mspro_block.c 37 KB

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  1. // SPDX-License-Identifier: GPL-2.0-only
  2. /*
  3. * Sony MemoryStick Pro storage support
  4. *
  5. * Copyright (C) 2007 Alex Dubov <oakad@yahoo.com>
  6. *
  7. * Special thanks to Carlos Corbacho for providing various MemoryStick cards
  8. * that made this driver possible.
  9. */
  10. #include <linux/blk-mq.h>
  11. #include <linux/idr.h>
  12. #include <linux/hdreg.h>
  13. #include <linux/kthread.h>
  14. #include <linux/delay.h>
  15. #include <linux/slab.h>
  16. #include <linux/mutex.h>
  17. #include <linux/memstick.h>
  18. #include <linux/module.h>
  19. #define DRIVER_NAME "mspro_block"
  20. static int major;
  21. module_param(major, int, 0644);
  22. #define MSPRO_BLOCK_MAX_SEGS 32
  23. #define MSPRO_BLOCK_MAX_PAGES ((2 << 16) - 1)
  24. #define MSPRO_BLOCK_SIGNATURE 0xa5c3
  25. #define MSPRO_BLOCK_MAX_ATTRIBUTES 41
  26. #define MSPRO_BLOCK_PART_SHIFT 3
  27. enum {
  28. MSPRO_BLOCK_ID_SYSINFO = 0x10,
  29. MSPRO_BLOCK_ID_MODELNAME = 0x15,
  30. MSPRO_BLOCK_ID_MBR = 0x20,
  31. MSPRO_BLOCK_ID_PBR16 = 0x21,
  32. MSPRO_BLOCK_ID_PBR32 = 0x22,
  33. MSPRO_BLOCK_ID_SPECFILEVALUES1 = 0x25,
  34. MSPRO_BLOCK_ID_SPECFILEVALUES2 = 0x26,
  35. MSPRO_BLOCK_ID_DEVINFO = 0x30
  36. };
  37. struct mspro_sys_attr {
  38. size_t size;
  39. void *data;
  40. unsigned char id;
  41. char name[32];
  42. struct device_attribute dev_attr;
  43. };
  44. struct mspro_attr_entry {
  45. __be32 address;
  46. __be32 size;
  47. unsigned char id;
  48. unsigned char reserved[3];
  49. } __attribute__((packed));
  50. struct mspro_attribute {
  51. __be16 signature;
  52. unsigned short version;
  53. unsigned char count;
  54. unsigned char reserved[11];
  55. struct mspro_attr_entry entries[];
  56. } __attribute__((packed));
  57. struct mspro_sys_info {
  58. unsigned char class;
  59. unsigned char reserved0;
  60. __be16 block_size;
  61. __be16 block_count;
  62. __be16 user_block_count;
  63. __be16 page_size;
  64. unsigned char reserved1[2];
  65. unsigned char assembly_date[8];
  66. __be32 serial_number;
  67. unsigned char assembly_maker_code;
  68. unsigned char assembly_model_code[3];
  69. __be16 memory_maker_code;
  70. __be16 memory_model_code;
  71. unsigned char reserved2[4];
  72. unsigned char vcc;
  73. unsigned char vpp;
  74. __be16 controller_number;
  75. __be16 controller_function;
  76. __be16 start_sector;
  77. __be16 unit_size;
  78. unsigned char ms_sub_class;
  79. unsigned char reserved3[4];
  80. unsigned char interface_type;
  81. __be16 controller_code;
  82. unsigned char format_type;
  83. unsigned char reserved4;
  84. unsigned char device_type;
  85. unsigned char reserved5[7];
  86. unsigned char mspro_id[16];
  87. unsigned char reserved6[16];
  88. } __attribute__((packed));
  89. struct mspro_mbr {
  90. unsigned char boot_partition;
  91. unsigned char start_head;
  92. unsigned char start_sector;
  93. unsigned char start_cylinder;
  94. unsigned char partition_type;
  95. unsigned char end_head;
  96. unsigned char end_sector;
  97. unsigned char end_cylinder;
  98. unsigned int start_sectors;
  99. unsigned int sectors_per_partition;
  100. } __attribute__((packed));
  101. struct mspro_specfile {
  102. char name[8];
  103. char ext[3];
  104. unsigned char attr;
  105. unsigned char reserved[10];
  106. unsigned short time;
  107. unsigned short date;
  108. unsigned short cluster;
  109. unsigned int size;
  110. } __attribute__((packed));
  111. struct mspro_devinfo {
  112. __be16 cylinders;
  113. __be16 heads;
  114. __be16 bytes_per_track;
  115. __be16 bytes_per_sector;
  116. __be16 sectors_per_track;
  117. unsigned char reserved[6];
  118. } __attribute__((packed));
  119. struct mspro_block_data {
  120. struct memstick_dev *card;
  121. unsigned int caps;
  122. struct gendisk *disk;
  123. struct request_queue *queue;
  124. struct request *block_req;
  125. struct blk_mq_tag_set tag_set;
  126. spinlock_t q_lock;
  127. unsigned short page_size;
  128. unsigned short cylinders;
  129. unsigned short heads;
  130. unsigned short sectors_per_track;
  131. unsigned char system;
  132. unsigned char read_only:1,
  133. eject:1,
  134. data_dir:1,
  135. active:1;
  136. unsigned char transfer_cmd;
  137. int (*mrq_handler)(struct memstick_dev *card,
  138. struct memstick_request **mrq);
  139. /* Default request setup function for data access method preferred by
  140. * this host instance.
  141. */
  142. void (*setup_transfer)(struct memstick_dev *card,
  143. u64 offset, size_t length);
  144. struct attribute_group attr_group;
  145. struct scatterlist req_sg[MSPRO_BLOCK_MAX_SEGS];
  146. unsigned int seg_count;
  147. unsigned int current_seg;
  148. unsigned int current_page;
  149. };
  150. static DEFINE_IDR(mspro_block_disk_idr);
  151. static DEFINE_MUTEX(mspro_block_disk_lock);
  152. static int mspro_block_complete_req(struct memstick_dev *card, int error);
  153. /*** Block device ***/
  154. static void mspro_block_bd_free_disk(struct gendisk *disk)
  155. {
  156. struct mspro_block_data *msb = disk->private_data;
  157. int disk_id = MINOR(disk_devt(disk)) >> MSPRO_BLOCK_PART_SHIFT;
  158. mutex_lock(&mspro_block_disk_lock);
  159. idr_remove(&mspro_block_disk_idr, disk_id);
  160. mutex_unlock(&mspro_block_disk_lock);
  161. kfree(msb);
  162. }
  163. static int mspro_block_bd_getgeo(struct gendisk *disk,
  164. struct hd_geometry *geo)
  165. {
  166. struct mspro_block_data *msb = disk->private_data;
  167. geo->heads = msb->heads;
  168. geo->sectors = msb->sectors_per_track;
  169. geo->cylinders = msb->cylinders;
  170. return 0;
  171. }
  172. static const struct block_device_operations ms_block_bdops = {
  173. .owner = THIS_MODULE,
  174. .getgeo = mspro_block_bd_getgeo,
  175. .free_disk = mspro_block_bd_free_disk,
  176. };
  177. /*** Information ***/
  178. static struct mspro_sys_attr *mspro_from_sysfs_attr(struct attribute *attr)
  179. {
  180. struct device_attribute *dev_attr
  181. = container_of(attr, struct device_attribute, attr);
  182. return container_of(dev_attr, struct mspro_sys_attr, dev_attr);
  183. }
  184. static const char *mspro_block_attr_name(unsigned char tag)
  185. {
  186. switch (tag) {
  187. case MSPRO_BLOCK_ID_SYSINFO:
  188. return "attr_sysinfo";
  189. case MSPRO_BLOCK_ID_MODELNAME:
  190. return "attr_modelname";
  191. case MSPRO_BLOCK_ID_MBR:
  192. return "attr_mbr";
  193. case MSPRO_BLOCK_ID_PBR16:
  194. return "attr_pbr16";
  195. case MSPRO_BLOCK_ID_PBR32:
  196. return "attr_pbr32";
  197. case MSPRO_BLOCK_ID_SPECFILEVALUES1:
  198. return "attr_specfilevalues1";
  199. case MSPRO_BLOCK_ID_SPECFILEVALUES2:
  200. return "attr_specfilevalues2";
  201. case MSPRO_BLOCK_ID_DEVINFO:
  202. return "attr_devinfo";
  203. default:
  204. return NULL;
  205. }
  206. }
  207. typedef ssize_t (*sysfs_show_t)(struct device *dev,
  208. struct device_attribute *attr,
  209. char *buffer);
  210. static ssize_t mspro_block_attr_show_default(struct device *dev,
  211. struct device_attribute *attr,
  212. char *buffer)
  213. {
  214. struct mspro_sys_attr *s_attr = container_of(attr,
  215. struct mspro_sys_attr,
  216. dev_attr);
  217. ssize_t cnt, rc = 0;
  218. for (cnt = 0; cnt < s_attr->size; cnt++) {
  219. if (cnt && !(cnt % 16)) {
  220. if (PAGE_SIZE - rc)
  221. buffer[rc++] = '\n';
  222. }
  223. rc += sysfs_emit_at(buffer, rc, "%02x ",
  224. ((unsigned char *)s_attr->data)[cnt]);
  225. }
  226. return rc;
  227. }
  228. static ssize_t mspro_block_attr_show_sysinfo(struct device *dev,
  229. struct device_attribute *attr,
  230. char *buffer)
  231. {
  232. struct mspro_sys_attr *x_attr = container_of(attr,
  233. struct mspro_sys_attr,
  234. dev_attr);
  235. struct mspro_sys_info *x_sys = x_attr->data;
  236. ssize_t rc = 0;
  237. int date_tz = 0, date_tz_f = 0;
  238. if (x_sys->assembly_date[0] > 0x80U) {
  239. date_tz = (~x_sys->assembly_date[0]) + 1;
  240. date_tz_f = date_tz & 3;
  241. date_tz >>= 2;
  242. date_tz = -date_tz;
  243. date_tz_f *= 15;
  244. } else if (x_sys->assembly_date[0] < 0x80U) {
  245. date_tz = x_sys->assembly_date[0];
  246. date_tz_f = date_tz & 3;
  247. date_tz >>= 2;
  248. date_tz_f *= 15;
  249. }
  250. rc += sysfs_emit_at(buffer, rc, "class: %x\n", x_sys->class);
  251. rc += sysfs_emit_at(buffer, rc, "block size: %x\n", be16_to_cpu(x_sys->block_size));
  252. rc += sysfs_emit_at(buffer, rc, "block count: %x\n", be16_to_cpu(x_sys->block_count));
  253. rc += sysfs_emit_at(buffer, rc, "user block count: %x\n",
  254. be16_to_cpu(x_sys->user_block_count));
  255. rc += sysfs_emit_at(buffer, rc, "page size: %x\n", be16_to_cpu(x_sys->page_size));
  256. rc += sysfs_emit_at(buffer, rc, "assembly date: GMT%+d:%d %04u-%02u-%02u %02u:%02u:%02u\n",
  257. date_tz, date_tz_f,
  258. be16_to_cpup((__be16 *)&x_sys->assembly_date[1]),
  259. x_sys->assembly_date[3], x_sys->assembly_date[4],
  260. x_sys->assembly_date[5], x_sys->assembly_date[6],
  261. x_sys->assembly_date[7]);
  262. rc += sysfs_emit_at(buffer, rc, "serial number: %x\n", be32_to_cpu(x_sys->serial_number));
  263. rc += sysfs_emit_at(buffer, rc, "assembly maker code: %x\n", x_sys->assembly_maker_code);
  264. rc += sysfs_emit_at(buffer, rc, "assembly model code: %02x%02x%02x\n",
  265. x_sys->assembly_model_code[0],
  266. x_sys->assembly_model_code[1],
  267. x_sys->assembly_model_code[2]);
  268. rc += sysfs_emit_at(buffer, rc, "memory maker code: %x\n",
  269. be16_to_cpu(x_sys->memory_maker_code));
  270. rc += sysfs_emit_at(buffer, rc, "memory model code: %x\n",
  271. be16_to_cpu(x_sys->memory_model_code));
  272. rc += sysfs_emit_at(buffer, rc, "vcc: %x\n", x_sys->vcc);
  273. rc += sysfs_emit_at(buffer, rc, "vpp: %x\n", x_sys->vpp);
  274. rc += sysfs_emit_at(buffer, rc, "controller number: %x\n",
  275. be16_to_cpu(x_sys->controller_number));
  276. rc += sysfs_emit_at(buffer, rc, "controller function: %x\n",
  277. be16_to_cpu(x_sys->controller_function));
  278. rc += sysfs_emit_at(buffer, rc, "start sector: %x\n", be16_to_cpu(x_sys->start_sector));
  279. rc += sysfs_emit_at(buffer, rc, "unit size: %x\n", be16_to_cpu(x_sys->unit_size));
  280. rc += sysfs_emit_at(buffer, rc, "sub class: %x\n", x_sys->ms_sub_class);
  281. rc += sysfs_emit_at(buffer, rc, "interface type: %x\n", x_sys->interface_type);
  282. rc += sysfs_emit_at(buffer, rc, "controller code: %x\n",
  283. be16_to_cpu(x_sys->controller_code));
  284. rc += sysfs_emit_at(buffer, rc, "format type: %x\n", x_sys->format_type);
  285. rc += sysfs_emit_at(buffer, rc, "device type: %x\n", x_sys->device_type);
  286. rc += sysfs_emit_at(buffer, rc, "mspro id: %s\n", x_sys->mspro_id);
  287. return rc;
  288. }
  289. static ssize_t mspro_block_attr_show_modelname(struct device *dev,
  290. struct device_attribute *attr,
  291. char *buffer)
  292. {
  293. struct mspro_sys_attr *s_attr = container_of(attr,
  294. struct mspro_sys_attr,
  295. dev_attr);
  296. return sysfs_emit(buffer, "%s", (char *)s_attr->data);
  297. }
  298. static ssize_t mspro_block_attr_show_mbr(struct device *dev,
  299. struct device_attribute *attr,
  300. char *buffer)
  301. {
  302. struct mspro_sys_attr *x_attr = container_of(attr,
  303. struct mspro_sys_attr,
  304. dev_attr);
  305. struct mspro_mbr *x_mbr = x_attr->data;
  306. ssize_t rc = 0;
  307. rc += sysfs_emit_at(buffer, rc, "boot partition: %x\n", x_mbr->boot_partition);
  308. rc += sysfs_emit_at(buffer, rc, "start head: %x\n", x_mbr->start_head);
  309. rc += sysfs_emit_at(buffer, rc, "start sector: %x\n", x_mbr->start_sector);
  310. rc += sysfs_emit_at(buffer, rc, "start cylinder: %x\n", x_mbr->start_cylinder);
  311. rc += sysfs_emit_at(buffer, rc, "partition type: %x\n", x_mbr->partition_type);
  312. rc += sysfs_emit_at(buffer, rc, "end head: %x\n", x_mbr->end_head);
  313. rc += sysfs_emit_at(buffer, rc, "end sector: %x\n", x_mbr->end_sector);
  314. rc += sysfs_emit_at(buffer, rc, "end cylinder: %x\n", x_mbr->end_cylinder);
  315. rc += sysfs_emit_at(buffer, rc, "start sectors: %x\n", x_mbr->start_sectors);
  316. rc += sysfs_emit_at(buffer, rc, "sectors per partition: %x\n",
  317. x_mbr->sectors_per_partition);
  318. return rc;
  319. }
  320. static ssize_t mspro_block_attr_show_specfile(struct device *dev,
  321. struct device_attribute *attr,
  322. char *buffer)
  323. {
  324. struct mspro_sys_attr *x_attr = container_of(attr,
  325. struct mspro_sys_attr,
  326. dev_attr);
  327. struct mspro_specfile *x_spfile = x_attr->data;
  328. char name[9], ext[4];
  329. ssize_t rc = 0;
  330. memcpy(name, x_spfile->name, 8);
  331. name[8] = 0;
  332. memcpy(ext, x_spfile->ext, 3);
  333. ext[3] = 0;
  334. rc += sysfs_emit_at(buffer, rc, "name: %s\n", name);
  335. rc += sysfs_emit_at(buffer, rc, "ext: %s\n", ext);
  336. rc += sysfs_emit_at(buffer, rc, "attribute: %x\n", x_spfile->attr);
  337. rc += sysfs_emit_at(buffer, rc, "time: %d:%d:%d\n",
  338. x_spfile->time >> 11,
  339. (x_spfile->time >> 5) & 0x3f,
  340. (x_spfile->time & 0x1f) * 2);
  341. rc += sysfs_emit_at(buffer, rc, "date: %d-%d-%d\n",
  342. (x_spfile->date >> 9) + 1980,
  343. (x_spfile->date >> 5) & 0xf,
  344. x_spfile->date & 0x1f);
  345. rc += sysfs_emit_at(buffer, rc, "start cluster: %x\n", x_spfile->cluster);
  346. rc += sysfs_emit_at(buffer, rc, "size: %x\n", x_spfile->size);
  347. return rc;
  348. }
  349. static ssize_t mspro_block_attr_show_devinfo(struct device *dev,
  350. struct device_attribute *attr,
  351. char *buffer)
  352. {
  353. struct mspro_sys_attr *x_attr = container_of(attr,
  354. struct mspro_sys_attr,
  355. dev_attr);
  356. struct mspro_devinfo *x_devinfo = x_attr->data;
  357. ssize_t rc = 0;
  358. rc += sysfs_emit_at(buffer, rc, "cylinders: %x\n", be16_to_cpu(x_devinfo->cylinders));
  359. rc += sysfs_emit_at(buffer, rc, "heads: %x\n", be16_to_cpu(x_devinfo->heads));
  360. rc += sysfs_emit_at(buffer, rc, "bytes per track: %x\n",
  361. be16_to_cpu(x_devinfo->bytes_per_track));
  362. rc += sysfs_emit_at(buffer, rc, "bytes per sector: %x\n",
  363. be16_to_cpu(x_devinfo->bytes_per_sector));
  364. rc += sysfs_emit_at(buffer, rc, "sectors per track: %x\n",
  365. be16_to_cpu(x_devinfo->sectors_per_track));
  366. return rc;
  367. }
  368. static sysfs_show_t mspro_block_attr_show(unsigned char tag)
  369. {
  370. switch (tag) {
  371. case MSPRO_BLOCK_ID_SYSINFO:
  372. return mspro_block_attr_show_sysinfo;
  373. case MSPRO_BLOCK_ID_MODELNAME:
  374. return mspro_block_attr_show_modelname;
  375. case MSPRO_BLOCK_ID_MBR:
  376. return mspro_block_attr_show_mbr;
  377. case MSPRO_BLOCK_ID_SPECFILEVALUES1:
  378. case MSPRO_BLOCK_ID_SPECFILEVALUES2:
  379. return mspro_block_attr_show_specfile;
  380. case MSPRO_BLOCK_ID_DEVINFO:
  381. return mspro_block_attr_show_devinfo;
  382. default:
  383. return mspro_block_attr_show_default;
  384. }
  385. }
  386. /*** Protocol handlers ***/
  387. /*
  388. * Functions prefixed with "h_" are protocol callbacks. They can be called from
  389. * interrupt context. Return value of 0 means that request processing is still
  390. * ongoing, while special error value of -EAGAIN means that current request is
  391. * finished (and request processor should come back some time later).
  392. */
  393. static int h_mspro_block_req_init(struct memstick_dev *card,
  394. struct memstick_request **mrq)
  395. {
  396. struct mspro_block_data *msb = memstick_get_drvdata(card);
  397. *mrq = &card->current_mrq;
  398. card->next_request = msb->mrq_handler;
  399. return 0;
  400. }
  401. static int h_mspro_block_default(struct memstick_dev *card,
  402. struct memstick_request **mrq)
  403. {
  404. return mspro_block_complete_req(card, (*mrq)->error);
  405. }
  406. static int h_mspro_block_default_bad(struct memstick_dev *card,
  407. struct memstick_request **mrq)
  408. {
  409. return -ENXIO;
  410. }
  411. static int h_mspro_block_get_ro(struct memstick_dev *card,
  412. struct memstick_request **mrq)
  413. {
  414. struct mspro_block_data *msb = memstick_get_drvdata(card);
  415. if (!(*mrq)->error) {
  416. if ((*mrq)->data[offsetof(struct ms_status_register, status0)]
  417. & MEMSTICK_STATUS0_WP)
  418. msb->read_only = 1;
  419. else
  420. msb->read_only = 0;
  421. }
  422. return mspro_block_complete_req(card, (*mrq)->error);
  423. }
  424. static int h_mspro_block_wait_for_ced(struct memstick_dev *card,
  425. struct memstick_request **mrq)
  426. {
  427. dev_dbg(&card->dev, "wait for ced: value %x\n", (*mrq)->data[0]);
  428. if (!(*mrq)->error) {
  429. if ((*mrq)->data[0] & (MEMSTICK_INT_CMDNAK | MEMSTICK_INT_ERR))
  430. (*mrq)->error = -EFAULT;
  431. else if (!((*mrq)->data[0] & MEMSTICK_INT_CED))
  432. return 0;
  433. }
  434. return mspro_block_complete_req(card, (*mrq)->error);
  435. }
  436. static int h_mspro_block_transfer_data(struct memstick_dev *card,
  437. struct memstick_request **mrq)
  438. {
  439. struct mspro_block_data *msb = memstick_get_drvdata(card);
  440. unsigned char t_val = 0;
  441. struct scatterlist t_sg = { 0 };
  442. size_t t_offset;
  443. if ((*mrq)->error)
  444. return mspro_block_complete_req(card, (*mrq)->error);
  445. switch ((*mrq)->tpc) {
  446. case MS_TPC_WRITE_REG:
  447. memstick_init_req(*mrq, MS_TPC_SET_CMD, &msb->transfer_cmd, 1);
  448. (*mrq)->need_card_int = 1;
  449. return 0;
  450. case MS_TPC_SET_CMD:
  451. t_val = (*mrq)->int_reg;
  452. memstick_init_req(*mrq, MS_TPC_GET_INT, NULL, 1);
  453. if (msb->caps & MEMSTICK_CAP_AUTO_GET_INT)
  454. goto has_int_reg;
  455. return 0;
  456. case MS_TPC_GET_INT:
  457. t_val = (*mrq)->data[0];
  458. has_int_reg:
  459. if (t_val & (MEMSTICK_INT_CMDNAK | MEMSTICK_INT_ERR)) {
  460. t_val = MSPRO_CMD_STOP;
  461. memstick_init_req(*mrq, MS_TPC_SET_CMD, &t_val, 1);
  462. card->next_request = h_mspro_block_default;
  463. return 0;
  464. }
  465. if (msb->current_page
  466. == (msb->req_sg[msb->current_seg].length
  467. / msb->page_size)) {
  468. msb->current_page = 0;
  469. msb->current_seg++;
  470. if (msb->current_seg == msb->seg_count) {
  471. if (t_val & MEMSTICK_INT_CED) {
  472. return mspro_block_complete_req(card,
  473. 0);
  474. } else {
  475. card->next_request
  476. = h_mspro_block_wait_for_ced;
  477. memstick_init_req(*mrq, MS_TPC_GET_INT,
  478. NULL, 1);
  479. return 0;
  480. }
  481. }
  482. }
  483. if (!(t_val & MEMSTICK_INT_BREQ)) {
  484. memstick_init_req(*mrq, MS_TPC_GET_INT, NULL, 1);
  485. return 0;
  486. }
  487. t_offset = msb->req_sg[msb->current_seg].offset;
  488. t_offset += msb->current_page * msb->page_size;
  489. sg_set_page(&t_sg,
  490. sg_page(&(msb->req_sg[msb->current_seg])) + (t_offset >> PAGE_SHIFT),
  491. msb->page_size, offset_in_page(t_offset));
  492. memstick_init_req_sg(*mrq, msb->data_dir == READ
  493. ? MS_TPC_READ_LONG_DATA
  494. : MS_TPC_WRITE_LONG_DATA,
  495. &t_sg);
  496. (*mrq)->need_card_int = 1;
  497. return 0;
  498. case MS_TPC_READ_LONG_DATA:
  499. case MS_TPC_WRITE_LONG_DATA:
  500. msb->current_page++;
  501. if (msb->caps & MEMSTICK_CAP_AUTO_GET_INT) {
  502. t_val = (*mrq)->int_reg;
  503. goto has_int_reg;
  504. } else {
  505. memstick_init_req(*mrq, MS_TPC_GET_INT, NULL, 1);
  506. return 0;
  507. }
  508. default:
  509. BUG();
  510. }
  511. }
  512. /*** Transfer setup functions for different access methods. ***/
  513. /** Setup data transfer request for SET_CMD TPC with arguments in card
  514. * registers.
  515. *
  516. * @card Current media instance
  517. * @offset Target data offset in bytes
  518. * @length Required transfer length in bytes.
  519. */
  520. static void h_mspro_block_setup_cmd(struct memstick_dev *card, u64 offset,
  521. size_t length)
  522. {
  523. struct mspro_block_data *msb = memstick_get_drvdata(card);
  524. struct mspro_param_register param = {
  525. .system = msb->system,
  526. .data_count = cpu_to_be16((uint16_t)(length / msb->page_size)),
  527. /* ISO C90 warning precludes direct initialization for now. */
  528. .data_address = 0,
  529. .tpc_param = 0
  530. };
  531. do_div(offset, msb->page_size);
  532. param.data_address = cpu_to_be32((uint32_t)offset);
  533. card->next_request = h_mspro_block_req_init;
  534. msb->mrq_handler = h_mspro_block_transfer_data;
  535. memstick_init_req(&card->current_mrq, MS_TPC_WRITE_REG,
  536. &param, sizeof(param));
  537. }
  538. /*** Data transfer ***/
  539. static int mspro_block_issue_req(struct memstick_dev *card)
  540. {
  541. struct mspro_block_data *msb = memstick_get_drvdata(card);
  542. u64 t_off;
  543. unsigned int count;
  544. while (true) {
  545. msb->current_page = 0;
  546. msb->current_seg = 0;
  547. msb->seg_count = blk_rq_map_sg(msb->block_req, msb->req_sg);
  548. if (!msb->seg_count) {
  549. unsigned int bytes = blk_rq_cur_bytes(msb->block_req);
  550. bool chunk;
  551. chunk = blk_update_request(msb->block_req,
  552. BLK_STS_RESOURCE,
  553. bytes);
  554. if (chunk)
  555. continue;
  556. __blk_mq_end_request(msb->block_req,
  557. BLK_STS_RESOURCE);
  558. msb->block_req = NULL;
  559. return -EAGAIN;
  560. }
  561. t_off = blk_rq_pos(msb->block_req);
  562. t_off <<= 9;
  563. count = blk_rq_bytes(msb->block_req);
  564. msb->setup_transfer(card, t_off, count);
  565. msb->data_dir = rq_data_dir(msb->block_req);
  566. msb->transfer_cmd = msb->data_dir == READ
  567. ? MSPRO_CMD_READ_DATA
  568. : MSPRO_CMD_WRITE_DATA;
  569. memstick_new_req(card->host);
  570. return 0;
  571. }
  572. }
  573. static int mspro_block_complete_req(struct memstick_dev *card, int error)
  574. {
  575. struct mspro_block_data *msb = memstick_get_drvdata(card);
  576. int cnt;
  577. bool chunk;
  578. unsigned int t_len = 0;
  579. unsigned long flags;
  580. spin_lock_irqsave(&msb->q_lock, flags);
  581. dev_dbg(&card->dev, "complete %d, %d\n", msb->block_req ? 1 : 0,
  582. error);
  583. if (msb->block_req) {
  584. /* Nothing to do - not really an error */
  585. if (error == -EAGAIN)
  586. error = 0;
  587. if (error || (card->current_mrq.tpc == MSPRO_CMD_STOP)) {
  588. if (msb->data_dir == READ) {
  589. for (cnt = 0; cnt < msb->current_seg; cnt++) {
  590. t_len += msb->req_sg[cnt].length
  591. / msb->page_size;
  592. if (msb->current_page)
  593. t_len += msb->current_page - 1;
  594. t_len *= msb->page_size;
  595. }
  596. }
  597. } else
  598. t_len = blk_rq_bytes(msb->block_req);
  599. dev_dbg(&card->dev, "transferred %x (%d)\n", t_len, error);
  600. if (error && !t_len)
  601. t_len = blk_rq_cur_bytes(msb->block_req);
  602. chunk = blk_update_request(msb->block_req,
  603. errno_to_blk_status(error), t_len);
  604. if (chunk) {
  605. error = mspro_block_issue_req(card);
  606. if (!error)
  607. goto out;
  608. } else {
  609. __blk_mq_end_request(msb->block_req,
  610. errno_to_blk_status(error));
  611. msb->block_req = NULL;
  612. }
  613. } else {
  614. if (!error)
  615. error = -EAGAIN;
  616. }
  617. card->next_request = h_mspro_block_default_bad;
  618. complete_all(&card->mrq_complete);
  619. out:
  620. spin_unlock_irqrestore(&msb->q_lock, flags);
  621. return error;
  622. }
  623. static void mspro_block_stop(struct memstick_dev *card)
  624. {
  625. struct mspro_block_data *msb = memstick_get_drvdata(card);
  626. int rc = 0;
  627. unsigned long flags;
  628. while (1) {
  629. spin_lock_irqsave(&msb->q_lock, flags);
  630. if (!msb->block_req) {
  631. blk_mq_stop_hw_queues(msb->queue);
  632. rc = 1;
  633. }
  634. spin_unlock_irqrestore(&msb->q_lock, flags);
  635. if (rc)
  636. break;
  637. wait_for_completion(&card->mrq_complete);
  638. }
  639. }
  640. static void mspro_block_start(struct memstick_dev *card)
  641. {
  642. struct mspro_block_data *msb = memstick_get_drvdata(card);
  643. blk_mq_start_hw_queues(msb->queue);
  644. }
  645. static blk_status_t mspro_queue_rq(struct blk_mq_hw_ctx *hctx,
  646. const struct blk_mq_queue_data *bd)
  647. {
  648. struct memstick_dev *card = hctx->queue->queuedata;
  649. struct mspro_block_data *msb = memstick_get_drvdata(card);
  650. spin_lock_irq(&msb->q_lock);
  651. if (msb->block_req) {
  652. spin_unlock_irq(&msb->q_lock);
  653. return BLK_STS_DEV_RESOURCE;
  654. }
  655. if (msb->eject) {
  656. spin_unlock_irq(&msb->q_lock);
  657. blk_mq_start_request(bd->rq);
  658. return BLK_STS_IOERR;
  659. }
  660. msb->block_req = bd->rq;
  661. blk_mq_start_request(bd->rq);
  662. if (mspro_block_issue_req(card))
  663. msb->block_req = NULL;
  664. spin_unlock_irq(&msb->q_lock);
  665. return BLK_STS_OK;
  666. }
  667. /*** Initialization ***/
  668. static int mspro_block_wait_for_ced(struct memstick_dev *card)
  669. {
  670. struct mspro_block_data *msb = memstick_get_drvdata(card);
  671. card->next_request = h_mspro_block_req_init;
  672. msb->mrq_handler = h_mspro_block_wait_for_ced;
  673. memstick_init_req(&card->current_mrq, MS_TPC_GET_INT, NULL, 1);
  674. memstick_new_req(card->host);
  675. wait_for_completion(&card->mrq_complete);
  676. return card->current_mrq.error;
  677. }
  678. static int mspro_block_set_interface(struct memstick_dev *card,
  679. unsigned char sys_reg)
  680. {
  681. struct memstick_host *host = card->host;
  682. struct mspro_block_data *msb = memstick_get_drvdata(card);
  683. struct mspro_param_register param = {
  684. .system = sys_reg,
  685. .data_count = 0,
  686. .data_address = 0,
  687. .tpc_param = 0
  688. };
  689. card->next_request = h_mspro_block_req_init;
  690. msb->mrq_handler = h_mspro_block_default;
  691. memstick_init_req(&card->current_mrq, MS_TPC_WRITE_REG, &param,
  692. sizeof(param));
  693. memstick_new_req(host);
  694. wait_for_completion(&card->mrq_complete);
  695. return card->current_mrq.error;
  696. }
  697. static int mspro_block_switch_interface(struct memstick_dev *card)
  698. {
  699. struct memstick_host *host = card->host;
  700. struct mspro_block_data *msb = memstick_get_drvdata(card);
  701. int rc = 0;
  702. try_again:
  703. if (msb->caps & MEMSTICK_CAP_PAR4)
  704. rc = mspro_block_set_interface(card, MEMSTICK_SYS_PAR4);
  705. else
  706. return 0;
  707. if (rc) {
  708. printk(KERN_WARNING
  709. "%s: could not switch to 4-bit mode, error %d\n",
  710. dev_name(&card->dev), rc);
  711. return 0;
  712. }
  713. msb->system = MEMSTICK_SYS_PAR4;
  714. host->set_param(host, MEMSTICK_INTERFACE, MEMSTICK_PAR4);
  715. printk(KERN_INFO "%s: switching to 4-bit parallel mode\n",
  716. dev_name(&card->dev));
  717. if (msb->caps & MEMSTICK_CAP_PAR8) {
  718. rc = mspro_block_set_interface(card, MEMSTICK_SYS_PAR8);
  719. if (!rc) {
  720. msb->system = MEMSTICK_SYS_PAR8;
  721. host->set_param(host, MEMSTICK_INTERFACE,
  722. MEMSTICK_PAR8);
  723. printk(KERN_INFO
  724. "%s: switching to 8-bit parallel mode\n",
  725. dev_name(&card->dev));
  726. } else
  727. printk(KERN_WARNING
  728. "%s: could not switch to 8-bit mode, error %d\n",
  729. dev_name(&card->dev), rc);
  730. }
  731. card->next_request = h_mspro_block_req_init;
  732. msb->mrq_handler = h_mspro_block_default;
  733. memstick_init_req(&card->current_mrq, MS_TPC_GET_INT, NULL, 1);
  734. memstick_new_req(card->host);
  735. wait_for_completion(&card->mrq_complete);
  736. rc = card->current_mrq.error;
  737. if (rc) {
  738. printk(KERN_WARNING
  739. "%s: interface error, trying to fall back to serial\n",
  740. dev_name(&card->dev));
  741. msb->system = MEMSTICK_SYS_SERIAL;
  742. host->set_param(host, MEMSTICK_POWER, MEMSTICK_POWER_OFF);
  743. msleep(10);
  744. host->set_param(host, MEMSTICK_POWER, MEMSTICK_POWER_ON);
  745. host->set_param(host, MEMSTICK_INTERFACE, MEMSTICK_SERIAL);
  746. rc = memstick_set_rw_addr(card);
  747. if (!rc)
  748. rc = mspro_block_set_interface(card, msb->system);
  749. if (!rc) {
  750. msleep(150);
  751. rc = mspro_block_wait_for_ced(card);
  752. if (rc)
  753. return rc;
  754. if (msb->caps & MEMSTICK_CAP_PAR8) {
  755. msb->caps &= ~MEMSTICK_CAP_PAR8;
  756. goto try_again;
  757. }
  758. }
  759. }
  760. return rc;
  761. }
  762. /* Memory allocated for attributes by this function should be freed by
  763. * mspro_block_data_clear, no matter if the initialization process succeeded
  764. * or failed.
  765. */
  766. static int mspro_block_read_attributes(struct memstick_dev *card)
  767. {
  768. struct mspro_block_data *msb = memstick_get_drvdata(card);
  769. struct mspro_attribute *attr = NULL;
  770. struct mspro_sys_attr *s_attr = NULL;
  771. unsigned char *buffer = NULL;
  772. int cnt, rc, attr_count;
  773. /* While normally physical device offsets, represented here by
  774. * attr_offset and attr_len will be of large numeric types, we can be
  775. * sure, that attributes are close enough to the beginning of the
  776. * device, to save ourselves some trouble.
  777. */
  778. unsigned int addr, attr_offset = 0, attr_len = msb->page_size;
  779. attr = kmalloc(msb->page_size, GFP_KERNEL);
  780. if (!attr)
  781. return -ENOMEM;
  782. sg_init_one(&msb->req_sg[0], attr, msb->page_size);
  783. msb->seg_count = 1;
  784. msb->current_seg = 0;
  785. msb->current_page = 0;
  786. msb->data_dir = READ;
  787. msb->transfer_cmd = MSPRO_CMD_READ_ATRB;
  788. msb->setup_transfer(card, attr_offset, attr_len);
  789. memstick_new_req(card->host);
  790. wait_for_completion(&card->mrq_complete);
  791. if (card->current_mrq.error) {
  792. rc = card->current_mrq.error;
  793. goto out_free_attr;
  794. }
  795. if (be16_to_cpu(attr->signature) != MSPRO_BLOCK_SIGNATURE) {
  796. printk(KERN_ERR "%s: unrecognized device signature %x\n",
  797. dev_name(&card->dev), be16_to_cpu(attr->signature));
  798. rc = -ENODEV;
  799. goto out_free_attr;
  800. }
  801. if (attr->count > MSPRO_BLOCK_MAX_ATTRIBUTES) {
  802. printk(KERN_WARNING "%s: way too many attribute entries\n",
  803. dev_name(&card->dev));
  804. attr_count = MSPRO_BLOCK_MAX_ATTRIBUTES;
  805. } else
  806. attr_count = attr->count;
  807. msb->attr_group.attrs = kzalloc_objs(*msb->attr_group.attrs,
  808. attr_count + 1);
  809. if (!msb->attr_group.attrs) {
  810. rc = -ENOMEM;
  811. goto out_free_attr;
  812. }
  813. msb->attr_group.name = "media_attributes";
  814. buffer = kmemdup(attr, attr_len, GFP_KERNEL);
  815. if (!buffer) {
  816. rc = -ENOMEM;
  817. goto out_free_attr;
  818. }
  819. for (cnt = 0; cnt < attr_count; ++cnt) {
  820. s_attr = kzalloc_obj(struct mspro_sys_attr);
  821. if (!s_attr) {
  822. rc = -ENOMEM;
  823. goto out_free_buffer;
  824. }
  825. msb->attr_group.attrs[cnt] = &s_attr->dev_attr.attr;
  826. addr = be32_to_cpu(attr->entries[cnt].address);
  827. s_attr->size = be32_to_cpu(attr->entries[cnt].size);
  828. dev_dbg(&card->dev, "adding attribute %d: id %x, address %x, "
  829. "size %zx\n", cnt, attr->entries[cnt].id, addr,
  830. s_attr->size);
  831. s_attr->id = attr->entries[cnt].id;
  832. if (mspro_block_attr_name(s_attr->id))
  833. snprintf(s_attr->name, sizeof(s_attr->name), "%s",
  834. mspro_block_attr_name(attr->entries[cnt].id));
  835. else
  836. snprintf(s_attr->name, sizeof(s_attr->name),
  837. "attr_x%02x", attr->entries[cnt].id);
  838. sysfs_attr_init(&s_attr->dev_attr.attr);
  839. s_attr->dev_attr.attr.name = s_attr->name;
  840. s_attr->dev_attr.attr.mode = S_IRUGO;
  841. s_attr->dev_attr.show = mspro_block_attr_show(s_attr->id);
  842. if (!s_attr->size)
  843. continue;
  844. s_attr->data = kmalloc(s_attr->size, GFP_KERNEL);
  845. if (!s_attr->data) {
  846. rc = -ENOMEM;
  847. goto out_free_buffer;
  848. }
  849. if (((addr / msb->page_size) == (attr_offset / msb->page_size))
  850. && (((addr + s_attr->size - 1) / msb->page_size)
  851. == (attr_offset / msb->page_size))) {
  852. memcpy(s_attr->data, buffer + addr % msb->page_size,
  853. s_attr->size);
  854. continue;
  855. }
  856. attr_offset = (addr / msb->page_size) * msb->page_size;
  857. if ((attr_offset + attr_len) < (addr + s_attr->size)) {
  858. kfree(buffer);
  859. attr_len = (((addr + s_attr->size) / msb->page_size)
  860. + 1 ) * msb->page_size - attr_offset;
  861. buffer = kmalloc(attr_len, GFP_KERNEL);
  862. if (!buffer) {
  863. rc = -ENOMEM;
  864. goto out_free_attr;
  865. }
  866. }
  867. sg_init_one(&msb->req_sg[0], buffer, attr_len);
  868. msb->seg_count = 1;
  869. msb->current_seg = 0;
  870. msb->current_page = 0;
  871. msb->data_dir = READ;
  872. msb->transfer_cmd = MSPRO_CMD_READ_ATRB;
  873. dev_dbg(&card->dev, "reading attribute range %x, %x\n",
  874. attr_offset, attr_len);
  875. msb->setup_transfer(card, attr_offset, attr_len);
  876. memstick_new_req(card->host);
  877. wait_for_completion(&card->mrq_complete);
  878. if (card->current_mrq.error) {
  879. rc = card->current_mrq.error;
  880. goto out_free_buffer;
  881. }
  882. memcpy(s_attr->data, buffer + addr % msb->page_size,
  883. s_attr->size);
  884. }
  885. rc = 0;
  886. out_free_buffer:
  887. kfree(buffer);
  888. out_free_attr:
  889. kfree(attr);
  890. return rc;
  891. }
  892. static int mspro_block_init_card(struct memstick_dev *card)
  893. {
  894. struct mspro_block_data *msb = memstick_get_drvdata(card);
  895. struct memstick_host *host = card->host;
  896. int rc = 0;
  897. msb->system = MEMSTICK_SYS_SERIAL;
  898. msb->setup_transfer = h_mspro_block_setup_cmd;
  899. card->reg_addr.r_offset = offsetof(struct mspro_register, status);
  900. card->reg_addr.r_length = sizeof(struct ms_status_register);
  901. card->reg_addr.w_offset = offsetof(struct mspro_register, param);
  902. card->reg_addr.w_length = sizeof(struct mspro_param_register);
  903. if (memstick_set_rw_addr(card))
  904. return -EIO;
  905. msb->caps = host->caps;
  906. msleep(150);
  907. rc = mspro_block_wait_for_ced(card);
  908. if (rc)
  909. return rc;
  910. rc = mspro_block_switch_interface(card);
  911. if (rc)
  912. return rc;
  913. dev_dbg(&card->dev, "card activated\n");
  914. if (msb->system != MEMSTICK_SYS_SERIAL)
  915. msb->caps |= MEMSTICK_CAP_AUTO_GET_INT;
  916. card->next_request = h_mspro_block_req_init;
  917. msb->mrq_handler = h_mspro_block_get_ro;
  918. memstick_init_req(&card->current_mrq, MS_TPC_READ_REG, NULL,
  919. sizeof(struct ms_status_register));
  920. memstick_new_req(card->host);
  921. wait_for_completion(&card->mrq_complete);
  922. if (card->current_mrq.error)
  923. return card->current_mrq.error;
  924. dev_dbg(&card->dev, "card r/w status %d\n", msb->read_only ? 0 : 1);
  925. msb->page_size = 512;
  926. rc = mspro_block_read_attributes(card);
  927. if (rc)
  928. return rc;
  929. dev_dbg(&card->dev, "attributes loaded\n");
  930. return 0;
  931. }
  932. static const struct blk_mq_ops mspro_mq_ops = {
  933. .queue_rq = mspro_queue_rq,
  934. };
  935. static int mspro_block_init_disk(struct memstick_dev *card)
  936. {
  937. struct mspro_block_data *msb = memstick_get_drvdata(card);
  938. struct queue_limits lim = {
  939. .logical_block_size = msb->page_size,
  940. .max_hw_sectors = MSPRO_BLOCK_MAX_PAGES,
  941. .max_segments = MSPRO_BLOCK_MAX_SEGS,
  942. .max_segment_size = MSPRO_BLOCK_MAX_PAGES * msb->page_size,
  943. };
  944. struct mspro_devinfo *dev_info = NULL;
  945. struct mspro_sys_info *sys_info = NULL;
  946. struct mspro_sys_attr *s_attr = NULL;
  947. int rc, disk_id;
  948. unsigned long capacity;
  949. for (rc = 0; msb->attr_group.attrs[rc]; ++rc) {
  950. s_attr = mspro_from_sysfs_attr(msb->attr_group.attrs[rc]);
  951. if (s_attr->id == MSPRO_BLOCK_ID_DEVINFO)
  952. dev_info = s_attr->data;
  953. else if (s_attr->id == MSPRO_BLOCK_ID_SYSINFO)
  954. sys_info = s_attr->data;
  955. }
  956. if (!dev_info || !sys_info)
  957. return -ENODEV;
  958. msb->cylinders = be16_to_cpu(dev_info->cylinders);
  959. msb->heads = be16_to_cpu(dev_info->heads);
  960. msb->sectors_per_track = be16_to_cpu(dev_info->sectors_per_track);
  961. msb->page_size = be16_to_cpu(sys_info->unit_size);
  962. mutex_lock(&mspro_block_disk_lock);
  963. disk_id = idr_alloc(&mspro_block_disk_idr, card, 0, 256, GFP_KERNEL);
  964. mutex_unlock(&mspro_block_disk_lock);
  965. if (disk_id < 0)
  966. return disk_id;
  967. rc = blk_mq_alloc_sq_tag_set(&msb->tag_set, &mspro_mq_ops, 2, 0);
  968. if (rc)
  969. goto out_release_id;
  970. msb->disk = blk_mq_alloc_disk(&msb->tag_set, &lim, card);
  971. if (IS_ERR(msb->disk)) {
  972. rc = PTR_ERR(msb->disk);
  973. goto out_free_tag_set;
  974. }
  975. msb->queue = msb->disk->queue;
  976. msb->disk->major = major;
  977. msb->disk->first_minor = disk_id << MSPRO_BLOCK_PART_SHIFT;
  978. msb->disk->minors = 1 << MSPRO_BLOCK_PART_SHIFT;
  979. msb->disk->fops = &ms_block_bdops;
  980. msb->disk->private_data = msb;
  981. sprintf(msb->disk->disk_name, "mspblk%d", disk_id);
  982. capacity = be16_to_cpu(sys_info->user_block_count);
  983. capacity *= be16_to_cpu(sys_info->block_size);
  984. capacity *= msb->page_size >> 9;
  985. set_capacity(msb->disk, capacity);
  986. dev_dbg(&card->dev, "capacity set %ld\n", capacity);
  987. if (msb->read_only)
  988. set_disk_ro(msb->disk, true);
  989. rc = device_add_disk(&card->dev, msb->disk, NULL);
  990. if (rc)
  991. goto out_cleanup_disk;
  992. msb->active = 1;
  993. return 0;
  994. out_cleanup_disk:
  995. put_disk(msb->disk);
  996. out_free_tag_set:
  997. blk_mq_free_tag_set(&msb->tag_set);
  998. out_release_id:
  999. mutex_lock(&mspro_block_disk_lock);
  1000. idr_remove(&mspro_block_disk_idr, disk_id);
  1001. mutex_unlock(&mspro_block_disk_lock);
  1002. return rc;
  1003. }
  1004. static void mspro_block_data_clear(struct mspro_block_data *msb)
  1005. {
  1006. int cnt;
  1007. struct mspro_sys_attr *s_attr;
  1008. if (msb->attr_group.attrs) {
  1009. for (cnt = 0; msb->attr_group.attrs[cnt]; ++cnt) {
  1010. s_attr = mspro_from_sysfs_attr(msb->attr_group
  1011. .attrs[cnt]);
  1012. kfree(s_attr->data);
  1013. kfree(s_attr);
  1014. }
  1015. kfree(msb->attr_group.attrs);
  1016. }
  1017. msb->card = NULL;
  1018. }
  1019. static int mspro_block_check_card(struct memstick_dev *card)
  1020. {
  1021. struct mspro_block_data *msb = memstick_get_drvdata(card);
  1022. return (msb->active == 1);
  1023. }
  1024. static int mspro_block_probe(struct memstick_dev *card)
  1025. {
  1026. struct mspro_block_data *msb;
  1027. int rc = 0;
  1028. msb = kzalloc_obj(struct mspro_block_data);
  1029. if (!msb)
  1030. return -ENOMEM;
  1031. memstick_set_drvdata(card, msb);
  1032. msb->card = card;
  1033. spin_lock_init(&msb->q_lock);
  1034. rc = mspro_block_init_card(card);
  1035. if (rc)
  1036. goto out_free;
  1037. rc = sysfs_create_group(&card->dev.kobj, &msb->attr_group);
  1038. if (rc)
  1039. goto out_free;
  1040. rc = mspro_block_init_disk(card);
  1041. if (!rc) {
  1042. card->check = mspro_block_check_card;
  1043. card->stop = mspro_block_stop;
  1044. card->start = mspro_block_start;
  1045. return 0;
  1046. }
  1047. sysfs_remove_group(&card->dev.kobj, &msb->attr_group);
  1048. out_free:
  1049. memstick_set_drvdata(card, NULL);
  1050. mspro_block_data_clear(msb);
  1051. kfree(msb);
  1052. return rc;
  1053. }
  1054. static void mspro_block_remove(struct memstick_dev *card)
  1055. {
  1056. struct mspro_block_data *msb = memstick_get_drvdata(card);
  1057. unsigned long flags;
  1058. spin_lock_irqsave(&msb->q_lock, flags);
  1059. msb->eject = 1;
  1060. spin_unlock_irqrestore(&msb->q_lock, flags);
  1061. blk_mq_start_hw_queues(msb->queue);
  1062. del_gendisk(msb->disk);
  1063. dev_dbg(&card->dev, "mspro block remove\n");
  1064. blk_mq_free_tag_set(&msb->tag_set);
  1065. msb->queue = NULL;
  1066. sysfs_remove_group(&card->dev.kobj, &msb->attr_group);
  1067. mutex_lock(&mspro_block_disk_lock);
  1068. mspro_block_data_clear(msb);
  1069. mutex_unlock(&mspro_block_disk_lock);
  1070. put_disk(msb->disk);
  1071. memstick_set_drvdata(card, NULL);
  1072. }
  1073. #ifdef CONFIG_PM
  1074. static int mspro_block_suspend(struct memstick_dev *card, pm_message_t state)
  1075. {
  1076. struct mspro_block_data *msb = memstick_get_drvdata(card);
  1077. unsigned long flags;
  1078. blk_mq_stop_hw_queues(msb->queue);
  1079. spin_lock_irqsave(&msb->q_lock, flags);
  1080. msb->active = 0;
  1081. spin_unlock_irqrestore(&msb->q_lock, flags);
  1082. return 0;
  1083. }
  1084. static int mspro_block_resume(struct memstick_dev *card)
  1085. {
  1086. struct mspro_block_data *msb = memstick_get_drvdata(card);
  1087. int rc = 0;
  1088. #ifdef CONFIG_MEMSTICK_UNSAFE_RESUME
  1089. struct mspro_block_data *new_msb;
  1090. struct memstick_host *host = card->host;
  1091. struct mspro_sys_attr *s_attr, *r_attr;
  1092. unsigned char cnt;
  1093. mutex_lock(&host->lock);
  1094. new_msb = kzalloc_obj(struct mspro_block_data);
  1095. if (!new_msb) {
  1096. rc = -ENOMEM;
  1097. goto out_unlock;
  1098. }
  1099. new_msb->card = card;
  1100. memstick_set_drvdata(card, new_msb);
  1101. rc = mspro_block_init_card(card);
  1102. if (rc)
  1103. goto out_free;
  1104. for (cnt = 0; new_msb->attr_group.attrs[cnt]
  1105. && msb->attr_group.attrs[cnt]; ++cnt) {
  1106. s_attr = mspro_from_sysfs_attr(new_msb->attr_group.attrs[cnt]);
  1107. r_attr = mspro_from_sysfs_attr(msb->attr_group.attrs[cnt]);
  1108. if (s_attr->id == MSPRO_BLOCK_ID_SYSINFO
  1109. && r_attr->id == s_attr->id) {
  1110. if (memcmp(s_attr->data, r_attr->data, s_attr->size))
  1111. break;
  1112. msb->active = 1;
  1113. break;
  1114. }
  1115. }
  1116. out_free:
  1117. memstick_set_drvdata(card, msb);
  1118. mspro_block_data_clear(new_msb);
  1119. kfree(new_msb);
  1120. out_unlock:
  1121. mutex_unlock(&host->lock);
  1122. #endif /* CONFIG_MEMSTICK_UNSAFE_RESUME */
  1123. blk_mq_start_hw_queues(msb->queue);
  1124. return rc;
  1125. }
  1126. #else
  1127. #define mspro_block_suspend NULL
  1128. #define mspro_block_resume NULL
  1129. #endif /* CONFIG_PM */
  1130. static const struct memstick_device_id mspro_block_id_tbl[] = {
  1131. {MEMSTICK_MATCH_ALL, MEMSTICK_TYPE_PRO, MEMSTICK_CATEGORY_STORAGE_DUO,
  1132. MEMSTICK_CLASS_DUO},
  1133. {}
  1134. };
  1135. static struct memstick_driver mspro_block_driver = {
  1136. .driver = {
  1137. .name = DRIVER_NAME,
  1138. .owner = THIS_MODULE
  1139. },
  1140. .id_table = mspro_block_id_tbl,
  1141. .probe = mspro_block_probe,
  1142. .remove = mspro_block_remove,
  1143. .suspend = mspro_block_suspend,
  1144. .resume = mspro_block_resume
  1145. };
  1146. static int __init mspro_block_init(void)
  1147. {
  1148. int rc = -ENOMEM;
  1149. rc = register_blkdev(major, DRIVER_NAME);
  1150. if (rc < 0) {
  1151. printk(KERN_ERR DRIVER_NAME ": failed to register "
  1152. "major %d, error %d\n", major, rc);
  1153. return rc;
  1154. }
  1155. if (!major)
  1156. major = rc;
  1157. rc = memstick_register_driver(&mspro_block_driver);
  1158. if (rc)
  1159. unregister_blkdev(major, DRIVER_NAME);
  1160. return rc;
  1161. }
  1162. static void __exit mspro_block_exit(void)
  1163. {
  1164. memstick_unregister_driver(&mspro_block_driver);
  1165. unregister_blkdev(major, DRIVER_NAME);
  1166. idr_destroy(&mspro_block_disk_idr);
  1167. }
  1168. module_init(mspro_block_init);
  1169. module_exit(mspro_block_exit);
  1170. MODULE_LICENSE("GPL");
  1171. MODULE_AUTHOR("Alex Dubov");
  1172. MODULE_DESCRIPTION("Sony MemoryStickPro block device driver");
  1173. MODULE_DEVICE_TABLE(memstick, mspro_block_id_tbl);