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authorRalf Baechle <ralf@linux-mips.org>2006-10-09 11:34:41 -0400
committerRalf Baechle <ralf@linux-mips.org>2006-10-09 18:20:47 -0400
commit5536b2351425136e629bd9fc18135c6e21e125c2 (patch)
tree219907a6d61c8daad068efd54e2ccd59462ff2b9 /arch
parent0118c3ca9e7518b06a10e9d7f4bd15957df45783 (diff)
[MIPS] Alchemy: nuke usbdev; it's useless as is ...
Signed-off-by: Ralf Baechle <ralf@linux-mips.org>
Diffstat (limited to 'arch')
-rw-r--r--arch/mips/Kconfig5
-rw-r--r--arch/mips/au1000/common/Makefile1
-rw-r--r--arch/mips/au1000/common/usbdev.c1552
-rw-r--r--arch/mips/au1000/db1x00/board_setup.c5
-rw-r--r--arch/mips/au1000/mtx-1/board_setup.c8
-rw-r--r--arch/mips/au1000/pb1000/board_setup.c10
-rw-r--r--arch/mips/au1000/pb1100/board_setup.c6
-rw-r--r--arch/mips/au1000/pb1500/board_setup.c9
-rw-r--r--arch/mips/configs/pb1100_defconfig1
-rw-r--r--arch/mips/configs/pb1500_defconfig1
10 files changed, 9 insertions, 1589 deletions
diff --git a/arch/mips/Kconfig b/arch/mips/Kconfig
index 731b942a824b..14af6cce2fa2 100644
--- a/arch/mips/Kconfig
+++ b/arch/mips/Kconfig
@@ -1010,11 +1010,6 @@ endchoice
1010config ARC32 1010config ARC32
1011 bool 1011 bool
1012 1012
1013config AU1X00_USB_DEVICE
1014 bool
1015 depends on MIPS_PB1500 || MIPS_PB1100 || MIPS_PB1000
1016 default n
1017
1018config BOOT_ELF32 1013config BOOT_ELF32
1019 bool 1014 bool
1020 1015
diff --git a/arch/mips/au1000/common/Makefile b/arch/mips/au1000/common/Makefile
index bf682f50b859..4c35525edb4f 100644
--- a/arch/mips/au1000/common/Makefile
+++ b/arch/mips/au1000/common/Makefile
@@ -10,6 +10,5 @@ obj-y += prom.o irq.o puts.o time.o reset.o \
10 au1xxx_irqmap.o clocks.o platform.o power.o setup.o \ 10 au1xxx_irqmap.o clocks.o platform.o power.o setup.o \
11 sleeper.o cputable.o dma.o dbdma.o gpio.o 11 sleeper.o cputable.o dma.o dbdma.o gpio.o
12 12
13obj-$(CONFIG_AU1X00_USB_DEVICE) += usbdev.o
14obj-$(CONFIG_KGDB) += dbg_io.o 13obj-$(CONFIG_KGDB) += dbg_io.o
15obj-$(CONFIG_PCI) += pci.o 14obj-$(CONFIG_PCI) += pci.o
diff --git a/arch/mips/au1000/common/usbdev.c b/arch/mips/au1000/common/usbdev.c
deleted file mode 100644
index 70dc82e536cd..000000000000
--- a/arch/mips/au1000/common/usbdev.c
+++ /dev/null
@@ -1,1552 +0,0 @@
1/*
2 * BRIEF MODULE DESCRIPTION
3 * Au1000 USB Device-Side (device layer)
4 *
5 * Copyright 2001-2002 MontaVista Software Inc.
6 * Author: MontaVista Software, Inc.
7 * stevel@mvista.com or source@mvista.com
8 *
9 * This program is free software; you can redistribute it and/or modify it
10 * under the terms of the GNU General Public License as published by the
11 * Free Software Foundation; either version 2 of the License, or (at your
12 * option) any later version.
13 *
14 * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED
15 * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
16 * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN
17 * NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
18 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
19 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
20 * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
21 * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
22 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
23 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
24 *
25 * You should have received a copy of the GNU General Public License along
26 * with this program; if not, write to the Free Software Foundation, Inc.,
27 * 675 Mass Ave, Cambridge, MA 02139, USA.
28 */
29#include <linux/kernel.h>
30#include <linux/ioport.h>
31#include <linux/sched.h>
32#include <linux/signal.h>
33#include <linux/errno.h>
34#include <linux/poll.h>
35#include <linux/init.h>
36#include <linux/slab.h>
37#include <linux/fcntl.h>
38#include <linux/module.h>
39#include <linux/spinlock.h>
40#include <linux/list.h>
41#include <linux/smp_lock.h>
42#define DEBUG
43#include <linux/usb.h>
44
45#include <asm/io.h>
46#include <asm/uaccess.h>
47#include <asm/irq.h>
48#include <asm/mipsregs.h>
49#include <asm/au1000.h>
50#include <asm/au1000_dma.h>
51#include <asm/au1000_usbdev.h>
52
53#ifdef DEBUG
54#undef VDEBUG
55#ifdef VDEBUG
56#define vdbg(fmt, arg...) printk(KERN_DEBUG __FILE__ ": " fmt "\n" , ## arg)
57#else
58#define vdbg(fmt, arg...) do {} while (0)
59#endif
60#else
61#define vdbg(fmt, arg...) do {} while (0)
62#endif
63
64#define ALLOC_FLAGS (in_interrupt () ? GFP_ATOMIC : GFP_KERNEL)
65
66#define EP_FIFO_DEPTH 8
67
68typedef enum {
69 SETUP_STAGE = 0,
70 DATA_STAGE,
71 STATUS_STAGE
72} ep0_stage_t;
73
74typedef struct {
75 int read_fifo;
76 int write_fifo;
77 int ctrl_stat;
78 int read_fifo_status;
79 int write_fifo_status;
80} endpoint_reg_t;
81
82typedef struct {
83 usbdev_pkt_t *head;
84 usbdev_pkt_t *tail;
85 int count;
86} pkt_list_t;
87
88typedef struct {
89 int active;
90 struct usb_endpoint_descriptor *desc;
91 endpoint_reg_t *reg;
92 /* Only one of these are used, unless this is the control ep */
93 pkt_list_t inlist;
94 pkt_list_t outlist;
95 unsigned int indma, outdma; /* DMA channel numbers for IN, OUT */
96 /* following are extracted from endpoint descriptor for easy access */
97 int max_pkt_size;
98 int type;
99 int direction;
100 /* WE assign endpoint addresses! */
101 int address;
102 spinlock_t lock;
103} endpoint_t;
104
105
106static struct usb_dev {
107 endpoint_t ep[6];
108 ep0_stage_t ep0_stage;
109
110 struct usb_device_descriptor * dev_desc;
111 struct usb_interface_descriptor* if_desc;
112 struct usb_config_descriptor * conf_desc;
113 u8 * full_conf_desc;
114 struct usb_string_descriptor * str_desc[6];
115
116 /* callback to function layer */
117 void (*func_cb)(usbdev_cb_type_t type, unsigned long arg,
118 void *cb_data);
119 void* cb_data;
120
121 usbdev_state_t state; // device state
122 int suspended; // suspended flag
123 int address; // device address
124 int interface;
125 int num_ep;
126 u8 alternate_setting;
127 u8 configuration; // configuration value
128 int remote_wakeup_en;
129} usbdev;
130
131
132static endpoint_reg_t ep_reg[] = {
133 // FIFO's 0 and 1 are EP0 default control
134 {USBD_EP0RD, USBD_EP0WR, USBD_EP0CS, USBD_EP0RDSTAT, USBD_EP0WRSTAT },
135 {0},
136 // FIFO 2 is EP2, IN
137 { -1, USBD_EP2WR, USBD_EP2CS, -1, USBD_EP2WRSTAT },
138 // FIFO 3 is EP3, IN
139 { -1, USBD_EP3WR, USBD_EP3CS, -1, USBD_EP3WRSTAT },
140 // FIFO 4 is EP4, OUT
141 {USBD_EP4RD, -1, USBD_EP4CS, USBD_EP4RDSTAT, -1 },
142 // FIFO 5 is EP5, OUT
143 {USBD_EP5RD, -1, USBD_EP5CS, USBD_EP5RDSTAT, -1 }
144};
145
146static struct {
147 unsigned int id;
148 const char *str;
149} ep_dma_id[] = {
150 { DMA_ID_USBDEV_EP0_TX, "USBDev EP0 IN" },
151 { DMA_ID_USBDEV_EP0_RX, "USBDev EP0 OUT" },
152 { DMA_ID_USBDEV_EP2_TX, "USBDev EP2 IN" },
153 { DMA_ID_USBDEV_EP3_TX, "USBDev EP3 IN" },
154 { DMA_ID_USBDEV_EP4_RX, "USBDev EP4 OUT" },
155 { DMA_ID_USBDEV_EP5_RX, "USBDev EP5 OUT" }
156};
157
158#define DIR_OUT 0
159#define DIR_IN (1<<3)
160
161#define CONTROL_EP USB_ENDPOINT_XFER_CONTROL
162#define BULK_EP USB_ENDPOINT_XFER_BULK
163
164static inline endpoint_t *
165epaddr_to_ep(struct usb_dev* dev, int ep_addr)
166{
167 if (ep_addr >= 0 && ep_addr < 2)
168 return &dev->ep[0];
169 if (ep_addr < 6)
170 return &dev->ep[ep_addr];
171 return NULL;
172}
173
174static const char* std_req_name[] = {
175 "GET_STATUS",
176 "CLEAR_FEATURE",
177 "RESERVED",
178 "SET_FEATURE",
179 "RESERVED",
180 "SET_ADDRESS",
181 "GET_DESCRIPTOR",
182 "SET_DESCRIPTOR",
183 "GET_CONFIGURATION",
184 "SET_CONFIGURATION",
185 "GET_INTERFACE",
186 "SET_INTERFACE",
187 "SYNCH_FRAME"
188};
189
190static inline const char*
191get_std_req_name(int req)
192{
193 return (req >= 0 && req <= 12) ? std_req_name[req] : "UNKNOWN";
194}
195
196#if 0
197static void
198dump_setup(struct usb_ctrlrequest* s)
199{
200 dbg("%s: requesttype=%d", __FUNCTION__, s->requesttype);
201 dbg("%s: request=%d %s", __FUNCTION__, s->request,
202 get_std_req_name(s->request));
203 dbg("%s: value=0x%04x", __FUNCTION__, s->wValue);
204 dbg("%s: index=%d", __FUNCTION__, s->index);
205 dbg("%s: length=%d", __FUNCTION__, s->length);
206}
207#endif
208
209static inline usbdev_pkt_t *
210alloc_packet(endpoint_t * ep, int data_size, void* data)
211{
212 usbdev_pkt_t* pkt = kmalloc(sizeof(usbdev_pkt_t) + data_size,
213 ALLOC_FLAGS);
214 if (!pkt)
215 return NULL;
216 pkt->ep_addr = ep->address;
217 pkt->size = data_size;
218 pkt->status = 0;
219 pkt->next = NULL;
220 if (data)
221 memcpy(pkt->payload, data, data_size);
222
223 return pkt;
224}
225
226
227/*
228 * Link a packet to the tail of the enpoint's packet list.
229 * EP spinlock must be held when calling.
230 */
231static void
232link_tail(endpoint_t * ep, pkt_list_t * list, usbdev_pkt_t * pkt)
233{
234 if (!list->tail) {
235 list->head = list->tail = pkt;
236 list->count = 1;
237 } else {
238 list->tail->next = pkt;
239 list->tail = pkt;
240 list->count++;
241 }
242}
243
244/*
245 * Unlink and return a packet from the head of the given packet
246 * list. It is the responsibility of the caller to free the packet.
247 * EP spinlock must be held when calling.
248 */
249static usbdev_pkt_t *
250unlink_head(pkt_list_t * list)
251{
252 usbdev_pkt_t *pkt;
253
254 pkt = list->head;
255 if (!pkt || !list->count) {
256 return NULL;
257 }
258
259 list->head = pkt->next;
260 if (!list->head) {
261 list->head = list->tail = NULL;
262 list->count = 0;
263 } else
264 list->count--;
265
266 return pkt;
267}
268
269/*
270 * Create and attach a new packet to the tail of the enpoint's
271 * packet list. EP spinlock must be held when calling.
272 */
273static usbdev_pkt_t *
274add_packet(endpoint_t * ep, pkt_list_t * list, int size)
275{
276 usbdev_pkt_t *pkt = alloc_packet(ep, size, NULL);
277 if (!pkt)
278 return NULL;
279
280 link_tail(ep, list, pkt);
281 return pkt;
282}
283
284
285/*
286 * Unlink and free a packet from the head of the enpoint's
287 * packet list. EP spinlock must be held when calling.
288 */
289static inline void
290free_packet(pkt_list_t * list)
291{
292 kfree(unlink_head(list));
293}
294
295/* EP spinlock must be held when calling. */
296static inline void
297flush_pkt_list(pkt_list_t * list)
298{
299 while (list->count)
300 free_packet(list);
301}
302
303/* EP spinlock must be held when calling */
304static inline void
305flush_write_fifo(endpoint_t * ep)
306{
307 if (ep->reg->write_fifo_status >= 0) {
308 au_writel(USBDEV_FSTAT_FLUSH | USBDEV_FSTAT_UF |
309 USBDEV_FSTAT_OF,
310 ep->reg->write_fifo_status);
311 //udelay(100);
312 //au_writel(USBDEV_FSTAT_UF | USBDEV_FSTAT_OF,
313 // ep->reg->write_fifo_status);
314 }
315}
316
317/* EP spinlock must be held when calling */
318static inline void
319flush_read_fifo(endpoint_t * ep)
320{
321 if (ep->reg->read_fifo_status >= 0) {
322 au_writel(USBDEV_FSTAT_FLUSH | USBDEV_FSTAT_UF |
323 USBDEV_FSTAT_OF,
324 ep->reg->read_fifo_status);
325 //udelay(100);
326 //au_writel(USBDEV_FSTAT_UF | USBDEV_FSTAT_OF,
327 // ep->reg->read_fifo_status);
328 }
329}
330
331
332/* EP spinlock must be held when calling. */
333static void
334endpoint_flush(endpoint_t * ep)
335{
336 // First, flush all packets
337 flush_pkt_list(&ep->inlist);
338 flush_pkt_list(&ep->outlist);
339
340 // Now flush the endpoint's h/w FIFO(s)
341 flush_write_fifo(ep);
342 flush_read_fifo(ep);
343}
344
345/* EP spinlock must be held when calling. */
346static void
347endpoint_stall(endpoint_t * ep)
348{
349 u32 cs;
350
351 warn("%s", __FUNCTION__);
352
353 cs = au_readl(ep->reg->ctrl_stat) | USBDEV_CS_STALL;
354 au_writel(cs, ep->reg->ctrl_stat);
355}
356
357/* EP spinlock must be held when calling. */
358static void
359endpoint_unstall(endpoint_t * ep)
360{
361 u32 cs;
362
363 warn("%s", __FUNCTION__);
364
365 cs = au_readl(ep->reg->ctrl_stat) & ~USBDEV_CS_STALL;
366 au_writel(cs, ep->reg->ctrl_stat);
367}
368
369static void
370endpoint_reset_datatoggle(endpoint_t * ep)
371{
372 // FIXME: is this possible?
373}
374
375
376/* EP spinlock must be held when calling. */
377static int
378endpoint_fifo_read(endpoint_t * ep)
379{
380 int read_count = 0;
381 u8 *bufptr;
382 usbdev_pkt_t *pkt = ep->outlist.tail;
383
384 if (!pkt)
385 return -EINVAL;
386
387 bufptr = &pkt->payload[pkt->size];
388 while (au_readl(ep->reg->read_fifo_status) & USBDEV_FSTAT_FCNT_MASK) {
389 *bufptr++ = au_readl(ep->reg->read_fifo) & 0xff;
390 read_count++;
391 pkt->size++;
392 }
393
394 return read_count;
395}
396
397#if 0
398/* EP spinlock must be held when calling. */
399static int
400endpoint_fifo_write(endpoint_t * ep, int index)
401{
402 int write_count = 0;
403 u8 *bufptr;
404 usbdev_pkt_t *pkt = ep->inlist.head;
405
406 if (!pkt)
407 return -EINVAL;
408
409 bufptr = &pkt->payload[index];
410 while ((au_readl(ep->reg->write_fifo_status) &
411 USBDEV_FSTAT_FCNT_MASK) < EP_FIFO_DEPTH) {
412 if (bufptr < pkt->payload + pkt->size) {
413 au_writel(*bufptr++, ep->reg->write_fifo);
414 write_count++;
415 } else {
416 break;
417 }
418 }
419
420 return write_count;
421}
422#endif
423
424/*
425 * This routine is called to restart transmission of a packet.
426 * The endpoint's TSIZE must be set to the new packet's size,
427 * and DMA to the write FIFO needs to be restarted.
428 * EP spinlock must be held when calling.
429 */
430static void
431kickstart_send_packet(endpoint_t * ep)
432{
433 u32 cs;
434 usbdev_pkt_t *pkt = ep->inlist.head;
435
436 vdbg("%s: ep%d, pkt=%p", __FUNCTION__, ep->address, pkt);
437
438 if (!pkt) {
439 err("%s: head=NULL! list->count=%d", __FUNCTION__,
440 ep->inlist.count);
441 return;
442 }
443
444 dma_cache_wback_inv((unsigned long)pkt->payload, pkt->size);
445
446 /*
447 * make sure FIFO is empty
448 */
449 flush_write_fifo(ep);
450
451 cs = au_readl(ep->reg->ctrl_stat) & USBDEV_CS_STALL;
452 cs |= (pkt->size << USBDEV_CS_TSIZE_BIT);
453 au_writel(cs, ep->reg->ctrl_stat);
454
455 if (get_dma_active_buffer(ep->indma) == 1) {
456 set_dma_count1(ep->indma, pkt->size);
457 set_dma_addr1(ep->indma, virt_to_phys(pkt->payload));
458 enable_dma_buffer1(ep->indma); // reenable
459 } else {
460 set_dma_count0(ep->indma, pkt->size);
461 set_dma_addr0(ep->indma, virt_to_phys(pkt->payload));
462 enable_dma_buffer0(ep->indma); // reenable
463 }
464 if (dma_halted(ep->indma))
465 start_dma(ep->indma);
466}
467
468
469/*
470 * This routine is called when a packet in the inlist has been
471 * completed. Frees the completed packet and starts sending the
472 * next. EP spinlock must be held when calling.
473 */
474static usbdev_pkt_t *
475send_packet_complete(endpoint_t * ep)
476{
477 usbdev_pkt_t *pkt = unlink_head(&ep->inlist);
478
479 if (pkt) {
480 pkt->status =
481 (au_readl(ep->reg->ctrl_stat) & USBDEV_CS_NAK) ?
482 PKT_STATUS_NAK : PKT_STATUS_ACK;
483
484 vdbg("%s: ep%d, %s pkt=%p, list count=%d", __FUNCTION__,
485 ep->address, (pkt->status & PKT_STATUS_NAK) ?
486 "NAK" : "ACK", pkt, ep->inlist.count);
487 }
488
489 /*
490 * The write fifo should already be drained if things are
491 * working right, but flush it anyway just in case.
492 */
493 flush_write_fifo(ep);
494
495 // begin transmitting next packet in the inlist
496 if (ep->inlist.count) {
497 kickstart_send_packet(ep);
498 }
499
500 return pkt;
501}
502
503/*
504 * Add a new packet to the tail of the given ep's packet
505 * inlist. The transmit complete interrupt frees packets from
506 * the head of this list. EP spinlock must be held when calling.
507 */
508static int
509send_packet(struct usb_dev* dev, usbdev_pkt_t *pkt, int async)
510{
511 pkt_list_t *list;
512 endpoint_t* ep;
513
514 if (!pkt || !(ep = epaddr_to_ep(dev, pkt->ep_addr)))
515 return -EINVAL;
516
517 if (!pkt->size)
518 return 0;
519
520 list = &ep->inlist;
521
522 if (!async && list->count) {
523 halt_dma(ep->indma);
524 flush_pkt_list(list);
525 }
526
527 link_tail(ep, list, pkt);
528
529 vdbg("%s: ep%d, pkt=%p, size=%d, list count=%d", __FUNCTION__,
530 ep->address, pkt, pkt->size, list->count);
531
532 if (list->count == 1) {
533 /*
534 * if the packet count is one, it means the list was empty,
535 * and no more data will go out this ep until we kick-start
536 * it again.
537 */
538 kickstart_send_packet(ep);
539 }
540
541 return pkt->size;
542}
543
544/*
545 * This routine is called to restart reception of a packet.
546 * EP spinlock must be held when calling.
547 */
548static void
549kickstart_receive_packet(endpoint_t * ep)
550{
551 usbdev_pkt_t *pkt;
552
553 // get and link a new packet for next reception
554 if (!(pkt = add_packet(ep, &ep->outlist, ep->max_pkt_size))) {
555 err("%s: could not alloc new packet", __FUNCTION__);
556 return;
557 }
558
559 if (get_dma_active_buffer(ep->outdma) == 1) {
560 clear_dma_done1(ep->outdma);
561 set_dma_count1(ep->outdma, ep->max_pkt_size);
562 set_dma_count0(ep->outdma, 0);
563 set_dma_addr1(ep->outdma, virt_to_phys(pkt->payload));
564 enable_dma_buffer1(ep->outdma); // reenable
565 } else {
566 clear_dma_done0(ep->outdma);
567 set_dma_count0(ep->outdma, ep->max_pkt_size);
568 set_dma_count1(ep->outdma, 0);
569 set_dma_addr0(ep->outdma, virt_to_phys(pkt->payload));
570 enable_dma_buffer0(ep->outdma); // reenable
571 }
572 if (dma_halted(ep->outdma))
573 start_dma(ep->outdma);
574}
575
576
577/*
578 * This routine is called when a packet in the outlist has been
579 * completed (received) and we need to prepare for a new packet
580 * to be received. Halts DMA and computes the packet size from the
581 * remaining DMA counter. Then prepares a new packet for reception
582 * and restarts DMA. FIXME: what if another packet comes in
583 * on top of the completed packet? Counter would be wrong.
584 * EP spinlock must be held when calling.
585 */
586static usbdev_pkt_t *
587receive_packet_complete(endpoint_t * ep)
588{
589 usbdev_pkt_t *pkt = ep->outlist.tail;
590 u32 cs;
591
592 halt_dma(ep->outdma);
593
594 cs = au_readl(ep->reg->ctrl_stat);
595
596 if (!pkt)
597 return NULL;
598
599 pkt->size = ep->max_pkt_size - get_dma_residue(ep->outdma);
600 if (pkt->size)
601 dma_cache_inv((unsigned long)pkt->payload, pkt->size);
602 /*
603 * need to pull out any remaining bytes in the FIFO.
604 */
605 endpoint_fifo_read(ep);
606 /*
607 * should be drained now, but flush anyway just in case.
608 */
609 flush_read_fifo(ep);
610
611 pkt->status = (cs & USBDEV_CS_NAK) ? PKT_STATUS_NAK : PKT_STATUS_ACK;
612 if (ep->address == 0 && (cs & USBDEV_CS_SU))
613 pkt->status |= PKT_STATUS_SU;
614
615 vdbg("%s: ep%d, %s pkt=%p, size=%d", __FUNCTION__,
616 ep->address, (pkt->status & PKT_STATUS_NAK) ?
617 "NAK" : "ACK", pkt, pkt->size);
618
619 kickstart_receive_packet(ep);
620
621 return pkt;
622}
623
624
625/*
626 ****************************************************************************
627 * Here starts the standard device request handlers. They are
628 * all called by do_setup() via a table of function pointers.
629 ****************************************************************************
630 */
631
632static ep0_stage_t
633do_get_status(struct usb_dev* dev, struct usb_ctrlrequest* setup)
634{
635 switch (setup->bRequestType) {
636 case 0x80: // Device
637 // FIXME: send device status
638 break;
639 case 0x81: // Interface
640 // FIXME: send interface status
641 break;
642 case 0x82: // End Point
643 // FIXME: send endpoint status
644 break;
645 default:
646 // Invalid Command
647 endpoint_stall(&dev->ep[0]); // Stall End Point 0
648 break;
649 }
650
651 return STATUS_STAGE;
652}
653
654static ep0_stage_t
655do_clear_feature(struct usb_dev* dev, struct usb_ctrlrequest* setup)
656{
657 switch (setup->bRequestType) {
658 case 0x00: // Device
659 if ((le16_to_cpu(setup->wValue) & 0xff) == 1)
660 dev->remote_wakeup_en = 0;
661 else
662 endpoint_stall(&dev->ep[0]);
663 break;
664 case 0x02: // End Point
665 if ((le16_to_cpu(setup->wValue) & 0xff) == 0) {
666 endpoint_t *ep =
667 epaddr_to_ep(dev,
668 le16_to_cpu(setup->wIndex) & 0xff);
669
670 endpoint_unstall(ep);
671 endpoint_reset_datatoggle(ep);
672 } else
673 endpoint_stall(&dev->ep[0]);
674 break;
675 }
676
677 return SETUP_STAGE;
678}
679
680static ep0_stage_t
681do_reserved(struct usb_dev* dev, struct usb_ctrlrequest* setup)
682{
683 // Invalid request, stall End Point 0
684 endpoint_stall(&dev->ep[0]);
685 return SETUP_STAGE;
686}
687
688static ep0_stage_t
689do_set_feature(struct usb_dev* dev, struct usb_ctrlrequest* setup)
690{
691 switch (setup->bRequestType) {
692 case 0x00: // Device
693 if ((le16_to_cpu(setup->wValue) & 0xff) == 1)
694 dev->remote_wakeup_en = 1;
695 else
696 endpoint_stall(&dev->ep[0]);
697 break;
698 case 0x02: // End Point
699 if ((le16_to_cpu(setup->wValue) & 0xff) == 0) {
700 endpoint_t *ep =
701 epaddr_to_ep(dev,
702 le16_to_cpu(setup->wIndex) & 0xff);
703
704 endpoint_stall(ep);
705 } else
706 endpoint_stall(&dev->ep[0]);
707 break;
708 }
709
710 return SETUP_STAGE;
711}
712
713static ep0_stage_t
714do_set_address(struct usb_dev* dev, struct usb_ctrlrequest* setup)
715{
716 int new_state = dev->state;
717 int new_addr = le16_to_cpu(setup->wValue);
718
719 dbg("%s: our address=%d", __FUNCTION__, new_addr);
720
721 if (new_addr > 127) {
722 // usb spec doesn't tell us what to do, so just go to
723 // default state
724 new_state = DEFAULT;
725 dev->address = 0;
726 } else if (dev->address != new_addr) {
727 dev->address = new_addr;
728 new_state = ADDRESS;
729 }
730
731 if (dev->state != new_state) {
732 dev->state = new_state;
733 /* inform function layer of usbdev state change */
734 dev->func_cb(CB_NEW_STATE, dev->state, dev->cb_data);
735 }
736
737 return SETUP_STAGE;
738}
739
740static ep0_stage_t
741do_get_descriptor(struct usb_dev* dev, struct usb_ctrlrequest* setup)
742{
743 int strnum, desc_len = le16_to_cpu(setup->wLength);
744
745 switch (le16_to_cpu(setup->wValue) >> 8) {
746 case USB_DT_DEVICE:
747 // send device descriptor!
748 desc_len = desc_len > dev->dev_desc->bLength ?
749 dev->dev_desc->bLength : desc_len;
750 dbg("sending device desc, size=%d", desc_len);
751 send_packet(dev, alloc_packet(&dev->ep[0], desc_len,
752 dev->dev_desc), 0);
753 break;
754 case USB_DT_CONFIG:
755 // If the config descr index in low-byte of
756 // setup->wValue is valid, send config descr,
757 // otherwise stall ep0.
758 if ((le16_to_cpu(setup->wValue) & 0xff) == 0) {
759 // send config descriptor!
760 if (desc_len <= USB_DT_CONFIG_SIZE) {
761 dbg("sending partial config desc, size=%d",
762 desc_len);
763 send_packet(dev,
764 alloc_packet(&dev->ep[0],
765 desc_len,
766 dev->conf_desc),
767 0);
768 } else {
769 int len = le16_to_cpu(dev->conf_desc->wTotalLength);
770 dbg("sending whole config desc,"
771 " size=%d, our size=%d", desc_len, len);
772 desc_len = desc_len > len ? len : desc_len;
773 send_packet(dev,
774 alloc_packet(&dev->ep[0],
775 desc_len,
776 dev->full_conf_desc),
777 0);
778 }
779 } else
780 endpoint_stall(&dev->ep[0]);
781 break;
782 case USB_DT_STRING:
783 // If the string descr index in low-byte of setup->wValue
784 // is valid, send string descr, otherwise stall ep0.
785 strnum = le16_to_cpu(setup->wValue) & 0xff;
786 if (strnum >= 0 && strnum < 6) {
787 struct usb_string_descriptor *desc =
788 dev->str_desc[strnum];
789 desc_len = desc_len > desc->bLength ?
790 desc->bLength : desc_len;
791 dbg("sending string desc %d", strnum);
792 send_packet(dev,
793 alloc_packet(&dev->ep[0], desc_len,
794 desc), 0);
795 } else
796 endpoint_stall(&dev->ep[0]);
797 break;
798 default:
799 // Invalid request
800 err("invalid get desc=%d, stalled",
801 le16_to_cpu(setup->wValue) >> 8);
802 endpoint_stall(&dev->ep[0]); // Stall endpoint 0
803 break;
804 }
805
806 return STATUS_STAGE;
807}
808
809static ep0_stage_t
810do_set_descriptor(struct usb_dev* dev, struct usb_ctrlrequest* setup)
811{
812 // TODO: implement
813 // there will be an OUT data stage (the descriptor to set)
814 return DATA_STAGE;
815}
816
817static ep0_stage_t
818do_get_configuration(struct usb_dev* dev, struct usb_ctrlrequest* setup)
819{
820 // send dev->configuration
821 dbg("sending config");
822 send_packet(dev, alloc_packet(&dev->ep[0], 1, &dev->configuration),
823 0);
824 return STATUS_STAGE;
825}
826
827static ep0_stage_t
828do_set_configuration(struct usb_dev* dev, struct usb_ctrlrequest* setup)
829{
830 // set active config to low-byte of setup->wValue
831 dev->configuration = le16_to_cpu(setup->wValue) & 0xff;
832 dbg("set config, config=%d", dev->configuration);
833 if (!dev->configuration && dev->state > DEFAULT) {
834 dev->state = ADDRESS;
835 /* inform function layer of usbdev state change */
836 dev->func_cb(CB_NEW_STATE, dev->state, dev->cb_data);
837 } else if (dev->configuration == 1) {
838 dev->state = CONFIGURED;
839 /* inform function layer of usbdev state change */
840 dev->func_cb(CB_NEW_STATE, dev->state, dev->cb_data);
841 } else {
842 // FIXME: "respond with request error" - how?
843 }
844
845 return SETUP_STAGE;
846}
847
848static ep0_stage_t
849do_get_interface(struct usb_dev* dev, struct usb_ctrlrequest* setup)
850{
851 // interface must be zero.
852 if ((le16_to_cpu(setup->wIndex) & 0xff) || dev->state == ADDRESS) {
853 // FIXME: respond with "request error". how?
854 } else if (dev->state == CONFIGURED) {
855 // send dev->alternate_setting
856 dbg("sending alt setting");
857 send_packet(dev, alloc_packet(&dev->ep[0], 1,
858 &dev->alternate_setting), 0);
859 }
860
861 return STATUS_STAGE;
862
863}
864
865static ep0_stage_t
866do_set_interface(struct usb_dev* dev, struct usb_ctrlrequest* setup)
867{
868 if (dev->state == ADDRESS) {
869 // FIXME: respond with "request error". how?
870 } else if (dev->state == CONFIGURED) {
871 dev->interface = le16_to_cpu(setup->wIndex) & 0xff;
872 dev->alternate_setting =
873 le16_to_cpu(setup->wValue) & 0xff;
874 // interface and alternate_setting must be zero
875 if (dev->interface || dev->alternate_setting) {
876 // FIXME: respond with "request error". how?
877 }
878 }
879
880 return SETUP_STAGE;
881}
882
883static ep0_stage_t
884do_synch_frame(struct usb_dev* dev, struct usb_ctrlrequest* setup)
885{
886 // TODO
887 return SETUP_STAGE;
888}
889
890typedef ep0_stage_t (*req_method_t)(struct usb_dev* dev,
891 struct usb_ctrlrequest* setup);
892
893
894/* Table of the standard device request handlers */
895static const req_method_t req_method[] = {
896 do_get_status,
897 do_clear_feature,
898 do_reserved,
899 do_set_feature,
900 do_reserved,
901 do_set_address,
902 do_get_descriptor,
903 do_set_descriptor,
904 do_get_configuration,
905 do_set_configuration,
906 do_get_interface,
907 do_set_interface,
908 do_synch_frame
909};
910
911
912// SETUP packet request dispatcher
913static void
914do_setup (struct usb_dev* dev, struct usb_ctrlrequest* setup)
915{
916 req_method_t m;
917
918 dbg("%s: req %d %s", __FUNCTION__, setup->bRequestType,
919 get_std_req_name(setup->bRequestType));
920
921 if ((setup->bRequestType & USB_TYPE_MASK) != USB_TYPE_STANDARD ||
922 (setup->bRequestType & USB_RECIP_MASK) != USB_RECIP_DEVICE) {
923 err("%s: invalid requesttype 0x%02x", __FUNCTION__,
924 setup->bRequestType);
925 return;
926 }
927
928 if ((setup->bRequestType & 0x80) == USB_DIR_OUT && setup->wLength)
929 dbg("%s: OUT phase! length=%d", __FUNCTION__, setup->wLength);
930
931 if (setup->bRequestType < sizeof(req_method)/sizeof(req_method_t))
932 m = req_method[setup->bRequestType];
933 else
934 m = do_reserved;
935
936 dev->ep0_stage = (*m)(dev, setup);
937}
938
939/*
940 * A SETUP, DATA0, or DATA1 packet has been received
941 * on the default control endpoint's fifo.
942 */
943static void
944process_ep0_receive (struct usb_dev* dev)
945{
946 endpoint_t *ep0 = &dev->ep[0];
947 usbdev_pkt_t *pkt;
948
949 spin_lock(&ep0->lock);
950
951 // complete packet and prepare a new packet
952 pkt = receive_packet_complete(ep0);
953 if (!pkt) {
954 // FIXME: should put a warn/err here.
955 spin_unlock(&ep0->lock);
956 return;
957 }
958
959 // unlink immediately from endpoint.
960 unlink_head(&ep0->outlist);
961
962 // override current stage if h/w says it's a setup packet
963 if (pkt->status & PKT_STATUS_SU)
964 dev->ep0_stage = SETUP_STAGE;
965
966 switch (dev->ep0_stage) {
967 case SETUP_STAGE:
968 vdbg("SU bit is %s in setup stage",
969 (pkt->status & PKT_STATUS_SU) ? "set" : "not set");
970
971 if (pkt->size == sizeof(struct usb_ctrlrequest)) {
972#ifdef VDEBUG
973 if (pkt->status & PKT_STATUS_ACK)
974 vdbg("received SETUP");
975 else
976 vdbg("received NAK SETUP");
977#endif
978 do_setup(dev, (struct usb_ctrlrequest*)pkt->payload);
979 } else
980 err("%s: wrong size SETUP received", __FUNCTION__);
981 break;
982 case DATA_STAGE:
983 /*
984 * this setup has an OUT data stage. Of the standard
985 * device requests, only set_descriptor has this stage,
986 * so this packet is that descriptor. TODO: drop it for
987 * now, set_descriptor not implemented.
988 *
989 * Need to place a byte in the write FIFO here, to prepare
990 * to send a zero-length DATA ack packet to the host in the
991 * STATUS stage.
992 */
993 au_writel(0, ep0->reg->write_fifo);
994 dbg("received OUT stage DATAx on EP0, size=%d", pkt->size);
995 dev->ep0_stage = SETUP_STAGE;
996 break;
997 case STATUS_STAGE:
998 // this setup had an IN data stage, and host is ACK'ing
999 // the packet we sent during that stage.
1000 if (pkt->size != 0)
1001 warn("received non-zero ACK on EP0??");
1002#ifdef VDEBUG
1003 else
1004 vdbg("received ACK on EP0");
1005#endif
1006 dev->ep0_stage = SETUP_STAGE;
1007 break;
1008 }
1009
1010 spin_unlock(&ep0->lock);
1011 // we're done processing the packet, free it
1012 kfree(pkt);
1013}
1014
1015
1016/*
1017 * A DATA0/1 packet has been received on one of the OUT endpoints (4 or 5)
1018 */
1019static void
1020process_ep_receive (struct usb_dev* dev, endpoint_t *ep)
1021{
1022 usbdev_pkt_t *pkt;
1023
1024 spin_lock(&ep->lock);
1025 pkt = receive_packet_complete(ep);
1026 spin_unlock(&ep->lock);
1027
1028 dev->func_cb(CB_PKT_COMPLETE, (unsigned long)pkt, dev->cb_data);
1029}
1030
1031
1032
1033/* This ISR handles the receive complete and suspend events */
1034static void req_sus_intr (int irq, void *dev_id)
1035{
1036 struct usb_dev *dev = (struct usb_dev *) dev_id;
1037 u32 status;
1038
1039 status = au_readl(USBD_INTSTAT);
1040 au_writel(status, USBD_INTSTAT); // ack'em
1041
1042 if (status & (1<<0))
1043 process_ep0_receive(dev);
1044 if (status & (1<<4))
1045 process_ep_receive(dev, &dev->ep[4]);
1046 if (status & (1<<5))
1047 process_ep_receive(dev, &dev->ep[5]);
1048}
1049
1050
1051/* This ISR handles the DMA done events on EP0 */
1052static void dma_done_ep0_intr(int irq, void *dev_id)
1053{
1054 struct usb_dev *dev = (struct usb_dev *) dev_id;
1055 usbdev_pkt_t* pkt;
1056 endpoint_t *ep0 = &dev->ep[0];
1057 u32 cs0, buff_done;
1058
1059 spin_lock(&ep0->lock);
1060 cs0 = au_readl(ep0->reg->ctrl_stat);
1061
1062 // first check packet transmit done
1063 if ((buff_done = get_dma_buffer_done(ep0->indma)) != 0) {
1064 // transmitted a DATAx packet during DATA stage
1065 // on control endpoint 0
1066 // clear DMA done bit
1067 if (buff_done & DMA_D0)
1068 clear_dma_done0(ep0->indma);
1069 if (buff_done & DMA_D1)
1070 clear_dma_done1(ep0->indma);
1071
1072 pkt = send_packet_complete(ep0);
1073 kfree(pkt);
1074 }
1075
1076 /*
1077 * Now check packet receive done. Shouldn't get these,
1078 * the receive packet complete intr should happen
1079 * before the DMA done intr occurs.
1080 */
1081 if ((buff_done = get_dma_buffer_done(ep0->outdma)) != 0) {
1082 // clear DMA done bit
1083 if (buff_done & DMA_D0)
1084 clear_dma_done0(ep0->outdma);
1085 if (buff_done & DMA_D1)
1086 clear_dma_done1(ep0->outdma);
1087
1088 //process_ep0_receive(dev);
1089 }
1090
1091 spin_unlock(&ep0->lock);
1092}
1093
1094/* This ISR handles the DMA done events on endpoints 2,3,4,5 */
1095static void dma_done_ep_intr(int irq, void *dev_id)
1096{
1097 struct usb_dev *dev = (struct usb_dev *) dev_id;
1098 int i;
1099
1100 for (i = 2; i < 6; i++) {
1101 u32 buff_done;
1102 usbdev_pkt_t* pkt;
1103 endpoint_t *ep = &dev->ep[i];
1104
1105 if (!ep->active) continue;
1106
1107 spin_lock(&ep->lock);
1108
1109 if (ep->direction == USB_DIR_IN) {
1110 buff_done = get_dma_buffer_done(ep->indma);
1111 if (buff_done != 0) {
1112 // transmitted a DATAx pkt on the IN ep
1113 // clear DMA done bit
1114 if (buff_done & DMA_D0)
1115 clear_dma_done0(ep->indma);
1116 if (buff_done & DMA_D1)
1117 clear_dma_done1(ep->indma);
1118
1119 pkt = send_packet_complete(ep);
1120
1121 spin_unlock(&ep->lock);
1122 dev->func_cb(CB_PKT_COMPLETE,
1123 (unsigned long)pkt,
1124 dev->cb_data);
1125 spin_lock(&ep->lock);
1126 }
1127 } else {
1128 /*
1129 * Check packet receive done (OUT ep). Shouldn't get
1130 * these, the rx packet complete intr should happen
1131 * before the DMA done intr occurs.
1132 */
1133 buff_done = get_dma_buffer_done(ep->outdma);
1134 if (buff_done != 0) {
1135 // received a DATAx pkt on the OUT ep
1136 // clear DMA done bit
1137 if (buff_done & DMA_D0)
1138 clear_dma_done0(ep->outdma);
1139 if (buff_done & DMA_D1)
1140 clear_dma_done1(ep->outdma);
1141
1142 //process_ep_receive(dev, ep);
1143 }
1144 }
1145
1146 spin_unlock(&ep->lock);
1147 }
1148}
1149
1150
1151/***************************************************************************
1152 * Here begins the external interface functions
1153 ***************************************************************************
1154 */
1155
1156/*
1157 * allocate a new packet
1158 */
1159int
1160usbdev_alloc_packet(int ep_addr, int data_size, usbdev_pkt_t** pkt)
1161{
1162 endpoint_t * ep = epaddr_to_ep(&usbdev, ep_addr);
1163 usbdev_pkt_t* lpkt = NULL;
1164
1165 if (!ep || !ep->active || ep->address < 2)
1166 return -ENODEV;
1167 if (data_size > ep->max_pkt_size)
1168 return -EINVAL;
1169
1170 lpkt = *pkt = alloc_packet(ep, data_size, NULL);
1171 if (!lpkt)
1172 return -ENOMEM;
1173 return 0;
1174}
1175
1176
1177/*
1178 * packet send
1179 */
1180int
1181usbdev_send_packet(int ep_addr, usbdev_pkt_t * pkt)
1182{
1183 unsigned long flags;
1184 int count;
1185 endpoint_t * ep;
1186
1187 if (!pkt || !(ep = epaddr_to_ep(&usbdev, pkt->ep_addr)) ||
1188 !ep->active || ep->address < 2)
1189 return -ENODEV;
1190 if (ep->direction != USB_DIR_IN)
1191 return -EINVAL;
1192
1193 spin_lock_irqsave(&ep->lock, flags);
1194 count = send_packet(&usbdev, pkt, 1);
1195 spin_unlock_irqrestore(&ep->lock, flags);
1196
1197 return count;
1198}
1199
1200/*
1201 * packet receive
1202 */
1203int
1204usbdev_receive_packet(int ep_addr, usbdev_pkt_t** pkt)
1205{
1206 unsigned long flags;
1207 usbdev_pkt_t* lpkt = NULL;
1208 endpoint_t *ep = epaddr_to_ep(&usbdev, ep_addr);
1209
1210 if (!ep || !ep->active || ep->address < 2)
1211 return -ENODEV;
1212 if (ep->direction != USB_DIR_OUT)
1213 return -EINVAL;
1214
1215 spin_lock_irqsave(&ep->lock, flags);
1216 if (ep->outlist.count > 1)
1217 lpkt = unlink_head(&ep->outlist);
1218 spin_unlock_irqrestore(&ep->lock, flags);
1219
1220 if (!lpkt) {
1221 /* no packet available */
1222 *pkt = NULL;
1223 return -ENODATA;
1224 }
1225
1226 *pkt = lpkt;
1227
1228 return lpkt->size;
1229}
1230
1231
1232/*
1233 * return total queued byte count on the endpoint.
1234 */
1235int
1236usbdev_get_byte_count(int ep_addr)
1237{
1238 unsigned long flags;
1239 pkt_list_t *list;
1240 usbdev_pkt_t *scan;
1241 int count = 0;
1242 endpoint_t * ep = epaddr_to_ep(&usbdev, ep_addr);
1243
1244 if (!ep || !ep->active || ep->address < 2)
1245 return -ENODEV;
1246
1247 if (ep->direction == USB_DIR_IN) {
1248 list = &ep->inlist;
1249
1250 spin_lock_irqsave(&ep->lock, flags);
1251 for (scan = list->head; scan; scan = scan->next)
1252 count += scan->size;
1253 spin_unlock_irqrestore(&ep->lock, flags);
1254 } else {
1255 list = &ep->outlist;
1256
1257 spin_lock_irqsave(&ep->lock, flags);
1258 if (list->count > 1) {
1259 for (scan = list->head; scan != list->tail;
1260 scan = scan->next)
1261 count += scan->size;
1262 }
1263 spin_unlock_irqrestore(&ep->lock, flags);
1264 }
1265
1266 return count;
1267}
1268
1269
1270void
1271usbdev_exit(void)
1272{
1273 endpoint_t *ep;
1274 int i;
1275
1276 au_writel(0, USBD_INTEN); // disable usb dev ints
1277 au_writel(0, USBD_ENABLE); // disable usb dev
1278
1279 free_irq(AU1000_USB_DEV_REQ_INT, &usbdev);
1280 free_irq(AU1000_USB_DEV_SUS_INT, &usbdev);
1281
1282 // free all control endpoint resources
1283 ep = &usbdev.ep[0];
1284 free_au1000_dma(ep->indma);
1285 free_au1000_dma(ep->outdma);
1286 endpoint_flush(ep);
1287
1288 // free ep resources
1289 for (i = 2; i < 6; i++) {
1290 ep = &usbdev.ep[i];
1291 if (!ep->active) continue;
1292
1293 if (ep->direction == USB_DIR_IN) {
1294 free_au1000_dma(ep->indma);
1295 } else {
1296 free_au1000_dma(ep->outdma);
1297 }
1298 endpoint_flush(ep);
1299 }
1300
1301 kfree(usbdev.full_conf_desc);
1302}
1303
1304int
1305usbdev_init(struct usb_device_descriptor* dev_desc,
1306 struct usb_config_descriptor* config_desc,
1307 struct usb_interface_descriptor* if_desc,
1308 struct usb_endpoint_descriptor* ep_desc,
1309 struct usb_string_descriptor* str_desc[],
1310 void (*cb)(usbdev_cb_type_t, unsigned long, void *),
1311 void* cb_data)
1312{
1313 endpoint_t *ep0;
1314 int i, ret=0;
1315 u8* fcd;
1316
1317 if (dev_desc->bNumConfigurations > 1 ||
1318 config_desc->bNumInterfaces > 1 ||
1319 if_desc->bNumEndpoints > 4) {
1320 err("Only one config, one i/f, and no more "
1321 "than 4 ep's allowed");
1322 ret = -EINVAL;
1323 goto out;
1324 }
1325
1326 if (!cb) {
1327 err("Function-layer callback required");
1328 ret = -EINVAL;
1329 goto out;
1330 }
1331
1332 if (dev_desc->bMaxPacketSize0 != USBDEV_EP0_MAX_PACKET_SIZE) {
1333 warn("EP0 Max Packet size must be %d",
1334 USBDEV_EP0_MAX_PACKET_SIZE);
1335 dev_desc->bMaxPacketSize0 = USBDEV_EP0_MAX_PACKET_SIZE;
1336 }
1337
1338 memset(&usbdev, 0, sizeof(struct usb_dev));
1339
1340 usbdev.state = DEFAULT;
1341 usbdev.dev_desc = dev_desc;
1342 usbdev.if_desc = if_desc;
1343 usbdev.conf_desc = config_desc;
1344 for (i=0; i<6; i++)
1345 usbdev.str_desc[i] = str_desc[i];
1346 usbdev.func_cb = cb;
1347 usbdev.cb_data = cb_data;
1348
1349 /* Initialize default control endpoint */
1350 ep0 = &usbdev.ep[0];
1351 ep0->active = 1;
1352 ep0->type = CONTROL_EP;
1353 ep0->max_pkt_size = USBDEV_EP0_MAX_PACKET_SIZE;
1354 spin_lock_init(&ep0->lock);
1355 ep0->desc = NULL; // ep0 has no descriptor
1356 ep0->address = 0;
1357 ep0->direction = 0;
1358 ep0->reg = &ep_reg[0];
1359
1360 /* Initialize the other requested endpoints */
1361 for (i = 0; i < if_desc->bNumEndpoints; i++) {
1362 struct usb_endpoint_descriptor* epd = &ep_desc[i];
1363 endpoint_t *ep;
1364
1365 if ((epd->bEndpointAddress & 0x80) == USB_DIR_IN) {
1366 ep = &usbdev.ep[2];
1367 ep->address = 2;
1368 if (ep->active) {
1369 ep = &usbdev.ep[3];
1370 ep->address = 3;
1371 if (ep->active) {
1372 err("too many IN ep's requested");
1373 ret = -ENODEV;
1374 goto out;
1375 }
1376 }
1377 } else {
1378 ep = &usbdev.ep[4];
1379 ep->address = 4;
1380 if (ep->active) {
1381 ep = &usbdev.ep[5];
1382 ep->address = 5;
1383 if (ep->active) {
1384 err("too many OUT ep's requested");
1385 ret = -ENODEV;
1386 goto out;
1387 }
1388 }
1389 }
1390
1391 ep->active = 1;
1392 epd->bEndpointAddress &= ~0x0f;
1393 epd->bEndpointAddress |= (u8)ep->address;
1394 ep->direction = epd->bEndpointAddress & 0x80;
1395 ep->type = epd->bmAttributes & 0x03;
1396 ep->max_pkt_size = le16_to_cpu(epd->wMaxPacketSize);
1397 spin_lock_init(&ep->lock);
1398 ep->desc = epd;
1399 ep->reg = &ep_reg[ep->address];
1400 }
1401
1402 /*
1403 * initialize the full config descriptor
1404 */
1405 usbdev.full_conf_desc = fcd = kmalloc(le16_to_cpu(config_desc->wTotalLength),
1406 ALLOC_FLAGS);
1407 if (!fcd) {
1408 err("failed to alloc full config descriptor");
1409 ret = -ENOMEM;
1410 goto out;
1411 }
1412
1413 memcpy(fcd, config_desc, USB_DT_CONFIG_SIZE);
1414 fcd += USB_DT_CONFIG_SIZE;
1415 memcpy(fcd, if_desc, USB_DT_INTERFACE_SIZE);
1416 fcd += USB_DT_INTERFACE_SIZE;
1417 for (i = 0; i < if_desc->bNumEndpoints; i++) {
1418 memcpy(fcd, &ep_desc[i], USB_DT_ENDPOINT_SIZE);
1419 fcd += USB_DT_ENDPOINT_SIZE;
1420 }
1421
1422 /* Now we're ready to enable the controller */
1423 au_writel(0x0002, USBD_ENABLE);
1424 udelay(100);
1425 au_writel(0x0003, USBD_ENABLE);
1426 udelay(100);
1427
1428 /* build and send config table based on ep descriptors */
1429 for (i = 0; i < 6; i++) {
1430 endpoint_t *ep;
1431 if (i == 1)
1432 continue; // skip dummy ep
1433 ep = &usbdev.ep[i];
1434 if (ep->active) {
1435 au_writel((ep->address << 4) | 0x04, USBD_CONFIG);
1436 au_writel(((ep->max_pkt_size & 0x380) >> 7) |
1437 (ep->direction >> 4) | (ep->type << 4),
1438 USBD_CONFIG);
1439 au_writel((ep->max_pkt_size & 0x7f) << 1, USBD_CONFIG);
1440 au_writel(0x00, USBD_CONFIG);
1441 au_writel(ep->address, USBD_CONFIG);
1442 } else {
1443 u8 dir = (i==2 || i==3) ? DIR_IN : DIR_OUT;
1444 au_writel((i << 4) | 0x04, USBD_CONFIG);
1445 au_writel(((16 & 0x380) >> 7) | dir |
1446 (BULK_EP << 4), USBD_CONFIG);
1447 au_writel((16 & 0x7f) << 1, USBD_CONFIG);
1448 au_writel(0x00, USBD_CONFIG);
1449 au_writel(i, USBD_CONFIG);
1450 }
1451 }
1452
1453 /*
1454 * Enable Receive FIFO Complete interrupts only. Transmit
1455 * complete is being handled by the DMA done interrupts.
1456 */
1457 au_writel(0x31, USBD_INTEN);
1458
1459 /*
1460 * Controller is now enabled, request DMA and IRQ
1461 * resources.
1462 */
1463
1464 /* request the USB device transfer complete interrupt */
1465 if (request_irq(AU1000_USB_DEV_REQ_INT, req_sus_intr, IRQF_DISABLED,
1466 "USBdev req", &usbdev)) {
1467 err("Can't get device request intr");
1468 ret = -ENXIO;
1469 goto out;
1470 }
1471 /* request the USB device suspend interrupt */
1472 if (request_irq(AU1000_USB_DEV_SUS_INT, req_sus_intr, IRQF_DISABLED,
1473 "USBdev sus", &usbdev)) {
1474 err("Can't get device suspend intr");
1475 ret = -ENXIO;
1476 goto out;
1477 }
1478
1479 /* Request EP0 DMA and IRQ */
1480 if ((ep0->indma = request_au1000_dma(ep_dma_id[0].id,
1481 ep_dma_id[0].str,
1482 dma_done_ep0_intr,
1483 IRQF_DISABLED,
1484 &usbdev)) < 0) {
1485 err("Can't get %s DMA", ep_dma_id[0].str);
1486 ret = -ENXIO;
1487 goto out;
1488 }
1489 if ((ep0->outdma = request_au1000_dma(ep_dma_id[1].id,
1490 ep_dma_id[1].str,
1491 NULL, 0, NULL)) < 0) {
1492 err("Can't get %s DMA", ep_dma_id[1].str);
1493 ret = -ENXIO;
1494 goto out;
1495 }
1496
1497 // Flush the ep0 buffers and FIFOs
1498 endpoint_flush(ep0);
1499 // start packet reception on ep0
1500 kickstart_receive_packet(ep0);
1501
1502 /* Request DMA and IRQ for the other endpoints */
1503 for (i = 2; i < 6; i++) {
1504 endpoint_t *ep = &usbdev.ep[i];
1505 if (!ep->active)
1506 continue;
1507
1508 // Flush the endpoint buffers and FIFOs
1509 endpoint_flush(ep);
1510
1511 if (ep->direction == USB_DIR_IN) {
1512 ep->indma =
1513 request_au1000_dma(ep_dma_id[ep->address].id,
1514 ep_dma_id[ep->address].str,
1515 dma_done_ep_intr,
1516 IRQF_DISABLED,
1517 &usbdev);
1518 if (ep->indma < 0) {
1519 err("Can't get %s DMA",
1520 ep_dma_id[ep->address].str);
1521 ret = -ENXIO;
1522 goto out;
1523 }
1524 } else {
1525 ep->outdma =
1526 request_au1000_dma(ep_dma_id[ep->address].id,
1527 ep_dma_id[ep->address].str,
1528 NULL, 0, NULL);
1529 if (ep->outdma < 0) {
1530 err("Can't get %s DMA",
1531 ep_dma_id[ep->address].str);
1532 ret = -ENXIO;
1533 goto out;
1534 }
1535
1536 // start packet reception on OUT endpoint
1537 kickstart_receive_packet(ep);
1538 }
1539 }
1540
1541 out:
1542 if (ret)
1543 usbdev_exit();
1544 return ret;
1545}
1546
1547EXPORT_SYMBOL(usbdev_init);
1548EXPORT_SYMBOL(usbdev_exit);
1549EXPORT_SYMBOL(usbdev_alloc_packet);
1550EXPORT_SYMBOL(usbdev_receive_packet);
1551EXPORT_SYMBOL(usbdev_send_packet);
1552EXPORT_SYMBOL(usbdev_get_byte_count);
diff --git a/arch/mips/au1000/db1x00/board_setup.c b/arch/mips/au1000/db1x00/board_setup.c
index 7a79293f8527..8b08edb977be 100644
--- a/arch/mips/au1000/db1x00/board_setup.c
+++ b/arch/mips/au1000/db1x00/board_setup.c
@@ -58,11 +58,6 @@ void __init board_setup(void)
58 58
59 pin_func = 0; 59 pin_func = 0;
60 /* not valid for 1550 */ 60 /* not valid for 1550 */
61#ifdef CONFIG_AU1X00_USB_DEVICE
62 // 2nd USB port is USB device
63 pin_func = au_readl(SYS_PINFUNC) & (u32)(~0x8000);
64 au_writel(pin_func, SYS_PINFUNC);
65#endif
66 61
67#if defined(CONFIG_IRDA) && (defined(CONFIG_SOC_AU1000) || defined(CONFIG_SOC_AU1100)) 62#if defined(CONFIG_IRDA) && (defined(CONFIG_SOC_AU1000) || defined(CONFIG_SOC_AU1100))
68 /* set IRFIRSEL instead of GPIO15 */ 63 /* set IRFIRSEL instead of GPIO15 */
diff --git a/arch/mips/au1000/mtx-1/board_setup.c b/arch/mips/au1000/mtx-1/board_setup.c
index e917e54fc683..13f9bf5f91a6 100644
--- a/arch/mips/au1000/mtx-1/board_setup.c
+++ b/arch/mips/au1000/mtx-1/board_setup.c
@@ -51,15 +51,11 @@ void board_reset (void)
51 51
52void __init board_setup(void) 52void __init board_setup(void)
53{ 53{
54#if defined (CONFIG_USB_OHCI) || defined (CONFIG_AU1X00_USB_DEVICE) 54#ifdef CONFIG_USB_OHCI
55#ifdef CONFIG_AU1X00_USB_DEVICE
56 // 2nd USB port is USB device
57 au_writel(au_readl(SYS_PINFUNC) & (u32)(~0x8000), SYS_PINFUNC);
58#endif
59 // enable USB power switch 55 // enable USB power switch
60 au_writel( au_readl(GPIO2_DIR) | 0x10, GPIO2_DIR ); 56 au_writel( au_readl(GPIO2_DIR) | 0x10, GPIO2_DIR );
61 au_writel( 0x100000, GPIO2_OUTPUT ); 57 au_writel( 0x100000, GPIO2_OUTPUT );
62#endif // defined (CONFIG_USB_OHCI) || defined (CONFIG_AU1X00_USB_DEVICE) 58#endif // defined (CONFIG_USB_OHCI)
63 59
64#ifdef CONFIG_PCI 60#ifdef CONFIG_PCI
65#if defined(__MIPSEB__) 61#if defined(__MIPSEB__)
diff --git a/arch/mips/au1000/pb1000/board_setup.c b/arch/mips/au1000/pb1000/board_setup.c
index 1cf18e16ab54..824cfafaff92 100644
--- a/arch/mips/au1000/pb1000/board_setup.c
+++ b/arch/mips/au1000/pb1000/board_setup.c
@@ -54,7 +54,7 @@ void __init board_setup(void)
54 au_writel(0, SYS_PINSTATERD); 54 au_writel(0, SYS_PINSTATERD);
55 udelay(100); 55 udelay(100);
56 56
57#if defined (CONFIG_USB_OHCI) || defined (CONFIG_AU1X00_USB_DEVICE) 57#ifdef CONFIG_USB_OHCI
58 /* zero and disable FREQ2 */ 58 /* zero and disable FREQ2 */
59 sys_freqctrl = au_readl(SYS_FREQCTRL0); 59 sys_freqctrl = au_readl(SYS_FREQCTRL0);
60 sys_freqctrl &= ~0xFFF00000; 60 sys_freqctrl &= ~0xFFF00000;
@@ -105,22 +105,18 @@ void __init board_setup(void)
105#ifdef CONFIG_USB_OHCI 105#ifdef CONFIG_USB_OHCI
106 sys_clksrc |= ((4<<12) | (0<<11) | (0<<10)); 106 sys_clksrc |= ((4<<12) | (0<<11) | (0<<10));
107#endif 107#endif
108#ifdef CONFIG_AU1X00_USB_DEVICE
109 sys_clksrc |= ((4<<7) | (0<<6) | (0<<5));
110#endif
111 au_writel(sys_clksrc, SYS_CLKSRC); 108 au_writel(sys_clksrc, SYS_CLKSRC);
112 109
113 // configure pins GPIO[14:9] as GPIO 110 // configure pins GPIO[14:9] as GPIO
114 pin_func = au_readl(SYS_PINFUNC) & (u32)(~0x8080); 111 pin_func = au_readl(SYS_PINFUNC) & (u32)(~0x8080);
115 112
116#ifndef CONFIG_AU1X00_USB_DEVICE
117 // 2nd USB port is USB host 113 // 2nd USB port is USB host
118 pin_func |= 0x8000; 114 pin_func |= 0x8000;
119#endif 115
120 au_writel(pin_func, SYS_PINFUNC); 116 au_writel(pin_func, SYS_PINFUNC);
121 au_writel(0x2800, SYS_TRIOUTCLR); 117 au_writel(0x2800, SYS_TRIOUTCLR);
122 au_writel(0x0030, SYS_OUTPUTCLR); 118 au_writel(0x0030, SYS_OUTPUTCLR);
123#endif // defined (CONFIG_USB_OHCI) || defined (CONFIG_AU1X00_USB_DEVICE) 119#endif // defined (CONFIG_USB_OHCI)
124 120
125 // make gpio 15 an input (for interrupt line) 121 // make gpio 15 an input (for interrupt line)
126 pin_func = au_readl(SYS_PINFUNC) & (u32)(~0x100); 122 pin_func = au_readl(SYS_PINFUNC) & (u32)(~0x100);
diff --git a/arch/mips/au1000/pb1100/board_setup.c b/arch/mips/au1000/pb1100/board_setup.c
index db27b9331ff3..2d1533f116c0 100644
--- a/arch/mips/au1000/pb1100/board_setup.c
+++ b/arch/mips/au1000/pb1100/board_setup.c
@@ -55,7 +55,7 @@ void __init board_setup(void)
55 au_writel(0, SYS_PININPUTEN); 55 au_writel(0, SYS_PININPUTEN);
56 udelay(100); 56 udelay(100);
57 57
58#if defined (CONFIG_USB_OHCI) || defined (CONFIG_AU1X00_USB_DEVICE) 58#ifdef CONFIG_USB_OHCI
59 // configure pins GPIO[14:9] as GPIO 59 // configure pins GPIO[14:9] as GPIO
60 pin_func = au_readl(SYS_PINFUNC) & (u32)(~0x80); 60 pin_func = au_readl(SYS_PINFUNC) & (u32)(~0x80);
61 61
@@ -92,12 +92,10 @@ void __init board_setup(void)
92 92
93 // get USB Functionality pin state (device vs host drive pins) 93 // get USB Functionality pin state (device vs host drive pins)
94 pin_func = au_readl(SYS_PINFUNC) & (u32)(~0x8000); 94 pin_func = au_readl(SYS_PINFUNC) & (u32)(~0x8000);
95#ifndef CONFIG_AU1X00_USB_DEVICE
96 // 2nd USB port is USB host 95 // 2nd USB port is USB host
97 pin_func |= 0x8000; 96 pin_func |= 0x8000;
98#endif
99 au_writel(pin_func, SYS_PINFUNC); 97 au_writel(pin_func, SYS_PINFUNC);
100#endif // defined (CONFIG_USB_OHCI) || defined (CONFIG_AU1X00_USB_DEVICE) 98#endif // defined (CONFIG_USB_OHCI)
101 99
102 /* Enable sys bus clock divider when IDLE state or no bus activity. */ 100 /* Enable sys bus clock divider when IDLE state or no bus activity. */
103 au_writel(au_readl(SYS_POWERCTRL) | (0x3 << 5), SYS_POWERCTRL); 101 au_writel(au_readl(SYS_POWERCTRL) | (0x3 << 5), SYS_POWERCTRL);
diff --git a/arch/mips/au1000/pb1500/board_setup.c b/arch/mips/au1000/pb1500/board_setup.c
index 1a9a293de6ab..0ffdb4fd575b 100644
--- a/arch/mips/au1000/pb1500/board_setup.c
+++ b/arch/mips/au1000/pb1500/board_setup.c
@@ -56,7 +56,7 @@ void __init board_setup(void)
56 au_writel(0, SYS_PINSTATERD); 56 au_writel(0, SYS_PINSTATERD);
57 udelay(100); 57 udelay(100);
58 58
59#if defined (CONFIG_USB_OHCI) || defined (CONFIG_AU1X00_USB_DEVICE) 59#ifdef CONFIG_USB_OHCI
60 60
61 /* GPIO201 is input for PCMCIA card detect */ 61 /* GPIO201 is input for PCMCIA card detect */
62 /* GPIO203 is input for PCMCIA interrupt request */ 62 /* GPIO203 is input for PCMCIA interrupt request */
@@ -88,19 +88,14 @@ void __init board_setup(void)
88#ifdef CONFIG_USB_OHCI 88#ifdef CONFIG_USB_OHCI
89 sys_clksrc |= ((4<<12) | (0<<11) | (0<<10)); 89 sys_clksrc |= ((4<<12) | (0<<11) | (0<<10));
90#endif 90#endif
91#ifdef CONFIG_AU1X00_USB_DEVICE
92 sys_clksrc |= ((4<<7) | (0<<6) | (0<<5));
93#endif
94 au_writel(sys_clksrc, SYS_CLKSRC); 91 au_writel(sys_clksrc, SYS_CLKSRC);
95 92
96 93
97 pin_func = au_readl(SYS_PINFUNC) & (u32)(~0x8000); 94 pin_func = au_readl(SYS_PINFUNC) & (u32)(~0x8000);
98#ifndef CONFIG_AU1X00_USB_DEVICE
99 // 2nd USB port is USB host 95 // 2nd USB port is USB host
100 pin_func |= 0x8000; 96 pin_func |= 0x8000;
101#endif
102 au_writel(pin_func, SYS_PINFUNC); 97 au_writel(pin_func, SYS_PINFUNC);
103#endif // defined (CONFIG_USB_OHCI) || defined (CONFIG_AU1X00_USB_DEVICE) 98#endif // defined (CONFIG_USB_OHCI)
104 99
105 100
106 101
diff --git a/arch/mips/configs/pb1100_defconfig b/arch/mips/configs/pb1100_defconfig
index 741f8258075c..9e672f63a0aa 100644
--- a/arch/mips/configs/pb1100_defconfig
+++ b/arch/mips/configs/pb1100_defconfig
@@ -76,7 +76,6 @@ CONFIG_SYS_SUPPORTS_LITTLE_ENDIAN=y
76CONFIG_SOC_AU1100=y 76CONFIG_SOC_AU1100=y
77CONFIG_SOC_AU1X00=y 77CONFIG_SOC_AU1X00=y
78CONFIG_SWAP_IO_SPACE=y 78CONFIG_SWAP_IO_SPACE=y
79# CONFIG_AU1X00_USB_DEVICE is not set
80CONFIG_MIPS_L1_CACHE_SHIFT=5 79CONFIG_MIPS_L1_CACHE_SHIFT=5
81 80
82# 81#
diff --git a/arch/mips/configs/pb1500_defconfig b/arch/mips/configs/pb1500_defconfig
index 8576340714da..d0c0f4af1bff 100644
--- a/arch/mips/configs/pb1500_defconfig
+++ b/arch/mips/configs/pb1500_defconfig
@@ -75,7 +75,6 @@ CONFIG_CPU_LITTLE_ENDIAN=y
75CONFIG_SYS_SUPPORTS_LITTLE_ENDIAN=y 75CONFIG_SYS_SUPPORTS_LITTLE_ENDIAN=y
76CONFIG_SOC_AU1500=y 76CONFIG_SOC_AU1500=y
77CONFIG_SOC_AU1X00=y 77CONFIG_SOC_AU1X00=y
78# CONFIG_AU1X00_USB_DEVICE is not set
79CONFIG_MIPS_L1_CACHE_SHIFT=5 78CONFIG_MIPS_L1_CACHE_SHIFT=5
80 79
81# 80#
generated by cgit v1.2.2 (git 2.25.0) at 2024-10-01 13:44:29 -0400