uhci-hcd.h 22 KB

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  1. /* SPDX-License-Identifier: GPL-2.0 */
  2. #ifndef __LINUX_UHCI_HCD_H
  3. #define __LINUX_UHCI_HCD_H
  4. #include <linux/list.h>
  5. #include <linux/usb.h>
  6. #include <linux/clk.h>
  7. #define usb_packetid(pipe) (usb_pipein(pipe) ? USB_PID_IN : USB_PID_OUT)
  8. #define PIPE_DEVEP_MASK 0x0007ff00
  9. /*
  10. * Universal Host Controller Interface data structures and defines
  11. */
  12. /* Command register */
  13. #define USBCMD 0
  14. #define USBCMD_RS 0x0001 /* Run/Stop */
  15. #define USBCMD_HCRESET 0x0002 /* Host reset */
  16. #define USBCMD_GRESET 0x0004 /* Global reset */
  17. #define USBCMD_EGSM 0x0008 /* Global Suspend Mode */
  18. #define USBCMD_FGR 0x0010 /* Force Global Resume */
  19. #define USBCMD_SWDBG 0x0020 /* SW Debug mode */
  20. #define USBCMD_CF 0x0040 /* Config Flag (sw only) */
  21. #define USBCMD_MAXP 0x0080 /* Max Packet (0 = 32, 1 = 64) */
  22. /* Status register */
  23. #define USBSTS 2
  24. #define USBSTS_USBINT 0x0001 /* Interrupt due to IOC */
  25. #define USBSTS_ERROR 0x0002 /* Interrupt due to error */
  26. #define USBSTS_RD 0x0004 /* Resume Detect */
  27. #define USBSTS_HSE 0x0008 /* Host System Error: PCI problems */
  28. #define USBSTS_HCPE 0x0010 /* Host Controller Process Error:
  29. * the schedule is buggy */
  30. #define USBSTS_HCH 0x0020 /* HC Halted */
  31. /* Interrupt enable register */
  32. #define USBINTR 4
  33. #define USBINTR_TIMEOUT 0x0001 /* Timeout/CRC error enable */
  34. #define USBINTR_RESUME 0x0002 /* Resume interrupt enable */
  35. #define USBINTR_IOC 0x0004 /* Interrupt On Complete enable */
  36. #define USBINTR_SP 0x0008 /* Short packet interrupt enable */
  37. #define USBFRNUM 6
  38. #define USBFLBASEADD 8
  39. #define USBSOF 12
  40. #define USBSOF_DEFAULT 64 /* Frame length is exactly 1 ms */
  41. /* USB port status and control registers */
  42. #define USBPORTSC1 16
  43. #define USBPORTSC2 18
  44. #define USBPORTSC3 20
  45. #define USBPORTSC4 22
  46. #define USBPORTSC_CCS 0x0001 /* Current Connect Status
  47. * ("device present") */
  48. #define USBPORTSC_CSC 0x0002 /* Connect Status Change */
  49. #define USBPORTSC_PE 0x0004 /* Port Enable */
  50. #define USBPORTSC_PEC 0x0008 /* Port Enable Change */
  51. #define USBPORTSC_DPLUS 0x0010 /* D+ high (line status) */
  52. #define USBPORTSC_DMINUS 0x0020 /* D- high (line status) */
  53. #define USBPORTSC_RD 0x0040 /* Resume Detect */
  54. #define USBPORTSC_RES1 0x0080 /* reserved, always 1 */
  55. #define USBPORTSC_LSDA 0x0100 /* Low Speed Device Attached */
  56. #define USBPORTSC_PR 0x0200 /* Port Reset */
  57. /* OC and OCC from Intel 430TX and later (not UHCI 1.1d spec) */
  58. #define USBPORTSC_OC 0x0400 /* Over Current condition */
  59. #define USBPORTSC_OCC 0x0800 /* Over Current Change R/WC */
  60. #define USBPORTSC_SUSP 0x1000 /* Suspend */
  61. #define USBPORTSC_RES2 0x2000 /* reserved, write zeroes */
  62. #define USBPORTSC_RES3 0x4000 /* reserved, write zeroes */
  63. #define USBPORTSC_RES4 0x8000 /* reserved, write zeroes */
  64. /* PCI legacy support register */
  65. #define USBLEGSUP 0xc0
  66. #define USBLEGSUP_DEFAULT 0x2000 /* only PIRQ enable set */
  67. #define USBLEGSUP_RWC 0x8f00 /* the R/WC bits */
  68. #define USBLEGSUP_RO 0x5040 /* R/O and reserved bits */
  69. /* PCI Intel-specific resume-enable register */
  70. #define USBRES_INTEL 0xc4
  71. #define USBPORT1EN 0x01
  72. #define USBPORT2EN 0x02
  73. #define UHCI_PTR_BITS(uhci) cpu_to_hc32((uhci), 0x000F)
  74. #define UHCI_PTR_TERM(uhci) cpu_to_hc32((uhci), 0x0001)
  75. #define UHCI_PTR_QH(uhci) cpu_to_hc32((uhci), 0x0002)
  76. #define UHCI_PTR_DEPTH(uhci) cpu_to_hc32((uhci), 0x0004)
  77. #define UHCI_PTR_BREADTH(uhci) cpu_to_hc32((uhci), 0x0000)
  78. #define UHCI_NUMFRAMES 1024 /* in the frame list [array] */
  79. #define UHCI_MAX_SOF_NUMBER 2047 /* in an SOF packet */
  80. #define CAN_SCHEDULE_FRAMES 1000 /* how far in the future frames
  81. * can be scheduled */
  82. #define MAX_PHASE 32 /* Periodic scheduling length */
  83. /* When no queues need Full-Speed Bandwidth Reclamation,
  84. * delay this long before turning FSBR off */
  85. #define FSBR_OFF_DELAY msecs_to_jiffies(10)
  86. /* If a queue hasn't advanced after this much time, assume it is stuck */
  87. #define QH_WAIT_TIMEOUT msecs_to_jiffies(200)
  88. /*
  89. * __hc32 and __hc16 are "Host Controller" types, they may be equivalent to
  90. * __leXX (normally) or __beXX (given UHCI_BIG_ENDIAN_DESC), depending on
  91. * the host controller implementation.
  92. *
  93. * To facilitate the strongest possible byte-order checking from "sparse"
  94. * and so on, we use __leXX unless that's not practical.
  95. */
  96. #ifdef CONFIG_USB_UHCI_BIG_ENDIAN_DESC
  97. typedef __u32 __bitwise __hc32;
  98. typedef __u16 __bitwise __hc16;
  99. #else
  100. #define __hc32 __le32
  101. #define __hc16 __le16
  102. #endif
  103. /*
  104. * Queue Headers
  105. */
  106. /*
  107. * One role of a QH is to hold a queue of TDs for some endpoint. One QH goes
  108. * with each endpoint, and qh->element (updated by the HC) is either:
  109. * - the next unprocessed TD in the endpoint's queue, or
  110. * - UHCI_PTR_TERM (when there's no more traffic for this endpoint).
  111. *
  112. * The other role of a QH is to serve as a "skeleton" framelist entry, so we
  113. * can easily splice a QH for some endpoint into the schedule at the right
  114. * place. Then qh->element is UHCI_PTR_TERM.
  115. *
  116. * In the schedule, qh->link maintains a list of QHs seen by the HC:
  117. * skel1 --> ep1-qh --> ep2-qh --> ... --> skel2 --> ...
  118. *
  119. * qh->node is the software equivalent of qh->link. The differences
  120. * are that the software list is doubly-linked and QHs in the UNLINKING
  121. * state are on the software list but not the hardware schedule.
  122. *
  123. * For bookkeeping purposes we maintain QHs even for Isochronous endpoints,
  124. * but they never get added to the hardware schedule.
  125. */
  126. #define QH_STATE_IDLE 1 /* QH is not being used */
  127. #define QH_STATE_UNLINKING 2 /* QH has been removed from the
  128. * schedule but the hardware may
  129. * still be using it */
  130. #define QH_STATE_ACTIVE 3 /* QH is on the schedule */
  131. struct uhci_qh {
  132. /* Hardware fields */
  133. __hc32 link; /* Next QH in the schedule */
  134. __hc32 element; /* Queue element (TD) pointer */
  135. /* Software fields */
  136. dma_addr_t dma_handle;
  137. struct list_head node; /* Node in the list of QHs */
  138. struct usb_host_endpoint *hep; /* Endpoint information */
  139. struct usb_device *udev;
  140. struct list_head queue; /* Queue of urbps for this QH */
  141. struct uhci_td *dummy_td; /* Dummy TD to end the queue */
  142. struct uhci_td *post_td; /* Last TD completed */
  143. struct usb_iso_packet_descriptor *iso_packet_desc;
  144. /* Next urb->iso_frame_desc entry */
  145. unsigned long advance_jiffies; /* Time of last queue advance */
  146. unsigned int unlink_frame; /* When the QH was unlinked */
  147. unsigned int period; /* For Interrupt and Isochronous QHs */
  148. short phase; /* Between 0 and period-1 */
  149. short load; /* Periodic time requirement, in us */
  150. unsigned int iso_frame; /* Frame # for iso_packet_desc */
  151. int state; /* QH_STATE_xxx; see above */
  152. int type; /* Queue type (control, bulk, etc) */
  153. int skel; /* Skeleton queue number */
  154. unsigned int initial_toggle:1; /* Endpoint's current toggle value */
  155. unsigned int needs_fixup:1; /* Must fix the TD toggle values */
  156. unsigned int is_stopped:1; /* Queue was stopped by error/unlink */
  157. unsigned int wait_expired:1; /* QH_WAIT_TIMEOUT has expired */
  158. unsigned int bandwidth_reserved:1; /* Periodic bandwidth has
  159. * been allocated */
  160. } __attribute__((aligned(16)));
  161. /*
  162. * We need a special accessor for the element pointer because it is
  163. * subject to asynchronous updates by the controller.
  164. */
  165. #define qh_element(qh) READ_ONCE((qh)->element)
  166. #define LINK_TO_QH(uhci, qh) (UHCI_PTR_QH((uhci)) | \
  167. cpu_to_hc32((uhci), (qh)->dma_handle))
  168. /*
  169. * Transfer Descriptors
  170. */
  171. /*
  172. * for TD <status>:
  173. */
  174. #define TD_CTRL_SPD (1 << 29) /* Short Packet Detect */
  175. #define TD_CTRL_C_ERR_MASK (3 << 27) /* Error Counter bits */
  176. #define TD_CTRL_C_ERR_SHIFT 27
  177. #define TD_CTRL_LS (1 << 26) /* Low Speed Device */
  178. #define TD_CTRL_IOS (1 << 25) /* Isochronous Select */
  179. #define TD_CTRL_IOC (1 << 24) /* Interrupt on Complete */
  180. #define TD_CTRL_ACTIVE (1 << 23) /* TD Active */
  181. #define TD_CTRL_STALLED (1 << 22) /* TD Stalled */
  182. #define TD_CTRL_DBUFERR (1 << 21) /* Data Buffer Error */
  183. #define TD_CTRL_BABBLE (1 << 20) /* Babble Detected */
  184. #define TD_CTRL_NAK (1 << 19) /* NAK Received */
  185. #define TD_CTRL_CRCTIMEO (1 << 18) /* CRC/Time Out Error */
  186. #define TD_CTRL_BITSTUFF (1 << 17) /* Bit Stuff Error */
  187. #define TD_CTRL_ACTLEN_MASK 0x7FF /* actual length, encoded as n - 1 */
  188. #define uhci_maxerr(err) ((err) << TD_CTRL_C_ERR_SHIFT)
  189. #define uhci_status_bits(ctrl_sts) ((ctrl_sts) & 0xF60000)
  190. #define uhci_actual_length(ctrl_sts) (((ctrl_sts) + 1) & \
  191. TD_CTRL_ACTLEN_MASK) /* 1-based */
  192. /*
  193. * for TD <info>: (a.k.a. Token)
  194. */
  195. #define td_token(uhci, td) hc32_to_cpu((uhci), (td)->token)
  196. #define TD_TOKEN_DEVADDR_SHIFT 8
  197. #define TD_TOKEN_TOGGLE_SHIFT 19
  198. #define TD_TOKEN_TOGGLE (1 << 19)
  199. #define TD_TOKEN_EXPLEN_SHIFT 21
  200. #define TD_TOKEN_EXPLEN_MASK 0x7FF /* expected length, encoded as n-1 */
  201. #define TD_TOKEN_PID_MASK 0xFF
  202. #define uhci_explen(len) ((((len) - 1) & TD_TOKEN_EXPLEN_MASK) << \
  203. TD_TOKEN_EXPLEN_SHIFT)
  204. #define uhci_expected_length(token) ((((token) >> TD_TOKEN_EXPLEN_SHIFT) + \
  205. 1) & TD_TOKEN_EXPLEN_MASK)
  206. #define uhci_toggle(token) (((token) >> TD_TOKEN_TOGGLE_SHIFT) & 1)
  207. #define uhci_endpoint(token) (((token) >> 15) & 0xf)
  208. #define uhci_devaddr(token) (((token) >> TD_TOKEN_DEVADDR_SHIFT) & 0x7f)
  209. #define uhci_devep(token) (((token) >> TD_TOKEN_DEVADDR_SHIFT) & 0x7ff)
  210. #define uhci_packetid(token) ((token) & TD_TOKEN_PID_MASK)
  211. #define uhci_packetout(token) (uhci_packetid(token) != USB_PID_IN)
  212. #define uhci_packetin(token) (uhci_packetid(token) == USB_PID_IN)
  213. /*
  214. * The documentation says "4 words for hardware, 4 words for software".
  215. *
  216. * That's silly, the hardware doesn't care. The hardware only cares that
  217. * the hardware words are 16-byte aligned, and we can have any amount of
  218. * sw space after the TD entry.
  219. *
  220. * td->link points to either another TD (not necessarily for the same urb or
  221. * even the same endpoint), or nothing (PTR_TERM), or a QH.
  222. */
  223. struct uhci_td {
  224. /* Hardware fields */
  225. __hc32 link;
  226. __hc32 status;
  227. __hc32 token;
  228. __hc32 buffer;
  229. /* Software fields */
  230. dma_addr_t dma_handle;
  231. struct list_head list;
  232. int frame; /* for iso: what frame? */
  233. struct list_head fl_list;
  234. } __attribute__((aligned(16)));
  235. /*
  236. * We need a special accessor for the control/status word because it is
  237. * subject to asynchronous updates by the controller.
  238. */
  239. #define td_status(uhci, td) hc32_to_cpu((uhci), \
  240. READ_ONCE((td)->status))
  241. #define LINK_TO_TD(uhci, td) (cpu_to_hc32((uhci), (td)->dma_handle))
  242. /*
  243. * Skeleton Queue Headers
  244. */
  245. /*
  246. * The UHCI driver uses QHs with Interrupt, Control and Bulk URBs for
  247. * automatic queuing. To make it easy to insert entries into the schedule,
  248. * we have a skeleton of QHs for each predefined Interrupt latency.
  249. * Asynchronous QHs (low-speed control, full-speed control, and bulk)
  250. * go onto the period-1 interrupt list, since they all get accessed on
  251. * every frame.
  252. *
  253. * When we want to add a new QH, we add it to the list starting from the
  254. * appropriate skeleton QH. For instance, the schedule can look like this:
  255. *
  256. * skel int128 QH
  257. * dev 1 interrupt QH
  258. * dev 5 interrupt QH
  259. * skel int64 QH
  260. * skel int32 QH
  261. * ...
  262. * skel int1 + async QH
  263. * dev 5 low-speed control QH
  264. * dev 1 bulk QH
  265. * dev 2 bulk QH
  266. *
  267. * There is a special terminating QH used to keep full-speed bandwidth
  268. * reclamation active when no full-speed control or bulk QHs are linked
  269. * into the schedule. It has an inactive TD (to work around a PIIX bug,
  270. * see the Intel errata) and it points back to itself.
  271. *
  272. * There's a special skeleton QH for Isochronous QHs which never appears
  273. * on the schedule. Isochronous TDs go on the schedule before the
  274. * the skeleton QHs. The hardware accesses them directly rather than
  275. * through their QH, which is used only for bookkeeping purposes.
  276. * While the UHCI spec doesn't forbid the use of QHs for Isochronous,
  277. * it doesn't use them either. And the spec says that queues never
  278. * advance on an error completion status, which makes them totally
  279. * unsuitable for Isochronous transfers.
  280. *
  281. * There's also a special skeleton QH used for QHs which are in the process
  282. * of unlinking and so may still be in use by the hardware. It too never
  283. * appears on the schedule.
  284. */
  285. #define UHCI_NUM_SKELQH 11
  286. #define SKEL_UNLINK 0
  287. #define skel_unlink_qh skelqh[SKEL_UNLINK]
  288. #define SKEL_ISO 1
  289. #define skel_iso_qh skelqh[SKEL_ISO]
  290. /* int128, int64, ..., int1 = 2, 3, ..., 9 */
  291. #define SKEL_INDEX(exponent) (9 - exponent)
  292. #define SKEL_ASYNC 9
  293. #define skel_async_qh skelqh[SKEL_ASYNC]
  294. #define SKEL_TERM 10
  295. #define skel_term_qh skelqh[SKEL_TERM]
  296. /* The following entries refer to sublists of skel_async_qh */
  297. #define SKEL_LS_CONTROL 20
  298. #define SKEL_FS_CONTROL 21
  299. #define SKEL_FSBR SKEL_FS_CONTROL
  300. #define SKEL_BULK 22
  301. /*
  302. * The UHCI controller and root hub
  303. */
  304. /*
  305. * States for the root hub:
  306. *
  307. * To prevent "bouncing" in the presence of electrical noise,
  308. * when there are no devices attached we delay for 1 second in the
  309. * RUNNING_NODEVS state before switching to the AUTO_STOPPED state.
  310. *
  311. * (Note that the AUTO_STOPPED state won't be necessary once the hub
  312. * driver learns to autosuspend.)
  313. */
  314. enum uhci_rh_state {
  315. /* In the following states the HC must be halted.
  316. * These two must come first. */
  317. UHCI_RH_RESET,
  318. UHCI_RH_SUSPENDED,
  319. UHCI_RH_AUTO_STOPPED,
  320. UHCI_RH_RESUMING,
  321. /* In this state the HC changes from running to halted,
  322. * so it can legally appear either way. */
  323. UHCI_RH_SUSPENDING,
  324. /* In the following states it's an error if the HC is halted.
  325. * These two must come last. */
  326. UHCI_RH_RUNNING, /* The normal state */
  327. UHCI_RH_RUNNING_NODEVS, /* Running with no devices attached */
  328. };
  329. /*
  330. * The full UHCI controller information:
  331. */
  332. struct uhci_hcd {
  333. /* debugfs */
  334. struct dentry *dentry;
  335. /* Grabbed from PCI */
  336. unsigned long io_addr;
  337. /* Used when registers are memory mapped */
  338. void __iomem *regs;
  339. struct dma_pool *qh_pool;
  340. struct dma_pool *td_pool;
  341. struct uhci_td *term_td; /* Terminating TD, see UHCI bug */
  342. struct uhci_qh *skelqh[UHCI_NUM_SKELQH]; /* Skeleton QHs */
  343. struct uhci_qh *next_qh; /* Next QH to scan */
  344. spinlock_t lock;
  345. dma_addr_t frame_dma_handle; /* Hardware frame list */
  346. __hc32 *frame;
  347. void **frame_cpu; /* CPU's frame list */
  348. enum uhci_rh_state rh_state;
  349. unsigned long auto_stop_time; /* When to AUTO_STOP */
  350. unsigned int frame_number; /* As of last check */
  351. unsigned int is_stopped;
  352. #define UHCI_IS_STOPPED 9999 /* Larger than a frame # */
  353. unsigned int last_iso_frame; /* Frame of last scan */
  354. unsigned int cur_iso_frame; /* Frame for current scan */
  355. unsigned int scan_in_progress:1; /* Schedule scan is running */
  356. unsigned int need_rescan:1; /* Redo the schedule scan */
  357. unsigned int dead:1; /* Controller has died */
  358. unsigned int RD_enable:1; /* Suspended root hub with
  359. Resume-Detect interrupts
  360. enabled */
  361. unsigned int is_initialized:1; /* Data structure is usable */
  362. unsigned int fsbr_is_on:1; /* FSBR is turned on */
  363. unsigned int fsbr_is_wanted:1; /* Does any URB want FSBR? */
  364. unsigned int fsbr_expiring:1; /* FSBR is timing out */
  365. struct timer_list fsbr_timer; /* For turning off FBSR */
  366. /* Silicon quirks */
  367. unsigned int oc_low:1; /* OverCurrent bit active low */
  368. unsigned int wait_for_hp:1; /* Wait for HP port reset */
  369. unsigned int big_endian_mmio:1; /* Big endian registers */
  370. unsigned int big_endian_desc:1; /* Big endian descriptors */
  371. unsigned int is_aspeed:1; /* Aspeed impl. workarounds */
  372. /* Support for port suspend/resume/reset */
  373. unsigned long port_c_suspend; /* Bit-arrays of ports */
  374. unsigned long resuming_ports;
  375. unsigned long ports_timeout; /* Time to stop signalling */
  376. struct list_head idle_qh_list; /* Where the idle QHs live */
  377. int rh_numports; /* Number of root-hub ports */
  378. wait_queue_head_t waitqh; /* endpoint_disable waiters */
  379. int num_waiting; /* Number of waiters */
  380. int total_load; /* Sum of array values */
  381. short load[MAX_PHASE]; /* Periodic allocations */
  382. struct clk *clk; /* (optional) clock source */
  383. /* Reset host controller */
  384. void (*reset_hc) (struct uhci_hcd *uhci);
  385. int (*check_and_reset_hc) (struct uhci_hcd *uhci);
  386. /* configure_hc should perform arch specific settings, if needed */
  387. void (*configure_hc) (struct uhci_hcd *uhci);
  388. /* Check for broken resume detect interrupts */
  389. int (*resume_detect_interrupts_are_broken) (struct uhci_hcd *uhci);
  390. /* Check for broken global suspend */
  391. int (*global_suspend_mode_is_broken) (struct uhci_hcd *uhci);
  392. };
  393. /* Convert between a usb_hcd pointer and the corresponding uhci_hcd */
  394. static inline struct uhci_hcd *hcd_to_uhci(struct usb_hcd *hcd)
  395. {
  396. return (struct uhci_hcd *) (hcd->hcd_priv);
  397. }
  398. static inline struct usb_hcd *uhci_to_hcd(struct uhci_hcd *uhci)
  399. {
  400. return container_of((void *) uhci, struct usb_hcd, hcd_priv);
  401. }
  402. #define uhci_dev(u) (uhci_to_hcd(u)->self.controller)
  403. /* Utility macro for comparing frame numbers */
  404. #define uhci_frame_before_eq(f1, f2) (0 <= (int) ((f2) - (f1)))
  405. /*
  406. * Private per-URB data
  407. */
  408. struct urb_priv {
  409. struct list_head node; /* Node in the QH's urbp list */
  410. struct urb *urb;
  411. struct uhci_qh *qh; /* QH for this URB */
  412. struct list_head td_list;
  413. unsigned fsbr:1; /* URB wants FSBR */
  414. };
  415. /* Some special IDs */
  416. #define PCI_VENDOR_ID_GENESYS 0x17a0
  417. #define PCI_DEVICE_ID_GL880S_UHCI 0x8083
  418. /* Aspeed SoC needs some quirks */
  419. static inline bool uhci_is_aspeed(const struct uhci_hcd *uhci)
  420. {
  421. return IS_ENABLED(CONFIG_USB_UHCI_ASPEED) && uhci->is_aspeed;
  422. }
  423. /*
  424. * Functions used to access controller registers. The UCHI spec says that host
  425. * controller I/O registers are mapped into PCI I/O space. For non-PCI hosts
  426. * we use memory mapped registers.
  427. */
  428. #ifndef CONFIG_USB_UHCI_SUPPORT_NON_PCI_HC
  429. /* Support PCI only */
  430. static inline u32 uhci_readl(const struct uhci_hcd *uhci, int reg)
  431. {
  432. return inl(uhci->io_addr + reg);
  433. }
  434. static inline void uhci_writel(const struct uhci_hcd *uhci, u32 val, int reg)
  435. {
  436. outl(val, uhci->io_addr + reg);
  437. }
  438. static inline u16 uhci_readw(const struct uhci_hcd *uhci, int reg)
  439. {
  440. return inw(uhci->io_addr + reg);
  441. }
  442. static inline void uhci_writew(const struct uhci_hcd *uhci, u16 val, int reg)
  443. {
  444. outw(val, uhci->io_addr + reg);
  445. }
  446. static inline u8 uhci_readb(const struct uhci_hcd *uhci, int reg)
  447. {
  448. return inb(uhci->io_addr + reg);
  449. }
  450. static inline void uhci_writeb(const struct uhci_hcd *uhci, u8 val, int reg)
  451. {
  452. outb(val, uhci->io_addr + reg);
  453. }
  454. #else
  455. /* Support non-PCI host controllers */
  456. #ifdef CONFIG_USB_PCI
  457. /* Support PCI and non-PCI host controllers */
  458. #define uhci_has_pci_registers(u) ((u)->io_addr != 0)
  459. #else
  460. /* Support non-PCI host controllers only */
  461. #define uhci_has_pci_registers(u) 0
  462. #endif
  463. #ifdef CONFIG_USB_UHCI_BIG_ENDIAN_MMIO
  464. /* Support (non-PCI) big endian host controllers */
  465. #define uhci_big_endian_mmio(u) ((u)->big_endian_mmio)
  466. #else
  467. #define uhci_big_endian_mmio(u) 0
  468. #endif
  469. static inline int uhci_aspeed_reg(unsigned int reg)
  470. {
  471. switch (reg) {
  472. case USBCMD:
  473. return 00;
  474. case USBSTS:
  475. return 0x04;
  476. case USBINTR:
  477. return 0x08;
  478. case USBFRNUM:
  479. return 0x80;
  480. case USBFLBASEADD:
  481. return 0x0c;
  482. case USBSOF:
  483. return 0x84;
  484. case USBPORTSC1:
  485. return 0x88;
  486. case USBPORTSC2:
  487. return 0x8c;
  488. case USBPORTSC3:
  489. return 0x90;
  490. case USBPORTSC4:
  491. return 0x94;
  492. default:
  493. pr_warn("UHCI: Unsupported register 0x%02x on Aspeed\n", reg);
  494. /* Return an unimplemented register */
  495. return 0x10;
  496. }
  497. }
  498. static inline u32 uhci_readl(const struct uhci_hcd *uhci, int reg)
  499. {
  500. if (uhci_has_pci_registers(uhci))
  501. return inl(uhci->io_addr + reg);
  502. else if (uhci_is_aspeed(uhci))
  503. return readl(uhci->regs + uhci_aspeed_reg(reg));
  504. #ifdef CONFIG_USB_UHCI_BIG_ENDIAN_MMIO
  505. else if (uhci_big_endian_mmio(uhci))
  506. return readl_be(uhci->regs + reg);
  507. #endif
  508. else
  509. return readl(uhci->regs + reg);
  510. }
  511. static inline void uhci_writel(const struct uhci_hcd *uhci, u32 val, int reg)
  512. {
  513. if (uhci_has_pci_registers(uhci))
  514. outl(val, uhci->io_addr + reg);
  515. else if (uhci_is_aspeed(uhci))
  516. writel(val, uhci->regs + uhci_aspeed_reg(reg));
  517. #ifdef CONFIG_USB_UHCI_BIG_ENDIAN_MMIO
  518. else if (uhci_big_endian_mmio(uhci))
  519. writel_be(val, uhci->regs + reg);
  520. #endif
  521. else
  522. writel(val, uhci->regs + reg);
  523. }
  524. static inline u16 uhci_readw(const struct uhci_hcd *uhci, int reg)
  525. {
  526. if (uhci_has_pci_registers(uhci))
  527. return inw(uhci->io_addr + reg);
  528. else if (uhci_is_aspeed(uhci))
  529. return readl(uhci->regs + uhci_aspeed_reg(reg));
  530. #ifdef CONFIG_USB_UHCI_BIG_ENDIAN_MMIO
  531. else if (uhci_big_endian_mmio(uhci))
  532. return readw_be(uhci->regs + reg);
  533. #endif
  534. else
  535. return readw(uhci->regs + reg);
  536. }
  537. static inline void uhci_writew(const struct uhci_hcd *uhci, u16 val, int reg)
  538. {
  539. if (uhci_has_pci_registers(uhci))
  540. outw(val, uhci->io_addr + reg);
  541. else if (uhci_is_aspeed(uhci))
  542. writel(val, uhci->regs + uhci_aspeed_reg(reg));
  543. #ifdef CONFIG_USB_UHCI_BIG_ENDIAN_MMIO
  544. else if (uhci_big_endian_mmio(uhci))
  545. writew_be(val, uhci->regs + reg);
  546. #endif
  547. else
  548. writew(val, uhci->regs + reg);
  549. }
  550. static inline u8 uhci_readb(const struct uhci_hcd *uhci, int reg)
  551. {
  552. if (uhci_has_pci_registers(uhci))
  553. return inb(uhci->io_addr + reg);
  554. else if (uhci_is_aspeed(uhci))
  555. return readl(uhci->regs + uhci_aspeed_reg(reg));
  556. #ifdef CONFIG_USB_UHCI_BIG_ENDIAN_MMIO
  557. else if (uhci_big_endian_mmio(uhci))
  558. return readb_be(uhci->regs + reg);
  559. #endif
  560. else
  561. return readb(uhci->regs + reg);
  562. }
  563. static inline void uhci_writeb(const struct uhci_hcd *uhci, u8 val, int reg)
  564. {
  565. if (uhci_has_pci_registers(uhci))
  566. outb(val, uhci->io_addr + reg);
  567. else if (uhci_is_aspeed(uhci))
  568. writel(val, uhci->regs + uhci_aspeed_reg(reg));
  569. #ifdef CONFIG_USB_UHCI_BIG_ENDIAN_MMIO
  570. else if (uhci_big_endian_mmio(uhci))
  571. writeb_be(val, uhci->regs + reg);
  572. #endif
  573. else
  574. writeb(val, uhci->regs + reg);
  575. }
  576. #endif /* CONFIG_USB_UHCI_SUPPORT_NON_PCI_HC */
  577. /*
  578. * The GRLIB GRUSBHC controller can use big endian format for its descriptors.
  579. *
  580. * UHCI controllers accessed through PCI work normally (little-endian
  581. * everywhere), so we don't bother supporting a BE-only mode.
  582. */
  583. #ifdef CONFIG_USB_UHCI_BIG_ENDIAN_DESC
  584. #define uhci_big_endian_desc(u) ((u)->big_endian_desc)
  585. /* cpu to uhci */
  586. static inline __hc32 cpu_to_hc32(const struct uhci_hcd *uhci, const u32 x)
  587. {
  588. return uhci_big_endian_desc(uhci)
  589. ? (__force __hc32)cpu_to_be32(x)
  590. : (__force __hc32)cpu_to_le32(x);
  591. }
  592. /* uhci to cpu */
  593. static inline u32 hc32_to_cpu(const struct uhci_hcd *uhci, const __hc32 x)
  594. {
  595. return uhci_big_endian_desc(uhci)
  596. ? be32_to_cpu((__force __be32)x)
  597. : le32_to_cpu((__force __le32)x);
  598. }
  599. #else
  600. /* cpu to uhci */
  601. static inline __hc32 cpu_to_hc32(const struct uhci_hcd *uhci, const u32 x)
  602. {
  603. return cpu_to_le32(x);
  604. }
  605. /* uhci to cpu */
  606. static inline u32 hc32_to_cpu(const struct uhci_hcd *uhci, const __hc32 x)
  607. {
  608. return le32_to_cpu(x);
  609. }
  610. #endif
  611. #endif