powerpc/44x: Add AMCC Arches eval board support
[linux-2.6] / drivers / usb / host / u132-hcd.c
1 /*
2 * Host Controller Driver for the Elan Digital Systems U132 adapter
3 *
4 * Copyright(C) 2006 Elan Digital Systems Limited
5 * http://www.elandigitalsystems.com
6 *
7 * Author and Maintainer - Tony Olech - Elan Digital Systems
8 * tony.olech@elandigitalsystems.com
9 *
10 * This program is free software;you can redistribute it and/or
11 * modify it under the terms of the GNU General Public License as
12 * published by the Free Software Foundation, version 2.
13 *
14 *
15 * This driver was written by Tony Olech(tony.olech@elandigitalsystems.com)
16 * based on various USB host drivers in the 2.6.15 linux kernel
17 * with constant reference to the 3rd Edition of Linux Device Drivers
18 * published by O'Reilly
19 *
20 * The U132 adapter is a USB to CardBus adapter specifically designed
21 * for PC cards that contain an OHCI host controller. Typical PC cards
22 * are the Orange Mobile 3G Option GlobeTrotter Fusion card.
23 *
24 * The U132 adapter will *NOT *work with PC cards that do not contain
25 * an OHCI controller. A simple way to test whether a PC card has an
26 * OHCI controller as an interface is to insert the PC card directly
27 * into a laptop(or desktop) with a CardBus slot and if "lspci" shows
28 * a new USB controller and "lsusb -v" shows a new OHCI Host Controller
29 * then there is a good chance that the U132 adapter will support the
30 * PC card.(you also need the specific client driver for the PC card)
31 *
32 * Please inform the Author and Maintainer about any PC cards that
33 * contain OHCI Host Controller and work when directly connected to
34 * an embedded CardBus slot but do not work when they are connected
35 * via an ELAN U132 adapter.
36 *
37 */
38 #include <linux/kernel.h>
39 #include <linux/module.h>
40 #include <linux/moduleparam.h>
41 #include <linux/delay.h>
42 #include <linux/ioport.h>
43 #include <linux/pci_ids.h>
44 #include <linux/sched.h>
45 #include <linux/slab.h>
46 #include <linux/errno.h>
47 #include <linux/init.h>
48 #include <linux/timer.h>
49 #include <linux/list.h>
50 #include <linux/interrupt.h>
51 #include <linux/usb.h>
52 #include <linux/workqueue.h>
53 #include <linux/platform_device.h>
54 #include <linux/mutex.h>
55 #include <asm/io.h>
56 #include <asm/irq.h>
57 #include <asm/system.h>
58 #include <asm/byteorder.h>
59 #include "../core/hcd.h"
60
61         /* FIXME ohci.h is ONLY for internal use by the OHCI driver.
62          * If you're going to try stuff like this, you need to split
63          * out shareable stuff (register declarations?) into its own
64          * file, maybe name <linux/usb/ohci.h>
65          */
66
67 #include "ohci.h"
68 #define OHCI_CONTROL_INIT OHCI_CTRL_CBSR
69 #define OHCI_INTR_INIT (OHCI_INTR_MIE | OHCI_INTR_UE | OHCI_INTR_RD | \
70         OHCI_INTR_WDH)
71 MODULE_AUTHOR("Tony Olech - Elan Digital Systems Limited");
72 MODULE_DESCRIPTION("U132 USB Host Controller Driver");
73 MODULE_LICENSE("GPL");
74 #define INT_MODULE_PARM(n, v) static int n = v;module_param(n, int, 0444)
75 INT_MODULE_PARM(testing, 0);
76 /* Some boards misreport power switching/overcurrent*/
77 static int distrust_firmware = 1;
78 module_param(distrust_firmware, bool, 0);
79 MODULE_PARM_DESC(distrust_firmware, "true to distrust firmware power/overcurren"
80         "t setup");
81 static DECLARE_WAIT_QUEUE_HEAD(u132_hcd_wait);
82 /*
83 * u132_module_lock exists to protect access to global variables
84 *
85 */
86 static struct mutex u132_module_lock;
87 static int u132_exiting;
88 static int u132_instances;
89 static struct list_head u132_static_list;
90 /*
91 * end of the global variables protected by u132_module_lock
92 */
93 static struct workqueue_struct *workqueue;
94 #define MAX_U132_PORTS 7
95 #define MAX_U132_ADDRS 128
96 #define MAX_U132_UDEVS 4
97 #define MAX_U132_ENDPS 100
98 #define MAX_U132_RINGS 4
99 static const char *cc_to_text[16] = {
100         "No Error ",
101         "CRC Error ",
102         "Bit Stuff ",
103         "Data Togg ",
104         "Stall ",
105         "DevNotResp ",
106         "PIDCheck ",
107         "UnExpPID ",
108         "DataOver ",
109         "DataUnder ",
110         "(for hw) ",
111         "(for hw) ",
112         "BufferOver ",
113         "BuffUnder ",
114         "(for HCD) ",
115         "(for HCD) "
116 };
117 struct u132_port {
118         struct u132 *u132;
119         int reset;
120         int enable;
121         int power;
122         int Status;
123 };
124 struct u132_addr {
125         u8 address;
126 };
127 struct u132_udev {
128         struct kref kref;
129         struct usb_device *usb_device;
130         u8 enumeration;
131         u8 udev_number;
132         u8 usb_addr;
133         u8 portnumber;
134         u8 endp_number_in[16];
135         u8 endp_number_out[16];
136 };
137 #define ENDP_QUEUE_SHIFT 3
138 #define ENDP_QUEUE_SIZE (1<<ENDP_QUEUE_SHIFT)
139 #define ENDP_QUEUE_MASK (ENDP_QUEUE_SIZE-1)
140 struct u132_urbq {
141         struct list_head urb_more;
142         struct urb *urb;
143 };
144 struct u132_spin {
145         spinlock_t slock;
146 };
147 struct u132_endp {
148         struct kref kref;
149         u8 udev_number;
150         u8 endp_number;
151         u8 usb_addr;
152         u8 usb_endp;
153         struct u132 *u132;
154         struct list_head endp_ring;
155         struct u132_ring *ring;
156         unsigned toggle_bits:2;
157         unsigned active:1;
158         unsigned delayed:1;
159         unsigned input:1;
160         unsigned output:1;
161         unsigned pipetype:2;
162         unsigned dequeueing:1;
163         unsigned edset_flush:1;
164         unsigned spare_bits:14;
165         unsigned long jiffies;
166         struct usb_host_endpoint *hep;
167         struct u132_spin queue_lock;
168         u16 queue_size;
169         u16 queue_last;
170         u16 queue_next;
171         struct urb *urb_list[ENDP_QUEUE_SIZE];
172         struct list_head urb_more;
173         struct delayed_work scheduler;
174 };
175 struct u132_ring {
176         unsigned in_use:1;
177         unsigned length:7;
178         u8 number;
179         struct u132 *u132;
180         struct u132_endp *curr_endp;
181         struct delayed_work scheduler;
182 };
183 struct u132 {
184         struct kref kref;
185         struct list_head u132_list;
186         struct mutex sw_lock;
187         struct mutex scheduler_lock;
188         struct u132_platform_data *board;
189         struct platform_device *platform_dev;
190         struct u132_ring ring[MAX_U132_RINGS];
191         int sequence_num;
192         int going;
193         int power;
194         int reset;
195         int num_ports;
196         u32 hc_control;
197         u32 hc_fminterval;
198         u32 hc_roothub_status;
199         u32 hc_roothub_a;
200         u32 hc_roothub_portstatus[MAX_ROOT_PORTS];
201         int flags;
202         unsigned long next_statechange;
203         struct delayed_work monitor;
204         int num_endpoints;
205         struct u132_addr addr[MAX_U132_ADDRS];
206         struct u132_udev udev[MAX_U132_UDEVS];
207         struct u132_port port[MAX_U132_PORTS];
208         struct u132_endp *endp[MAX_U132_ENDPS];
209 };
210
211 /*
212 * these cannot be inlines because we need the structure offset!!
213 * Does anyone have a better way?????
214 */
215 #define ftdi_read_pcimem(pdev, member, data) usb_ftdi_elan_read_pcimem(pdev, \
216         offsetof(struct ohci_regs, member), 0, data);
217 #define ftdi_write_pcimem(pdev, member, data) usb_ftdi_elan_write_pcimem(pdev, \
218         offsetof(struct ohci_regs, member), 0, data);
219 #define u132_read_pcimem(u132, member, data) \
220         usb_ftdi_elan_read_pcimem(u132->platform_dev, offsetof(struct \
221         ohci_regs, member), 0, data);
222 #define u132_write_pcimem(u132, member, data) \
223         usb_ftdi_elan_write_pcimem(u132->platform_dev, offsetof(struct \
224         ohci_regs, member), 0, data);
225 static inline struct u132 *udev_to_u132(struct u132_udev *udev)
226 {
227         u8 udev_number = udev->udev_number;
228         return container_of(udev, struct u132, udev[udev_number]);
229 }
230
231 static inline struct u132 *hcd_to_u132(struct usb_hcd *hcd)
232 {
233         return (struct u132 *)(hcd->hcd_priv);
234 }
235
236 static inline struct usb_hcd *u132_to_hcd(struct u132 *u132)
237 {
238         return container_of((void *)u132, struct usb_hcd, hcd_priv);
239 }
240
241 static inline void u132_disable(struct u132 *u132)
242 {
243         u132_to_hcd(u132)->state = HC_STATE_HALT;
244 }
245
246
247 #define kref_to_u132(d) container_of(d, struct u132, kref)
248 #define kref_to_u132_endp(d) container_of(d, struct u132_endp, kref)
249 #define kref_to_u132_udev(d) container_of(d, struct u132_udev, kref)
250 #include "../misc/usb_u132.h"
251 static const char hcd_name[] = "u132_hcd";
252 #define PORT_C_MASK ((USB_PORT_STAT_C_CONNECTION | USB_PORT_STAT_C_ENABLE | \
253         USB_PORT_STAT_C_SUSPEND | USB_PORT_STAT_C_OVERCURRENT | \
254         USB_PORT_STAT_C_RESET) << 16)
255 static void u132_hcd_delete(struct kref *kref)
256 {
257         struct u132 *u132 = kref_to_u132(kref);
258         struct platform_device *pdev = u132->platform_dev;
259         struct usb_hcd *hcd = u132_to_hcd(u132);
260         u132->going += 1;
261         mutex_lock(&u132_module_lock);
262         list_del_init(&u132->u132_list);
263         u132_instances -= 1;
264         mutex_unlock(&u132_module_lock);
265         dev_warn(&u132->platform_dev->dev, "FREEING the hcd=%p and thus the u13"
266                 "2=%p going=%d pdev=%p\n", hcd, u132, u132->going, pdev);
267         usb_put_hcd(hcd);
268 }
269
270 static inline void u132_u132_put_kref(struct u132 *u132)
271 {
272         kref_put(&u132->kref, u132_hcd_delete);
273 }
274
275 static inline void u132_u132_init_kref(struct u132 *u132)
276 {
277         kref_init(&u132->kref);
278 }
279
280 static void u132_udev_delete(struct kref *kref)
281 {
282         struct u132_udev *udev = kref_to_u132_udev(kref);
283         udev->udev_number = 0;
284         udev->usb_device = NULL;
285         udev->usb_addr = 0;
286         udev->enumeration = 0;
287 }
288
289 static inline void u132_udev_put_kref(struct u132 *u132, struct u132_udev *udev)
290 {
291         kref_put(&udev->kref, u132_udev_delete);
292 }
293
294 static inline void u132_udev_get_kref(struct u132 *u132, struct u132_udev *udev)
295 {
296         kref_get(&udev->kref);
297 }
298
299 static inline void u132_udev_init_kref(struct u132 *u132,
300         struct u132_udev *udev)
301 {
302         kref_init(&udev->kref);
303 }
304
305 static inline void u132_ring_put_kref(struct u132 *u132, struct u132_ring *ring)
306 {
307         kref_put(&u132->kref, u132_hcd_delete);
308 }
309
310 static void u132_ring_requeue_work(struct u132 *u132, struct u132_ring *ring,
311         unsigned int delta)
312 {
313         if (delta > 0) {
314                 if (queue_delayed_work(workqueue, &ring->scheduler, delta))
315                         return;
316         } else if (queue_delayed_work(workqueue, &ring->scheduler, 0))
317                 return;
318         kref_put(&u132->kref, u132_hcd_delete);
319         return;
320 }
321
322 static void u132_ring_queue_work(struct u132 *u132, struct u132_ring *ring,
323         unsigned int delta)
324 {
325         kref_get(&u132->kref);
326         u132_ring_requeue_work(u132, ring, delta);
327         return;
328 }
329
330 static void u132_ring_cancel_work(struct u132 *u132, struct u132_ring *ring)
331 {
332         if (cancel_delayed_work(&ring->scheduler))
333                 kref_put(&u132->kref, u132_hcd_delete);
334 }
335
336 static void u132_endp_delete(struct kref *kref)
337 {
338         struct u132_endp *endp = kref_to_u132_endp(kref);
339         struct u132 *u132 = endp->u132;
340         u8 usb_addr = endp->usb_addr;
341         u8 usb_endp = endp->usb_endp;
342         u8 address = u132->addr[usb_addr].address;
343         struct u132_udev *udev = &u132->udev[address];
344         u8 endp_number = endp->endp_number;
345         struct usb_host_endpoint *hep = endp->hep;
346         struct u132_ring *ring = endp->ring;
347         struct list_head *head = &endp->endp_ring;
348         ring->length -= 1;
349         if (endp == ring->curr_endp) {
350                 if (list_empty(head)) {
351                         ring->curr_endp = NULL;
352                         list_del(head);
353                 } else {
354                         struct u132_endp *next_endp = list_entry(head->next,
355                                 struct u132_endp, endp_ring);
356                         ring->curr_endp = next_endp;
357                         list_del(head);
358                 }
359         } else
360                 list_del(head);
361         if (endp->input) {
362                 udev->endp_number_in[usb_endp] = 0;
363                 u132_udev_put_kref(u132, udev);
364         }
365         if (endp->output) {
366                 udev->endp_number_out[usb_endp] = 0;
367                 u132_udev_put_kref(u132, udev);
368         }
369         u132->endp[endp_number - 1] = NULL;
370         hep->hcpriv = NULL;
371         kfree(endp);
372         u132_u132_put_kref(u132);
373 }
374
375 static inline void u132_endp_put_kref(struct u132 *u132, struct u132_endp *endp)
376 {
377         kref_put(&endp->kref, u132_endp_delete);
378 }
379
380 static inline void u132_endp_get_kref(struct u132 *u132, struct u132_endp *endp)
381 {
382         kref_get(&endp->kref);
383 }
384
385 static inline void u132_endp_init_kref(struct u132 *u132,
386         struct u132_endp *endp)
387 {
388         kref_init(&endp->kref);
389         kref_get(&u132->kref);
390 }
391
392 static void u132_endp_queue_work(struct u132 *u132, struct u132_endp *endp,
393         unsigned int delta)
394 {
395         if (queue_delayed_work(workqueue, &endp->scheduler, delta))
396                 kref_get(&endp->kref);
397 }
398
399 static void u132_endp_cancel_work(struct u132 *u132, struct u132_endp *endp)
400 {
401         if (cancel_delayed_work(&endp->scheduler))
402                 kref_put(&endp->kref, u132_endp_delete);
403 }
404
405 static inline void u132_monitor_put_kref(struct u132 *u132)
406 {
407         kref_put(&u132->kref, u132_hcd_delete);
408 }
409
410 static void u132_monitor_queue_work(struct u132 *u132, unsigned int delta)
411 {
412         if (queue_delayed_work(workqueue, &u132->monitor, delta))
413                 kref_get(&u132->kref);
414 }
415
416 static void u132_monitor_requeue_work(struct u132 *u132, unsigned int delta)
417 {
418         if (!queue_delayed_work(workqueue, &u132->monitor, delta))
419                 kref_put(&u132->kref, u132_hcd_delete);
420 }
421
422 static void u132_monitor_cancel_work(struct u132 *u132)
423 {
424         if (cancel_delayed_work(&u132->monitor))
425                 kref_put(&u132->kref, u132_hcd_delete);
426 }
427
428 static int read_roothub_info(struct u132 *u132)
429 {
430         u32 revision;
431         int retval;
432         retval = u132_read_pcimem(u132, revision, &revision);
433         if (retval) {
434                 dev_err(&u132->platform_dev->dev, "error %d accessing device co"
435                         "ntrol\n", retval);
436                 return retval;
437         } else if ((revision & 0xFF) == 0x10) {
438         } else if ((revision & 0xFF) == 0x11) {
439         } else {
440                 dev_err(&u132->platform_dev->dev, "device revision is not valid"
441                         " %08X\n", revision);
442                 return -ENODEV;
443         }
444         retval = u132_read_pcimem(u132, control, &u132->hc_control);
445         if (retval) {
446                 dev_err(&u132->platform_dev->dev, "error %d accessing device co"
447                         "ntrol\n", retval);
448                 return retval;
449         }
450         retval = u132_read_pcimem(u132, roothub.status,
451                 &u132->hc_roothub_status);
452         if (retval) {
453                 dev_err(&u132->platform_dev->dev, "error %d accessing device re"
454                         "g roothub.status\n", retval);
455                 return retval;
456         }
457         retval = u132_read_pcimem(u132, roothub.a, &u132->hc_roothub_a);
458         if (retval) {
459                 dev_err(&u132->platform_dev->dev, "error %d accessing device re"
460                         "g roothub.a\n", retval);
461                 return retval;
462         }
463         {
464                 int I = u132->num_ports;
465                 int i = 0;
466                 while (I-- > 0) {
467                         retval = u132_read_pcimem(u132, roothub.portstatus[i],
468                                 &u132->hc_roothub_portstatus[i]);
469                         if (retval) {
470                                 dev_err(&u132->platform_dev->dev, "error %d acc"
471                                         "essing device roothub.portstatus[%d]\n"
472                                         , retval, i);
473                                 return retval;
474                         } else
475                                 i += 1;
476                 }
477         }
478         return 0;
479 }
480
481 static void u132_hcd_monitor_work(struct work_struct *work)
482 {
483         struct u132 *u132 = container_of(work, struct u132, monitor.work);
484         if (u132->going > 1) {
485                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
486                         , u132->going);
487                 u132_monitor_put_kref(u132);
488                 return;
489         } else if (u132->going > 0) {
490                 dev_err(&u132->platform_dev->dev, "device is being removed\n");
491                 u132_monitor_put_kref(u132);
492                 return;
493         } else {
494                 int retval;
495                 mutex_lock(&u132->sw_lock);
496                 retval = read_roothub_info(u132);
497                 if (retval) {
498                         struct usb_hcd *hcd = u132_to_hcd(u132);
499                         u132_disable(u132);
500                         u132->going = 1;
501                         mutex_unlock(&u132->sw_lock);
502                         usb_hc_died(hcd);
503                         ftdi_elan_gone_away(u132->platform_dev);
504                         u132_monitor_put_kref(u132);
505                         return;
506                 } else {
507                         u132_monitor_requeue_work(u132, 500);
508                         mutex_unlock(&u132->sw_lock);
509                         return;
510                 }
511         }
512 }
513
514 static void u132_hcd_giveback_urb(struct u132 *u132, struct u132_endp *endp,
515         struct urb *urb, int status)
516 {
517         struct u132_ring *ring;
518         unsigned long irqs;
519         struct usb_hcd *hcd = u132_to_hcd(u132);
520         urb->error_count = 0;
521         spin_lock_irqsave(&endp->queue_lock.slock, irqs);
522         usb_hcd_unlink_urb_from_ep(hcd, urb);
523         endp->queue_next += 1;
524         if (ENDP_QUEUE_SIZE > --endp->queue_size) {
525                 endp->active = 0;
526                 spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
527         } else {
528                 struct list_head *next = endp->urb_more.next;
529                 struct u132_urbq *urbq = list_entry(next, struct u132_urbq,
530                         urb_more);
531                 list_del(next);
532                 endp->urb_list[ENDP_QUEUE_MASK & endp->queue_last++] =
533                         urbq->urb;
534                 endp->active = 0;
535                 spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
536                 kfree(urbq);
537         }
538         mutex_lock(&u132->scheduler_lock);
539         ring = endp->ring;
540         ring->in_use = 0;
541         u132_ring_cancel_work(u132, ring);
542         u132_ring_queue_work(u132, ring, 0);
543         mutex_unlock(&u132->scheduler_lock);
544         u132_endp_put_kref(u132, endp);
545         usb_hcd_giveback_urb(hcd, urb, status);
546         return;
547 }
548
549 static void u132_hcd_forget_urb(struct u132 *u132, struct u132_endp *endp,
550         struct urb *urb, int status)
551 {
552         u132_endp_put_kref(u132, endp);
553 }
554
555 static void u132_hcd_abandon_urb(struct u132 *u132, struct u132_endp *endp,
556         struct urb *urb, int status)
557 {
558         unsigned long irqs;
559         struct usb_hcd *hcd = u132_to_hcd(u132);
560         urb->error_count = 0;
561         spin_lock_irqsave(&endp->queue_lock.slock, irqs);
562         usb_hcd_unlink_urb_from_ep(hcd, urb);
563         endp->queue_next += 1;
564         if (ENDP_QUEUE_SIZE > --endp->queue_size) {
565                 endp->active = 0;
566                 spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
567         } else {
568                 struct list_head *next = endp->urb_more.next;
569                 struct u132_urbq *urbq = list_entry(next, struct u132_urbq,
570                         urb_more);
571                 list_del(next);
572                 endp->urb_list[ENDP_QUEUE_MASK & endp->queue_last++] =
573                         urbq->urb;
574                 endp->active = 0;
575                 spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
576                 kfree(urbq);
577         } usb_hcd_giveback_urb(hcd, urb, status);
578         return;
579 }
580
581 static inline int edset_input(struct u132 *u132, struct u132_ring *ring,
582         struct u132_endp *endp, struct urb *urb, u8 address, u8 toggle_bits,
583         void (*callback) (void *endp, struct urb *urb, u8 *buf, int len,
584         int toggle_bits, int error_count, int condition_code, int repeat_number,
585          int halted, int skipped, int actual, int non_null))
586 {
587         return usb_ftdi_elan_edset_input(u132->platform_dev, ring->number, endp,
588                  urb, address, endp->usb_endp, toggle_bits, callback);
589 }
590
591 static inline int edset_setup(struct u132 *u132, struct u132_ring *ring,
592         struct u132_endp *endp, struct urb *urb, u8 address, u8 toggle_bits,
593         void (*callback) (void *endp, struct urb *urb, u8 *buf, int len,
594         int toggle_bits, int error_count, int condition_code, int repeat_number,
595          int halted, int skipped, int actual, int non_null))
596 {
597         return usb_ftdi_elan_edset_setup(u132->platform_dev, ring->number, endp,
598                  urb, address, endp->usb_endp, toggle_bits, callback);
599 }
600
601 static inline int edset_single(struct u132 *u132, struct u132_ring *ring,
602         struct u132_endp *endp, struct urb *urb, u8 address, u8 toggle_bits,
603         void (*callback) (void *endp, struct urb *urb, u8 *buf, int len,
604         int toggle_bits, int error_count, int condition_code, int repeat_number,
605          int halted, int skipped, int actual, int non_null))
606 {
607         return usb_ftdi_elan_edset_single(u132->platform_dev, ring->number,
608                 endp, urb, address, endp->usb_endp, toggle_bits, callback);
609 }
610
611 static inline int edset_output(struct u132 *u132, struct u132_ring *ring,
612         struct u132_endp *endp, struct urb *urb, u8 address, u8 toggle_bits,
613         void (*callback) (void *endp, struct urb *urb, u8 *buf, int len,
614         int toggle_bits, int error_count, int condition_code, int repeat_number,
615          int halted, int skipped, int actual, int non_null))
616 {
617         return usb_ftdi_elan_edset_output(u132->platform_dev, ring->number,
618                 endp, urb, address, endp->usb_endp, toggle_bits, callback);
619 }
620
621
622 /*
623 * must not LOCK sw_lock
624 *
625 */
626 static void u132_hcd_interrupt_recv(void *data, struct urb *urb, u8 *buf,
627         int len, int toggle_bits, int error_count, int condition_code,
628         int repeat_number, int halted, int skipped, int actual, int non_null)
629 {
630         struct u132_endp *endp = data;
631         struct u132 *u132 = endp->u132;
632         u8 address = u132->addr[endp->usb_addr].address;
633         struct u132_udev *udev = &u132->udev[address];
634         mutex_lock(&u132->scheduler_lock);
635         if (u132->going > 1) {
636                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
637                         , u132->going);
638                 mutex_unlock(&u132->scheduler_lock);
639                 u132_hcd_forget_urb(u132, endp, urb, -ENODEV);
640                 return;
641         } else if (endp->dequeueing) {
642                 endp->dequeueing = 0;
643                 mutex_unlock(&u132->scheduler_lock);
644                 u132_hcd_giveback_urb(u132, endp, urb, -EINTR);
645                 return;
646         } else if (u132->going > 0) {
647                 dev_err(&u132->platform_dev->dev, "device is being removed "
648                                 "urb=%p\n", urb);
649                 mutex_unlock(&u132->scheduler_lock);
650                 u132_hcd_giveback_urb(u132, endp, urb, -ENODEV);
651                 return;
652         } else if (!urb->unlinked) {
653                 struct u132_ring *ring = endp->ring;
654                 u8 *u = urb->transfer_buffer + urb->actual_length;
655                 u8 *b = buf;
656                 int L = len;
657
658                 while (L-- > 0)
659                         *u++ = *b++;
660
661                 urb->actual_length += len;
662                 if ((condition_code == TD_CC_NOERROR) &&
663                         (urb->transfer_buffer_length > urb->actual_length)) {
664                         endp->toggle_bits = toggle_bits;
665                         usb_settoggle(udev->usb_device, endp->usb_endp, 0,
666                                 1 & toggle_bits);
667                         if (urb->actual_length > 0) {
668                                 int retval;
669                                 mutex_unlock(&u132->scheduler_lock);
670                                 retval = edset_single(u132, ring, endp, urb,
671                                         address, endp->toggle_bits,
672                                         u132_hcd_interrupt_recv);
673                                 if (retval != 0)
674                                         u132_hcd_giveback_urb(u132, endp, urb,
675                                                 retval);
676                         } else {
677                                 ring->in_use = 0;
678                                 endp->active = 0;
679                                 endp->jiffies = jiffies +
680                                         msecs_to_jiffies(urb->interval);
681                                 u132_ring_cancel_work(u132, ring);
682                                 u132_ring_queue_work(u132, ring, 0);
683                                 mutex_unlock(&u132->scheduler_lock);
684                                 u132_endp_put_kref(u132, endp);
685                         }
686                         return;
687                 } else if ((condition_code == TD_DATAUNDERRUN) &&
688                         ((urb->transfer_flags & URB_SHORT_NOT_OK) == 0)) {
689                         endp->toggle_bits = toggle_bits;
690                         usb_settoggle(udev->usb_device, endp->usb_endp, 0,
691                                 1 & toggle_bits);
692                         mutex_unlock(&u132->scheduler_lock);
693                         u132_hcd_giveback_urb(u132, endp, urb, 0);
694                         return;
695                 } else {
696                         if (condition_code == TD_CC_NOERROR) {
697                                 endp->toggle_bits = toggle_bits;
698                                 usb_settoggle(udev->usb_device, endp->usb_endp,
699                                         0, 1 & toggle_bits);
700                         } else if (condition_code == TD_CC_STALL) {
701                                 endp->toggle_bits = 0x2;
702                                 usb_settoggle(udev->usb_device, endp->usb_endp,
703                                         0, 0);
704                         } else {
705                                 endp->toggle_bits = 0x2;
706                                 usb_settoggle(udev->usb_device, endp->usb_endp,
707                                         0, 0);
708                                 dev_err(&u132->platform_dev->dev, "urb=%p givin"
709                                         "g back INTERRUPT %s\n", urb,
710                                         cc_to_text[condition_code]);
711                         }
712                         mutex_unlock(&u132->scheduler_lock);
713                         u132_hcd_giveback_urb(u132, endp, urb,
714                                 cc_to_error[condition_code]);
715                         return;
716                 }
717         } else {
718                 dev_err(&u132->platform_dev->dev, "CALLBACK called urb=%p "
719                                 "unlinked=%d\n", urb, urb->unlinked);
720                 mutex_unlock(&u132->scheduler_lock);
721                 u132_hcd_giveback_urb(u132, endp, urb, 0);
722                 return;
723         }
724 }
725
726 static void u132_hcd_bulk_output_sent(void *data, struct urb *urb, u8 *buf,
727         int len, int toggle_bits, int error_count, int condition_code,
728         int repeat_number, int halted, int skipped, int actual, int non_null)
729 {
730         struct u132_endp *endp = data;
731         struct u132 *u132 = endp->u132;
732         u8 address = u132->addr[endp->usb_addr].address;
733         mutex_lock(&u132->scheduler_lock);
734         if (u132->going > 1) {
735                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
736                         , u132->going);
737                 mutex_unlock(&u132->scheduler_lock);
738                 u132_hcd_forget_urb(u132, endp, urb, -ENODEV);
739                 return;
740         } else if (endp->dequeueing) {
741                 endp->dequeueing = 0;
742                 mutex_unlock(&u132->scheduler_lock);
743                 u132_hcd_giveback_urb(u132, endp, urb, -EINTR);
744                 return;
745         } else if (u132->going > 0) {
746                 dev_err(&u132->platform_dev->dev, "device is being removed "
747                                 "urb=%p\n", urb);
748                 mutex_unlock(&u132->scheduler_lock);
749                 u132_hcd_giveback_urb(u132, endp, urb, -ENODEV);
750                 return;
751         } else if (!urb->unlinked) {
752                 struct u132_ring *ring = endp->ring;
753                 urb->actual_length += len;
754                 endp->toggle_bits = toggle_bits;
755                 if (urb->transfer_buffer_length > urb->actual_length) {
756                         int retval;
757                         mutex_unlock(&u132->scheduler_lock);
758                         retval = edset_output(u132, ring, endp, urb, address,
759                                 endp->toggle_bits, u132_hcd_bulk_output_sent);
760                         if (retval != 0)
761                                 u132_hcd_giveback_urb(u132, endp, urb, retval);
762                         return;
763                 } else {
764                         mutex_unlock(&u132->scheduler_lock);
765                         u132_hcd_giveback_urb(u132, endp, urb, 0);
766                         return;
767                 }
768         } else {
769                 dev_err(&u132->platform_dev->dev, "CALLBACK called urb=%p "
770                                 "unlinked=%d\n", urb, urb->unlinked);
771                 mutex_unlock(&u132->scheduler_lock);
772                 u132_hcd_giveback_urb(u132, endp, urb, 0);
773                 return;
774         }
775 }
776
777 static void u132_hcd_bulk_input_recv(void *data, struct urb *urb, u8 *buf,
778         int len, int toggle_bits, int error_count, int condition_code,
779         int repeat_number, int halted, int skipped, int actual, int non_null)
780 {
781         struct u132_endp *endp = data;
782         struct u132 *u132 = endp->u132;
783         u8 address = u132->addr[endp->usb_addr].address;
784         struct u132_udev *udev = &u132->udev[address];
785         mutex_lock(&u132->scheduler_lock);
786         if (u132->going > 1) {
787                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
788                         , u132->going);
789                 mutex_unlock(&u132->scheduler_lock);
790                 u132_hcd_forget_urb(u132, endp, urb, -ENODEV);
791                 return;
792         } else if (endp->dequeueing) {
793                 endp->dequeueing = 0;
794                 mutex_unlock(&u132->scheduler_lock);
795                 u132_hcd_giveback_urb(u132, endp, urb, -EINTR);
796                 return;
797         } else if (u132->going > 0) {
798                 dev_err(&u132->platform_dev->dev, "device is being removed "
799                                 "urb=%p\n", urb);
800                 mutex_unlock(&u132->scheduler_lock);
801                 u132_hcd_giveback_urb(u132, endp, urb, -ENODEV);
802                 return;
803         } else if (!urb->unlinked) {
804                 struct u132_ring *ring = endp->ring;
805                 u8 *u = urb->transfer_buffer + urb->actual_length;
806                 u8 *b = buf;
807                 int L = len;
808
809                 while (L-- > 0)
810                         *u++ = *b++;
811
812                 urb->actual_length += len;
813                 if ((condition_code == TD_CC_NOERROR) &&
814                         (urb->transfer_buffer_length > urb->actual_length)) {
815                         int retval;
816                         endp->toggle_bits = toggle_bits;
817                         usb_settoggle(udev->usb_device, endp->usb_endp, 0,
818                                 1 & toggle_bits);
819                         mutex_unlock(&u132->scheduler_lock);
820                         retval = usb_ftdi_elan_edset_input(u132->platform_dev,
821                                 ring->number, endp, urb, address,
822                                 endp->usb_endp, endp->toggle_bits,
823                                 u132_hcd_bulk_input_recv);
824                         if (retval != 0)
825                                 u132_hcd_giveback_urb(u132, endp, urb, retval);
826                         return;
827                 } else if (condition_code == TD_CC_NOERROR) {
828                         endp->toggle_bits = toggle_bits;
829                         usb_settoggle(udev->usb_device, endp->usb_endp, 0,
830                                 1 & toggle_bits);
831                         mutex_unlock(&u132->scheduler_lock);
832                         u132_hcd_giveback_urb(u132, endp, urb,
833                                 cc_to_error[condition_code]);
834                         return;
835                 } else if ((condition_code == TD_DATAUNDERRUN) &&
836                         ((urb->transfer_flags & URB_SHORT_NOT_OK) == 0)) {
837                         endp->toggle_bits = toggle_bits;
838                         usb_settoggle(udev->usb_device, endp->usb_endp, 0,
839                                 1 & toggle_bits);
840                         mutex_unlock(&u132->scheduler_lock);
841                         u132_hcd_giveback_urb(u132, endp, urb, 0);
842                         return;
843                 } else if (condition_code == TD_DATAUNDERRUN) {
844                         endp->toggle_bits = toggle_bits;
845                         usb_settoggle(udev->usb_device, endp->usb_endp, 0,
846                                 1 & toggle_bits);
847                         dev_warn(&u132->platform_dev->dev, "urb=%p(SHORT NOT OK"
848                                 ") giving back BULK IN %s\n", urb,
849                                 cc_to_text[condition_code]);
850                         mutex_unlock(&u132->scheduler_lock);
851                         u132_hcd_giveback_urb(u132, endp, urb, 0);
852                         return;
853                 } else if (condition_code == TD_CC_STALL) {
854                         endp->toggle_bits = 0x2;
855                         usb_settoggle(udev->usb_device, endp->usb_endp, 0, 0);
856                         mutex_unlock(&u132->scheduler_lock);
857                         u132_hcd_giveback_urb(u132, endp, urb,
858                                 cc_to_error[condition_code]);
859                         return;
860                 } else {
861                         endp->toggle_bits = 0x2;
862                         usb_settoggle(udev->usb_device, endp->usb_endp, 0, 0);
863                         dev_err(&u132->platform_dev->dev, "urb=%p giving back B"
864                                 "ULK IN code=%d %s\n", urb, condition_code,
865                                 cc_to_text[condition_code]);
866                         mutex_unlock(&u132->scheduler_lock);
867                         u132_hcd_giveback_urb(u132, endp, urb,
868                                 cc_to_error[condition_code]);
869                         return;
870                 }
871         } else {
872                 dev_err(&u132->platform_dev->dev, "CALLBACK called urb=%p "
873                                 "unlinked=%d\n", urb, urb->unlinked);
874                 mutex_unlock(&u132->scheduler_lock);
875                 u132_hcd_giveback_urb(u132, endp, urb, 0);
876                 return;
877         }
878 }
879
880 static void u132_hcd_configure_empty_sent(void *data, struct urb *urb, u8 *buf,
881         int len, int toggle_bits, int error_count, int condition_code,
882         int repeat_number, int halted, int skipped, int actual, int non_null)
883 {
884         struct u132_endp *endp = data;
885         struct u132 *u132 = endp->u132;
886         mutex_lock(&u132->scheduler_lock);
887         if (u132->going > 1) {
888                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
889                         , u132->going);
890                 mutex_unlock(&u132->scheduler_lock);
891                 u132_hcd_forget_urb(u132, endp, urb, -ENODEV);
892                 return;
893         } else if (endp->dequeueing) {
894                 endp->dequeueing = 0;
895                 mutex_unlock(&u132->scheduler_lock);
896                 u132_hcd_giveback_urb(u132, endp, urb, -EINTR);
897                 return;
898         } else if (u132->going > 0) {
899                 dev_err(&u132->platform_dev->dev, "device is being removed "
900                                 "urb=%p\n", urb);
901                 mutex_unlock(&u132->scheduler_lock);
902                 u132_hcd_giveback_urb(u132, endp, urb, -ENODEV);
903                 return;
904         } else if (!urb->unlinked) {
905                 mutex_unlock(&u132->scheduler_lock);
906                 u132_hcd_giveback_urb(u132, endp, urb, 0);
907                 return;
908         } else {
909                 dev_err(&u132->platform_dev->dev, "CALLBACK called urb=%p "
910                                 "unlinked=%d\n", urb, urb->unlinked);
911                 mutex_unlock(&u132->scheduler_lock);
912                 u132_hcd_giveback_urb(u132, endp, urb, 0);
913                 return;
914         }
915 }
916
917 static void u132_hcd_configure_input_recv(void *data, struct urb *urb, u8 *buf,
918         int len, int toggle_bits, int error_count, int condition_code,
919         int repeat_number, int halted, int skipped, int actual, int non_null)
920 {
921         struct u132_endp *endp = data;
922         struct u132 *u132 = endp->u132;
923         u8 address = u132->addr[endp->usb_addr].address;
924         mutex_lock(&u132->scheduler_lock);
925         if (u132->going > 1) {
926                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
927                         , u132->going);
928                 mutex_unlock(&u132->scheduler_lock);
929                 u132_hcd_forget_urb(u132, endp, urb, -ENODEV);
930                 return;
931         } else if (endp->dequeueing) {
932                 endp->dequeueing = 0;
933                 mutex_unlock(&u132->scheduler_lock);
934                 u132_hcd_giveback_urb(u132, endp, urb, -EINTR);
935                 return;
936         } else if (u132->going > 0) {
937                 dev_err(&u132->platform_dev->dev, "device is being removed "
938                                 "urb=%p\n", urb);
939                 mutex_unlock(&u132->scheduler_lock);
940                 u132_hcd_giveback_urb(u132, endp, urb, -ENODEV);
941                 return;
942         } else if (!urb->unlinked) {
943                 struct u132_ring *ring = endp->ring;
944                 u8 *u = urb->transfer_buffer;
945                 u8 *b = buf;
946                 int L = len;
947
948                 while (L-- > 0)
949                         *u++ = *b++;
950
951                 urb->actual_length = len;
952                 if ((condition_code == TD_CC_NOERROR) || ((condition_code ==
953                         TD_DATAUNDERRUN) && ((urb->transfer_flags &
954                         URB_SHORT_NOT_OK) == 0))) {
955                         int retval;
956                         mutex_unlock(&u132->scheduler_lock);
957                         retval = usb_ftdi_elan_edset_empty(u132->platform_dev,
958                                 ring->number, endp, urb, address,
959                                 endp->usb_endp, 0x3,
960                                 u132_hcd_configure_empty_sent);
961                         if (retval != 0)
962                                 u132_hcd_giveback_urb(u132, endp, urb, retval);
963                         return;
964                 } else if (condition_code == TD_CC_STALL) {
965                         mutex_unlock(&u132->scheduler_lock);
966                         dev_warn(&u132->platform_dev->dev, "giving back SETUP I"
967                                 "NPUT STALL urb %p\n", urb);
968                         u132_hcd_giveback_urb(u132, endp, urb,
969                                 cc_to_error[condition_code]);
970                         return;
971                 } else {
972                         mutex_unlock(&u132->scheduler_lock);
973                         dev_err(&u132->platform_dev->dev, "giving back SETUP IN"
974                                 "PUT %s urb %p\n", cc_to_text[condition_code],
975                                 urb);
976                         u132_hcd_giveback_urb(u132, endp, urb,
977                                 cc_to_error[condition_code]);
978                         return;
979                 }
980         } else {
981                 dev_err(&u132->platform_dev->dev, "CALLBACK called urb=%p "
982                                 "unlinked=%d\n", urb, urb->unlinked);
983                 mutex_unlock(&u132->scheduler_lock);
984                 u132_hcd_giveback_urb(u132, endp, urb, 0);
985                 return;
986         }
987 }
988
989 static void u132_hcd_configure_empty_recv(void *data, struct urb *urb, u8 *buf,
990         int len, int toggle_bits, int error_count, int condition_code,
991         int repeat_number, int halted, int skipped, int actual, int non_null)
992 {
993         struct u132_endp *endp = data;
994         struct u132 *u132 = endp->u132;
995         mutex_lock(&u132->scheduler_lock);
996         if (u132->going > 1) {
997                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
998                         , u132->going);
999                 mutex_unlock(&u132->scheduler_lock);
1000                 u132_hcd_forget_urb(u132, endp, urb, -ENODEV);
1001                 return;
1002         } else if (endp->dequeueing) {
1003                 endp->dequeueing = 0;
1004                 mutex_unlock(&u132->scheduler_lock);
1005                 u132_hcd_giveback_urb(u132, endp, urb, -EINTR);
1006                 return;
1007         } else if (u132->going > 0) {
1008                 dev_err(&u132->platform_dev->dev, "device is being removed "
1009                                 "urb=%p\n", urb);
1010                 mutex_unlock(&u132->scheduler_lock);
1011                 u132_hcd_giveback_urb(u132, endp, urb, -ENODEV);
1012                 return;
1013         } else if (!urb->unlinked) {
1014                 mutex_unlock(&u132->scheduler_lock);
1015                 u132_hcd_giveback_urb(u132, endp, urb, 0);
1016                 return;
1017         } else {
1018                 dev_err(&u132->platform_dev->dev, "CALLBACK called urb=%p "
1019                                 "unlinked=%d\n", urb, urb->unlinked);
1020                 mutex_unlock(&u132->scheduler_lock);
1021                 u132_hcd_giveback_urb(u132, endp, urb, 0);
1022                 return;
1023         }
1024 }
1025
1026 static void u132_hcd_configure_setup_sent(void *data, struct urb *urb, u8 *buf,
1027         int len, int toggle_bits, int error_count, int condition_code,
1028         int repeat_number, int halted, int skipped, int actual, int non_null)
1029 {
1030         struct u132_endp *endp = data;
1031         struct u132 *u132 = endp->u132;
1032         u8 address = u132->addr[endp->usb_addr].address;
1033         mutex_lock(&u132->scheduler_lock);
1034         if (u132->going > 1) {
1035                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
1036                         , u132->going);
1037                 mutex_unlock(&u132->scheduler_lock);
1038                 u132_hcd_forget_urb(u132, endp, urb, -ENODEV);
1039                 return;
1040         } else if (endp->dequeueing) {
1041                 endp->dequeueing = 0;
1042                 mutex_unlock(&u132->scheduler_lock);
1043                 u132_hcd_giveback_urb(u132, endp, urb, -EINTR);
1044                 return;
1045         } else if (u132->going > 0) {
1046                 dev_err(&u132->platform_dev->dev, "device is being removed "
1047                                 "urb=%p\n", urb);
1048                 mutex_unlock(&u132->scheduler_lock);
1049                 u132_hcd_giveback_urb(u132, endp, urb, -ENODEV);
1050                 return;
1051         } else if (!urb->unlinked) {
1052                 if (usb_pipein(urb->pipe)) {
1053                         int retval;
1054                         struct u132_ring *ring = endp->ring;
1055                         mutex_unlock(&u132->scheduler_lock);
1056                         retval = usb_ftdi_elan_edset_input(u132->platform_dev,
1057                                 ring->number, endp, urb, address,
1058                                 endp->usb_endp, 0,
1059                                 u132_hcd_configure_input_recv);
1060                         if (retval != 0)
1061                                 u132_hcd_giveback_urb(u132, endp, urb, retval);
1062                         return;
1063                 } else {
1064                         int retval;
1065                         struct u132_ring *ring = endp->ring;
1066                         mutex_unlock(&u132->scheduler_lock);
1067                         retval = usb_ftdi_elan_edset_input(u132->platform_dev,
1068                                 ring->number, endp, urb, address,
1069                                 endp->usb_endp, 0,
1070                                 u132_hcd_configure_empty_recv);
1071                         if (retval != 0)
1072                                 u132_hcd_giveback_urb(u132, endp, urb, retval);
1073                         return;
1074                 }
1075         } else {
1076                 dev_err(&u132->platform_dev->dev, "CALLBACK called urb=%p "
1077                                 "unlinked=%d\n", urb, urb->unlinked);
1078                 mutex_unlock(&u132->scheduler_lock);
1079                 u132_hcd_giveback_urb(u132, endp, urb, 0);
1080                 return;
1081         }
1082 }
1083
1084 static void u132_hcd_enumeration_empty_recv(void *data, struct urb *urb,
1085         u8 *buf, int len, int toggle_bits, int error_count, int condition_code,
1086         int repeat_number, int halted, int skipped, int actual, int non_null)
1087 {
1088         struct u132_endp *endp = data;
1089         struct u132 *u132 = endp->u132;
1090         u8 address = u132->addr[endp->usb_addr].address;
1091         struct u132_udev *udev = &u132->udev[address];
1092         mutex_lock(&u132->scheduler_lock);
1093         if (u132->going > 1) {
1094                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
1095                         , u132->going);
1096                 mutex_unlock(&u132->scheduler_lock);
1097                 u132_hcd_forget_urb(u132, endp, urb, -ENODEV);
1098                 return;
1099         } else if (endp->dequeueing) {
1100                 endp->dequeueing = 0;
1101                 mutex_unlock(&u132->scheduler_lock);
1102                 u132_hcd_giveback_urb(u132, endp, urb, -EINTR);
1103                 return;
1104         } else if (u132->going > 0) {
1105                 dev_err(&u132->platform_dev->dev, "device is being removed "
1106                                 "urb=%p\n", urb);
1107                 mutex_unlock(&u132->scheduler_lock);
1108                 u132_hcd_giveback_urb(u132, endp, urb, -ENODEV);
1109                 return;
1110         } else if (!urb->unlinked) {
1111                 u132->addr[0].address = 0;
1112                 endp->usb_addr = udev->usb_addr;
1113                 mutex_unlock(&u132->scheduler_lock);
1114                 u132_hcd_giveback_urb(u132, endp, urb, 0);
1115                 return;
1116         } else {
1117                 dev_err(&u132->platform_dev->dev, "CALLBACK called urb=%p "
1118                                 "unlinked=%d\n", urb, urb->unlinked);
1119                 mutex_unlock(&u132->scheduler_lock);
1120                 u132_hcd_giveback_urb(u132, endp, urb, 0);
1121                 return;
1122         }
1123 }
1124
1125 static void u132_hcd_enumeration_address_sent(void *data, struct urb *urb,
1126         u8 *buf, int len, int toggle_bits, int error_count, int condition_code,
1127         int repeat_number, int halted, int skipped, int actual, int non_null)
1128 {
1129         struct u132_endp *endp = data;
1130         struct u132 *u132 = endp->u132;
1131         mutex_lock(&u132->scheduler_lock);
1132         if (u132->going > 1) {
1133                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
1134                         , u132->going);
1135                 mutex_unlock(&u132->scheduler_lock);
1136                 u132_hcd_forget_urb(u132, endp, urb, -ENODEV);
1137                 return;
1138         } else if (endp->dequeueing) {
1139                 endp->dequeueing = 0;
1140                 mutex_unlock(&u132->scheduler_lock);
1141                 u132_hcd_giveback_urb(u132, endp, urb, -EINTR);
1142                 return;
1143         } else if (u132->going > 0) {
1144                 dev_err(&u132->platform_dev->dev, "device is being removed "
1145                                 "urb=%p\n", urb);
1146                 mutex_unlock(&u132->scheduler_lock);
1147                 u132_hcd_giveback_urb(u132, endp, urb, -ENODEV);
1148                 return;
1149         } else if (!urb->unlinked) {
1150                 int retval;
1151                 struct u132_ring *ring = endp->ring;
1152                 mutex_unlock(&u132->scheduler_lock);
1153                 retval = usb_ftdi_elan_edset_input(u132->platform_dev,
1154                         ring->number, endp, urb, 0, endp->usb_endp, 0,
1155                         u132_hcd_enumeration_empty_recv);
1156                 if (retval != 0)
1157                         u132_hcd_giveback_urb(u132, endp, urb, retval);
1158                 return;
1159         } else {
1160                 dev_err(&u132->platform_dev->dev, "CALLBACK called urb=%p "
1161                                 "unlinked=%d\n", urb, urb->unlinked);
1162                 mutex_unlock(&u132->scheduler_lock);
1163                 u132_hcd_giveback_urb(u132, endp, urb, 0);
1164                 return;
1165         }
1166 }
1167
1168 static void u132_hcd_initial_empty_sent(void *data, struct urb *urb, u8 *buf,
1169         int len, int toggle_bits, int error_count, int condition_code,
1170         int repeat_number, int halted, int skipped, int actual, int non_null)
1171 {
1172         struct u132_endp *endp = data;
1173         struct u132 *u132 = endp->u132;
1174         mutex_lock(&u132->scheduler_lock);
1175         if (u132->going > 1) {
1176                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
1177                         , u132->going);
1178                 mutex_unlock(&u132->scheduler_lock);
1179                 u132_hcd_forget_urb(u132, endp, urb, -ENODEV);
1180                 return;
1181         } else if (endp->dequeueing) {
1182                 endp->dequeueing = 0;
1183                 mutex_unlock(&u132->scheduler_lock);
1184                 u132_hcd_giveback_urb(u132, endp, urb, -EINTR);
1185                 return;
1186         } else if (u132->going > 0) {
1187                 dev_err(&u132->platform_dev->dev, "device is being removed "
1188                                 "urb=%p\n", urb);
1189                 mutex_unlock(&u132->scheduler_lock);
1190                 u132_hcd_giveback_urb(u132, endp, urb, -ENODEV);
1191                 return;
1192         } else if (!urb->unlinked) {
1193                 mutex_unlock(&u132->scheduler_lock);
1194                 u132_hcd_giveback_urb(u132, endp, urb, 0);
1195                 return;
1196         } else {
1197                 dev_err(&u132->platform_dev->dev, "CALLBACK called urb=%p "
1198                                 "unlinked=%d\n", urb, urb->unlinked);
1199                 mutex_unlock(&u132->scheduler_lock);
1200                 u132_hcd_giveback_urb(u132, endp, urb, 0);
1201                 return;
1202         }
1203 }
1204
1205 static void u132_hcd_initial_input_recv(void *data, struct urb *urb, u8 *buf,
1206         int len, int toggle_bits, int error_count, int condition_code,
1207         int repeat_number, int halted, int skipped, int actual, int non_null)
1208 {
1209         struct u132_endp *endp = data;
1210         struct u132 *u132 = endp->u132;
1211         u8 address = u132->addr[endp->usb_addr].address;
1212         mutex_lock(&u132->scheduler_lock);
1213         if (u132->going > 1) {
1214                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
1215                         , u132->going);
1216                 mutex_unlock(&u132->scheduler_lock);
1217                 u132_hcd_forget_urb(u132, endp, urb, -ENODEV);
1218                 return;
1219         } else if (endp->dequeueing) {
1220                 endp->dequeueing = 0;
1221                 mutex_unlock(&u132->scheduler_lock);
1222                 u132_hcd_giveback_urb(u132, endp, urb, -EINTR);
1223                 return;
1224         } else if (u132->going > 0) {
1225                 dev_err(&u132->platform_dev->dev, "device is being removed "
1226                                 "urb=%p\n", urb);
1227                 mutex_unlock(&u132->scheduler_lock);
1228                 u132_hcd_giveback_urb(u132, endp, urb, -ENODEV);
1229                 return;
1230         } else if (!urb->unlinked) {
1231                 int retval;
1232                 struct u132_ring *ring = endp->ring;
1233                 u8 *u = urb->transfer_buffer;
1234                 u8 *b = buf;
1235                 int L = len;
1236
1237                 while (L-- > 0)
1238                         *u++ = *b++;
1239
1240                 urb->actual_length = len;
1241                 mutex_unlock(&u132->scheduler_lock);
1242                 retval = usb_ftdi_elan_edset_empty(u132->platform_dev,
1243                         ring->number, endp, urb, address, endp->usb_endp, 0x3,
1244                         u132_hcd_initial_empty_sent);
1245                 if (retval != 0)
1246                         u132_hcd_giveback_urb(u132, endp, urb, retval);
1247                 return;
1248         } else {
1249                 dev_err(&u132->platform_dev->dev, "CALLBACK called urb=%p "
1250                                 "unlinked=%d\n", urb, urb->unlinked);
1251                 mutex_unlock(&u132->scheduler_lock);
1252                 u132_hcd_giveback_urb(u132, endp, urb, 0);
1253                 return;
1254         }
1255 }
1256
1257 static void u132_hcd_initial_setup_sent(void *data, struct urb *urb, u8 *buf,
1258         int len, int toggle_bits, int error_count, int condition_code,
1259         int repeat_number, int halted, int skipped, int actual, int non_null)
1260 {
1261         struct u132_endp *endp = data;
1262         struct u132 *u132 = endp->u132;
1263         u8 address = u132->addr[endp->usb_addr].address;
1264         mutex_lock(&u132->scheduler_lock);
1265         if (u132->going > 1) {
1266                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
1267                         , u132->going);
1268                 mutex_unlock(&u132->scheduler_lock);
1269                 u132_hcd_forget_urb(u132, endp, urb, -ENODEV);
1270                 return;
1271         } else if (endp->dequeueing) {
1272                 endp->dequeueing = 0;
1273                 mutex_unlock(&u132->scheduler_lock);
1274                 u132_hcd_giveback_urb(u132, endp, urb, -EINTR);
1275                 return;
1276         } else if (u132->going > 0) {
1277                 dev_err(&u132->platform_dev->dev, "device is being removed "
1278                                 "urb=%p\n", urb);
1279                 mutex_unlock(&u132->scheduler_lock);
1280                 u132_hcd_giveback_urb(u132, endp, urb, -ENODEV);
1281                 return;
1282         } else if (!urb->unlinked) {
1283                 int retval;
1284                 struct u132_ring *ring = endp->ring;
1285                 mutex_unlock(&u132->scheduler_lock);
1286                 retval = usb_ftdi_elan_edset_input(u132->platform_dev,
1287                         ring->number, endp, urb, address, endp->usb_endp, 0,
1288                         u132_hcd_initial_input_recv);
1289                 if (retval != 0)
1290                         u132_hcd_giveback_urb(u132, endp, urb, retval);
1291                 return;
1292         } else {
1293                 dev_err(&u132->platform_dev->dev, "CALLBACK called urb=%p "
1294                                 "unlinked=%d\n", urb, urb->unlinked);
1295                 mutex_unlock(&u132->scheduler_lock);
1296                 u132_hcd_giveback_urb(u132, endp, urb, 0);
1297                 return;
1298         }
1299 }
1300
1301 /*
1302 * this work function is only executed from the work queue
1303 *
1304 */
1305 static void u132_hcd_ring_work_scheduler(struct work_struct *work)
1306 {
1307         struct u132_ring *ring =
1308                 container_of(work, struct u132_ring, scheduler.work);
1309         struct u132 *u132 = ring->u132;
1310         mutex_lock(&u132->scheduler_lock);
1311         if (ring->in_use) {
1312                 mutex_unlock(&u132->scheduler_lock);
1313                 u132_ring_put_kref(u132, ring);
1314                 return;
1315         } else if (ring->curr_endp) {
1316                 struct u132_endp *last_endp = ring->curr_endp;
1317                 struct list_head *scan;
1318                 struct list_head *head = &last_endp->endp_ring;
1319                 unsigned long wakeup = 0;
1320                 list_for_each(scan, head) {
1321                         struct u132_endp *endp = list_entry(scan,
1322                                 struct u132_endp, endp_ring);
1323                         if (endp->queue_next == endp->queue_last) {
1324                         } else if ((endp->delayed == 0)
1325                                 || time_after_eq(jiffies, endp->jiffies)) {
1326                                 ring->curr_endp = endp;
1327                                 u132_endp_cancel_work(u132, last_endp);
1328                                 u132_endp_queue_work(u132, last_endp, 0);
1329                                 mutex_unlock(&u132->scheduler_lock);
1330                                 u132_ring_put_kref(u132, ring);
1331                                 return;
1332                         } else {
1333                                 unsigned long delta = endp->jiffies - jiffies;
1334                                 if (delta > wakeup)
1335                                         wakeup = delta;
1336                         }
1337                 }
1338                 if (last_endp->queue_next == last_endp->queue_last) {
1339                 } else if ((last_endp->delayed == 0) || time_after_eq(jiffies,
1340                         last_endp->jiffies)) {
1341                         u132_endp_cancel_work(u132, last_endp);
1342                         u132_endp_queue_work(u132, last_endp, 0);
1343                         mutex_unlock(&u132->scheduler_lock);
1344                         u132_ring_put_kref(u132, ring);
1345                         return;
1346                 } else {
1347                         unsigned long delta = last_endp->jiffies - jiffies;
1348                         if (delta > wakeup)
1349                                 wakeup = delta;
1350                 }
1351                 if (wakeup > 0) {
1352                         u132_ring_requeue_work(u132, ring, wakeup);
1353                         mutex_unlock(&u132->scheduler_lock);
1354                         return;
1355                 } else {
1356                         mutex_unlock(&u132->scheduler_lock);
1357                         u132_ring_put_kref(u132, ring);
1358                         return;
1359                 }
1360         } else {
1361                 mutex_unlock(&u132->scheduler_lock);
1362                 u132_ring_put_kref(u132, ring);
1363                 return;
1364         }
1365 }
1366
1367 static void u132_hcd_endp_work_scheduler(struct work_struct *work)
1368 {
1369         struct u132_ring *ring;
1370         struct u132_endp *endp =
1371                 container_of(work, struct u132_endp, scheduler.work);
1372         struct u132 *u132 = endp->u132;
1373         mutex_lock(&u132->scheduler_lock);
1374         ring = endp->ring;
1375         if (endp->edset_flush) {
1376                 endp->edset_flush = 0;
1377                 if (endp->dequeueing)
1378                         usb_ftdi_elan_edset_flush(u132->platform_dev,
1379                                 ring->number, endp);
1380                 mutex_unlock(&u132->scheduler_lock);
1381                 u132_endp_put_kref(u132, endp);
1382                 return;
1383         } else if (endp->active) {
1384                 mutex_unlock(&u132->scheduler_lock);
1385                 u132_endp_put_kref(u132, endp);
1386                 return;
1387         } else if (ring->in_use) {
1388                 mutex_unlock(&u132->scheduler_lock);
1389                 u132_endp_put_kref(u132, endp);
1390                 return;
1391         } else if (endp->queue_next == endp->queue_last) {
1392                 mutex_unlock(&u132->scheduler_lock);
1393                 u132_endp_put_kref(u132, endp);
1394                 return;
1395         } else if (endp->pipetype == PIPE_INTERRUPT) {
1396                 u8 address = u132->addr[endp->usb_addr].address;
1397                 if (ring->in_use) {
1398                         mutex_unlock(&u132->scheduler_lock);
1399                         u132_endp_put_kref(u132, endp);
1400                         return;
1401                 } else {
1402                         int retval;
1403                         struct urb *urb = endp->urb_list[ENDP_QUEUE_MASK &
1404                                 endp->queue_next];
1405                         endp->active = 1;
1406                         ring->curr_endp = endp;
1407                         ring->in_use = 1;
1408                         mutex_unlock(&u132->scheduler_lock);
1409                         retval = edset_single(u132, ring, endp, urb, address,
1410                                 endp->toggle_bits, u132_hcd_interrupt_recv);
1411                         if (retval != 0)
1412                                 u132_hcd_giveback_urb(u132, endp, urb, retval);
1413                         return;
1414                 }
1415         } else if (endp->pipetype == PIPE_CONTROL) {
1416                 u8 address = u132->addr[endp->usb_addr].address;
1417                 if (ring->in_use) {
1418                         mutex_unlock(&u132->scheduler_lock);
1419                         u132_endp_put_kref(u132, endp);
1420                         return;
1421                 } else if (address == 0) {
1422                         int retval;
1423                         struct urb *urb = endp->urb_list[ENDP_QUEUE_MASK &
1424                                 endp->queue_next];
1425                         endp->active = 1;
1426                         ring->curr_endp = endp;
1427                         ring->in_use = 1;
1428                         mutex_unlock(&u132->scheduler_lock);
1429                         retval = edset_setup(u132, ring, endp, urb, address,
1430                                 0x2, u132_hcd_initial_setup_sent);
1431                         if (retval != 0)
1432                                 u132_hcd_giveback_urb(u132, endp, urb, retval);
1433                         return;
1434                 } else if (endp->usb_addr == 0) {
1435                         int retval;
1436                         struct urb *urb = endp->urb_list[ENDP_QUEUE_MASK &
1437                                 endp->queue_next];
1438                         endp->active = 1;
1439                         ring->curr_endp = endp;
1440                         ring->in_use = 1;
1441                         mutex_unlock(&u132->scheduler_lock);
1442                         retval = edset_setup(u132, ring, endp, urb, 0, 0x2,
1443                                 u132_hcd_enumeration_address_sent);
1444                         if (retval != 0)
1445                                 u132_hcd_giveback_urb(u132, endp, urb, retval);
1446                         return;
1447                 } else {
1448                         int retval;
1449                         u8 address = u132->addr[endp->usb_addr].address;
1450                         struct urb *urb = endp->urb_list[ENDP_QUEUE_MASK &
1451                                 endp->queue_next];
1452                         endp->active = 1;
1453                         ring->curr_endp = endp;
1454                         ring->in_use = 1;
1455                         mutex_unlock(&u132->scheduler_lock);
1456                         retval = edset_setup(u132, ring, endp, urb, address,
1457                                 0x2, u132_hcd_configure_setup_sent);
1458                         if (retval != 0)
1459                                 u132_hcd_giveback_urb(u132, endp, urb, retval);
1460                         return;
1461                 }
1462         } else {
1463                 if (endp->input) {
1464                         u8 address = u132->addr[endp->usb_addr].address;
1465                         if (ring->in_use) {
1466                                 mutex_unlock(&u132->scheduler_lock);
1467                                 u132_endp_put_kref(u132, endp);
1468                                 return;
1469                         } else {
1470                                 int retval;
1471                                 struct urb *urb = endp->urb_list[
1472                                         ENDP_QUEUE_MASK & endp->queue_next];
1473                                 endp->active = 1;
1474                                 ring->curr_endp = endp;
1475                                 ring->in_use = 1;
1476                                 mutex_unlock(&u132->scheduler_lock);
1477                                 retval = edset_input(u132, ring, endp, urb,
1478                                         address, endp->toggle_bits,
1479                                         u132_hcd_bulk_input_recv);
1480                                 if (retval == 0) {
1481                                 } else
1482                                         u132_hcd_giveback_urb(u132, endp, urb,
1483                                                 retval);
1484                                 return;
1485                         }
1486                 } else {        /* output pipe */
1487                         u8 address = u132->addr[endp->usb_addr].address;
1488                         if (ring->in_use) {
1489                                 mutex_unlock(&u132->scheduler_lock);
1490                                 u132_endp_put_kref(u132, endp);
1491                                 return;
1492                         } else {
1493                                 int retval;
1494                                 struct urb *urb = endp->urb_list[
1495                                         ENDP_QUEUE_MASK & endp->queue_next];
1496                                 endp->active = 1;
1497                                 ring->curr_endp = endp;
1498                                 ring->in_use = 1;
1499                                 mutex_unlock(&u132->scheduler_lock);
1500                                 retval = edset_output(u132, ring, endp, urb,
1501                                         address, endp->toggle_bits,
1502                                         u132_hcd_bulk_output_sent);
1503                                 if (retval == 0) {
1504                                 } else
1505                                         u132_hcd_giveback_urb(u132, endp, urb,
1506                                                 retval);
1507                                 return;
1508                         }
1509                 }
1510         }
1511 }
1512 #ifdef CONFIG_PM
1513
1514 static void port_power(struct u132 *u132, int pn, int is_on)
1515 {
1516         u132->port[pn].power = is_on;
1517 }
1518
1519 #endif
1520
1521 static void u132_power(struct u132 *u132, int is_on)
1522 {
1523         struct usb_hcd *hcd = u132_to_hcd(u132)
1524                 ;       /* hub is inactive unless the port is powered */
1525         if (is_on) {
1526                 if (u132->power)
1527                         return;
1528                 u132->power = 1;
1529         } else {
1530                 u132->power = 0;
1531                 hcd->state = HC_STATE_HALT;
1532         }
1533 }
1534
1535 static int u132_periodic_reinit(struct u132 *u132)
1536 {
1537         int retval;
1538         u32 fi = u132->hc_fminterval & 0x03fff;
1539         u32 fit;
1540         u32 fminterval;
1541         retval = u132_read_pcimem(u132, fminterval, &fminterval);
1542         if (retval)
1543                 return retval;
1544         fit = fminterval & FIT;
1545         retval = u132_write_pcimem(u132, fminterval,
1546                 (fit ^ FIT) | u132->hc_fminterval);
1547         if (retval)
1548                 return retval;
1549         retval = u132_write_pcimem(u132, periodicstart,
1550                 ((9 * fi) / 10) & 0x3fff);
1551         if (retval)
1552                 return retval;
1553         return 0;
1554 }
1555
1556 static char *hcfs2string(int state)
1557 {
1558         switch (state) {
1559         case OHCI_USB_RESET:
1560                 return "reset";
1561         case OHCI_USB_RESUME:
1562                 return "resume";
1563         case OHCI_USB_OPER:
1564                 return "operational";
1565         case OHCI_USB_SUSPEND:
1566                 return "suspend";
1567         }
1568         return "?";
1569 }
1570
1571 static int u132_init(struct u132 *u132)
1572 {
1573         int retval;
1574         u32 control;
1575         u132_disable(u132);
1576         u132->next_statechange = jiffies;
1577         retval = u132_write_pcimem(u132, intrdisable, OHCI_INTR_MIE);
1578         if (retval)
1579                 return retval;
1580         retval = u132_read_pcimem(u132, control, &control);
1581         if (retval)
1582                 return retval;
1583         if (u132->num_ports == 0) {
1584                 u32 rh_a = -1;
1585                 retval = u132_read_pcimem(u132, roothub.a, &rh_a);
1586                 if (retval)
1587                         return retval;
1588                 u132->num_ports = rh_a & RH_A_NDP;
1589                 retval = read_roothub_info(u132);
1590                 if (retval)
1591                         return retval;
1592         }
1593         if (u132->num_ports > MAX_U132_PORTS)
1594                 return -EINVAL;
1595
1596         return 0;
1597 }
1598
1599
1600 /* Start an OHCI controller, set the BUS operational
1601 * resets USB and controller
1602 * enable interrupts
1603 */
1604 static int u132_run(struct u132 *u132)
1605 {
1606         int retval;
1607         u32 control;
1608         u32 status;
1609         u32 fminterval;
1610         u32 periodicstart;
1611         u32 cmdstatus;
1612         u32 roothub_a;
1613         int mask = OHCI_INTR_INIT;
1614         int first = u132->hc_fminterval == 0;
1615         int sleep_time = 0;
1616         int reset_timeout = 30; /* ... allow extra time */
1617         u132_disable(u132);
1618         if (first) {
1619                 u32 temp;
1620                 retval = u132_read_pcimem(u132, fminterval, &temp);
1621                 if (retval)
1622                         return retval;
1623                 u132->hc_fminterval = temp & 0x3fff;
1624                 u132->hc_fminterval |= FSMP(u132->hc_fminterval) << 16;
1625         }
1626         retval = u132_read_pcimem(u132, control, &u132->hc_control);
1627         if (retval)
1628                 return retval;
1629         dev_info(&u132->platform_dev->dev, "resetting from state '%s', control "
1630                 "= %08X\n", hcfs2string(u132->hc_control & OHCI_CTRL_HCFS),
1631                 u132->hc_control);
1632         switch (u132->hc_control & OHCI_CTRL_HCFS) {
1633         case OHCI_USB_OPER:
1634                 sleep_time = 0;
1635                 break;
1636         case OHCI_USB_SUSPEND:
1637         case OHCI_USB_RESUME:
1638                 u132->hc_control &= OHCI_CTRL_RWC;
1639                 u132->hc_control |= OHCI_USB_RESUME;
1640                 sleep_time = 10;
1641                 break;
1642         default:
1643                 u132->hc_control &= OHCI_CTRL_RWC;
1644                 u132->hc_control |= OHCI_USB_RESET;
1645                 sleep_time = 50;
1646                 break;
1647         }
1648         retval = u132_write_pcimem(u132, control, u132->hc_control);
1649         if (retval)
1650                 return retval;
1651         retval = u132_read_pcimem(u132, control, &control);
1652         if (retval)
1653                 return retval;
1654         msleep(sleep_time);
1655         retval = u132_read_pcimem(u132, roothub.a, &roothub_a);
1656         if (retval)
1657                 return retval;
1658         if (!(roothub_a & RH_A_NPS)) {
1659                 int temp;       /* power down each port */
1660                 for (temp = 0; temp < u132->num_ports; temp++) {
1661                         retval = u132_write_pcimem(u132,
1662                                 roothub.portstatus[temp], RH_PS_LSDA);
1663                         if (retval)
1664                                 return retval;
1665                 }
1666         }
1667         retval = u132_read_pcimem(u132, control, &control);
1668         if (retval)
1669                 return retval;
1670 retry:
1671         retval = u132_read_pcimem(u132, cmdstatus, &status);
1672         if (retval)
1673                 return retval;
1674         retval = u132_write_pcimem(u132, cmdstatus, OHCI_HCR);
1675         if (retval)
1676                 return retval;
1677 extra:  {
1678                 retval = u132_read_pcimem(u132, cmdstatus, &status);
1679                 if (retval)
1680                         return retval;
1681                 if (0 != (status & OHCI_HCR)) {
1682                         if (--reset_timeout == 0) {
1683                                 dev_err(&u132->platform_dev->dev, "USB HC reset"
1684                                         " timed out!\n");
1685                                 return -ENODEV;
1686                         } else {
1687                                 msleep(5);
1688                                 goto extra;
1689                         }
1690                 }
1691         }
1692         if (u132->flags & OHCI_QUIRK_INITRESET) {
1693                 retval = u132_write_pcimem(u132, control, u132->hc_control);
1694                 if (retval)
1695                         return retval;
1696                 retval = u132_read_pcimem(u132, control, &control);
1697                 if (retval)
1698                         return retval;
1699         }
1700         retval = u132_write_pcimem(u132, ed_controlhead, 0x00000000);
1701         if (retval)
1702                 return retval;
1703         retval = u132_write_pcimem(u132, ed_bulkhead, 0x11000000);
1704         if (retval)
1705                 return retval;
1706         retval = u132_write_pcimem(u132, hcca, 0x00000000);
1707         if (retval)
1708                 return retval;
1709         retval = u132_periodic_reinit(u132);
1710         if (retval)
1711                 return retval;
1712         retval = u132_read_pcimem(u132, fminterval, &fminterval);
1713         if (retval)
1714                 return retval;
1715         retval = u132_read_pcimem(u132, periodicstart, &periodicstart);
1716         if (retval)
1717                 return retval;
1718         if (0 == (fminterval & 0x3fff0000) || 0 == periodicstart) {
1719                 if (!(u132->flags & OHCI_QUIRK_INITRESET)) {
1720                         u132->flags |= OHCI_QUIRK_INITRESET;
1721                         goto retry;
1722                 } else
1723                         dev_err(&u132->platform_dev->dev, "init err(%08x %04x)"
1724                                 "\n", fminterval, periodicstart);
1725         }                       /* start controller operations */
1726         u132->hc_control &= OHCI_CTRL_RWC;
1727         u132->hc_control |= OHCI_CONTROL_INIT | OHCI_CTRL_BLE | OHCI_USB_OPER;
1728         retval = u132_write_pcimem(u132, control, u132->hc_control);
1729         if (retval)
1730                 return retval;
1731         retval = u132_write_pcimem(u132, cmdstatus, OHCI_BLF);
1732         if (retval)
1733                 return retval;
1734         retval = u132_read_pcimem(u132, cmdstatus, &cmdstatus);
1735         if (retval)
1736                 return retval;
1737         retval = u132_read_pcimem(u132, control, &control);
1738         if (retval)
1739                 return retval;
1740         u132_to_hcd(u132)->state = HC_STATE_RUNNING;
1741         retval = u132_write_pcimem(u132, roothub.status, RH_HS_DRWE);
1742         if (retval)
1743                 return retval;
1744         retval = u132_write_pcimem(u132, intrstatus, mask);
1745         if (retval)
1746                 return retval;
1747         retval = u132_write_pcimem(u132, intrdisable,
1748                 OHCI_INTR_MIE | OHCI_INTR_OC | OHCI_INTR_RHSC | OHCI_INTR_FNO |
1749                 OHCI_INTR_UE | OHCI_INTR_RD | OHCI_INTR_SF | OHCI_INTR_WDH |
1750                 OHCI_INTR_SO);
1751         if (retval)
1752                 return retval;  /* handle root hub init quirks ... */
1753         retval = u132_read_pcimem(u132, roothub.a, &roothub_a);
1754         if (retval)
1755                 return retval;
1756         roothub_a &= ~(RH_A_PSM | RH_A_OCPM);
1757         if (u132->flags & OHCI_QUIRK_SUPERIO) {
1758                 roothub_a |= RH_A_NOCP;
1759                 roothub_a &= ~(RH_A_POTPGT | RH_A_NPS);
1760                 retval = u132_write_pcimem(u132, roothub.a, roothub_a);
1761                 if (retval)
1762                         return retval;
1763         } else if ((u132->flags & OHCI_QUIRK_AMD756) || distrust_firmware) {
1764                 roothub_a |= RH_A_NPS;
1765                 retval = u132_write_pcimem(u132, roothub.a, roothub_a);
1766                 if (retval)
1767                         return retval;
1768         }
1769         retval = u132_write_pcimem(u132, roothub.status, RH_HS_LPSC);
1770         if (retval)
1771                 return retval;
1772         retval = u132_write_pcimem(u132, roothub.b,
1773                 (roothub_a & RH_A_NPS) ? 0 : RH_B_PPCM);
1774         if (retval)
1775                 return retval;
1776         retval = u132_read_pcimem(u132, control, &control);
1777         if (retval)
1778                 return retval;
1779         mdelay((roothub_a >> 23) & 0x1fe);
1780         u132_to_hcd(u132)->state = HC_STATE_RUNNING;
1781         return 0;
1782 }
1783
1784 static void u132_hcd_stop(struct usb_hcd *hcd)
1785 {
1786         struct u132 *u132 = hcd_to_u132(hcd);
1787         if (u132->going > 1) {
1788                 dev_err(&u132->platform_dev->dev, "u132 device %p(hcd=%p) has b"
1789                         "een removed %d\n", u132, hcd, u132->going);
1790         } else if (u132->going > 0) {
1791                 dev_err(&u132->platform_dev->dev, "device hcd=%p is being remov"
1792                         "ed\n", hcd);
1793         } else {
1794                 mutex_lock(&u132->sw_lock);
1795                 msleep(100);
1796                 u132_power(u132, 0);
1797                 mutex_unlock(&u132->sw_lock);
1798         }
1799 }
1800
1801 static int u132_hcd_start(struct usb_hcd *hcd)
1802 {
1803         struct u132 *u132 = hcd_to_u132(hcd);
1804         if (u132->going > 1) {
1805                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
1806                         , u132->going);
1807                 return -ENODEV;
1808         } else if (u132->going > 0) {
1809                 dev_err(&u132->platform_dev->dev, "device is being removed\n");
1810                 return -ESHUTDOWN;
1811         } else if (hcd->self.controller) {
1812                 int retval;
1813                 struct platform_device *pdev =
1814                         to_platform_device(hcd->self.controller);
1815                 u16 vendor = ((struct u132_platform_data *)
1816                         (pdev->dev.platform_data))->vendor;
1817                 u16 device = ((struct u132_platform_data *)
1818                         (pdev->dev.platform_data))->device;
1819                 mutex_lock(&u132->sw_lock);
1820                 msleep(10);
1821                 if (vendor == PCI_VENDOR_ID_AMD && device == 0x740c) {
1822                         u132->flags = OHCI_QUIRK_AMD756;
1823                 } else if (vendor == PCI_VENDOR_ID_OPTI && device == 0xc861) {
1824                         dev_err(&u132->platform_dev->dev, "WARNING: OPTi workar"
1825                                 "ounds unavailable\n");
1826                 } else if (vendor == PCI_VENDOR_ID_COMPAQ && device == 0xa0f8)
1827                         u132->flags |= OHCI_QUIRK_ZFMICRO;
1828                 retval = u132_run(u132);
1829                 if (retval) {
1830                         u132_disable(u132);
1831                         u132->going = 1;
1832                 }
1833                 msleep(100);
1834                 mutex_unlock(&u132->sw_lock);
1835                 return retval;
1836         } else {
1837                 dev_err(&u132->platform_dev->dev, "platform_device missing\n");
1838                 return -ENODEV;
1839         }
1840 }
1841
1842 static int u132_hcd_reset(struct usb_hcd *hcd)
1843 {
1844         struct u132 *u132 = hcd_to_u132(hcd);
1845         if (u132->going > 1) {
1846                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
1847                         , u132->going);
1848                 return -ENODEV;
1849         } else if (u132->going > 0) {
1850                 dev_err(&u132->platform_dev->dev, "device is being removed\n");
1851                 return -ESHUTDOWN;
1852         } else {
1853                 int retval;
1854                 mutex_lock(&u132->sw_lock);
1855                 retval = u132_init(u132);
1856                 if (retval) {
1857                         u132_disable(u132);
1858                         u132->going = 1;
1859                 }
1860                 mutex_unlock(&u132->sw_lock);
1861                 return retval;
1862         }
1863 }
1864
1865 static int create_endpoint_and_queue_int(struct u132 *u132,
1866         struct u132_udev *udev, struct urb *urb,
1867         struct usb_device *usb_dev, u8 usb_addr, u8 usb_endp, u8 address,
1868         gfp_t mem_flags)
1869 {
1870         struct u132_ring *ring;
1871         unsigned long irqs;
1872         int rc;
1873         u8 endp_number;
1874         struct u132_endp *endp = kmalloc(sizeof(struct u132_endp), mem_flags);
1875
1876         if (!endp)
1877                 return -ENOMEM;
1878
1879         spin_lock_init(&endp->queue_lock.slock);
1880         spin_lock_irqsave(&endp->queue_lock.slock, irqs);
1881         rc = usb_hcd_link_urb_to_ep(u132_to_hcd(u132), urb);
1882         if (rc) {
1883                 spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
1884                 kfree(endp);
1885                 return rc;
1886         }
1887
1888         endp_number = ++u132->num_endpoints;
1889         urb->ep->hcpriv = u132->endp[endp_number - 1] = endp;
1890         INIT_DELAYED_WORK(&endp->scheduler, u132_hcd_endp_work_scheduler);
1891         INIT_LIST_HEAD(&endp->urb_more);
1892         ring = endp->ring = &u132->ring[0];
1893         if (ring->curr_endp) {
1894                 list_add_tail(&endp->endp_ring, &ring->curr_endp->endp_ring);
1895         } else {
1896                 INIT_LIST_HEAD(&endp->endp_ring);
1897                 ring->curr_endp = endp;
1898         }
1899         ring->length += 1;
1900         endp->dequeueing = 0;
1901         endp->edset_flush = 0;
1902         endp->active = 0;
1903         endp->delayed = 0;
1904         endp->endp_number = endp_number;
1905         endp->u132 = u132;
1906         endp->hep = urb->ep;
1907         endp->pipetype = usb_pipetype(urb->pipe);
1908         u132_endp_init_kref(u132, endp);
1909         if (usb_pipein(urb->pipe)) {
1910                 endp->toggle_bits = 0x2;
1911                 usb_settoggle(udev->usb_device, usb_endp, 0, 0);
1912                 endp->input = 1;
1913                 endp->output = 0;
1914                 udev->endp_number_in[usb_endp] = endp_number;
1915                 u132_udev_get_kref(u132, udev);
1916         } else {
1917                 endp->toggle_bits = 0x2;
1918                 usb_settoggle(udev->usb_device, usb_endp, 1, 0);
1919                 endp->input = 0;
1920                 endp->output = 1;
1921                 udev->endp_number_out[usb_endp] = endp_number;
1922                 u132_udev_get_kref(u132, udev);
1923         }
1924         urb->hcpriv = u132;
1925         endp->delayed = 1;
1926         endp->jiffies = jiffies + msecs_to_jiffies(urb->interval);
1927         endp->udev_number = address;
1928         endp->usb_addr = usb_addr;
1929         endp->usb_endp = usb_endp;
1930         endp->queue_size = 1;
1931         endp->queue_last = 0;
1932         endp->queue_next = 0;
1933         endp->urb_list[ENDP_QUEUE_MASK & endp->queue_last++] = urb;
1934         spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
1935         u132_endp_queue_work(u132, endp, msecs_to_jiffies(urb->interval));
1936         return 0;
1937 }
1938
1939 static int queue_int_on_old_endpoint(struct u132 *u132,
1940         struct u132_udev *udev, struct urb *urb,
1941         struct usb_device *usb_dev, struct u132_endp *endp, u8 usb_addr,
1942         u8 usb_endp, u8 address)
1943 {
1944         urb->hcpriv = u132;
1945         endp->delayed = 1;
1946         endp->jiffies = jiffies + msecs_to_jiffies(urb->interval);
1947         if (endp->queue_size++ < ENDP_QUEUE_SIZE) {
1948                 endp->urb_list[ENDP_QUEUE_MASK & endp->queue_last++] = urb;
1949         } else {
1950                 struct u132_urbq *urbq = kmalloc(sizeof(struct u132_urbq),
1951                         GFP_ATOMIC);
1952                 if (urbq == NULL) {
1953                         endp->queue_size -= 1;
1954                         return -ENOMEM;
1955                 } else {
1956                         list_add_tail(&urbq->urb_more, &endp->urb_more);
1957                         urbq->urb = urb;
1958                 }
1959         }
1960         return 0;
1961 }
1962
1963 static int create_endpoint_and_queue_bulk(struct u132 *u132,
1964         struct u132_udev *udev, struct urb *urb,
1965         struct usb_device *usb_dev, u8 usb_addr, u8 usb_endp, u8 address,
1966         gfp_t mem_flags)
1967 {
1968         int ring_number;
1969         struct u132_ring *ring;
1970         unsigned long irqs;
1971         int rc;
1972         u8 endp_number;
1973         struct u132_endp *endp = kmalloc(sizeof(struct u132_endp), mem_flags);
1974
1975         if (!endp)
1976                 return -ENOMEM;
1977
1978         spin_lock_init(&endp->queue_lock.slock);
1979         spin_lock_irqsave(&endp->queue_lock.slock, irqs);
1980         rc = usb_hcd_link_urb_to_ep(u132_to_hcd(u132), urb);
1981         if (rc) {
1982                 spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
1983                 kfree(endp);
1984                 return rc;
1985         }
1986
1987         endp_number = ++u132->num_endpoints;
1988         urb->ep->hcpriv = u132->endp[endp_number - 1] = endp;
1989         INIT_DELAYED_WORK(&endp->scheduler, u132_hcd_endp_work_scheduler);
1990         INIT_LIST_HEAD(&endp->urb_more);
1991         endp->dequeueing = 0;
1992         endp->edset_flush = 0;
1993         endp->active = 0;
1994         endp->delayed = 0;
1995         endp->endp_number = endp_number;
1996         endp->u132 = u132;
1997         endp->hep = urb->ep;
1998         endp->pipetype = usb_pipetype(urb->pipe);
1999         u132_endp_init_kref(u132, endp);
2000         if (usb_pipein(urb->pipe)) {
2001                 endp->toggle_bits = 0x2;
2002                 usb_settoggle(udev->usb_device, usb_endp, 0, 0);
2003                 ring_number = 3;
2004                 endp->input = 1;
2005                 endp->output = 0;
2006                 udev->endp_number_in[usb_endp] = endp_number;
2007                 u132_udev_get_kref(u132, udev);
2008         } else {
2009                 endp->toggle_bits = 0x2;
2010                 usb_settoggle(udev->usb_device, usb_endp, 1, 0);
2011                 ring_number = 2;
2012                 endp->input = 0;
2013                 endp->output = 1;
2014                 udev->endp_number_out[usb_endp] = endp_number;
2015                 u132_udev_get_kref(u132, udev);
2016         }
2017         ring = endp->ring = &u132->ring[ring_number - 1];
2018         if (ring->curr_endp) {
2019                 list_add_tail(&endp->endp_ring, &ring->curr_endp->endp_ring);
2020         } else {
2021                 INIT_LIST_HEAD(&endp->endp_ring);
2022                 ring->curr_endp = endp;
2023         }
2024         ring->length += 1;
2025         urb->hcpriv = u132;
2026         endp->udev_number = address;
2027         endp->usb_addr = usb_addr;
2028         endp->usb_endp = usb_endp;
2029         endp->queue_size = 1;
2030         endp->queue_last = 0;
2031         endp->queue_next = 0;
2032         endp->urb_list[ENDP_QUEUE_MASK & endp->queue_last++] = urb;
2033         spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
2034         u132_endp_queue_work(u132, endp, 0);
2035         return 0;
2036 }
2037
2038 static int queue_bulk_on_old_endpoint(struct u132 *u132, struct u132_udev *udev,
2039         struct urb *urb,
2040         struct usb_device *usb_dev, struct u132_endp *endp, u8 usb_addr,
2041         u8 usb_endp, u8 address)
2042 {
2043         urb->hcpriv = u132;
2044         if (endp->queue_size++ < ENDP_QUEUE_SIZE) {
2045                 endp->urb_list[ENDP_QUEUE_MASK & endp->queue_last++] = urb;
2046         } else {
2047                 struct u132_urbq *urbq = kmalloc(sizeof(struct u132_urbq),
2048                         GFP_ATOMIC);
2049                 if (urbq == NULL) {
2050                         endp->queue_size -= 1;
2051                         return -ENOMEM;
2052                 } else {
2053                         list_add_tail(&urbq->urb_more, &endp->urb_more);
2054                         urbq->urb = urb;
2055                 }
2056         }
2057         return 0;
2058 }
2059
2060 static int create_endpoint_and_queue_control(struct u132 *u132,
2061         struct urb *urb,
2062         struct usb_device *usb_dev, u8 usb_addr, u8 usb_endp,
2063         gfp_t mem_flags)
2064 {
2065         struct u132_ring *ring;
2066         unsigned long irqs;
2067         int rc;
2068         u8 endp_number;
2069         struct u132_endp *endp = kmalloc(sizeof(struct u132_endp), mem_flags);
2070
2071         if (!endp)
2072                 return -ENOMEM;
2073
2074         spin_lock_init(&endp->queue_lock.slock);
2075         spin_lock_irqsave(&endp->queue_lock.slock, irqs);
2076         rc = usb_hcd_link_urb_to_ep(u132_to_hcd(u132), urb);
2077         if (rc) {
2078                 spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
2079                 kfree(endp);
2080                 return rc;
2081         }
2082
2083         endp_number = ++u132->num_endpoints;
2084         urb->ep->hcpriv = u132->endp[endp_number - 1] = endp;
2085         INIT_DELAYED_WORK(&endp->scheduler, u132_hcd_endp_work_scheduler);
2086         INIT_LIST_HEAD(&endp->urb_more);
2087         ring = endp->ring = &u132->ring[0];
2088         if (ring->curr_endp) {
2089                 list_add_tail(&endp->endp_ring, &ring->curr_endp->endp_ring);
2090         } else {
2091                 INIT_LIST_HEAD(&endp->endp_ring);
2092                 ring->curr_endp = endp;
2093         }
2094         ring->length += 1;
2095         endp->dequeueing = 0;
2096         endp->edset_flush = 0;
2097         endp->active = 0;
2098         endp->delayed = 0;
2099         endp->endp_number = endp_number;
2100         endp->u132 = u132;
2101         endp->hep = urb->ep;
2102         u132_endp_init_kref(u132, endp);
2103         u132_endp_get_kref(u132, endp);
2104         if (usb_addr == 0) {
2105                 u8 address = u132->addr[usb_addr].address;
2106                 struct u132_udev *udev = &u132->udev[address];
2107                 endp->udev_number = address;
2108                 endp->usb_addr = usb_addr;
2109                 endp->usb_endp = usb_endp;
2110                 endp->input = 1;
2111                 endp->output = 1;
2112                 endp->pipetype = usb_pipetype(urb->pipe);
2113                 u132_udev_init_kref(u132, udev);
2114                 u132_udev_get_kref(u132, udev);
2115                 udev->endp_number_in[usb_endp] = endp_number;
2116                 udev->endp_number_out[usb_endp] = endp_number;
2117                 urb->hcpriv = u132;
2118                 endp->queue_size = 1;
2119                 endp->queue_last = 0;
2120                 endp->queue_next = 0;
2121                 endp->urb_list[ENDP_QUEUE_MASK & endp->queue_last++] = urb;
2122                 spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
2123                 u132_endp_queue_work(u132, endp, 0);
2124                 return 0;
2125         } else {                /*(usb_addr > 0) */
2126                 u8 address = u132->addr[usb_addr].address;
2127                 struct u132_udev *udev = &u132->udev[address];
2128                 endp->udev_number = address;
2129                 endp->usb_addr = usb_addr;
2130                 endp->usb_endp = usb_endp;
2131                 endp->input = 1;
2132                 endp->output = 1;
2133                 endp->pipetype = usb_pipetype(urb->pipe);
2134                 u132_udev_get_kref(u132, udev);
2135                 udev->enumeration = 2;
2136                 udev->endp_number_in[usb_endp] = endp_number;
2137                 udev->endp_number_out[usb_endp] = endp_number;
2138                 urb->hcpriv = u132;
2139                 endp->queue_size = 1;
2140                 endp->queue_last = 0;
2141                 endp->queue_next = 0;
2142                 endp->urb_list[ENDP_QUEUE_MASK & endp->queue_last++] = urb;
2143                 spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
2144                 u132_endp_queue_work(u132, endp, 0);
2145                 return 0;
2146         }
2147 }
2148
2149 static int queue_control_on_old_endpoint(struct u132 *u132,
2150         struct urb *urb,
2151         struct usb_device *usb_dev, struct u132_endp *endp, u8 usb_addr,
2152         u8 usb_endp)
2153 {
2154         if (usb_addr == 0) {
2155                 if (usb_pipein(urb->pipe)) {
2156                         urb->hcpriv = u132;
2157                         if (endp->queue_size++ < ENDP_QUEUE_SIZE) {
2158                                 endp->urb_list[ENDP_QUEUE_MASK &
2159                                         endp->queue_last++] = urb;
2160                         } else {
2161                                 struct u132_urbq *urbq =
2162                                         kmalloc(sizeof(struct u132_urbq),
2163                                         GFP_ATOMIC);
2164                                 if (urbq == NULL) {
2165                                         endp->queue_size -= 1;
2166                                         return -ENOMEM;
2167                                 } else {
2168                                         list_add_tail(&urbq->urb_more,
2169                                                 &endp->urb_more);
2170                                         urbq->urb = urb;
2171                                 }
2172                         }
2173                         return 0;
2174                 } else {        /* usb_pipeout(urb->pipe) */
2175                         struct u132_addr *addr = &u132->addr[usb_dev->devnum];
2176                         int I = MAX_U132_UDEVS;
2177                         int i = 0;
2178                         while (--I > 0) {
2179                                 struct u132_udev *udev = &u132->udev[++i];
2180                                 if (udev->usb_device) {
2181                                         continue;
2182                                 } else {
2183                                         udev->enumeration = 1;
2184                                         u132->addr[0].address = i;
2185                                         endp->udev_number = i;
2186                                         udev->udev_number = i;
2187                                         udev->usb_addr = usb_dev->devnum;
2188                                         u132_udev_init_kref(u132, udev);
2189                                         udev->endp_number_in[usb_endp] =
2190                                                 endp->endp_number;
2191                                         u132_udev_get_kref(u132, udev);
2192                                         udev->endp_number_out[usb_endp] =
2193                                                 endp->endp_number;
2194                                         udev->usb_device = usb_dev;
2195                                         ((u8 *) (urb->setup_packet))[2] =
2196                                                 addr->address = i;
2197                                         u132_udev_get_kref(u132, udev);
2198                                         break;
2199                                 }
2200                         }
2201                         if (I == 0) {
2202                                 dev_err(&u132->platform_dev->dev, "run out of d"
2203                                         "evice space\n");
2204                                 return -EINVAL;
2205                         }
2206                         urb->hcpriv = u132;
2207                         if (endp->queue_size++ < ENDP_QUEUE_SIZE) {
2208                                 endp->urb_list[ENDP_QUEUE_MASK &
2209                                         endp->queue_last++] = urb;
2210                         } else {
2211                                 struct u132_urbq *urbq =
2212                                         kmalloc(sizeof(struct u132_urbq),
2213                                         GFP_ATOMIC);
2214                                 if (urbq == NULL) {
2215                                         endp->queue_size -= 1;
2216                                         return -ENOMEM;
2217                                 } else {
2218                                         list_add_tail(&urbq->urb_more,
2219                                                 &endp->urb_more);
2220                                         urbq->urb = urb;
2221                                 }
2222                         }
2223                         return 0;
2224                 }
2225         } else {                /*(usb_addr > 0) */
2226                 u8 address = u132->addr[usb_addr].address;
2227                 struct u132_udev *udev = &u132->udev[address];
2228                 urb->hcpriv = u132;
2229                 if (udev->enumeration != 2)
2230                         udev->enumeration = 2;
2231                 if (endp->queue_size++ < ENDP_QUEUE_SIZE) {
2232                         endp->urb_list[ENDP_QUEUE_MASK & endp->queue_last++] =
2233                                 urb;
2234                 } else {
2235                         struct u132_urbq *urbq =
2236                                 kmalloc(sizeof(struct u132_urbq), GFP_ATOMIC);
2237                         if (urbq == NULL) {
2238                                 endp->queue_size -= 1;
2239                                 return -ENOMEM;
2240                         } else {
2241                                 list_add_tail(&urbq->urb_more, &endp->urb_more);
2242                                 urbq->urb = urb;
2243                         }
2244                 }
2245                 return 0;
2246         }
2247 }
2248
2249 static int u132_urb_enqueue(struct usb_hcd *hcd, struct urb *urb,
2250                 gfp_t mem_flags)
2251 {
2252         struct u132 *u132 = hcd_to_u132(hcd);
2253         if (irqs_disabled()) {
2254                 if (__GFP_WAIT & mem_flags) {
2255                         printk(KERN_ERR "invalid context for function that migh"
2256                                 "t sleep\n");
2257                         return -EINVAL;
2258                 }
2259         }
2260         if (u132->going > 1) {
2261                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
2262                         , u132->going);
2263                 return -ENODEV;
2264         } else if (u132->going > 0) {
2265                 dev_err(&u132->platform_dev->dev, "device is being removed "
2266                                 "urb=%p\n", urb);
2267                 return -ESHUTDOWN;
2268         } else {
2269                 u8 usb_addr = usb_pipedevice(urb->pipe);
2270                 u8 usb_endp = usb_pipeendpoint(urb->pipe);
2271                 struct usb_device *usb_dev = urb->dev;
2272                 if (usb_pipetype(urb->pipe) == PIPE_INTERRUPT) {
2273                         u8 address = u132->addr[usb_addr].address;
2274                         struct u132_udev *udev = &u132->udev[address];
2275                         struct u132_endp *endp = urb->ep->hcpriv;
2276                         urb->actual_length = 0;
2277                         if (endp) {
2278                                 unsigned long irqs;
2279                                 int retval;
2280                                 spin_lock_irqsave(&endp->queue_lock.slock,
2281                                         irqs);
2282                                 retval = usb_hcd_link_urb_to_ep(hcd, urb);
2283                                 if (retval == 0) {
2284                                         retval = queue_int_on_old_endpoint(
2285                                                         u132, udev, urb,
2286                                                         usb_dev, endp,
2287                                                         usb_addr, usb_endp,
2288                                                         address);
2289                                         if (retval)
2290                                                 usb_hcd_unlink_urb_from_ep(
2291         hcd, urb);
2292                                 }
2293                                 spin_unlock_irqrestore(&endp->queue_lock.slock,
2294                                         irqs);
2295                                 if (retval) {
2296                                         return retval;
2297                                 } else {
2298                                         u132_endp_queue_work(u132, endp,
2299                                                 msecs_to_jiffies(urb->interval))
2300                                                 ;
2301                                         return 0;
2302                                 }
2303                         } else if (u132->num_endpoints == MAX_U132_ENDPS) {
2304                                 return -EINVAL;
2305                         } else {        /*(endp == NULL) */
2306                                 return create_endpoint_and_queue_int(u132, udev,
2307                                                 urb, usb_dev, usb_addr,
2308                                                 usb_endp, address, mem_flags);
2309                         }
2310                 } else if (usb_pipetype(urb->pipe) == PIPE_ISOCHRONOUS) {
2311                         dev_err(&u132->platform_dev->dev, "the hardware does no"
2312                                 "t support PIPE_ISOCHRONOUS\n");
2313                         return -EINVAL;
2314                 } else if (usb_pipetype(urb->pipe) == PIPE_BULK) {
2315                         u8 address = u132->addr[usb_addr].address;
2316                         struct u132_udev *udev = &u132->udev[address];
2317                         struct u132_endp *endp = urb->ep->hcpriv;
2318                         urb->actual_length = 0;
2319                         if (endp) {
2320                                 unsigned long irqs;
2321                                 int retval;
2322                                 spin_lock_irqsave(&endp->queue_lock.slock,
2323                                         irqs);
2324                                 retval = usb_hcd_link_urb_to_ep(hcd, urb);
2325                                 if (retval == 0) {
2326                                         retval = queue_bulk_on_old_endpoint(
2327                                                         u132, udev, urb,
2328                                                         usb_dev, endp,
2329                                                         usb_addr, usb_endp,
2330                                                         address);
2331                                         if (retval)
2332                                                 usb_hcd_unlink_urb_from_ep(
2333         hcd, urb);
2334                                 }
2335                                 spin_unlock_irqrestore(&endp->queue_lock.slock,
2336                                         irqs);
2337                                 if (retval) {
2338                                         return retval;
2339                                 } else {
2340                                         u132_endp_queue_work(u132, endp, 0);
2341                                         return 0;
2342                                 }
2343                         } else if (u132->num_endpoints == MAX_U132_ENDPS) {
2344                                 return -EINVAL;
2345                         } else
2346                                 return create_endpoint_and_queue_bulk(u132,
2347                                         udev, urb, usb_dev, usb_addr,
2348                                         usb_endp, address, mem_flags);
2349                 } else {
2350                         struct u132_endp *endp = urb->ep->hcpriv;
2351                         u16 urb_size = 8;
2352                         u8 *b = urb->setup_packet;
2353                         int i = 0;
2354                         char data[30 * 3 + 4];
2355                         char *d = data;
2356                         int m = (sizeof(data) - 1) / 3;
2357                         int l = 0;
2358                         data[0] = 0;
2359                         while (urb_size-- > 0) {
2360                                 if (i > m) {
2361                                 } else if (i++ < m) {
2362                                         int w = sprintf(d, " %02X", *b++);
2363                                         d += w;
2364                                         l += w;
2365                                 } else
2366                                         d += sprintf(d, " ..");
2367                         }
2368                         if (endp) {
2369                                 unsigned long irqs;
2370                                 int retval;
2371                                 spin_lock_irqsave(&endp->queue_lock.slock,
2372                                         irqs);
2373                                 retval = usb_hcd_link_urb_to_ep(hcd, urb);
2374                                 if (retval == 0) {
2375                                         retval = queue_control_on_old_endpoint(
2376                                                         u132, urb, usb_dev,
2377                                                         endp, usb_addr,
2378                                                         usb_endp);
2379                                         if (retval)
2380                                                 usb_hcd_unlink_urb_from_ep(
2381                                                                 hcd, urb);
2382                                 }
2383                                 spin_unlock_irqrestore(&endp->queue_lock.slock,
2384                                         irqs);
2385                                 if (retval) {
2386                                         return retval;
2387                                 } else {
2388                                         u132_endp_queue_work(u132, endp, 0);
2389                                         return 0;
2390                                 }
2391                         } else if (u132->num_endpoints == MAX_U132_ENDPS) {
2392                                 return -EINVAL;
2393                         } else
2394                                 return create_endpoint_and_queue_control(u132,
2395                                         urb, usb_dev, usb_addr, usb_endp,
2396                                         mem_flags);
2397                 }
2398         }
2399 }
2400
2401 static int dequeue_from_overflow_chain(struct u132 *u132,
2402         struct u132_endp *endp, struct urb *urb)
2403 {
2404         struct list_head *scan;
2405         struct list_head *head = &endp->urb_more;
2406         list_for_each(scan, head) {
2407                 struct u132_urbq *urbq = list_entry(scan, struct u132_urbq,
2408                         urb_more);
2409                 if (urbq->urb == urb) {
2410                         struct usb_hcd *hcd = u132_to_hcd(u132);
2411                         list_del(scan);
2412                         endp->queue_size -= 1;
2413                         urb->error_count = 0;
2414                         usb_hcd_giveback_urb(hcd, urb, 0);
2415                         return 0;
2416                 } else
2417                         continue;
2418         }
2419         dev_err(&u132->platform_dev->dev, "urb=%p not found in endp[%d]=%p ring"
2420                 "[%d] %c%c usb_endp=%d usb_addr=%d size=%d next=%04X last=%04X"
2421                 "\n", urb, endp->endp_number, endp, endp->ring->number,
2422                 endp->input ? 'I' : ' ', endp->output ? 'O' : ' ',
2423                 endp->usb_endp, endp->usb_addr, endp->queue_size,
2424                 endp->queue_next, endp->queue_last);
2425         return -EINVAL;
2426 }
2427
2428 static int u132_endp_urb_dequeue(struct u132 *u132, struct u132_endp *endp,
2429                 struct urb *urb, int status)
2430 {
2431         unsigned long irqs;
2432         int rc;
2433
2434         spin_lock_irqsave(&endp->queue_lock.slock, irqs);
2435         rc = usb_hcd_check_unlink_urb(u132_to_hcd(u132), urb, status);
2436         if (rc) {
2437                 spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
2438                 return rc;
2439         }
2440         if (endp->queue_size == 0) {
2441                 dev_err(&u132->platform_dev->dev, "urb=%p not found in endp[%d]"
2442                         "=%p ring[%d] %c%c usb_endp=%d usb_addr=%d\n", urb,
2443                         endp->endp_number, endp, endp->ring->number,
2444                         endp->input ? 'I' : ' ', endp->output ? 'O' : ' ',
2445                         endp->usb_endp, endp->usb_addr);
2446                 spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
2447                 return -EINVAL;
2448         }
2449         if (urb == endp->urb_list[ENDP_QUEUE_MASK & endp->queue_next]) {
2450                 if (endp->active) {
2451                         endp->dequeueing = 1;
2452                         endp->edset_flush = 1;
2453                         u132_endp_queue_work(u132, endp, 0);
2454                         spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
2455                         return 0;
2456                 } else {
2457                         spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
2458                         u132_hcd_abandon_urb(u132, endp, urb, status);
2459                         return 0;
2460                 }
2461         } else {
2462                 u16 queue_list = 0;
2463                 u16 queue_size = endp->queue_size;
2464                 u16 queue_scan = endp->queue_next;
2465                 struct urb **urb_slot = NULL;
2466                 while (++queue_list < ENDP_QUEUE_SIZE && --queue_size > 0) {
2467                         if (urb == endp->urb_list[ENDP_QUEUE_MASK &
2468                                 ++queue_scan]) {
2469                                 urb_slot = &endp->urb_list[ENDP_QUEUE_MASK &
2470                                         queue_scan];
2471                                 break;
2472                         } else
2473                                 continue;
2474                 }
2475                 while (++queue_list < ENDP_QUEUE_SIZE && --queue_size > 0) {
2476                         *urb_slot = endp->urb_list[ENDP_QUEUE_MASK &
2477                                 ++queue_scan];
2478                         urb_slot = &endp->urb_list[ENDP_QUEUE_MASK &
2479                                 queue_scan];
2480                 }
2481                 if (urb_slot) {
2482                         struct usb_hcd *hcd = u132_to_hcd(u132);
2483
2484                         usb_hcd_unlink_urb_from_ep(hcd, urb);
2485                         endp->queue_size -= 1;
2486                         if (list_empty(&endp->urb_more)) {
2487                                 spin_unlock_irqrestore(&endp->queue_lock.slock,
2488                                         irqs);
2489                         } else {
2490                                 struct list_head *next = endp->urb_more.next;
2491                                 struct u132_urbq *urbq = list_entry(next,
2492                                         struct u132_urbq, urb_more);
2493                                 list_del(next);
2494                                 *urb_slot = urbq->urb;
2495                                 spin_unlock_irqrestore(&endp->queue_lock.slock,
2496                                         irqs);
2497                                 kfree(urbq);
2498                         } urb->error_count = 0;
2499                         usb_hcd_giveback_urb(hcd, urb, status);
2500                         return 0;
2501                 } else if (list_empty(&endp->urb_more)) {
2502                         dev_err(&u132->platform_dev->dev, "urb=%p not found in "
2503                                 "endp[%d]=%p ring[%d] %c%c usb_endp=%d usb_addr"
2504                                 "=%d size=%d next=%04X last=%04X\n", urb,
2505                                 endp->endp_number, endp, endp->ring->number,
2506                                 endp->input ? 'I' : ' ',
2507                                 endp->output ? 'O' : ' ', endp->usb_endp,
2508                                 endp->usb_addr, endp->queue_size,
2509                                 endp->queue_next, endp->queue_last);
2510                         spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
2511                         return -EINVAL;
2512                 } else {
2513                         int retval;
2514
2515                         usb_hcd_unlink_urb_from_ep(u132_to_hcd(u132), urb);
2516                         retval = dequeue_from_overflow_chain(u132, endp,
2517                                 urb);
2518                         spin_unlock_irqrestore(&endp->queue_lock.slock, irqs);
2519                         return retval;
2520                 }
2521         }
2522 }
2523
2524 static int u132_urb_dequeue(struct usb_hcd *hcd, struct urb *urb, int status)
2525 {
2526         struct u132 *u132 = hcd_to_u132(hcd);
2527         if (u132->going > 2) {
2528                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
2529                         , u132->going);
2530                 return -ENODEV;
2531         } else {
2532                 u8 usb_addr = usb_pipedevice(urb->pipe);
2533                 u8 usb_endp = usb_pipeendpoint(urb->pipe);
2534                 u8 address = u132->addr[usb_addr].address;
2535                 struct u132_udev *udev = &u132->udev[address];
2536                 if (usb_pipein(urb->pipe)) {
2537                         u8 endp_number = udev->endp_number_in[usb_endp];
2538                         struct u132_endp *endp = u132->endp[endp_number - 1];
2539                         return u132_endp_urb_dequeue(u132, endp, urb, status);
2540                 } else {
2541                         u8 endp_number = udev->endp_number_out[usb_endp];
2542                         struct u132_endp *endp = u132->endp[endp_number - 1];
2543                         return u132_endp_urb_dequeue(u132, endp, urb, status);
2544                 }
2545         }
2546 }
2547
2548 static void u132_endpoint_disable(struct usb_hcd *hcd,
2549         struct usb_host_endpoint *hep)
2550 {
2551         struct u132 *u132 = hcd_to_u132(hcd);
2552         if (u132->going > 2) {
2553                 dev_err(&u132->platform_dev->dev, "u132 device %p(hcd=%p hep=%p"
2554                         ") has been removed %d\n", u132, hcd, hep,
2555                         u132->going);
2556         } else {
2557                 struct u132_endp *endp = hep->hcpriv;
2558                 if (endp)
2559                         u132_endp_put_kref(u132, endp);
2560         }
2561 }
2562
2563 static int u132_get_frame(struct usb_hcd *hcd)
2564 {
2565         struct u132 *u132 = hcd_to_u132(hcd);
2566         if (u132->going > 1) {
2567                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
2568                         , u132->going);
2569                 return -ENODEV;
2570         } else if (u132->going > 0) {
2571                 dev_err(&u132->platform_dev->dev, "device is being removed\n");
2572                 return -ESHUTDOWN;
2573         } else {
2574                 int frame = 0;
2575                 dev_err(&u132->platform_dev->dev, "TODO: u132_get_frame\n");
2576                 msleep(100);
2577                 return frame;
2578         }
2579 }
2580
2581 static int u132_roothub_descriptor(struct u132 *u132,
2582         struct usb_hub_descriptor *desc)
2583 {
2584         int retval;
2585         u16 temp;
2586         u32 rh_a = -1;
2587         u32 rh_b = -1;
2588         retval = u132_read_pcimem(u132, roothub.a, &rh_a);
2589         if (retval)
2590                 return retval;
2591         desc->bDescriptorType = 0x29;
2592         desc->bPwrOn2PwrGood = (rh_a & RH_A_POTPGT) >> 24;
2593         desc->bHubContrCurrent = 0;
2594         desc->bNbrPorts = u132->num_ports;
2595         temp = 1 + (u132->num_ports / 8);
2596         desc->bDescLength = 7 + 2 * temp;
2597         temp = 0;
2598         if (rh_a & RH_A_NPS)
2599                 temp |= 0x0002;
2600         if (rh_a & RH_A_PSM)
2601                 temp |= 0x0001;
2602         if (rh_a & RH_A_NOCP)
2603                 temp |= 0x0010;
2604         else if (rh_a & RH_A_OCPM)
2605                 temp |= 0x0008;
2606         desc->wHubCharacteristics = cpu_to_le16(temp);
2607         retval = u132_read_pcimem(u132, roothub.b, &rh_b);
2608         if (retval)
2609                 return retval;
2610         memset(desc->bitmap, 0xff, sizeof(desc->bitmap));
2611         desc->bitmap[0] = rh_b & RH_B_DR;
2612         if (u132->num_ports > 7) {
2613                 desc->bitmap[1] = (rh_b & RH_B_DR) >> 8;
2614                 desc->bitmap[2] = 0xff;
2615         } else
2616                 desc->bitmap[1] = 0xff;
2617         return 0;
2618 }
2619
2620 static int u132_roothub_status(struct u132 *u132, __le32 *desc)
2621 {
2622         u32 rh_status = -1;
2623         int ret_status = u132_read_pcimem(u132, roothub.status, &rh_status);
2624         *desc = cpu_to_le32(rh_status);
2625         return ret_status;
2626 }
2627
2628 static int u132_roothub_portstatus(struct u132 *u132, __le32 *desc, u16 wIndex)
2629 {
2630         if (wIndex == 0 || wIndex > u132->num_ports) {
2631                 return -EINVAL;
2632         } else {
2633                 int port = wIndex - 1;
2634                 u32 rh_portstatus = -1;
2635                 int ret_portstatus = u132_read_pcimem(u132,
2636                         roothub.portstatus[port], &rh_portstatus);
2637                 *desc = cpu_to_le32(rh_portstatus);
2638                 if (*(u16 *) (desc + 2)) {
2639                         dev_info(&u132->platform_dev->dev, "Port %d Status Chan"
2640                                 "ge = %08X\n", port, *desc);
2641                 }
2642                 return ret_portstatus;
2643         }
2644 }
2645
2646
2647 /* this timer value might be vendor-specific ... */
2648 #define PORT_RESET_HW_MSEC 10
2649 #define PORT_RESET_MSEC 10
2650 /* wrap-aware logic morphed from <linux/jiffies.h> */
2651 #define tick_before(t1, t2) ((s16)(((s16)(t1))-((s16)(t2))) < 0)
2652 static int u132_roothub_portreset(struct u132 *u132, int port_index)
2653 {
2654         int retval;
2655         u32 fmnumber;
2656         u16 now;
2657         u16 reset_done;
2658         retval = u132_read_pcimem(u132, fmnumber, &fmnumber);
2659         if (retval)
2660                 return retval;
2661         now = fmnumber;
2662         reset_done = now + PORT_RESET_MSEC;
2663         do {
2664                 u32 portstat;
2665                 do {
2666                         retval = u132_read_pcimem(u132,
2667                                 roothub.portstatus[port_index], &portstat);
2668                         if (retval)
2669                                 return retval;
2670                         if (RH_PS_PRS & portstat)
2671                                 continue;
2672                         else
2673                                 break;
2674                 } while (tick_before(now, reset_done));
2675                 if (RH_PS_PRS & portstat)
2676                         return -ENODEV;
2677                 if (RH_PS_CCS & portstat) {
2678                         if (RH_PS_PRSC & portstat) {
2679                                 retval = u132_write_pcimem(u132,
2680                                         roothub.portstatus[port_index],
2681                                         RH_PS_PRSC);
2682                                 if (retval)
2683                                         return retval;
2684                         }
2685                 } else
2686                         break;  /* start the next reset,
2687                                 sleep till it's probably done */
2688                 retval = u132_write_pcimem(u132, roothub.portstatus[port_index],
2689                          RH_PS_PRS);
2690                 if (retval)
2691                         return retval;
2692                 msleep(PORT_RESET_HW_MSEC);
2693                 retval = u132_read_pcimem(u132, fmnumber, &fmnumber);
2694                 if (retval)
2695                         return retval;
2696                 now = fmnumber;
2697         } while (tick_before(now, reset_done));
2698         return 0;
2699 }
2700
2701 static int u132_roothub_setportfeature(struct u132 *u132, u16 wValue,
2702         u16 wIndex)
2703 {
2704         if (wIndex == 0 || wIndex > u132->num_ports) {
2705                 return -EINVAL;
2706         } else {
2707                 int retval;
2708                 int port_index = wIndex - 1;
2709                 struct u132_port *port = &u132->port[port_index];
2710                 port->Status &= ~(1 << wValue);
2711                 switch (wValue) {
2712                 case USB_PORT_FEAT_SUSPEND:
2713                         retval = u132_write_pcimem(u132,
2714                                 roothub.portstatus[port_index], RH_PS_PSS);
2715                         if (retval)
2716                                 return retval;
2717                         return 0;
2718                 case USB_PORT_FEAT_POWER:
2719                         retval = u132_write_pcimem(u132,
2720                                 roothub.portstatus[port_index], RH_PS_PPS);
2721                         if (retval)
2722                                 return retval;
2723                         return 0;
2724                 case USB_PORT_FEAT_RESET:
2725                         retval = u132_roothub_portreset(u132, port_index);
2726                         if (retval)
2727                                 return retval;
2728                         return 0;
2729                 default:
2730                         return -EPIPE;
2731                 }
2732         }
2733 }
2734
2735 static int u132_roothub_clearportfeature(struct u132 *u132, u16 wValue,
2736         u16 wIndex)
2737 {
2738         if (wIndex == 0 || wIndex > u132->num_ports) {
2739                 return -EINVAL;
2740         } else {
2741                 int port_index = wIndex - 1;
2742                 u32 temp;
2743                 int retval;
2744                 struct u132_port *port = &u132->port[port_index];
2745                 port->Status &= ~(1 << wValue);
2746                 switch (wValue) {
2747                 case USB_PORT_FEAT_ENABLE:
2748                         temp = RH_PS_CCS;
2749                         break;
2750                 case USB_PORT_FEAT_C_ENABLE:
2751                         temp = RH_PS_PESC;
2752                         break;
2753                 case USB_PORT_FEAT_SUSPEND:
2754                         temp = RH_PS_POCI;
2755                         if ((u132->hc_control & OHCI_CTRL_HCFS)
2756                                 != OHCI_USB_OPER) {
2757                                 dev_err(&u132->platform_dev->dev, "TODO resume_"
2758                                         "root_hub\n");
2759                         }
2760                         break;
2761                 case USB_PORT_FEAT_C_SUSPEND:
2762                         temp = RH_PS_PSSC;
2763                         break;
2764                 case USB_PORT_FEAT_POWER:
2765                         temp = RH_PS_LSDA;
2766                         break;
2767                 case USB_PORT_FEAT_C_CONNECTION:
2768                         temp = RH_PS_CSC;
2769                         break;
2770                 case USB_PORT_FEAT_C_OVER_CURRENT:
2771                         temp = RH_PS_OCIC;
2772                         break;
2773                 case USB_PORT_FEAT_C_RESET:
2774                         temp = RH_PS_PRSC;
2775                         break;
2776                 default:
2777                         return -EPIPE;
2778                 }
2779                 retval = u132_write_pcimem(u132, roothub.portstatus[port_index],
2780                          temp);
2781                 if (retval)
2782                         return retval;
2783                 return 0;
2784         }
2785 }
2786
2787
2788 /* the virtual root hub timer IRQ checks for hub status*/
2789 static int u132_hub_status_data(struct usb_hcd *hcd, char *buf)
2790 {
2791         struct u132 *u132 = hcd_to_u132(hcd);
2792         if (u132->going > 1) {
2793                 dev_err(&u132->platform_dev->dev, "device hcd=%p has been remov"
2794                         "ed %d\n", hcd, u132->going);
2795                 return -ENODEV;
2796         } else if (u132->going > 0) {
2797                 dev_err(&u132->platform_dev->dev, "device hcd=%p is being remov"
2798                         "ed\n", hcd);
2799                 return -ESHUTDOWN;
2800         } else {
2801                 int i, changed = 0, length = 1;
2802                 if (u132->flags & OHCI_QUIRK_AMD756) {
2803                         if ((u132->hc_roothub_a & RH_A_NDP) > MAX_ROOT_PORTS) {
2804                                 dev_err(&u132->platform_dev->dev, "bogus NDP, r"
2805                                         "ereads as NDP=%d\n",
2806                                         u132->hc_roothub_a & RH_A_NDP);
2807                                 goto done;
2808                         }
2809                 }
2810                 if (u132->hc_roothub_status & (RH_HS_LPSC | RH_HS_OCIC))
2811                         buf[0] = changed = 1;
2812                 else
2813                         buf[0] = 0;
2814                 if (u132->num_ports > 7) {
2815                         buf[1] = 0;
2816                         length++;
2817                 }
2818                 for (i = 0; i < u132->num_ports; i++) {
2819                         if (u132->hc_roothub_portstatus[i] & (RH_PS_CSC |
2820                                 RH_PS_PESC | RH_PS_PSSC | RH_PS_OCIC |
2821                                 RH_PS_PRSC)) {
2822                                 changed = 1;
2823                                 if (i < 7)
2824                                         buf[0] |= 1 << (i + 1);
2825                                 else
2826                                         buf[1] |= 1 << (i - 7);
2827                                 continue;
2828                         }
2829                         if (!(u132->hc_roothub_portstatus[i] & RH_PS_CCS))
2830                                 continue;
2831
2832                         if ((u132->hc_roothub_portstatus[i] & RH_PS_PSS))
2833                                 continue;
2834                 }
2835 done:
2836                 return changed ? length : 0;
2837         }
2838 }
2839
2840 static int u132_hub_control(struct usb_hcd *hcd, u16 typeReq, u16 wValue,
2841         u16 wIndex, char *buf, u16 wLength)
2842 {
2843         struct u132 *u132 = hcd_to_u132(hcd);
2844         if (u132->going > 1) {
2845                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
2846                         , u132->going);
2847                 return -ENODEV;
2848         } else if (u132->going > 0) {
2849                 dev_err(&u132->platform_dev->dev, "device is being removed\n");
2850                 return -ESHUTDOWN;
2851         } else {
2852                 int retval = 0;
2853                 mutex_lock(&u132->sw_lock);
2854                 switch (typeReq) {
2855                 case ClearHubFeature:
2856                         switch (wValue) {
2857                         case C_HUB_OVER_CURRENT:
2858                         case C_HUB_LOCAL_POWER:
2859                                 break;
2860                         default:
2861                                 goto stall;
2862                         }
2863                         break;
2864                 case SetHubFeature:
2865                         switch (wValue) {
2866                         case C_HUB_OVER_CURRENT:
2867                         case C_HUB_LOCAL_POWER:
2868                                 break;
2869                         default:
2870                                 goto stall;
2871                         }
2872                         break;
2873                 case ClearPortFeature:{
2874                                 retval = u132_roothub_clearportfeature(u132,
2875                                         wValue, wIndex);
2876                                 if (retval)
2877                                         goto error;
2878                                 break;
2879                         }
2880                 case GetHubDescriptor:{
2881                                 retval = u132_roothub_descriptor(u132,
2882                                         (struct usb_hub_descriptor *)buf);
2883                                 if (retval)
2884                                         goto error;
2885                                 break;
2886                         }
2887                 case GetHubStatus:{
2888                                 retval = u132_roothub_status(u132,
2889                                         (__le32 *) buf);
2890                                 if (retval)
2891                                         goto error;
2892                                 break;
2893                         }
2894                 case GetPortStatus:{
2895                                 retval = u132_roothub_portstatus(u132,
2896                                         (__le32 *) buf, wIndex);
2897                                 if (retval)
2898                                         goto error;
2899                                 break;
2900                         }
2901                 case SetPortFeature:{
2902                                 retval = u132_roothub_setportfeature(u132,
2903                                         wValue, wIndex);
2904                                 if (retval)
2905                                         goto error;
2906                                 break;
2907                         }
2908                 default:
2909                         goto stall;
2910                 error:
2911                         u132_disable(u132);
2912                         u132->going = 1;
2913                         break;
2914                 stall:
2915                         retval = -EPIPE;
2916                         break;
2917                 }
2918                 mutex_unlock(&u132->sw_lock);
2919                 return retval;
2920         }
2921 }
2922
2923 static int u132_start_port_reset(struct usb_hcd *hcd, unsigned port_num)
2924 {
2925         struct u132 *u132 = hcd_to_u132(hcd);
2926         if (u132->going > 1) {
2927                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
2928                         , u132->going);
2929                 return -ENODEV;
2930         } else if (u132->going > 0) {
2931                 dev_err(&u132->platform_dev->dev, "device is being removed\n");
2932                 return -ESHUTDOWN;
2933         } else
2934                 return 0;
2935 }
2936
2937
2938 #ifdef CONFIG_PM
2939 static int u132_bus_suspend(struct usb_hcd *hcd)
2940 {
2941         struct u132 *u132 = hcd_to_u132(hcd);
2942         if (u132->going > 1) {
2943                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
2944                         , u132->going);
2945                 return -ENODEV;
2946         } else if (u132->going > 0) {
2947                 dev_err(&u132->platform_dev->dev, "device is being removed\n");
2948                 return -ESHUTDOWN;
2949         } else
2950                 return 0;
2951 }
2952
2953 static int u132_bus_resume(struct usb_hcd *hcd)
2954 {
2955         struct u132 *u132 = hcd_to_u132(hcd);
2956         if (u132->going > 1) {
2957                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
2958                         , u132->going);
2959                 return -ENODEV;
2960         } else if (u132->going > 0) {
2961                 dev_err(&u132->platform_dev->dev, "device is being removed\n");
2962                 return -ESHUTDOWN;
2963         } else
2964                 return 0;
2965 }
2966
2967 #else
2968 #define u132_bus_suspend NULL
2969 #define u132_bus_resume NULL
2970 #endif
2971 static struct hc_driver u132_hc_driver = {
2972         .description = hcd_name,
2973         .hcd_priv_size = sizeof(struct u132),
2974         .irq = NULL,
2975         .flags = HCD_USB11 | HCD_MEMORY,
2976         .reset = u132_hcd_reset,
2977         .start = u132_hcd_start,
2978         .stop = u132_hcd_stop,
2979         .urb_enqueue = u132_urb_enqueue,
2980         .urb_dequeue = u132_urb_dequeue,
2981         .endpoint_disable = u132_endpoint_disable,
2982         .get_frame_number = u132_get_frame,
2983         .hub_status_data = u132_hub_status_data,
2984         .hub_control = u132_hub_control,
2985         .bus_suspend = u132_bus_suspend,
2986         .bus_resume = u132_bus_resume,
2987         .start_port_reset = u132_start_port_reset,
2988 };
2989
2990 /*
2991 * This function may be called by the USB core whilst the "usb_all_devices_rwsem"
2992 * is held for writing, thus this module must not call usb_remove_hcd()
2993 * synchronously - but instead should immediately stop activity to the
2994 * device and asynchronously call usb_remove_hcd()
2995 */
2996 static int __devexit u132_remove(struct platform_device *pdev)
2997 {
2998         struct usb_hcd *hcd = platform_get_drvdata(pdev);
2999         if (hcd) {
3000                 struct u132 *u132 = hcd_to_u132(hcd);
3001                 if (u132->going++ > 1) {
3002                         dev_err(&u132->platform_dev->dev, "already being remove"
3003                                 "d\n");
3004                         return -ENODEV;
3005                 } else {
3006                         int rings = MAX_U132_RINGS;
3007                         int endps = MAX_U132_ENDPS;
3008                         dev_err(&u132->platform_dev->dev, "removing device u132"
3009                                 ".%d\n", u132->sequence_num);
3010                         msleep(100);
3011                         mutex_lock(&u132->sw_lock);
3012                         u132_monitor_cancel_work(u132);
3013                         while (rings-- > 0) {
3014                                 struct u132_ring *ring = &u132->ring[rings];
3015                                 u132_ring_cancel_work(u132, ring);
3016                         } while (endps-- > 0) {
3017                                 struct u132_endp *endp = u132->endp[endps];
3018                                 if (endp)
3019                                         u132_endp_cancel_work(u132, endp);
3020                         }
3021                         u132->going += 1;
3022                         printk(KERN_INFO "removing device u132.%d\n",
3023                                 u132->sequence_num);
3024                         mutex_unlock(&u132->sw_lock);
3025                         usb_remove_hcd(hcd);
3026                         u132_u132_put_kref(u132);
3027                         return 0;
3028                 }
3029         } else
3030                 return 0;
3031 }
3032
3033 static void u132_initialise(struct u132 *u132, struct platform_device *pdev)
3034 {
3035         int rings = MAX_U132_RINGS;
3036         int ports = MAX_U132_PORTS;
3037         int addrs = MAX_U132_ADDRS;
3038         int udevs = MAX_U132_UDEVS;
3039         int endps = MAX_U132_ENDPS;
3040         u132->board = pdev->dev.platform_data;
3041         u132->platform_dev = pdev;
3042         u132->power = 0;
3043         u132->reset = 0;
3044         mutex_init(&u132->sw_lock);
3045         mutex_init(&u132->scheduler_lock);
3046         while (rings-- > 0) {
3047                 struct u132_ring *ring = &u132->ring[rings];
3048                 ring->u132 = u132;
3049                 ring->number = rings + 1;
3050                 ring->length = 0;
3051                 ring->curr_endp = NULL;
3052                 INIT_DELAYED_WORK(&ring->scheduler,
3053                                   u132_hcd_ring_work_scheduler);
3054         }
3055         mutex_lock(&u132->sw_lock);
3056         INIT_DELAYED_WORK(&u132->monitor, u132_hcd_monitor_work);
3057         while (ports-- > 0) {
3058                 struct u132_port *port = &u132->port[ports];
3059                 port->u132 = u132;
3060                 port->reset = 0;
3061                 port->enable = 0;
3062                 port->power = 0;
3063                 port->Status = 0;
3064         }
3065         while (addrs-- > 0) {
3066                 struct u132_addr *addr = &u132->addr[addrs];
3067                 addr->address = 0;
3068         }
3069         while (udevs-- > 0) {
3070                 struct u132_udev *udev = &u132->udev[udevs];
3071                 int i = ARRAY_SIZE(udev->endp_number_in);
3072                 int o = ARRAY_SIZE(udev->endp_number_out);
3073                 udev->usb_device = NULL;
3074                 udev->udev_number = 0;
3075                 udev->usb_addr = 0;
3076                 udev->portnumber = 0;
3077                 while (i-- > 0)
3078                         udev->endp_number_in[i] = 0;
3079
3080                 while (o-- > 0)
3081                         udev->endp_number_out[o] = 0;
3082
3083         }
3084         while (endps-- > 0)
3085                 u132->endp[endps] = NULL;
3086
3087         mutex_unlock(&u132->sw_lock);
3088         return;
3089 }
3090
3091 static int __devinit u132_probe(struct platform_device *pdev)
3092 {
3093         struct usb_hcd *hcd;
3094         int retval;
3095         u32 control;
3096         u32 rh_a = -1;
3097         u32 num_ports;
3098
3099         msleep(100);
3100         if (u132_exiting > 0)
3101                 return -ENODEV;
3102
3103         retval = ftdi_write_pcimem(pdev, intrdisable, OHCI_INTR_MIE);
3104         if (retval)
3105                 return retval;
3106         retval = ftdi_read_pcimem(pdev, control, &control);
3107         if (retval)
3108                 return retval;
3109         retval = ftdi_read_pcimem(pdev, roothub.a, &rh_a);
3110         if (retval)
3111                 return retval;
3112         num_ports = rh_a & RH_A_NDP;    /* refuse to confuse usbcore */
3113         if (pdev->dev.dma_mask)
3114                 return -EINVAL;
3115
3116         hcd = usb_create_hcd(&u132_hc_driver, &pdev->dev, dev_name(&pdev->dev));
3117         if (!hcd) {
3118                 printk(KERN_ERR "failed to create the usb hcd struct for U132\n"
3119                         );
3120                 ftdi_elan_gone_away(pdev);
3121                 return -ENOMEM;
3122         } else {
3123                 int retval = 0;
3124                 struct u132 *u132 = hcd_to_u132(hcd);
3125                 hcd->rsrc_start = 0;
3126                 mutex_lock(&u132_module_lock);
3127                 list_add_tail(&u132->u132_list, &u132_static_list);
3128                 u132->sequence_num = ++u132_instances;
3129                 mutex_unlock(&u132_module_lock);
3130                 u132_u132_init_kref(u132);
3131                 u132_initialise(u132, pdev);
3132                 hcd->product_desc = "ELAN U132 Host Controller";
3133                 retval = usb_add_hcd(hcd, 0, 0);
3134                 if (retval != 0) {
3135                         dev_err(&u132->platform_dev->dev, "init error %d\n",
3136                                 retval);
3137                         u132_u132_put_kref(u132);
3138                         return retval;
3139                 } else {
3140                         u132_monitor_queue_work(u132, 100);
3141                         return 0;
3142                 }
3143         }
3144 }
3145
3146
3147 #ifdef CONFIG_PM
3148 /* for this device there's no useful distinction between the controller
3149 * and its root hub, except that the root hub only gets direct PM calls
3150 * when CONFIG_USB_SUSPEND is enabled.
3151 */
3152 static int u132_suspend(struct platform_device *pdev, pm_message_t state)
3153 {
3154         struct usb_hcd *hcd = platform_get_drvdata(pdev);
3155         struct u132 *u132 = hcd_to_u132(hcd);
3156         if (u132->going > 1) {
3157                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
3158                         , u132->going);
3159                 return -ENODEV;
3160         } else if (u132->going > 0) {
3161                 dev_err(&u132->platform_dev->dev, "device is being removed\n");
3162                 return -ESHUTDOWN;
3163         } else {
3164                 int retval = 0, ports;
3165
3166                 switch (state.event) {
3167                 case PM_EVENT_FREEZE:
3168                         retval = u132_bus_suspend(hcd);
3169                         break;
3170                 case PM_EVENT_SUSPEND:
3171                 case PM_EVENT_HIBERNATE:
3172                         ports = MAX_U132_PORTS;
3173                         while (ports-- > 0) {
3174                                 port_power(u132, ports, 0);
3175                         }
3176                         break;
3177                 }
3178                 return retval;
3179         }
3180 }
3181
3182 static int u132_resume(struct platform_device *pdev)
3183 {
3184         struct usb_hcd *hcd = platform_get_drvdata(pdev);
3185         struct u132 *u132 = hcd_to_u132(hcd);
3186         if (u132->going > 1) {
3187                 dev_err(&u132->platform_dev->dev, "device has been removed %d\n"
3188                         , u132->going);
3189                 return -ENODEV;
3190         } else if (u132->going > 0) {
3191                 dev_err(&u132->platform_dev->dev, "device is being removed\n");
3192                 return -ESHUTDOWN;
3193         } else {
3194                 int retval = 0;
3195                 if (!u132->port[0].power) {
3196                         int ports = MAX_U132_PORTS;
3197                         while (ports-- > 0) {
3198                                 port_power(u132, ports, 1);
3199                         }
3200                         retval = 0;
3201                 } else {
3202                         retval = u132_bus_resume(hcd);
3203                 }
3204                 return retval;
3205         }
3206 }
3207
3208 #else
3209 #define u132_suspend NULL
3210 #define u132_resume NULL
3211 #endif
3212 /*
3213 * this driver is loaded explicitly by ftdi_u132
3214 *
3215 * the platform_driver struct is static because it is per type of module
3216 */
3217 static struct platform_driver u132_platform_driver = {
3218         .probe = u132_probe,
3219         .remove = __devexit_p(u132_remove),
3220         .suspend = u132_suspend,
3221         .resume = u132_resume,
3222         .driver = {
3223                    .name = (char *)hcd_name,
3224                    .owner = THIS_MODULE,
3225                    },
3226 };
3227 static int __init u132_hcd_init(void)
3228 {
3229         int retval;
3230         INIT_LIST_HEAD(&u132_static_list);
3231         u132_instances = 0;
3232         u132_exiting = 0;
3233         mutex_init(&u132_module_lock);
3234         if (usb_disabled())
3235                 return -ENODEV;
3236         printk(KERN_INFO "driver %s built at %s on %s\n", hcd_name, __TIME__,
3237                 __DATE__);
3238         workqueue = create_singlethread_workqueue("u132");
3239         retval = platform_driver_register(&u132_platform_driver);
3240         return retval;
3241 }
3242
3243
3244 module_init(u132_hcd_init);
3245 static void __exit u132_hcd_exit(void)
3246 {
3247         struct u132 *u132;
3248         struct u132 *temp;
3249         mutex_lock(&u132_module_lock);
3250         u132_exiting += 1;
3251         mutex_unlock(&u132_module_lock);
3252         list_for_each_entry_safe(u132, temp, &u132_static_list, u132_list) {
3253                 platform_device_unregister(u132->platform_dev);
3254         }
3255         platform_driver_unregister(&u132_platform_driver);
3256         printk(KERN_INFO "u132-hcd driver deregistered\n");
3257         wait_event(u132_hcd_wait, u132_instances == 0);
3258         flush_workqueue(workqueue);
3259         destroy_workqueue(workqueue);
3260 }
3261
3262
3263 module_exit(u132_hcd_exit);
3264 MODULE_LICENSE("GPL");
3265 MODULE_ALIAS("platform:u132_hcd");