xref: /illumos-gate/usr/src/uts/common/sys/usb/hcd/openhci/ohcid.h (revision 76716eaced8d7659d4594350eb3f343c31fe2806)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  * Copyright 2005 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #ifndef _SYS_USB_OHCID_H
28 #define	_SYS_USB_OHCID_H
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 #ifdef	__cplusplus
33 extern "C" {
34 #endif
35 
36 /*
37  * Open Host Controller Driver (OHCI)
38  *
39  * The USB Open Host Controller driver is a software driver which interfaces
40  * to the Universal Serial Bus layer (USBA) and the USB Open Host Controller.
41  * The interface to USB Open Host Controller is defined by the OpenHCI  Host
42  * Controller Interface.
43  *
44  * This header file describes the data structures required for the USB Open
45  * Host Controller Driver to maintain state of USB Open Host Controller, to
46  * perform different USB transfers and for the bandwidth allocations.
47  */
48 
49 #include <sys/usb/hcd/openhci/ohci.h>
50 #include <sys/usb/hcd/openhci/ohci_hub.h>
51 
52 /*
53  * OpenHCI interrupt status information structure
54  *
55  * The Host Controller Driver (HCD) has to maintain two different sets of
56  * Host Controller (HC) state information that includes HC registers, the
57  * interrupt tables etc.. for the normal and polled modes.  In	addition,
58  * suppose if we switched to polled mode while ohci  interrupt handler is
59  * executing in the normal mode then we need to save the interrupt status
60  * information that includes interrupts for which ohci interrupt  handler
61  * is called and HCCA done head list in the polled mode. This infromation
62  * will be used later in normal mode to  service those missed interrupts.
63  * This will avoid race conditions like missing of normal mode's ohci SOF
64  * and WriteDoneHead interrupts because of this polled switch.
65  */
66 typedef struct ohci_save_intr_sts {
67 	/*
68 	 * The following field has set of flags & these flags will be set
69 	 * in the ohci interrupt handler to indicate that currently  ohci
70 	 * interrupt handler is in execution and also while critical code
71 	 * execution within the ohci interrupt handler.  These flags will
72 	 * be verified in polled mode while saving the normal mode's ohci
73 	 * interrupt status information.
74 	 */
75 	uint_t		ohci_intr_flag;		/* Intr handler flags */
76 
77 	/*
78 	 * The following fields will be used to save the interrupt status
79 	 * and the HCCA done head list that the ohci interrupt handler is
80 	 * currently handling.
81 	 */
82 	uint_t		ohci_curr_intr_sts;	/* Current interrupts */
83 	ohci_td_t	*ohci_curr_done_lst;	/* Current done head  */
84 
85 	/*
86 	 * The following fields will be used to save the interrupt status
87 	 * and the HCCA done list currently being handled by the critical
88 	 * section of the ohci interrupt handler..
89 	 */
90 	uint_t		ohci_critical_intr_sts;	/* Critical interrupts */
91 	ohci_td_t	*ohci_critical_done_lst; /* Critical done head */
92 
93 	/*
94 	 * The following fields will be used to save the interrupt status
95 	 * and HCCA done head list by the polled code if an  interrupt is
96 	 * pending when polled code is entered. These missed interrupts &
97 	 * done list will be serviced either in current  normal mode ohci
98 	 * interrupt handler execution or during the next  ohci interrupt
99 	 * handler execution.
100 	 */
101 	uint_t		ohci_missed_intr_sts;	/* Missed interrupts */
102 	ohci_td_t	*ohci_missed_done_lst;	/* Missed done head  */
103 } ohci_save_intr_sts_t;
104 
105 /*
106  * These flags will be set in the the normal mode ohci	interrupt handler
107  * to indicate that currently ohci interrupt handler is in  execution and
108  * also while critical code  execution within the ohci interrupt handler.
109  * These flags will be verified in the polled mode while saving the normal
110  * mode's ohci interrupt status infromation.
111  */
112 #define		OHCI_INTR_HANDLING	0x01	/* Handling ohci intrs */
113 #define		OHCI_INTR_CRITICAL	0x02	/* Critical intr code  */
114 
115 
116 /*
117  * OpenHCI Host Controller state structure
118  *
119  * The Host Controller Driver (HCD) maintains the state of Host Controller
120  * (HC). There is an ohci_state structure per instance	of the OpenHCI
121  * host controller.
122  */
123 
124 typedef struct ohci_state {
125 	dev_info_t		*ohci_dip;		/* Dip of HC */
126 	uint_t			ohci_instance;
127 	usba_hcdi_ops_t		*ohci_hcdi_ops;		/* HCDI structure */
128 	uint_t			ohci_flags;		/* Used for cleanup */
129 	uint16_t		ohci_vendor_id;		/* chip vendor */
130 	uint16_t		ohci_device_id;		/* chip device */
131 	uint8_t			ohci_rev_id;		/* chip revison */
132 
133 	ohci_regs_t		*ohci_regsp;		/* Host ctlr regs */
134 	ddi_acc_handle_t	ohci_regs_handle;	/* Reg handle */
135 
136 	ddi_acc_handle_t	ohci_config_handle;	/* Config space hndle */
137 	uint_t			ohci_frame_interval;	/* Frme inter reg */
138 	ddi_dma_attr_t		ohci_dma_attr;		/* DMA attributes */
139 
140 	ddi_intr_handle_t	*ohci_htable;		/* intr handle */
141 	int			ohci_intr_type;		/* intr type used */
142 	int			ohci_intr_cnt;		/* # of intrs inuse */
143 	uint_t			ohci_intr_pri;		/* intr priority */
144 	int			ohci_intr_cap;		/* intr capabilities */
145 	kmutex_t		ohci_int_mutex;		/* Mutex for struct */
146 
147 	/* HCCA area */
148 	ohci_hcca_t		*ohci_hccap;		/* Virtual HCCA ptr */
149 	ddi_dma_cookie_t	ohci_hcca_cookie;	/* DMA cookie */
150 	ddi_dma_handle_t	ohci_hcca_dma_handle;	/* DMA handle */
151 	ddi_acc_handle_t	ohci_hcca_mem_handle;	/* Memory handle */
152 
153 	/*
154 	 * There are two pools of memory. One pool contains the memory for
155 	 * the transfer descriptors and other pool contains the memory for
156 	 * the endpoint descriptors. The advantage of the pools is that it's
157 	 * easy to go back and forth between the iommu and the cpu addresses.
158 	 *
159 	 * The pools are protected by the ohci_int_mutex because the memory
160 	 * in the pools may be accessed by either the host controller or the
161 	 * host controller driver.
162 	 */
163 
164 	/* General transfer descriptor pool */
165 	ohci_td_t		*ohci_td_pool_addr;	/* Start of the pool */
166 	ddi_dma_cookie_t	ohci_td_pool_cookie;	/* DMA cookie */
167 	ddi_dma_handle_t	ohci_td_pool_dma_handle;	/* DMA hndle */
168 	ddi_acc_handle_t	ohci_td_pool_mem_handle;	/* Mem hndle */
169 
170 	/* Endpoint descriptor pool */
171 	ohci_ed_t		*ohci_ed_pool_addr;	/* Start of the pool */
172 	ddi_dma_cookie_t	ohci_ed_pool_cookie;	/* DMA cookie */
173 	ddi_dma_handle_t	ohci_ed_pool_dma_handle;	/* DMA handle */
174 	ddi_acc_handle_t	ohci_ed_pool_mem_handle;	/* Mem handle */
175 	uint_t			ohci_dma_addr_bind_flag;	/* DMA flag */
176 
177 	/* Condition variables */
178 	kcondvar_t		ohci_SOF_cv;		/* SOF variable */
179 
180 	/* Semaphore to serialize opens and closes */
181 	ksema_t			ohci_ocsem;
182 
183 	/*
184 	 * Bandwidth fields
185 	 *
186 	 * The ohci_bandwidth array keeps track of the allocated bandwidth
187 	 * for this host controller. The total bandwidth allocated for least
188 	 * allocated list out of the 32 periodic lists is represented by the
189 	 * ohci_periodic_minimum_bandwidth field.
190 	 */
191 	uint_t			ohci_periodic_minimum_bandwidth;
192 	uint_t			ohci_periodic_bandwidth[NUM_INTR_ED_LISTS];
193 
194 	/* Different transfer open pipe counts */
195 	uint_t			ohci_open_pipe_count;
196 	uint_t			ohci_open_ctrl_pipe_count;
197 	uint_t			ohci_open_bulk_pipe_count;
198 	uint_t			ohci_open_periodic_pipe_count;
199 	uint_t			ohci_open_isoch_pipe_count;
200 	/*
201 	 * Endpoint Reclamation List
202 	 *
203 	 * The interrupt or isochronous list processing cannot be stopped
204 	 * when a periodic endpoint is removed from the list. The endpoints
205 	 * are detached from the interrupt lattice tree and put on to the
206 	 * reclaimation list. On next SOF interrupt all those endpoints,
207 	 * which are on the reclaimation list will be deallocated.
208 	 */
209 	ohci_ed_t		*ohci_reclaim_list;	/* Reclaimation list */
210 
211 	ohci_root_hub_t		ohci_root_hub;		/* Root hub info */
212 
213 	/*
214 	 * Global transfer timeout handling & this transfer timeout handling
215 	 * will be per USB Host Controller.
216 	 */
217 	struct ohci_trans_wrapper *ohci_timeout_list;	/* Timeout List */
218 	timeout_id_t		ohci_timer_id;		/* Timer id  */
219 
220 	/* Frame number overflow information */
221 	usb_frame_number_t	ohci_fno;
222 
223 	/* For Schedule Overrun error counter */
224 	uint_t			ohci_so_error;
225 
226 	/* For host controller error counter */
227 	uint_t			ohci_hc_error;
228 
229 	/* For SOF interrupt event */
230 	boolean_t		ohci_sof_flag;
231 
232 	/* Openhci Host Controller Software State information */
233 	uint_t			ohci_hc_soft_state;
234 
235 	/*
236 	 * ohci_save_intr_stats is used to save the normal mode interrupt
237 	 * status information while executing interrupt handler & also by
238 	 * the polled code if an interrupt is pending for the normal mode
239 	 * when polled code is entered.
240 	 */
241 	ohci_save_intr_sts_t	ohci_save_intr_sts;
242 
243 	/*
244 	 * Saved copy of the ohci registers of the normal mode & change
245 	 * required ohci registers values for the polled mode operation.
246 	 * Before returning from the polled mode to normal mode replace
247 	 * the required current registers with this saved ohci registers
248 	 * copy.
249 	 */
250 	ohci_regs_t	ohci_polled_save_regs;
251 
252 	/*
253 	 * Saved copy of the interrupt table used in normal ohci mode and
254 	 * replace this table by another interrupt table that used in the
255 	 * POLLED mode.
256 	 */
257 	ohci_ed_t	*ohci_polled_save_IntTble[NUM_INTR_ED_LISTS];
258 
259 	/* ohci polled mode enter counter for the input devices */
260 	uint_t			ohci_polled_enter_count;
261 
262 	/*
263 	 * Counter for polled mode and used in suspend mode to see if
264 	 * there is a input device connected.
265 	 */
266 	uint_t			ohci_polled_kbd_count;
267 
268 	/* Done list for the Polled mode */
269 	ohci_td_t		*ohci_polled_done_list;
270 
271 	/* Log handle for debug, console, log messages */
272 	usb_log_handle_t	ohci_log_hdl;
273 
274 	/* Kstat structures */
275 	kstat_t			*ohci_intrs_stats;
276 	kstat_t			*ohci_total_stats;
277 	kstat_t			*ohci_count_stats[USB_N_COUNT_KSTATS];
278 } ohci_state_t;
279 
280 typedef struct ohci_intrs_stats {
281 	struct kstat_named	ohci_hcr_intr_so;
282 	struct kstat_named	ohci_hcr_intr_wdh;
283 	struct kstat_named	ohci_hcr_intr_sof;
284 	struct kstat_named	ohci_hcr_intr_rd;
285 	struct kstat_named	ohci_hcr_intr_ue;
286 	struct kstat_named	ohci_hcr_intr_fno;
287 	struct kstat_named	ohci_hcr_intr_rhsc;
288 	struct kstat_named	ohci_hcr_intr_oc;
289 	struct kstat_named	ohci_hcr_intr_not_claimed;
290 	struct kstat_named	ohci_hcr_intr_total;
291 } ohci_intrs_stats_t;
292 
293 /*
294  * ohci kstat defines
295  */
296 #define	OHCI_INTRS_STATS(ohci)	((ohci)->ohci_intrs_stats)
297 #define	OHCI_INTRS_STATS_DATA(ohci)	\
298 	((ohci_intrs_stats_t *)OHCI_INTRS_STATS((ohci))->ks_data)
299 
300 #define	OHCI_TOTAL_STATS(ohci)	((ohci)->ohci_total_stats)
301 #define	OHCI_TOTAL_STATS_DATA(ohci)	(KSTAT_IO_PTR((ohci)->ohci_total_stats))
302 #define	OHCI_CTRL_STATS(ohci)	\
303 	(KSTAT_IO_PTR((ohci)->ohci_count_stats[USB_EP_ATTR_CONTROL]))
304 #define	OHCI_BULK_STATS(ohci)	\
305 	(KSTAT_IO_PTR((ohci)->ohci_count_stats[USB_EP_ATTR_BULK]))
306 #define	OHCI_INTR_STATS(ohci)	\
307 	(KSTAT_IO_PTR((ohci)->ohci_count_stats[USB_EP_ATTR_INTR]))
308 #define	OHCI_ISOC_STATS(ohci)	\
309 	(KSTAT_IO_PTR((ohci)->ohci_count_stats[USB_EP_ATTR_ISOCH]))
310 
311 /* warlock directives, stable data */
312 _NOTE(MUTEX_PROTECTS_DATA(ohci_state_t::ohci_int_mutex, ohci_state_t))
313 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_intr_pri))
314 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_dip))
315 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_regsp))
316 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_instance))
317 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_vendor_id))
318 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_device_id))
319 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_rev_id))
320 
321 /* this may not be stable data in the future */
322 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_td_pool_addr))
323 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_td_pool_mem_handle))
324 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_ed_pool_addr))
325 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_ed_pool_mem_handle))
326 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_td_pool_cookie))
327 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_ed_pool_cookie))
328 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_hcca_mem_handle))
329 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_hccap))
330 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_dma_addr_bind_flag))
331 _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_log_hdl))
332 
333 _NOTE(LOCK_ORDER(ohci_state::ohci_int_mutex \
334 		usba_pipe_handle_data::p_mutex \
335 		usba_device::usb_mutex \
336 		usba_ph_impl::usba_ph_mutex))
337 
338 /*
339  * Host Contoller Software States
340  *
341  * OHCI_CTLR_INIT_STATE:
342  *	The host controller soft state will be set to this during the
343  *	ohci_attach.
344  *
345  * OHCI_CTLR_SUSPEND_STATE:
346  *	The host controller soft state will be set to this during the
347  *	ohci_cpr_suspend.
348  *
349  * OHCI_CTLR_OPERATIONAL_STATE:
350  *	The host controller soft state will be set to this after moving
351  *	host controller to operational state and host controller start
352  *	generating SOF successfully.
353  *
354  * OHCI_CTLR_ERROR_STATE:
355  *	The host controller soft state will be set to this during the
356  *	no SOF or UE error conditions.
357  *
358  *	Under this state or condition, only pipe stop polling, pipe reset
359  *	and pipe close are allowed. But all other entry points like  pipe
360  *	open, get/set pipe policy, cotrol send/receive, bulk send/receive
361  *	isoch send/receive, start polling etc. will fail.
362  *
363  * State Diagram for the host controller software state
364  *
365  *
366  * ohci_attach->[INIT_STATE]
367  *	|
368  *	|	-------->----[ERROR_STATE]--<-----------<---
369  *	|      |      Failure (UE/no SOF condition)	    |
370  *	|      ^					    ^
371  *	V      |      Success				    |
372  * ohci_init_ctlr--->--------[OPERATIONAL_STATE]------>-ohci_send/recv/polling
373  *	^					    |
374  *	|					    |
375  *	|					    V
376  *	-<-ohci_cpr_resume--[SUSPEND_STATE]-<-ohci_cpr_suspend
377  */
378 #define	OHCI_CTLR_INIT_STATE		0	/* Initilization state */
379 #define	OHCI_CTLR_SUSPEND_STATE		1	/* Suspend state */
380 #define	OHCI_CTLR_OPERATIONAL_STATE	2	/* Operational state */
381 #define	OHCI_CTLR_ERROR_STATE		3	/* Ue error or no sof state */
382 
383 /*
384  * Define all ohci's Vendor-id and Device-id Here
385  */
386 #define	RIO_VENDOR	0x108e
387 #define	RIO_DEVICE	0x1103
388 #define	OHCI_IS_RIO(ohcip)	(ohcip->ohci_vendor_id == RIO_VENDOR)
389 
390 /*
391  * Periodic and non-periodic macros
392  */
393 #define	OHCI_PERIODIC_ENDPOINT(endpoint) (((endpoint->bmAttributes &\
394 				USB_EP_ATTR_MASK) == USB_EP_ATTR_INTR) ||\
395 				((endpoint->bmAttributes &\
396 				USB_EP_ATTR_MASK) == USB_EP_ATTR_ISOCH))
397 
398 #define	OHCI_NON_PERIODIC_ENDPOINT(endpoint) (((endpoint->bmAttributes &\
399 				USB_EP_ATTR_MASK) == USB_EP_ATTR_CONTROL) ||\
400 				((endpoint->bmAttributes &\
401 				USB_EP_ATTR_MASK) == USB_EP_ATTR_BULK))
402 
403 /*
404  * OHCI ED and TD Pool sizes.
405  */
406 #define	OHCI_ED_POOL_SIZE	100
407 #define	OHCI_TD_POOL_SIZE	200
408 
409 /*
410  * ohci_dma_addr_bind_flag values
411  *
412  * This flag indicates if the various DMA addresses allocated by the OHCI
413  * have been bound to their respective handles. This is needed to recover
414  * without errors from ohci_cleanup when it calls ddi_dma_unbind_handle()
415  */
416 #define	OHCI_TD_POOL_BOUND	0x01	/* For TD pools  */
417 #define	OHCI_ED_POOL_BOUND	0x02	/* For ED pools  */
418 #define	OHCI_HCCA_DMA_BOUND	0x04	/* For HCCA area */
419 
420 /*
421  * Maximum SOF wait count
422  */
423 #define	MAX_SOF_WAIT_COUNT	2	/* Wait for maximum SOF frames */
424 
425 
426 /*
427  * Pipe private structure
428  *
429  * There is an instance of this structure per pipe.  This structure holds
430  * HCD specific pipe information.  A pointer to this structure is kept in
431  * the USBA pipe handle (usba_pipe_handle_data_t).
432  */
433 typedef struct ohci_pipe_private {
434 	usba_pipe_handle_data_t	*pp_pipe_handle;	/* Back ptr to handle */
435 	ohci_ed_t		*pp_ept;		/* Pipe's ept */
436 
437 	/* State of the pipe */
438 	uint_t			pp_state;		/* See below */
439 
440 	/* Local copy of the pipe policy */
441 	usb_pipe_policy_t	pp_policy;
442 
443 	/* For Periodic Pipes Only */
444 	uint_t			pp_node;		/* Node in lattice */
445 	uint_t			pp_cur_periodic_req_cnt; /* Curr req count */
446 	uint_t			pp_max_periodic_req_cnt; /* Max req count */
447 
448 	/* For isochronous pipe only */
449 	usb_frame_number_t	pp_next_frame_number;	/* Next frame no */
450 
451 	/*
452 	 * Each pipe may have multiple transfer wrappers. Each transfer
453 	 * wrapper represents a USB transfer on the bus.  A transfer is
454 	 * made up of one or more transactions.
455 	 */
456 	struct ohci_trans_wrapper *pp_tw_head;	/* Head of the list */
457 	struct ohci_trans_wrapper *pp_tw_tail;	/* Tail of the list */
458 
459 	/* Done td count */
460 	uint_t			pp_count_done_tds;	/* Done td count */
461 
462 	/* Errors */
463 	usb_cr_t		pp_error;		/* Pipe error */
464 
465 	/* Flags */
466 	uint_t			pp_flag;		/* Flags */
467 
468 	/* Condition variable for transfers completion event */
469 	kcondvar_t		pp_xfer_cmpl_cv;	/* Xfer completion */
470 
471 	/*
472 	 * HCD gets Interrupt/Isochronous IN polling request only once and
473 	 * it has to insert next polling requests after completion of first
474 	 * request until either stop polling/pipe close is called. So  HCD
475 	 * has to take copy of the original Interrupt/Isochronous IN request.
476 	 */
477 	usb_opaque_t		pp_client_periodic_in_reqp;
478 } ohci_pipe_private_t;
479 
480 /* warlock directives, stable data */
481 _NOTE(MUTEX_PROTECTS_DATA(ohci_state_t::ohci_int_mutex, ohci_pipe_private_t))
482 
483 /*
484  * Pipe states
485  *
486  * ohci pipe states will be similar to usba. Refer usbai.h.
487  */
488 #define	OHCI_PIPE_STATE_IDLE		1	/* Pipe is in ready state */
489 #define	OHCI_PIPE_STATE_ACTIVE		2	/* Pipe is in busy state */
490 #define	OHCI_PIPE_STATE_ERROR		3	/* Pipe is in error state */
491 
492 /* Additional ohci pipe states for the ohci_pipe_cleanup */
493 #define	OHCI_PIPE_STATE_CLOSE		4	/* Pipe close */
494 #define	OHCI_PIPE_STATE_RESET		5	/* Pipe reset */
495 #define	OHCI_PIPE_STATE_STOP_POLLING	6	/* Pipe stop polling */
496 
497 /*
498  * Pipe specific Flags
499  */
500 #define	OHCI_ISOC_XFER_CONTINUE	1	/* For isoc transfers */
501 
502 /*
503  * The maximum allowable usb isochronous data transfer size or maximum
504  * number of isochronous data packets.
505  *
506  * Each usb isochronous request must not exceed multiples of isochronous
507  * endpoint packet size and OHCI_MAX_ISOC_PKTS_PER_XFER.
508  *
509  * Ex: usb isochronous endpoint maximum packet size is 64 bytes
510  *     maximum usb isochronous request will be OHCI_MAX_ISOC_PKTS_PER_XFER
511  *     * 64 bytes
512  */
513 #define		OHCI_MAX_ISOC_PKTS_PER_XFER	256	/* Max pkts per req */
514 
515 /*
516  * The ohci supports maximum of eight isochronous data packets per transfer
517  * descriptor.
518  */
519 #define		OHCI_ISOC_PKTS_PER_TD		8	/* Packets per TD */
520 
521 /*
522  * USB frame offset
523  *
524  * Add appropriate frame offset to the current usb frame number and use it
525  * as a starting frame number for a given usb isochronous request.
526  */
527 #define		OHCI_FRAME_OFFSET		2	/* Frame offset */
528 
529 /*
530  * Default usb isochronous receive packets per request before ohci will do
531  * callback.
532  */
533 #define		OHCI_DEFAULT_ISOC_RCV_PKTS	1	/* isoc pkts per req */
534 
535 /*
536  * Different interrupt polling intervals supported
537  */
538 #define		INTR_1MS_POLL	1
539 #define		INTR_2MS_POLL	2
540 #define		INTR_4MS_POLL	4
541 #define		INTR_8MS_POLL	8
542 #define		INTR_16MS_POLL	16
543 #define		INTR_32MS_POLL	32
544 
545 /*
546  * Number of interrupt/isochronous transfer requests that should
547  * be maintained on the interrupt/isochronous endpoint corresponding
548  * to different polling intervals supported.
549  */
550 #define		INTR_1MS_REQS	4	/* 1ms polling interval */
551 #define		INTR_2MS_REQS	2	/* 2ms polling interval */
552 #define		INTR_XMS_REQS	1	/* Between 4ms and 32ms */
553 
554 /* Function prototype */
555 typedef void (*ohci_handler_function_t)(
556 	ohci_state_t			*ohcip,
557 	ohci_pipe_private_t		*pp,
558 	struct ohci_trans_wrapper	*tw,
559 	ohci_td_t			*td,
560 	void				*ohci_handle_callback_value);
561 
562 
563 /*
564  * Transfer wrapper
565  *
566  * The transfer wrapper represents a USB transfer on the bus and there
567  * is one instance per USB transfer.  A transfer is made up of one or
568  * more transactions.
569  *
570  * Control and bulk pipes will have one transfer wrapper per transfer
571  * and where as Isochronous and Interrupt pipes will only have one
572  * transfer wrapper. The transfers wrapper are continually reused for
573  * the Interrupt and Isochronous pipes as those pipes are polled.
574  */
575 typedef struct ohci_trans_wrapper {
576 	struct ohci_trans_wrapper	*tw_next;	/* Next wrapper */
577 	ohci_pipe_private_t		*tw_pipe_private; /* Back ptr */
578 	ddi_dma_handle_t		tw_dmahandle;	/* DMA handle */
579 	ddi_acc_handle_t		tw_accesshandle; /* Acc hndle */
580 	ddi_dma_cookie_t		tw_cookie;	/* DMA cookie */
581 	uint32_t			tw_id;		/* 32bit ID */
582 	size_t				tw_length;	/* Txfer length */
583 	char				*tw_buf;	/* Buffer for Xfer */
584 	usb_flags_t			tw_flags;	/* Flags */
585 	uint_t				tw_num_tds;	/* Number of TDs */
586 	ohci_td_t			*tw_hctd_head;	/* Head TD */
587 	ohci_td_t			*tw_hctd_tail;	/* Tail TD */
588 	uint_t				tw_direction;	/* Direction of TD */
589 
590 	/* We preallocate all the td's for each tw and place them here */
591 	ohci_td_t			*tw_hctd_free_list;
592 
593 	/* Current transfer request pointer */
594 	usb_opaque_t			tw_curr_xfer_reqp;
595 
596 	/* Current isochronous packet descriptor pointer */
597 	usb_isoc_pkt_descr_t		*tw_curr_isoc_pktp;
598 
599 	/* Transfer timeout information */
600 	uint_t				tw_timeout;	/* Timeout value */
601 	struct ohci_trans_wrapper	*tw_timeout_next; /* Xfer Timeout Q */
602 
603 	/*
604 	 * This is the function to call when this td is done. This way
605 	 * we don't have to look in the td to figure out what kind it is.
606 	 */
607 	ohci_handler_function_t		tw_handle_td;
608 
609 	/*
610 	 * This is the callback value used when processing a done td.
611 	 */
612 	usb_opaque_t			tw_handle_callback_value;
613 } ohci_trans_wrapper_t;
614 
615 _NOTE(MUTEX_PROTECTS_DATA(ohci_state_t::ohci_int_mutex, ohci_trans_wrapper))
616 
617 
618 /*
619  * Time waits for the different OHCI specific operations.
620  * These timeout values are specified in terms of microseconds.
621  */
622 #define	OHCI_RESET_TIMEWAIT	10000	/* HC reset waiting time */
623 #define	OHCI_RESUME_TIMEWAIT	40000	/* HC resume waiting time */
624 #define	OHCI_TIMEWAIT		10000	/* HC any other waiting time */
625 
626 /* These timeout values are specified in seconds */
627 #define	OHCI_DEFAULT_XFER_TIMEOUT	5 /* Default transfer timeout */
628 #define	OHCI_MAX_SOF_TIMEWAIT		3 /* Maximum SOF waiting time */
629 #define	OHCI_XFER_CMPL_TIMEWAIT		3 /* Xfers completion timewait */
630 
631 /* OHCI flags for general use */
632 #define	OHCI_FLAGS_NOSLEEP	0x000	/* Don't wait for SOF */
633 #define	OHCI_FLAGS_SLEEP	0x100	/* Wait for SOF */
634 #define	OHCI_FLAGS_DMA_SYNC	0x200	/* Call ddi_dma_sync */
635 
636 /*
637  * Maximum allowable data transfer  size per transaction as supported
638  * by OHCI is 8k. (See Open Host Controller Interface Spec rev 1.0a)
639  */
640 #define	OHCI_MAX_TD_XFER_SIZE	0x2000	/* Maxmum data per transaction */
641 
642 /*
643  * The maximum allowable bulk data transfer size. It can be different
644  * from OHCI_MAX_TD_XFER_SIZE and if it is more then ohci driver will
645  * take care of  breaking a bulk data request into  multiples of ohci
646  * OHCI_MAX_TD_XFER_SIZE  until request is satisfied.  Currently this
647  * value is set to 256k bytes.
648  */
649 #define	OHCI_MAX_BULK_XFER_SIZE	0x40000	/* Maximum bulk transfer size */
650 
651 /*
652  * Timeout flags
653  *
654  * These flags will be used to stop the timer before timeout handler
655  * gets executed.
656  */
657 #define	OHCI_REMOVE_XFER_IFLAST	1	/* Stop the timer if  it is last TD */
658 #define	OHCI_REMOVE_XFER_ALWAYS	2	/* Stop the timer without condition */
659 
660 
661 /*
662  * Bandwidth allocation
663  *
664  * The following definitions are  used during  bandwidth calculations
665  * for a given endpoint maximum packet size.
666  */
667 #define	MAX_USB_BUS_BANDWIDTH	1500	/* Up to 1500 bytes per frame */
668 #define	MAX_POLL_INTERVAL	255	/* Maximum polling interval */
669 #define	MIN_POLL_INTERVAL	1	/* Minimum polling interval */
670 #define	SOF			6	/* Length in bytes of SOF */
671 #define	EOF			4	/* Length in bytes of EOF */
672 #define	TREE_HEIGHT		5	/* Log base 2 of 32 */
673 
674 /*
675  * Minimum polling interval for low speed endpoint
676  *
677  * According USB Specifications, a full-speed endpoint can specify
678  * a desired polling interval 1ms to 255ms and a low speed endpoints
679  * are limited to specifying only 10ms to 255ms. But some old keyboards
680  * and mice uses polling interval of 8ms. For compatibility purpose,
681  * we are using polling interval between 8ms and 255ms for low speed
682  * endpoints. But ohci driver will reject any low speed endpoints which
683  * request polling interval less than 8ms.
684  */
685 #define	MIN_LOW_SPEED_POLL_INTERVAL	8
686 
687 /*
688  * For non-periodic transfers, reserve atleast for one low-speed device
689  * transaction. According to USB Bandwidth Analysis white paper and also
690  * as per OHCI Specification 1.0a, section 7.3.5, page 123, one low-speed
691  * transaction takes 0x628h full speed bits (197 bytes), which comes to
692  * around 13% of USB frame time.
693  *
694  * The periodic transfers will  get around 87% of USB frame time.
695  */
696 #define	MAX_NON_PERIODIC_BANDWIDTH	197
697 #define	MAX_PERIODIC_BANDWIDTH		(MAX_USB_BUS_BANDWIDTH - SOF - \
698 					EOF - MAX_NON_PERIODIC_BANDWIDTH)
699 
700 /*
701  * The USB periodic transfers like interrupt and isochronous transfers
702  * after completion of SOF and USB non-periodic transfers.
703  */
704 #define	PERIODIC_XFER_STARTS		(MAX_USB_BUS_BANDWIDTH - \
705 					SOF - MAX_NON_PERIODIC_BANDWIDTH)
706 
707 /* Number of Bits Per Byte */
708 #define	BITS_PER_BYTE			8
709 
710 /*
711  * The following are the protocol overheads in terms of Bytes for the
712  * different transfer types.  All these protocol overhead  values are
713  * derived from the 5.9.3 section of USB Specification	and  with the
714  * help of Bandwidth Analysis white paper which is posted on the  USB
715  * developer forum.
716  */
717 #define	FS_NON_ISOC_PROTO_OVERHEAD	14
718 #define	FS_ISOC_INPUT_PROTO_OVERHEAD	11
719 #define	FS_ISOC_OUTPUT_PROTO_OVERHEAD	10
720 #define	LOW_SPEED_PROTO_OVERHEAD	97
721 #define	HUB_LOW_SPEED_PROTO_OVERHEAD	01
722 
723 /*
724  * The Host Controller (HC) delays are the USB host controller specific
725  * delays. The value shown below is the host  controller delay for  the
726  * RIO USB host controller.  This value was calculated and  given by the
727  * Sun USB hardware people.
728  */
729 #define	HOST_CONTROLLER_DELAY		18
730 
731 /*
732  * The low speed clock below represents that to transmit one low-speed
733  * bit takes eight times more than one full speed bit time.
734  */
735 #define	LOW_SPEED_CLOCK			8
736 
737 
738 /*
739  * Macros for setting/getting information
740  */
741 #define	Get_ED(addr)		ddi_get32(ohcip->ohci_ed_pool_mem_handle, \
742 					(uint32_t *)&addr)
743 
744 #define	Set_ED(addr, val)	ddi_put32(ohcip->ohci_ed_pool_mem_handle,  \
745 					((uint32_t *)&addr), \
746 					((int32_t)(val)))
747 
748 #define	Get_TD(addr)		ddi_get32(ohcip->ohci_td_pool_mem_handle, \
749 					(uint32_t *)&addr)
750 
751 #define	Set_TD(addr, val)	ddi_put32(ohcip->ohci_td_pool_mem_handle, \
752 					((uint32_t *)&addr), \
753 					((uint32_t)(uintptr_t)(val)))
754 
755 #define	Get_HCCA(addr)		ddi_get32(ohcip->ohci_hcca_mem_handle, \
756 					(uint32_t *)&addr)
757 
758 #define	Set_HCCA(addr, val)	ddi_put32(ohcip->ohci_hcca_mem_handle, \
759 					((uint32_t *)&addr), \
760 					((int32_t)(val)))
761 
762 #define	Get_OpReg(addr)		ddi_get32(ohcip->ohci_regs_handle, \
763 					(uint32_t *)&ohcip->ohci_regsp->addr)
764 
765 #define	Set_OpReg(addr, val)	ddi_put32(ohcip->ohci_regs_handle, \
766 				((uint32_t *)&ohcip->ohci_regsp->addr), \
767 					((int32_t)(val)))
768 
769 #define	Sync_HCCA(ohcip)	(void) ddi_dma_sync( \
770 				ohcip->ohci_hcca_dma_handle, \
771 				0, sizeof (ohci_hcca_t), \
772 				DDI_DMA_SYNC_FORCPU);
773 
774 #define	Sync_ED_TD_Pool(ohcip)	(void) ddi_dma_sync( \
775 				ohcip->ohci_ed_pool_dma_handle, \
776 				0, OHCI_ED_POOL_SIZE * sizeof (ohci_ed_t), \
777 				DDI_DMA_SYNC_FORCPU); \
778 				(void) ddi_dma_sync( \
779 				ohcip->ohci_td_pool_dma_handle, \
780 				0, OHCI_TD_POOL_SIZE * sizeof (ohci_td_t), \
781 				DDI_DMA_SYNC_FORCPU);
782 
783 #define	Sync_IO_Buffer(dma_handle, length) \
784 				(void) ddi_dma_sync(dma_handle, \
785 				0, length, DDI_DMA_SYNC_FORCPU);
786 
787 /*
788  * Macros to speed handling of 32bit IDs
789  */
790 #define	OHCI_GET_ID(x)		id32_alloc((void *)(x), KM_SLEEP)
791 #define	OHCI_LOOKUP_ID(x)	id32_lookup((x))
792 #define	OHCI_FREE_ID(x)		id32_free((x))
793 
794 
795 /*
796  * Miscellaneous definitions.
797  */
798 
799 /* Data toggle bits */
800 #define	DATA0		0
801 #define	DATA1		1
802 
803 /* sKip bit actions */
804 #define	CLEAR_sKip	0
805 #define	SET_sKip	1
806 
807 typedef uint_t		skip_bit_t;
808 
809 /*
810  * Setup Packet
811  */
812 typedef struct setup_pkt {
813 	uchar_t	bmRequestType;
814 	uchar_t	bRequest;
815 	ushort_t wValue;
816 	ushort_t wIndex;
817 	ushort_t wLength;
818 }setup_pkt_t;
819 
820 #define	SETUP_SIZE		8	/* Setup packet is always 8 bytes */
821 
822 #define	REQUEST_TYPE_OFFSET	0
823 #define	REQUEST_OFFSET		1
824 #define	VALUE_OFFSET		2
825 #define	INDEX_OFFSET		4
826 #define	LENGTH_OFFSET		6
827 
828 #define	TYPE_DEV_TO_HOST	0x80000000
829 #define	DEVICE			0x00000001
830 #define	CONFIGURATION		0x00000002
831 
832 /*
833  * The following are used in attach to	 indicate
834  * what has been succesfully allocated, so detach
835  * can remove them.
836  */
837 #define	OHCI_ATTACH		0x01	/* ohci driver initilization */
838 #define	OHCI_ZALLOC		0x02	/* Memory for ohci state structure */
839 #define	OHCI_INTR		0x04	/* Interrupt handler registered */
840 #define	OHCI_USBAREG		0x08	/* USBA registered */
841 #define	OHCI_RHREG		0x10	/* Root hub driver loaded */
842 
843 #define	OHCI_UNIT(dev)	(getminor((dev)) & ~HUBD_IS_ROOT_HUB)
844 
845 /*
846  * Debug printing
847  * Masks
848  */
849 #define	PRINT_MASK_ATTA		0x00000001	/* Attach time */
850 #define	PRINT_MASK_LISTS	0x00000002	/* List management */
851 #define	PRINT_MASK_ROOT_HUB	0x00000004	/* Root hub stuff */
852 #define	PRINT_MASK_ALLOC	0x00000008	/* Alloc/dealloc descr */
853 #define	PRINT_MASK_INTR		0x00000010	/* Interrupt handling */
854 #define	PRINT_MASK_BW		0x00000020	/* Bandwidth */
855 #define	PRINT_MASK_CBOPS	0x00000040	/* CB-OPS */
856 #define	PRINT_MASK_HCDI		0x00000080	/* HCDI entry points */
857 #define	PRINT_MASK_DUMPING	0x00000100	/* Dump ohci info */
858 #define	PRINT_MASK_ALL		0xFFFFFFFF
859 
860 
861 /* Polling support */
862 int		ohci_hcdi_polled_input_init(
863 				usba_pipe_handle_data_t	*ph,
864 				uchar_t			**polled_buf,
865 				usb_console_info_impl_t	*info);
866 int		ohci_hcdi_polled_input_enter(
867 				usb_console_info_impl_t	*info);
868 int		ohci_hcdi_polled_read(
869 				usb_console_info_impl_t	*info,
870 				uint_t			*num_characters);
871 int		ohci_hcdi_polled_input_exit(
872 				usb_console_info_impl_t	*info);
873 int		ohci_hcdi_polled_input_fini(
874 				usb_console_info_impl_t	*info);
875 
876 /* Root hub related functions */
877 int		ohci_init_root_hub(
878 				ohci_state_t		*ohcip);
879 int		ohci_load_root_hub_driver(
880 				ohci_state_t		*ohcip);
881 int		ohci_unload_root_hub_driver(
882 				ohci_state_t		*ohcip);
883 int		ohci_handle_root_hub_pipe_open(
884 				usba_pipe_handle_data_t	*ph,
885 				usb_flags_t		flags);
886 int		ohci_handle_root_hub_pipe_close(
887 				usba_pipe_handle_data_t	*ph);
888 int		ohci_handle_root_hub_pipe_reset(
889 				usba_pipe_handle_data_t	*ph,
890 				usb_flags_t		flags);
891 int		ohci_handle_root_hub_request(
892 				ohci_state_t		*ohcip,
893 				usba_pipe_handle_data_t	*ph,
894 				usb_ctrl_req_t		*ctrl_reqp);
895 int		ohci_handle_root_hub_pipe_start_intr_polling(
896 				usba_pipe_handle_data_t	*ph,
897 				usb_intr_req_t		*intr_reqp,
898 				usb_flags_t		flags);
899 void		ohci_handle_root_hub_pipe_stop_intr_polling(
900 				usba_pipe_handle_data_t	*ph,
901 				usb_flags_t		flags);
902 void		ohci_handle_root_hub_status_change(void *arg);
903 
904 /* Endpoint Descriptor (ED) related functions */
905 ohci_ed_t	*ohci_alloc_hc_ed(
906 				ohci_state_t		*ohcip,
907 				usba_pipe_handle_data_t	*ph);
908 void		ohci_deallocate_ed(
909 				ohci_state_t		*ohcip,
910 				ohci_ed_t		*old_ed);
911 uint32_t	ohci_ed_cpu_to_iommu(
912 				ohci_state_t		*ohcip,
913 				ohci_ed_t		*addr);
914 
915 /* Transfer Descriptor (TD) related functions */
916 int		ohci_start_periodic_pipe_polling(
917 				ohci_state_t		*ohcip,
918 				usba_pipe_handle_data_t	*ph,
919 				usb_opaque_t		periodic_in_reqp,
920 				usb_flags_t		flags);
921 void		ohci_traverse_tds(
922 				ohci_state_t		*ohcip,
923 				usba_pipe_handle_data_t	*ph);
924 void		ohci_deallocate_td(
925 				ohci_state_t		*ohcip,
926 				ohci_td_t		*old_td);
927 uint32_t	ohci_td_cpu_to_iommu(
928 				ohci_state_t		*ohcip,
929 				ohci_td_t		*addr);
930 ohci_td_t	*ohci_td_iommu_to_cpu(
931 				ohci_state_t		*ohcip,
932 				uintptr_t		addr);
933 
934 /* Transfer Wrapper (TW) functions */
935 void		ohci_deallocate_tw_resources(
936 				ohci_state_t		*ohcip,
937 				ohci_pipe_private_t	*pp,
938 				ohci_trans_wrapper_t	*tw);
939 
940 /* Interrupt Handling functions */
941 void		ohci_handle_frame_number_overflow(
942 				ohci_state_t		*ohcip);
943 
944 /* Miscillaneous functions */
945 ohci_state_t	*ohci_obtain_state(
946 				dev_info_t		*dip);
947 int		ohci_state_is_operational(
948 				ohci_state_t		*ohcip);
949 int		ohci_do_soft_reset(
950 				ohci_state_t		*ohcip);
951 usb_frame_number_t ohci_get_current_frame_number(
952 				ohci_state_t		*ohcip);
953 void		ohci_handle_outstanding_requests(
954 				ohci_state_t		*ohcip,
955 				ohci_pipe_private_t	*pp);
956 
957 #ifdef __cplusplus
958 }
959 #endif
960 
961 #endif /* _SYS_USB_OHCID_H */
962