. struct sdebug_host_info *sdhp;
  4055. struct sdebug_dev_info *dp;
  4056. spin_lock(&sdebug_host_list_lock);
  4057. list_for_each_entry(sdhp, &sdebug_host_list,
  4058. host_list) {
  4059. list_for_each_entry(dp, &sdhp->dev_info_list,
  4060. dev_list) {
  4061. set_bit(SDEBUG_UA_LUNS_CHANGED,
  4062. dp->uas_bm);
  4063. }
  4064. }
  4065. spin_unlock(&sdebug_host_list_lock);
  4066. }
  4067. return count;
  4068. }
  4069. return -EINVAL;
  4070. }
  4071. static DRIVER_ATTR_RW(max_luns);
  4072. static ssize_t max_queue_show(struct device_driver *ddp, char *buf)
  4073. {
  4074. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_max_queue);
  4075. }
  4076. /* N.B. max_queue can be changed while there are queued commands. In flight
  4077. * commands beyond the new max_queue will be completed. */
  4078. static ssize_t max_queue_store(struct device_driver *ddp, const char *buf,
  4079. size_t count)
  4080. {
  4081. unsigned long iflags;
  4082. int n, k;
  4083. if ((count > 0) && (1 == sscanf(buf, "%d", &n)) && (n > 0) &&
  4084. (n <= SCSI_DEBUG_CANQUEUE)) {
  4085. spin_lock_irqsave(&queued_arr_lock, iflags);
  4086. k = find_last_bit(queued_in_use_bm, SCSI_DEBUG_CANQUEUE);
  4087. scsi_debug_max_queue = n;
  4088. if (SCSI_DEBUG_CANQUEUE == k)
  4089. atomic_set(&retired_max_queue, 0);
  4090. else if (k >= n)
  4091. atomic_set(&retired_max_queue, k + 1);
  4092. else
  4093. atomic_set(&retired_max_queue, 0);
  4094. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  4095. return count;
  4096. }
  4097. return -EINVAL;
  4098. }
  4099. static DRIVER_ATTR_RW(max_queue);
  4100. static ssize_t no_uld_show(struct device_driver *ddp, char *buf)
  4101. {
  4102. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_no_uld);
  4103. }
  4104. static DRIVER_ATTR_RO(no_uld);
  4105. static ssize_t scsi_level_show(struct device_driver *ddp, char *buf)
  4106. {
  4107. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_scsi_level);
  4108. }
  4109. static DRIVER_ATTR_RO(scsi_level);
  4110. static ssize_t virtual_gb_show(struct device_driver *ddp, char *buf)
  4111. {
  4112. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_virtual_gb);
  4113. }
  4114. static ssize_t virtual_gb_store(struct device_driver *ddp, const char *buf,
  4115. size_t count)
  4116. {
  4117. int n;
  4118. bool changed;
  4119. if ((count > 0) && (1 == sscanf(buf, "%d", &n)) && (n >= 0)) {
  4120. changed = (scsi_debug_virtual_gb != n);
  4121. scsi_debug_virtual_gb = n;
  4122. sdebug_capacity = get_sdebug_capacity();
  4123. if (changed) {
  4124. struct sdebug_host_info *sdhp;
  4125. struct sdebug_dev_info *dp;
  4126. spin_lock(&sdebug_host_list_lock);
  4127. list_for_each_entry(sdhp, &sdebug_host_list,
  4128. host_list) {
  4129. list_for_each_entry(dp, &sdhp->dev_info_list,
  4130. dev_list) {
  4131. set_bit(SDEBUG_UA_CAPACITY_CHANGED,
  4132. dp->uas_bm);
  4133. }
  4134. }
  4135. spin_unlock(&sdebug_host_list_lock);
  4136. }
  4137. return count;
  4138. }
  4139. return -EINVAL;
  4140. }
  4141. static DRIVER_ATTR_RW(virtual_gb);
  4142. static ssize_t add_host_show(struct device_driver *ddp, char *buf)
  4143. {
  4144. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_add_host);
  4145. }
  4146. static ssize_t add_host_store(struct device_driver *ddp, const char *buf,
  4147. size_t count)
  4148. {
  4149. int delta_hosts;
  4150. if (sscanf(buf, "%d", &delta_hosts) != 1)
  4151. return -EINVAL;
  4152. if (delta_hosts > 0) {
  4153. do {
  4154. sdebug_add_adapter();
  4155. } while (--delta_hosts);
  4156. } else if (delta_hosts < 0) {
  4157. do {
  4158. sdebug_remove_adapter();
  4159. } while (++delta_hosts);
  4160. }
  4161. return count;
  4162. }
  4163. static DRIVER_ATTR_RW(add_host);
  4164. static ssize_t vpd_use_hostno_show(struct device_driver *ddp, char *buf)
  4165. {
  4166. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_vpd_use_hostno);
  4167. }
  4168. static ssize_t vpd_use_hostno_store(struct device_driver *ddp, const char *buf,
  4169. size_t count)
  4170. {
  4171. int n;
  4172. if ((count > 0) && (1 == sscanf(buf, "%d", &n)) && (n >= 0)) {
  4173. scsi_debug_vpd_use_hostno = n;
  4174. return count;
  4175. }
  4176. return -EINVAL;
  4177. }
  4178. static DRIVER_ATTR_RW(vpd_use_hostno);
  4179. static ssize_t sector_size_show(struct device_driver *ddp, char *buf)
  4180. {
  4181. return scnprintf(buf, PAGE_SIZE, "%u\n", scsi_debug_sector_size);
  4182. }
  4183. static DRIVER_ATTR_RO(sector_size);
  4184. static ssize_t dix_show(struct device_driver *ddp, char *buf)
  4185. {
  4186. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_dix);
  4187. }
  4188. static DRIVER_ATTR_RO(dix);
  4189. static ssize_t dif_show(struct device_driver *ddp, char *buf)
  4190. {
  4191. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_dif);
  4192. }
  4193. static DRIVER_ATTR_RO(dif);
  4194. static ssize_t guard_show(struct device_driver *ddp, char *buf)
  4195. {
  4196. return scnprintf(buf, PAGE_SIZE, "%u\n", scsi_debug_guard);
  4197. }
  4198. static DRIVER_ATTR_RO(guard);
  4199. static ssize_t ato_show(struct device_driver *ddp, char *buf)
  4200. {
  4201. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_ato);
  4202. }
  4203. static DRIVER_ATTR_RO(ato);
  4204. static ssize_t map_show(struct device_driver *ddp, char *buf)
  4205. {
  4206. ssize_t count;
  4207. if (!scsi_debug_lbp())
  4208. return scnprintf(buf, PAGE_SIZE, "0-%u\n",
  4209. sdebug_store_sectors);
  4210. count = scnprintf(buf, PAGE_SIZE - 1, "%*pbl",
  4211. (int)map_size, map_storep);
  4212. buf[count++] = '\n';
  4213. buf[count] = '\0';
  4214. return count;
  4215. }
  4216. static DRIVER_ATTR_RO(map);
  4217. static ssize_t removable_show(struct device_driver *ddp, char *buf)
  4218. {
  4219. return scnprintf(buf, PAGE_SIZE, "%d\n", scsi_debug_removable ? 1 : 0);
  4220. }
  4221. static ssize_t removable_store(struct device_driver *ddp, const char *buf,
  4222. size_t count)
  4223. {
  4224. int n;
  4225. if ((count > 0) && (1 == sscanf(buf, "%d", &n)) && (n >= 0)) {
  4226. scsi_debug_removable = (n > 0);
  4227. return count;
  4228. }
  4229. return -EINVAL;
  4230. }
  4231. static DRIVER_ATTR_RW(removable);
  4232. static ssize_t host_lock_show(struct device_driver *ddp, char *buf)
  4233. {
  4234. return scnprintf(buf, PAGE_SIZE, "%d\n", !!scsi_debug_host_lock);
  4235. }
  4236. /* Returns -EBUSY if host_lock is being changed and commands are queued */
  4237. static ssize_t host_lock_store(struct device_driver *ddp, const char *buf,
  4238. size_t count)
  4239. {
  4240. int n, res;
  4241. if ((count > 0) && (1 == sscanf(buf, "%d", &n)) && (n >= 0)) {
  4242. bool new_host_lock = (n > 0);
  4243. res = count;
  4244. if (new_host_lock != scsi_debug_host_lock) {
  4245. unsigned long iflags;
  4246. int k;
  4247. spin_lock_irqsave(&queued_arr_lock, iflags);
  4248. k = find_first_bit(queued_in_use_bm,
  4249. scsi_debug_max_queue);
  4250. if (k != scsi_debug_max_queue)
  4251. res = -EBUSY; /* have queued commands */
  4252. else
  4253. scsi_debug_host_lock = new_host_lock;
  4254. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  4255. }
  4256. return res;
  4257. }
  4258. return -EINVAL;
  4259. }
  4260. static DRIVER_ATTR_RW(host_lock);
  4261. static ssize_t strict_show(struct device_driver *ddp, char *buf)
  4262. {
  4263. return scnprintf(buf, PAGE_SIZE, "%d\n", !!scsi_debug_strict);
  4264. }
  4265. static ssize_t strict_store(struct device_driver *ddp, const char *buf,
  4266. size_t count)
  4267. {
  4268. int n;
  4269. if ((count > 0) && (1 == sscanf(buf, "%d", &n)) && (n >= 0)) {
  4270. scsi_debug_strict = (n > 0);
  4271. return count;
  4272. }
  4273. return -EINVAL;
  4274. }
  4275. static DRIVER_ATTR_RW(strict);
  4276. /* Note: The following array creates attribute files in the
  4277. /sys/bus/pseudo/drivers/scsi_debug directory. The advantage of these
  4278. files (over those found in the /sys/module/scsi_debug/parameters
  4279. directory) is that auxiliary actions can be triggered when an attribute
  4280. is changed. For example see: sdebug_add_host_store() above.
  4281. */
  4282. static struct attribute *sdebug_drv_attrs[] = {
  4283. &driver_attr_delay.attr,
  4284. &driver_attr_opts.attr,
  4285. &driver_attr_ptype.attr,
  4286. &driver_attr_dsense.attr,
  4287. &driver_attr_fake_rw.attr,
  4288. &driver_attr_no_lun_0.attr,
  4289. &driver_attr_num_tgts.attr,
  4290. &driver_attr_dev_size_mb.attr,
  4291. &driver_attr_num_parts.attr,
  4292. &driver_attr_every_nth.attr,
  4293. &driver_attr_max_luns.attr,
  4294. &driver_attr_max_queue.attr,
  4295. &driver_attr_no_uld.attr,
  4296. &driver_attr_scsi_level.attr,
  4297. &driver_attr_virtual_gb.attr,
  4298. &driver_attr_add_host.attr,
  4299. &driver_attr_vpd_use_hostno.attr,
  4300. &driver_attr_sector_size.attr,
  4301. &driver_attr_dix.attr,
  4302. &driver_attr_dif.attr,
  4303. &driver_attr_guard.attr,
  4304. &driver_attr_ato.attr,
  4305. &driver_attr_map.attr,
  4306. &driver_attr_removable.attr,
  4307. &driver_attr_host_lock.attr,
  4308. &driver_attr_ndelay.attr,
  4309. &driver_attr_strict.attr,
  4310. NULL,
  4311. };
  4312. ATTRIBUTE_GROUPS(sdebug_drv);
  4313. static struct device *pseudo_primary;
  4314. static int __init scsi_debug_init(void)
  4315. {
  4316. unsigned long sz;
  4317. int host_to_add;
  4318. int k;
  4319. int ret;
  4320. atomic_set(&sdebug_cmnd_count, 0);
  4321. atomic_set(&sdebug_completions, 0);
  4322. atomic_set(&retired_max_queue, 0);
  4323. if (scsi_debug_ndelay >= 1000000000) {
  4324. pr_warn("%s: ndelay must be less than 1 second, ignored\n",
  4325. __func__);
  4326. scsi_debug_ndelay = 0;
  4327. } else if (scsi_debug_ndelay > 0)
  4328. scsi_debug_delay = DELAY_OVERRIDDEN;
  4329. switch (scsi_debug_sector_size) {
  4330. case 512:
  4331. case 1024:
  4332. case 2048:
  4333. case 4096:
  4334. break;
  4335. default:
  4336. pr_err("%s: invalid sector_size %d\n", __func__,
  4337. scsi_debug_sector_size);
  4338. return -EINVAL;
  4339. }
  4340. switch (scsi_debug_dif) {
  4341. case SD_DIF_TYPE0_PROTECTION:
  4342. case SD_DIF_TYPE1_PROTECTION:
  4343. case SD_DIF_TYPE2_PROTECTION:
  4344. case SD_DIF_TYPE3_PROTECTION:
  4345. break;
  4346. default:
  4347. pr_err("%s: dif must be 0, 1, 2 or 3\n", __func__);
  4348. return -EINVAL;
  4349. }
  4350. if (scsi_debug_guard > 1) {
  4351. pr_err("%s: guard must be 0 or 1\n", __func__);
  4352. return -EINVAL;
  4353. }
  4354. if (scsi_debug_ato > 1) {
  4355. pr_err("%s: ato must be 0 or 1\n", __func__);
  4356. return -EINVAL;
  4357. }
  4358. if (scsi_debug_physblk_exp > 15) {
  4359. pr_err("%s: invalid physblk_exp %u\n", __func__,
  4360. scsi_debug_physblk_exp);
  4361. return -EINVAL;
  4362. }
  4363. if (scsi_debug_lowest_aligned > 0x3fff) {
  4364. pr_err("%s: lowest_aligned too big: %u\n", __func__,
  4365. scsi_debug_lowest_aligned);
  4366. return -EINVAL;
  4367. }
  4368. if (scsi_debug_dev_size_mb < 1)
  4369. scsi_debug_dev_size_mb = 1; /* force minimum 1 MB ramdisk */
  4370. sz = (unsigned long)scsi_debug_dev_size_mb * 1048576;
  4371. sdebug_store_sectors = sz / scsi_debug_sector_size;
  4372. sdebug_capacity = get_sdebug_capacity();
  4373. /* play around with geometry, don't waste too much on track 0 */
  4374. sdebug_heads = 8;
  4375. sdebug_sectors_per = 32;
  4376. if (scsi_debug_dev_size_mb >= 16)
  4377. sdebug_heads = 32;
  4378. else if (scsi_debug_dev_size_mb >= 256)
  4379. sdebug_heads = 64;
  4380. sdebug_cylinders_per = (unsigned long)sdebug_capacity /
  4381. (sdebug_sectors_per * sdebug_heads);
  4382. if (sdebug_cylinders_per >= 1024) {
  4383. /* other LLDs do this; implies >= 1GB ram disk ... */
  4384. sdebug_heads = 255;
  4385. sdebug_sectors_per = 63;
  4386. sdebug_cylinders_per = (unsigned long)sdebug_capacity /
  4387. (sdebug_sectors_per * sdebug_heads);
  4388. }
  4389. if (0 == scsi_debug_fake_rw) {
  4390. fake_storep = vmalloc(sz);
  4391. if (NULL == fake_storep) {
  4392. pr_err("%s: out of memory, 1\n", __func__);
  4393. return -ENOMEM;
  4394. }
  4395. memset(fake_storep, 0, sz);
  4396. if (scsi_debug_num_parts > 0)
  4397. sdebug_build_parts(fake_storep, sz);
  4398. }
  4399. if (scsi_debug_dix) {
  4400. int dif_size;
  4401. dif_size = sdebug_store_sectors * sizeof(struct sd_dif_tuple);
  4402. dif_storep = vmalloc(dif_size);
  4403. pr_err("%s: dif_storep %u bytes @ %p\n", __func__, dif_size,
  4404. dif_storep);
  4405. if (dif_storep == NULL) {
  4406. pr_err("%s: out of mem. (DIX)\n", __func__);
  4407. ret = -ENOMEM;
  4408. goto free_vm;
  4409. }
  4410. memset(dif_storep, 0xff, dif_size);
  4411. }
  4412. /* Logical Block Provisioning */
  4413. if (scsi_debug_lbp()) {
  4414. scsi_debug_unmap_max_blocks =
  4415. clamp(scsi_debug_unmap_max_blocks, 0U, 0xffffffffU);
  4416. scsi_debug_unmap_max_desc =
  4417. clamp(scsi_debug_unmap_max_desc, 0U, 256U);
  4418. scsi_debug_unmap_granularity =
  4419. clamp(scsi_debug_unmap_granularity, 1U, 0xffffffffU);
  4420. if (scsi_debug_unmap_alignment &&
  4421. scsi_debug_unmap_granularity <=
  4422. scsi_debug_unmap_alignment) {
  4423. pr_err("%s: ERR: unmap_granularity <= unmap_alignment\n",
  4424. __func__);
  4425. return -EINVAL;
  4426. }
  4427. map_size = lba_to_map_index(sdebug_store_sectors - 1) + 1;
  4428. map_storep = vmalloc(BITS_TO_LONGS(map_size) * sizeof(long));
  4429. pr_info("%s: %lu provisioning blocks\n", __func__, map_size);
  4430. if (map_storep == NULL) {
  4431. pr_err("%s: out of mem. (MAP)\n", __func__);
  4432. ret = -ENOMEM;
  4433. goto free_vm;
  4434. }
  4435. bitmap_zero(map_storep, map_size);
  4436. /* Map first 1KB for partition table */
  4437. if (scsi_debug_num_parts)
  4438. map_region(0, 2);
  4439. }
  4440. pseudo_primary = root_device_register("pseudo_0");
  4441. if (IS_ERR(pseudo_primary)) {
  4442. pr_warn("%s: root_device_register() error\n", __func__);
  4443. ret = PTR_ERR(pseudo_primary);
  4444. goto free_vm;
  4445. }
  4446. ret = bus_register(&pseudo_lld_bus);
  4447. if (ret < 0) {
  4448. pr_warn("%s: bus_register error: %d\n", __func__, ret);
  4449. goto dev_unreg;
  4450. }
  4451. ret = driver_register(&sdebug_driverfs_driver);
  4452. if (ret < 0) {
  4453. pr_warn("%s: driver_register error: %d\n", __func__, ret);
  4454. goto bus_unreg;
  4455. }
  4456. host_to_add = scsi_debug_add_host;
  4457. scsi_debug_add_host = 0;
  4458. for (k = 0; k < host_to_add; k++) {
  4459. if (sdebug_add_adapter()) {
  4460. pr_err("%s: sdebug_add_adapter failed k=%d\n",
  4461. __func__, k);
  4462. break;
  4463. }
  4464. }
  4465. if (SCSI_DEBUG_OPT_NOISE & scsi_debug_opts) {
  4466. pr_info("%s: built %d host(s)\n", __func__,
  4467. scsi_debug_add_host);
  4468. }
  4469. return 0;
  4470. bus_unreg:
  4471. bus_unregister(&pseudo_lld_bus);
  4472. dev_unreg:
  4473. root_device_unregister(pseudo_primary);
  4474. free_vm:
  4475. if (map_storep)
  4476. vfree(map_storep);
  4477. if (dif_storep)
  4478. vfree(dif_storep);
  4479. vfree(fake_storep);
  4480. return ret;
  4481. }
  4482. static void __exit scsi_debug_exit(void)
  4483. {
  4484. int k = scsi_debug_add_host;
  4485. stop_all_queued();
  4486. free_all_queued();
  4487. for (; k; k--)
  4488. sdebug_remove_adapter();
  4489. driver_unregister(&sdebug_driverfs_driver);
  4490. bus_unregister(&pseudo_lld_bus);
  4491. root_device_unregister(pseudo_primary);
  4492. if (dif_storep)
  4493. vfree(dif_storep);
  4494. vfree(fake_storep);
  4495. }
  4496. device_initcall(scsi_debug_init);
  4497. module_exit(scsi_debug_exit);
  4498. static void sdebug_release_adapter(struct device * dev)
  4499. {
  4500. struct sdebug_host_info *sdbg_host;
  4501. sdbg_host = to_sdebug_host(dev);
  4502. kfree(sdbg_host);
  4503. }
  4504. static int sdebug_add_adapter(void)
  4505. {
  4506. int k, devs_per_host;
  4507. int error = 0;
  4508. struct sdebug_host_info *sdbg_host;
  4509. struct sdebug_dev_info *sdbg_devinfo, *tmp;
  4510. sdbg_host = kzalloc(sizeof(*sdbg_host),GFP_KERNEL);
  4511. if (NULL == sdbg_host) {
  4512. printk(KERN_ERR "%s: out of memory at line %d\n",
  4513. __func__, __LINE__);
  4514. return -ENOMEM;
  4515. }
  4516. INIT_LIST_HEAD(&sdbg_host->dev_info_list);
  4517. devs_per_host = scsi_debug_num_tgts * scsi_debug_max_luns;
  4518. for (k = 0; k < devs_per_host; k++) {
  4519. sdbg_devinfo = sdebug_device_create(sdbg_host, GFP_KERNEL);
  4520. if (!sdbg_devinfo) {
  4521. printk(KERN_ERR "%s: out of memory at line %d\n",
  4522. __func__, __LINE__);
  4523. error = -ENOMEM;
  4524. goto clean;
  4525. }
  4526. }
  4527. spin_lock(&sdebug_host_list_lock);
  4528. list_add_tail(&sdbg_host->host_list, &sdebug_host_list);
  4529. spin_unlock(&sdebug_host_list_lock);
  4530. sdbg_host->dev.bus = &pseudo_lld_bus;
  4531. sdbg_host->dev.parent = pseudo_primary;
  4532. sdbg_host->dev.release = &sdebug_release_adapter;
  4533. dev_set_name(&sdbg_host->dev, "adapter%d", scsi_debug_add_host);
  4534. error = device_register(&sdbg_host->dev);
  4535. if (error)
  4536. goto clean;
  4537. ++scsi_debug_add_host;
  4538. return error;
  4539. clean:
  4540. list_for_each_entry_safe(sdbg_devinfo, tmp, &sdbg_host->dev_info_list,
  4541. dev_list) {
  4542. list_del(&sdbg_devinfo->dev_list);
  4543. kfree(sdbg_devinfo);
  4544. }
  4545. kfree(sdbg_host);
  4546. return error;
  4547. }
  4548. static void sdebug_remove_adapter(void)
  4549. {
  4550. struct sdebug_host_info * sdbg_host = NULL;
  4551. spin_lock(&sdebug_host_list_lock);
  4552. if (!list_empty(&sdebug_host_list)) {
  4553. sdbg_host = list_entry(sdebug_host_list.prev,
  4554. struct sdebug_host_info, host_list);
  4555. list_del(&sdbg_host->host_list);
  4556. }
  4557. spin_unlock(&sdebug_host_list_lock);
  4558. if (!sdbg_host)
  4559. return;
  4560. device_unregister(&sdbg_host->dev);
  4561. --scsi_debug_add_host;
  4562. }
  4563. static int
  4564. sdebug_change_qdepth(struct scsi_device *sdev, int qdepth)
  4565. {
  4566. int num_in_q = 0;
  4567. unsigned long iflags;
  4568. struct sdebug_dev_info *devip;
  4569. spin_lock_irqsave(&queued_arr_lock, iflags);
  4570. devip = (struct sdebug_dev_info *)sdev->hostdata;
  4571. if (NULL == devip) {
  4572. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  4573. return -ENODEV;
  4574. }
  4575. num_in_q = atomic_read(&devip->num_in_q);
  4576. spin_unlock_irqrestore(&queued_arr_lock, iflags);
  4577. if (qdepth < 1)
  4578. qdepth = 1;
  4579. /* allow to exceed max host queued_arr elements for testing */
  4580. if (qdepth > SCSI_DEBUG_CANQUEUE + 10)
  4581. qdepth = SCSI_DEBUG_CANQUEUE + 10;
  4582. scsi_change_queue_depth(sdev, qdepth);
  4583. if (SCSI_DEBUG_OPT_Q_NOISE & scsi_debug_opts) {
  4584. sdev_printk(KERN_INFO, sdev,
  4585. "%s: qdepth=%d, num_in_q=%d\n",
  4586. __func__, qdepth, num_in_q);
  4587. }
  4588. return sdev->queue_depth;
  4589. }
  4590. static int
  4591. check_inject(struct scsi_cmnd *scp)
  4592. {
  4593. struct sdebug_scmd_extra_t *ep = scsi_cmd_priv(scp);
  4594. memset(ep, 0, sizeof(struct sdebug_scmd_extra_t));
  4595. if (atomic_inc_return(&sdebug_cmnd_count) >=
  4596. abs(scsi_debug_every_nth)) {
  4597. atomic_set(&sdebug_cmnd_count, 0);
  4598. if (scsi_debug_every_nth < -1)
  4599. scsi_debug_every_nth = -1;
  4600. if (SCSI_DEBUG_OPT_TIMEOUT & scsi_debug_opts)
  4601. return 1; /* ignore command causing timeout */
  4602. else if (SCSI_DEBUG_OPT_MAC_TIMEOUT & scsi_debug_opts &&
  4603. scsi_medium_access_command(scp))
  4604. return 1; /* time out reads and writes */
  4605. if (sdebug_any_injecting_opt) {
  4606. int opts = scsi_debug_opts;
  4607. if (SCSI_DEBUG_OPT_RECOVERED_ERR & opts)
  4608. ep->inj_recovered = true;
  4609. else if (SCSI_DEBUG_OPT_TRANSPORT_ERR & opts)
  4610. ep->inj_transport = true;
  4611. else if (SCSI_DEBUG_OPT_DIF_ERR & opts)
  4612. ep->inj_dif = true;
  4613. else if (SCSI_DEBUG_OPT_DIX_ERR & opts)
  4614. ep->inj_dix = true;
  4615. else if (SCSI_DEBUG_OPT_SHORT_TRANSFER & opts)
  4616. ep->inj_short = true;
  4617. }
  4618. }
  4619. return 0;
  4620. }
  4621. static int
  4622. scsi_debug_queuecommand(struct scsi_cmnd *scp)
  4623. {
  4624. u8 sdeb_i;
  4625. struct scsi_device *sdp = scp->device;
  4626. const struct opcode_info_t *oip;
  4627. const struct opcode_info_t *r_oip;
  4628. struct sdebug_dev_info *devip;
  4629. u8 *cmd = scp->cmnd;
  4630. int (*r_pfp)(struct scsi_cmnd *, struct sdebug_dev_info *);
  4631. int k, na;
  4632. int errsts = 0;
  4633. int errsts_no_connect = DID_NO_CONNECT << 16;
  4634. u32 flags;
  4635. u16 sa;
  4636. u8 opcode = cmd[0];
  4637. bool has_wlun_rl;
  4638. bool debug = !!(SCSI_DEBUG_OPT_NOISE & scsi_debug_opts);
  4639. scsi_set_resid(scp, 0);
  4640. if (debug && !(SCSI_DEBUG_OPT_NO_CDB_NOISE & scsi_debug_opts)) {
  4641. char b[120];
  4642. int n, len, sb;
  4643. len = scp->cmd_len;
  4644. sb = (int)sizeof(b);
  4645. if (len > 32)
  4646. strcpy(b, "too long, over 32 bytes");
  4647. else {
  4648. for (k = 0, n = 0; k < len && n < sb; ++k)
  4649. n += scnprintf(b + n, sb - n, "%02x ",
  4650. (u32)cmd[k]);
  4651. }
  4652. sdev_printk(KERN_INFO, sdp, "%s: cmd %s\n", my_name, b);
  4653. }
  4654. has_wlun_rl = (sdp->lun == SAM2_WLUN_REPORT_LUNS);
  4655. if ((sdp->lun >= scsi_debug_max_luns) && !has_wlun_rl)
  4656. return schedule_resp(scp, NULL, errsts_no_connect, 0);
  4657. sdeb_i = opcode_ind_arr[opcode]; /* fully mapped */
  4658. oip = &opcode_info_arr[sdeb_i]; /* safe if table consistent */
  4659. devip = (struct sdebug_dev_info *)sdp->hostdata;
  4660. if (!devip) {
  4661. devip = devInfoReg(sdp);
  4662. if (NULL == devip)
  4663. return schedule_resp(scp, NULL, errsts_no_connect, 0);
  4664. }
  4665. na = oip->num_attached;
  4666. r_pfp = oip->pfp;
  4667. if (na) { /* multiple commands with this opcode */
  4668. r_oip = oip;
  4669. if (FF_SA & r_oip->flags) {
  4670. if (F_SA_LOW & oip->flags)
  4671. sa = 0x1f & cmd[1];
  4672. else
  4673. sa = get_unaligned_be16(cmd + 8);
  4674. for (k = 0; k <= na; oip = r_oip->arrp + k++) {
  4675. if (opcode == oip->opcode && sa == oip->sa)
  4676. break;
  4677. }
  4678. } else { /* since no service action only check opcode */
  4679. for (k = 0; k <= na; oip = r_oip->arrp + k++) {
  4680. if (opcode == oip->opcode)
  4681. break;
  4682. }
  4683. }
  4684. if (k > na) {
  4685. if (F_SA_LOW & r_oip->flags)
  4686. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 1, 4);
  4687. else if (F_SA_HIGH & r_oip->flags)
  4688. mk_sense_invalid_fld(scp, SDEB_IN_CDB, 8, 7);
  4689. else
  4690. mk_sense_invalid_opcode(scp);
  4691. goto check_cond;
  4692. }
  4693. } /* else (when na==0) we assume the oip is a match */
  4694. flags = oip->flags;
  4695. if (F_INV_OP & flags) {
  4696. mk_sense_invalid_opcode(scp);
  4697. goto check_cond;
  4698. }
  4699. if (has_wlun_rl && !(F_RL_WLUN_OK & flags)) {
  4700. if (debug)
  4701. sdev_printk(KERN_INFO, sdp, "scsi_debug: Opcode: "
  4702. "0x%x not supported for wlun\n", opcode);
  4703. mk_sense_invalid_opcode(scp);
  4704. goto check_cond;
  4705. }
  4706. if (scsi_debug_strict) { /* check cdb against mask */
  4707. u8 rem;
  4708. int j;
  4709. for (k = 1; k < oip->len_mask[0] && k < 16; ++k) {
  4710. rem = ~oip->len_mask[k] & cmd[k];
  4711. if (rem) {
  4712. for (j = 7; j >= 0; --j, rem <<= 1) {
  4713. if (0x80 & rem)
  4714. break;
  4715. }
  4716. mk_sense_invalid_fld(scp, SDEB_IN_CDB, k, j);
  4717. goto check_cond;
  4718. }
  4719. }
  4720. }
  4721. if (!(F_SKIP_UA & flags) &&
  4722. SDEBUG_NUM_UAS != find_first_bit(devip->uas_bm, SDEBUG_NUM_UAS)) {
  4723. errsts = check_readiness(scp, UAS_ONLY, devip);
  4724. if (errsts)
  4725. goto check_cond;
  4726. }
  4727. if ((F_M_ACCESS & flags) && devip->stopped) {
  4728. mk_sense_buffer(scp, NOT_READY, LOGICAL_UNIT_NOT_READY, 0x2);
  4729. if (debug)
  4730. sdev_printk(KERN_INFO, sdp, "%s reports: Not ready: "
  4731. "%s\n", my_name, "initializing command "
  4732. "required");
  4733. errsts = check_condition_result;
  4734. goto fini;
  4735. }
  4736. if (scsi_debug_fake_rw && (F_FAKE_RW & flags))
  4737. goto fini;
  4738. if (scsi_debug_every_nth) {
  4739. if (check_inject(scp))
  4740. return 0; /* ignore command: make trouble */
  4741. }
  4742. if (oip->pfp) /* if this command has a resp_* function, call it */
  4743. errsts = oip->pfp(scp, devip);
  4744. else if (r_pfp) /* if leaf function ptr NULL, try the root's */
  4745. errsts = r_pfp(scp, devip);
  4746. fini:
  4747. return schedule_resp(scp, devip, errsts,
  4748. ((F_DELAY_OVERR & flags) ? 0 : scsi_debug_delay));
  4749. check_cond:
  4750. return schedule_resp(scp, devip, check_condition_result, 0);
  4751. }
  4752. static int
  4753. sdebug_queuecommand_lock_or_not(struct Scsi_Host *shost, struct scsi_cmnd *cmd)
  4754. {
  4755. if (scsi_debug_host_lock) {
  4756. unsigned long iflags;
  4757. int rc;
  4758. spin_lock_irqsave(shost->host_lock, iflags);
  4759. rc = scsi_debug_queuecommand(cmd);
  4760. spin_unlock_irqrestore(shost->host_lock, iflags);
  4761. return rc;
  4762. } else
  4763. return scsi_debug_queuecommand(cmd);
  4764. }
  4765. static struct scsi_host_template sdebug_driver_template = {
  4766. .show_info = scsi_debug_show_info,
  4767. .write_info = scsi_debug_write_info,
  4768. .proc_name = sdebug_proc_name,
  4769. .name = "SCSI DEBUG",
  4770. .info = scsi_debug_info,
  4771. .slave_alloc = scsi_debug_slave_alloc,
  4772. .slave_configure = scsi_debug_slave_configure,
  4773. .slave_destroy = scsi_debug_slave_destroy,
  4774. .ioctl = scsi_debug_ioctl,
  4775. .queuecommand = sdebug_queuecommand_lock_or_not,
  4776. .change_queue_depth = sdebug_change_qdepth,
  4777. .eh_abort_handler = scsi_debug_abort,
  4778. .eh_device_reset_handler = scsi_debug_device_reset,
  4779. .eh_target_reset_handler = scsi_debug_target_reset,
  4780. .eh_bus_reset_handler = scsi_debug_bus_reset,
  4781. .eh_host_reset_handler = scsi_debug_host_reset,
  4782. .can_queue = SCSI_DEBUG_CANQUEUE,
  4783. .this_id = 7,
  4784. .sg_tablesize = SCSI_MAX_SG_CHAIN_SEGMENTS,
  4785. .cmd_per_lun = DEF_CMD_PER_LUN,
  4786. .max_sectors = -1U,
  4787. .use_clustering = DISABLE_CLUSTERING,
  4788. .module = THIS_MODULE,
  4789. .track_queue_depth = 1,
  4790. .cmd_size = sizeof(struct sdebug_scmd_extra_t),
  4791. };
  4792. static int sdebug_driver_probe(struct device * dev)
  4793. {
  4794. int error = 0;
  4795. int opts;
  4796. struct sdebug_host_info *sdbg_host;
  4797. struct Scsi_Host *hpnt;
  4798. int host_prot;
  4799. sdbg_host = to_sdebug_host(dev);
  4800. sdebug_driver_template.can_queue = scsi_debug_max_queue;
  4801. if (scsi_debug_clustering)
  4802. sdebug_driver_template.use_clustering = ENABLE_CLUSTERING;
  4803. hpnt = scsi_host_alloc(&sdebug_driver_template, sizeof(sdbg_host));
  4804. if (NULL == hpnt) {
  4805. pr_err("%s: scsi_host_alloc failed\n", __func__);
  4806. error = -ENODEV;
  4807. return error;
  4808. }
  4809. sdbg_host->shost = hpnt;
  4810. *((struct sdebug_host_info **)hpnt->hostdata) = sdbg_host;
  4811. if ((hpnt->this_id >= 0) && (scsi_debug_num_tgts > hpnt->this_id))
  4812. hpnt->max_id = scsi_debug_num_tgts + 1;
  4813. else
  4814. hpnt->max_id = scsi_debug_num_tgts;
  4815. hpnt->max_lun = SAM2_WLUN_REPORT_LUNS; /* = scsi_debug_max_luns; */
  4816. host_prot = 0;
  4817. switch (scsi_debug_dif) {
  4818. case SD_DIF_TYPE1_PROTECTION:
  4819. host_prot = SHOST_DIF_TYPE1_PROTECTION;
  4820. if (scsi_debug_dix)
  4821. host_prot |= SHOST_DIX_TYPE1_PROTECTION;
  4822. break;
  4823. case SD_DIF_TYPE2_PROTECTION:
  4824. host_prot = SHOST_DIF_TYPE2_PROTECTION;
  4825. if (scsi_debug_dix)
  4826. host_prot |= SHOST_DIX_TYPE2_PROTECTION;
  4827. break;
  4828. case SD_DIF_TYPE3_PROTECTION:
  4829. host_prot = SHOST_DIF_TYPE3_PROTECTION;
  4830. if (scsi_debug_dix)
  4831. host_prot |= SHOST_DIX_TYPE3_PROTECTION;
  4832. break;
  4833. default:
  4834. if (scsi_debug_dix)
  4835. host_prot |= SHOST_DIX_TYPE0_PROTECTION;
  4836. break;
  4837. }
  4838. scsi_host_set_prot(hpnt, host_prot);
  4839. printk(KERN_INFO "scsi_debug: host protection%s%s%s%s%s%s%s\n",
  4840. (host_prot & SHOST_DIF_TYPE1_PROTECTION) ? " DIF1" : "",
  4841. (host_prot & SHOST_DIF_TYPE2_PROTECTION) ? " DIF2" : "",
  4842. (host_prot & SHOST_DIF_TYPE3_PROTECTION) ? " DIF3" : "",
  4843. (host_prot & SHOST_DIX_TYPE0_PROTECTION) ? " DIX0" : "",
  4844. (host_prot & SHOST_DIX_TYPE1_PROTECTION) ? " DIX1" : "",
  4845. (host_prot & SHOST_DIX_TYPE2_PROTECTION) ? " DIX2" : "",
  4846. (host_prot & SHOST_DIX_TYPE3_PROTECTION) ? " DIX3" : "");
  4847. if (scsi_debug_guard == 1)
  4848. scsi_host_set_guard(hpnt, SHOST_DIX_GUARD_IP);
  4849. else
  4850. scsi_host_set_guard(hpnt, SHOST_DIX_GUARD_CRC);
  4851. opts = scsi_debug_opts;
  4852. if (SCSI_DEBUG_OPT_RECOVERED_ERR & opts)
  4853. sdebug_any_injecting_opt = true;
  4854. else if (SCSI_DEBUG_OPT_TRANSPORT_ERR & opts)
  4855. sdebug_any_injecting_opt = true;
  4856. else if (SCSI_DEBUG_OPT_DIF_ERR & opts)
  4857. sdebug_any_injecting_opt = true;
  4858. else if (SCSI_DEBUG_OPT_DIX_ERR & opts)
  4859. sdebug_any_injecting_opt = true;
  4860. else if (SCSI_DEBUG_OPT_SHORT_TRANSFER & opts)
  4861. sdebug_any_injecting_opt = true;
  4862. error = scsi_add_host(hpnt, &sdbg_host->dev);
  4863. if (error) {
  4864. printk(KERN_ERR "%s: scsi_add_host failed\n", __func__);
  4865. error = -ENODEV;
  4866. scsi_host_put(hpnt);
  4867. } else
  4868. scsi_scan_host(hpnt);
  4869. return error;
  4870. }
  4871. static int sdebug_driver_remove(struct device * dev)
  4872. {
  4873. struct sdebug_host_info *sdbg_host;
  4874. struct sdebug_dev_info *sdbg_devinfo, *tmp;
  4875. sdbg_host = to_sdebug_host(dev);
  4876. if (!sdbg_host) {
  4877. printk(KERN_ERR "%s: Unable to locate host info\n",
  4878. __func__);
  4879. return -ENODEV;
  4880. }
  4881. scsi_remove_host(sdbg_host->shost);
  4882. list_for_each_entry_safe(sdbg_devinfo, tmp, &sdbg_host->dev_info_list,
  4883. dev_list) {
  4884. list_del(&sdbg_devinfo->dev_list);
  4885. kfree(sdbg_devinfo);
  4886. }
  4887. scsi_host_put(sdbg_host->shost);
  4888. return 0;
  4889. }
  4890. static int pseudo_lld_bus_match(struct device *dev,
  4891. struct device_driver *dev_driver)
  4892. {
  4893. return 1;
  4894. }
  4895. static struct bus_type pseudo_lld_bus = {
  4896. .name = "pseudo",
  4897. .match = pseudo_lld_bus_match,
  4898. .probe = sdebug_driver_probe,
  4899. .remove = sdebug_driver_remove,
  4900. .drv_groups = sdebug_drv_groups,
  4901. };