2 * Driver for PLX NET2272 USB device controller
4 * Copyright (C) 2005-2006 PLX Technology, Inc.
5 * Copyright (C) 2006-2011 Analog Devices, Inc.
7 * This program is free software; you can redistribute it and/or modify
8 * it under the terms of the GNU General Public License as published by
9 * the Free Software Foundation; either version 2 of the License, or
10 * (at your option) any later version.
12 * This program is distributed in the hope that it will be useful,
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 * GNU General Public License for more details.
17 * You should have received a copy of the GNU General Public License
18 * along with this program; if not, write to the Free Software
19 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
22 #include <linux/delay.h>
23 #include <linux/device.h>
24 #include <linux/errno.h>
25 #include <linux/gpio.h>
26 #include <linux/init.h>
27 #include <linux/interrupt.h>
29 #include <linux/ioport.h>
30 #include <linux/kernel.h>
31 #include <linux/list.h>
32 #include <linux/module.h>
33 #include <linux/moduleparam.h>
34 #include <linux/pci.h>
35 #include <linux/platform_device.h>
36 #include <linux/prefetch.h>
37 #include <linux/sched.h>
38 #include <linux/slab.h>
39 #include <linux/timer.h>
40 #include <linux/usb.h>
41 #include <linux/usb/ch9.h>
42 #include <linux/usb/gadget.h>
44 #include <asm/byteorder.h>
45 #include <asm/system.h>
46 #include <asm/unaligned.h>
50 #define DRIVER_DESC "PLX NET2272 USB Peripheral Controller"
52 static const char driver_name
[] = "net2272";
53 static const char driver_vers
[] = "2006 October 17/mainline";
54 static const char driver_desc
[] = DRIVER_DESC
;
56 static const char ep0name
[] = "ep0";
57 static const char * const ep_name
[] = {
59 "ep-a", "ep-b", "ep-c",
62 #define DMA_ADDR_INVALID (~(dma_addr_t)0)
63 #ifdef CONFIG_USB_GADGET_NET2272_DMA
65 * use_dma: the NET2272 can use an external DMA controller.
66 * Note that since there is no generic DMA api, some functions,
67 * notably request_dma, start_dma, and cancel_dma will need to be
68 * modified for your platform's particular dma controller.
70 * If use_dma is disabled, pio will be used instead.
72 static bool use_dma
= 0;
73 module_param(use_dma
, bool, 0644);
76 * dma_ep: selects the endpoint for use with dma (1=ep-a, 2=ep-b)
77 * The NET2272 can only use dma for a single endpoint at a time.
78 * At some point this could be modified to allow either endpoint
79 * to take control of dma as it becomes available.
81 * Note that DMA should not be used on OUT endpoints unless it can
82 * be guaranteed that no short packets will arrive on an IN endpoint
83 * while the DMA operation is pending. Otherwise the OUT DMA will
84 * terminate prematurely (See NET2272 Errata 630-0213-0101)
86 static ushort dma_ep
= 1;
87 module_param(dma_ep
, ushort
, 0644);
90 * dma_mode: net2272 dma mode setting (see LOCCTL1 definiton):
91 * mode 0 == Slow DREQ mode
92 * mode 1 == Fast DREQ mode
93 * mode 2 == Burst mode
95 static ushort dma_mode
= 2;
96 module_param(dma_mode
, ushort
, 0644);
104 * fifo_mode: net2272 buffer configuration:
105 * mode 0 == ep-{a,b,c} 512db each
106 * mode 1 == ep-a 1k, ep-{b,c} 512db
107 * mode 2 == ep-a 1k, ep-b 1k, ep-c 512db
108 * mode 3 == ep-a 1k, ep-b disabled, ep-c 512db
110 static ushort fifo_mode
= 0;
111 module_param(fifo_mode
, ushort
, 0644);
114 * enable_suspend: When enabled, the driver will respond to
115 * USB suspend requests by powering down the NET2272. Otherwise,
116 * USB suspend requests will be ignored. This is acceptible for
117 * self-powered devices. For bus powered devices set this to 1.
119 static ushort enable_suspend
= 0;
120 module_param(enable_suspend
, ushort
, 0644);
122 static void assert_out_naking(struct net2272_ep
*ep
, const char *where
)
130 tmp
= net2272_ep_read(ep
, EP_STAT0
);
131 if ((tmp
& (1 << NAK_OUT_PACKETS
)) == 0) {
132 dev_dbg(ep
->dev
->dev
, "%s %s %02x !NAK\n",
133 ep
->ep
.name
, where
, tmp
);
134 net2272_ep_write(ep
, EP_RSPSET
, 1 << ALT_NAK_OUT_PACKETS
);
137 #define ASSERT_OUT_NAKING(ep) assert_out_naking(ep, __func__)
139 static void stop_out_naking(struct net2272_ep
*ep
)
141 u8 tmp
= net2272_ep_read(ep
, EP_STAT0
);
143 if ((tmp
& (1 << NAK_OUT_PACKETS
)) != 0)
144 net2272_ep_write(ep
, EP_RSPCLR
, 1 << ALT_NAK_OUT_PACKETS
);
147 #define PIPEDIR(bAddress) (usb_pipein(bAddress) ? "in" : "out")
149 static char *type_string(u8 bmAttributes
)
151 switch ((bmAttributes
) & USB_ENDPOINT_XFERTYPE_MASK
) {
152 case USB_ENDPOINT_XFER_BULK
: return "bulk";
153 case USB_ENDPOINT_XFER_ISOC
: return "iso";
154 case USB_ENDPOINT_XFER_INT
: return "intr";
155 default: return "control";
159 static char *buf_state_string(unsigned state
)
162 case BUFF_FREE
: return "free";
163 case BUFF_VALID
: return "valid";
164 case BUFF_LCL
: return "local";
165 case BUFF_USB
: return "usb";
166 default: return "unknown";
170 static char *dma_mode_string(void)
175 case 0: return "SLOW DREQ";
176 case 1: return "FAST DREQ";
177 case 2: return "BURST";
178 default: return "invalid";
182 static void net2272_dequeue_all(struct net2272_ep
*);
183 static int net2272_kick_dma(struct net2272_ep
*, struct net2272_request
*);
184 static int net2272_fifo_status(struct usb_ep
*);
186 static struct usb_ep_ops net2272_ep_ops
;
188 /*---------------------------------------------------------------------------*/
191 net2272_enable(struct usb_ep
*_ep
, const struct usb_endpoint_descriptor
*desc
)
194 struct net2272_ep
*ep
;
199 ep
= container_of(_ep
, struct net2272_ep
, ep
);
200 if (!_ep
|| !desc
|| ep
->desc
|| _ep
->name
== ep0name
201 || desc
->bDescriptorType
!= USB_DT_ENDPOINT
)
204 if (!dev
->driver
|| dev
->gadget
.speed
== USB_SPEED_UNKNOWN
)
207 max
= usb_endpoint_maxp(desc
) & 0x1fff;
209 spin_lock_irqsave(&dev
->lock
, flags
);
210 _ep
->maxpacket
= max
& 0x7fff;
213 /* net2272_ep_reset() has already been called */
217 /* set speed-dependent max packet */
218 net2272_ep_write(ep
, EP_MAXPKT0
, max
& 0xff);
219 net2272_ep_write(ep
, EP_MAXPKT1
, (max
& 0xff00) >> 8);
221 /* set type, direction, address; reset fifo counters */
222 net2272_ep_write(ep
, EP_STAT1
, 1 << BUFFER_FLUSH
);
223 tmp
= usb_endpoint_type(desc
);
224 if (usb_endpoint_xfer_bulk(desc
)) {
225 /* catch some particularly blatant driver bugs */
226 if ((dev
->gadget
.speed
== USB_SPEED_HIGH
&& max
!= 512) ||
227 (dev
->gadget
.speed
== USB_SPEED_FULL
&& max
> 64)) {
228 spin_unlock_irqrestore(&dev
->lock
, flags
);
232 ep
->is_iso
= usb_endpoint_xfer_isoc(desc
) ? 1 : 0;
233 tmp
<<= ENDPOINT_TYPE
;
234 tmp
|= ((desc
->bEndpointAddress
& 0x0f) << ENDPOINT_NUMBER
);
235 tmp
|= usb_endpoint_dir_in(desc
) << ENDPOINT_DIRECTION
;
236 tmp
|= (1 << ENDPOINT_ENABLE
);
238 /* for OUT transfers, block the rx fifo until a read is posted */
239 ep
->is_in
= usb_endpoint_dir_in(desc
);
241 net2272_ep_write(ep
, EP_RSPSET
, 1 << ALT_NAK_OUT_PACKETS
);
243 net2272_ep_write(ep
, EP_CFG
, tmp
);
246 tmp
= (1 << ep
->num
) | net2272_read(dev
, IRQENB0
);
247 net2272_write(dev
, IRQENB0
, tmp
);
249 tmp
= (1 << DATA_PACKET_RECEIVED_INTERRUPT_ENABLE
)
250 | (1 << DATA_PACKET_TRANSMITTED_INTERRUPT_ENABLE
)
251 | net2272_ep_read(ep
, EP_IRQENB
);
252 net2272_ep_write(ep
, EP_IRQENB
, tmp
);
254 tmp
= desc
->bEndpointAddress
;
255 dev_dbg(dev
->dev
, "enabled %s (ep%d%s-%s) max %04x cfg %02x\n",
256 _ep
->name
, tmp
& 0x0f, PIPEDIR(tmp
),
257 type_string(desc
->bmAttributes
), max
,
258 net2272_ep_read(ep
, EP_CFG
));
260 spin_unlock_irqrestore(&dev
->lock
, flags
);
264 static void net2272_ep_reset(struct net2272_ep
*ep
)
269 INIT_LIST_HEAD(&ep
->queue
);
271 ep
->ep
.maxpacket
= ~0;
272 ep
->ep
.ops
= &net2272_ep_ops
;
274 /* disable irqs, endpoint */
275 net2272_ep_write(ep
, EP_IRQENB
, 0);
277 /* init to our chosen defaults, notably so that we NAK OUT
278 * packets until the driver queues a read.
280 tmp
= (1 << NAK_OUT_PACKETS_MODE
) | (1 << ALT_NAK_OUT_PACKETS
);
281 net2272_ep_write(ep
, EP_RSPSET
, tmp
);
283 tmp
= (1 << INTERRUPT_MODE
) | (1 << HIDE_STATUS_PHASE
);
285 tmp
|= (1 << ENDPOINT_TOGGLE
) | (1 << ENDPOINT_HALT
);
287 net2272_ep_write(ep
, EP_RSPCLR
, tmp
);
289 /* scrub most status bits, and flush any fifo state */
290 net2272_ep_write(ep
, EP_STAT0
,
291 (1 << DATA_IN_TOKEN_INTERRUPT
)
292 | (1 << DATA_OUT_TOKEN_INTERRUPT
)
293 | (1 << DATA_PACKET_TRANSMITTED_INTERRUPT
)
294 | (1 << DATA_PACKET_RECEIVED_INTERRUPT
)
295 | (1 << SHORT_PACKET_TRANSFERRED_INTERRUPT
));
297 net2272_ep_write(ep
, EP_STAT1
,
299 | (1 << USB_OUT_ACK_SENT
)
300 | (1 << USB_OUT_NAK_SENT
)
301 | (1 << USB_IN_ACK_RCVD
)
302 | (1 << USB_IN_NAK_SENT
)
303 | (1 << USB_STALL_SENT
)
304 | (1 << LOCAL_OUT_ZLP
)
305 | (1 << BUFFER_FLUSH
));
307 /* fifo size is handled seperately */
310 static int net2272_disable(struct usb_ep
*_ep
)
312 struct net2272_ep
*ep
;
315 ep
= container_of(_ep
, struct net2272_ep
, ep
);
316 if (!_ep
|| !ep
->desc
|| _ep
->name
== ep0name
)
319 spin_lock_irqsave(&ep
->dev
->lock
, flags
);
320 net2272_dequeue_all(ep
);
321 net2272_ep_reset(ep
);
323 dev_vdbg(ep
->dev
->dev
, "disabled %s\n", _ep
->name
);
325 spin_unlock_irqrestore(&ep
->dev
->lock
, flags
);
329 /*---------------------------------------------------------------------------*/
331 static struct usb_request
*
332 net2272_alloc_request(struct usb_ep
*_ep
, gfp_t gfp_flags
)
334 struct net2272_ep
*ep
;
335 struct net2272_request
*req
;
339 ep
= container_of(_ep
, struct net2272_ep
, ep
);
341 req
= kzalloc(sizeof(*req
), gfp_flags
);
345 req
->req
.dma
= DMA_ADDR_INVALID
;
346 INIT_LIST_HEAD(&req
->queue
);
352 net2272_free_request(struct usb_ep
*_ep
, struct usb_request
*_req
)
354 struct net2272_ep
*ep
;
355 struct net2272_request
*req
;
357 ep
= container_of(_ep
, struct net2272_ep
, ep
);
361 req
= container_of(_req
, struct net2272_request
, req
);
362 WARN_ON(!list_empty(&req
->queue
));
367 net2272_done(struct net2272_ep
*ep
, struct net2272_request
*req
, int status
)
370 unsigned stopped
= ep
->stopped
;
373 if (ep
->dev
->protocol_stall
) {
380 list_del_init(&req
->queue
);
382 if (req
->req
.status
== -EINPROGRESS
)
383 req
->req
.status
= status
;
385 status
= req
->req
.status
;
388 if (use_dma
&& req
->mapped
) {
389 dma_unmap_single(dev
->dev
, req
->req
.dma
, req
->req
.length
,
390 ep
->is_in
? DMA_TO_DEVICE
: DMA_FROM_DEVICE
);
391 req
->req
.dma
= DMA_ADDR_INVALID
;
395 if (status
&& status
!= -ESHUTDOWN
)
396 dev_vdbg(dev
->dev
, "complete %s req %p stat %d len %u/%u buf %p\n",
397 ep
->ep
.name
, &req
->req
, status
,
398 req
->req
.actual
, req
->req
.length
, req
->req
.buf
);
400 /* don't modify queue heads during completion callback */
402 spin_unlock(&dev
->lock
);
403 req
->req
.complete(&ep
->ep
, &req
->req
);
404 spin_lock(&dev
->lock
);
405 ep
->stopped
= stopped
;
409 net2272_write_packet(struct net2272_ep
*ep
, u8
*buf
,
410 struct net2272_request
*req
, unsigned max
)
412 u16 __iomem
*ep_data
= net2272_reg_addr(ep
->dev
, EP_DATA
);
414 unsigned length
, count
;
417 length
= min(req
->req
.length
- req
->req
.actual
, max
);
418 req
->req
.actual
+= length
;
420 dev_vdbg(ep
->dev
->dev
, "write packet %s req %p max %u len %u avail %u\n",
421 ep
->ep
.name
, req
, max
, length
,
422 (net2272_ep_read(ep
, EP_AVAIL1
) << 8) | net2272_ep_read(ep
, EP_AVAIL0
));
427 while (likely(count
>= 2)) {
428 /* no byte-swap required; chip endian set during init */
429 writew(*bufp
++, ep_data
);
434 /* write final byte by placing the NET2272 into 8-bit mode */
435 if (unlikely(count
)) {
436 tmp
= net2272_read(ep
->dev
, LOCCTL
);
437 net2272_write(ep
->dev
, LOCCTL
, tmp
& ~(1 << DATA_WIDTH
));
438 writeb(*buf
, ep_data
);
439 net2272_write(ep
->dev
, LOCCTL
, tmp
);
444 /* returns: 0: still running, 1: completed, negative: errno */
446 net2272_write_fifo(struct net2272_ep
*ep
, struct net2272_request
*req
)
452 dev_vdbg(ep
->dev
->dev
, "write_fifo %s actual %d len %d\n",
453 ep
->ep
.name
, req
->req
.actual
, req
->req
.length
);
456 * Keep loading the endpoint until the final packet is loaded,
457 * or the endpoint buffer is full.
461 * Clear interrupt status
462 * - Packet Transmitted interrupt will become set again when the
463 * host successfully takes another packet
465 net2272_ep_write(ep
, EP_STAT0
, (1 << DATA_PACKET_TRANSMITTED_INTERRUPT
));
466 while (!(net2272_ep_read(ep
, EP_STAT0
) & (1 << BUFFER_FULL
))) {
467 buf
= req
->req
.buf
+ req
->req
.actual
;
471 net2272_ep_read(ep
, EP_STAT0
);
473 max
= (net2272_ep_read(ep
, EP_AVAIL1
) << 8) |
474 (net2272_ep_read(ep
, EP_AVAIL0
));
476 if (max
< ep
->ep
.maxpacket
)
477 max
= (net2272_ep_read(ep
, EP_AVAIL1
) << 8)
478 | (net2272_ep_read(ep
, EP_AVAIL0
));
480 count
= net2272_write_packet(ep
, buf
, req
, max
);
481 /* see if we are done */
482 if (req
->req
.length
== req
->req
.actual
) {
483 /* validate short or zlp packet */
484 if (count
< ep
->ep
.maxpacket
)
485 set_fifo_bytecount(ep
, 0);
486 net2272_done(ep
, req
, 0);
488 if (!list_empty(&ep
->queue
)) {
489 req
= list_entry(ep
->queue
.next
,
490 struct net2272_request
,
492 status
= net2272_kick_dma(ep
, req
);
495 if ((net2272_ep_read(ep
, EP_STAT0
)
496 & (1 << BUFFER_EMPTY
)))
501 net2272_ep_write(ep
, EP_STAT0
, (1 << DATA_PACKET_TRANSMITTED_INTERRUPT
));
507 net2272_out_flush(struct net2272_ep
*ep
)
509 ASSERT_OUT_NAKING(ep
);
511 net2272_ep_write(ep
, EP_STAT0
, (1 << DATA_OUT_TOKEN_INTERRUPT
)
512 | (1 << DATA_PACKET_RECEIVED_INTERRUPT
));
513 net2272_ep_write(ep
, EP_STAT1
, 1 << BUFFER_FLUSH
);
517 net2272_read_packet(struct net2272_ep
*ep
, u8
*buf
,
518 struct net2272_request
*req
, unsigned avail
)
520 u16 __iomem
*ep_data
= net2272_reg_addr(ep
->dev
, EP_DATA
);
524 req
->req
.actual
+= avail
;
526 dev_vdbg(ep
->dev
->dev
, "read packet %s req %p len %u avail %u\n",
527 ep
->ep
.name
, req
, avail
,
528 (net2272_ep_read(ep
, EP_AVAIL1
) << 8) | net2272_ep_read(ep
, EP_AVAIL0
));
530 is_short
= (avail
< ep
->ep
.maxpacket
);
532 if (unlikely(avail
== 0)) {
533 /* remove any zlp from the buffer */
534 (void)readw(ep_data
);
538 /* Ensure we get the final byte */
539 if (unlikely(avail
% 2))
544 *bufp
++ = readw(ep_data
);
549 * To avoid false endpoint available race condition must read
550 * ep stat0 twice in the case of a short transfer
552 if (net2272_ep_read(ep
, EP_STAT0
) & (1 << SHORT_PACKET_TRANSFERRED_INTERRUPT
))
553 net2272_ep_read(ep
, EP_STAT0
);
559 net2272_read_fifo(struct net2272_ep
*ep
, struct net2272_request
*req
)
568 dev_vdbg(ep
->dev
->dev
, "read_fifo %s actual %d len %d\n",
569 ep
->ep
.name
, req
->req
.actual
, req
->req
.length
);
573 buf
= req
->req
.buf
+ req
->req
.actual
;
576 count
= (net2272_ep_read(ep
, EP_AVAIL1
) << 8)
577 | net2272_ep_read(ep
, EP_AVAIL0
);
579 net2272_ep_write(ep
, EP_STAT0
,
580 (1 << SHORT_PACKET_TRANSFERRED_INTERRUPT
) |
581 (1 << DATA_PACKET_RECEIVED_INTERRUPT
));
583 tmp
= req
->req
.length
- req
->req
.actual
;
586 if ((tmp
% ep
->ep
.maxpacket
) != 0) {
587 dev_err(ep
->dev
->dev
,
588 "%s out fifo %d bytes, expected %d\n",
589 ep
->ep
.name
, count
, tmp
);
592 count
= (tmp
> 0) ? tmp
: 0;
595 is_short
= net2272_read_packet(ep
, buf
, req
, count
);
598 if (unlikely(cleanup
|| is_short
||
599 ((req
->req
.actual
== req
->req
.length
)
600 && !req
->req
.zero
))) {
603 net2272_out_flush(ep
);
604 net2272_done(ep
, req
, -EOVERFLOW
);
606 net2272_done(ep
, req
, 0);
608 /* re-initialize endpoint transfer registers
609 * otherwise they may result in erroneous pre-validation
610 * for subsequent control reads
612 if (unlikely(ep
->num
== 0)) {
613 net2272_ep_write(ep
, EP_TRANSFER2
, 0);
614 net2272_ep_write(ep
, EP_TRANSFER1
, 0);
615 net2272_ep_write(ep
, EP_TRANSFER0
, 0);
618 if (!list_empty(&ep
->queue
)) {
619 req
= list_entry(ep
->queue
.next
,
620 struct net2272_request
, queue
);
621 status
= net2272_kick_dma(ep
, req
);
623 !(net2272_ep_read(ep
, EP_STAT0
) & (1 << BUFFER_EMPTY
)))
628 } while (!(net2272_ep_read(ep
, EP_STAT0
) & (1 << BUFFER_EMPTY
)));
634 net2272_pio_advance(struct net2272_ep
*ep
)
636 struct net2272_request
*req
;
638 if (unlikely(list_empty(&ep
->queue
)))
641 req
= list_entry(ep
->queue
.next
, struct net2272_request
, queue
);
642 (ep
->is_in
? net2272_write_fifo
: net2272_read_fifo
)(ep
, req
);
645 /* returns 0 on success, else negative errno */
647 net2272_request_dma(struct net2272
*dev
, unsigned ep
, u32 buf
,
648 unsigned len
, unsigned dir
)
650 dev_vdbg(dev
->dev
, "request_dma ep %d buf %08x len %d dir %d\n",
653 /* The NET2272 only supports a single dma channel */
657 * EP_TRANSFER (used to determine the number of bytes received
658 * in an OUT transfer) is 24 bits wide; don't ask for more than that.
660 if ((dir
== 1) && (len
> 0x1000000))
665 /* initialize platform's dma */
667 /* NET2272 addr, buffer addr, length, etc. */
668 switch (dev
->dev_id
) {
669 case PCI_DEVICE_ID_RDK1
:
670 /* Setup PLX 9054 DMA mode */
671 writel((1 << LOCAL_BUS_WIDTH
) |
672 (1 << TA_READY_INPUT_ENABLE
) |
673 (0 << LOCAL_BURST_ENABLE
) |
674 (1 << DONE_INTERRUPT_ENABLE
) |
675 (1 << LOCAL_ADDRESSING_MODE
) |
677 (1 << DMA_EOT_ENABLE
) |
678 (1 << FAST_SLOW_TERMINATE_MODE_SELECT
) |
679 (1 << DMA_CHANNEL_INTERRUPT_SELECT
),
680 dev
->rdk1
.plx9054_base_addr
+ DMAMODE0
);
682 writel(0x100000, dev
->rdk1
.plx9054_base_addr
+ DMALADR0
);
683 writel(buf
, dev
->rdk1
.plx9054_base_addr
+ DMAPADR0
);
684 writel(len
, dev
->rdk1
.plx9054_base_addr
+ DMASIZ0
);
685 writel((dir
<< DIRECTION_OF_TRANSFER
) |
686 (1 << INTERRUPT_AFTER_TERMINAL_COUNT
),
687 dev
->rdk1
.plx9054_base_addr
+ DMADPR0
);
688 writel((1 << LOCAL_DMA_CHANNEL_0_INTERRUPT_ENABLE
) |
689 readl(dev
->rdk1
.plx9054_base_addr
+ INTCSR
),
690 dev
->rdk1
.plx9054_base_addr
+ INTCSR
);
696 net2272_write(dev
, DMAREQ
,
697 (0 << DMA_BUFFER_VALID
) |
698 (1 << DMA_REQUEST_ENABLE
) |
699 (1 << DMA_CONTROL_DACK
) |
700 (dev
->dma_eot_polarity
<< EOT_POLARITY
) |
701 (dev
->dma_dack_polarity
<< DACK_POLARITY
) |
702 (dev
->dma_dreq_polarity
<< DREQ_POLARITY
) |
703 ((ep
>> 1) << DMA_ENDPOINT_SELECT
));
705 (void) net2272_read(dev
, SCRATCH
);
711 net2272_start_dma(struct net2272
*dev
)
713 /* start platform's dma controller */
715 switch (dev
->dev_id
) {
716 case PCI_DEVICE_ID_RDK1
:
717 writeb((1 << CHANNEL_ENABLE
) | (1 << CHANNEL_START
),
718 dev
->rdk1
.plx9054_base_addr
+ DMACSR0
);
724 /* returns 0 on success, else negative errno */
726 net2272_kick_dma(struct net2272_ep
*ep
, struct net2272_request
*req
)
731 if (!use_dma
|| (ep
->num
< 1) || (ep
->num
> 2) || !ep
->dma
)
734 /* don't use dma for odd-length transfers
735 * otherwise, we'd need to deal with the last byte with pio
737 if (req
->req
.length
& 1)
740 dev_vdbg(ep
->dev
->dev
, "kick_dma %s req %p dma %08llx\n",
741 ep
->ep
.name
, req
, (unsigned long long) req
->req
.dma
);
743 net2272_ep_write(ep
, EP_RSPSET
, 1 << ALT_NAK_OUT_PACKETS
);
745 /* The NET2272 can only use DMA on one endpoint at a time */
746 if (ep
->dev
->dma_busy
)
749 /* Make sure we only DMA an even number of bytes (we'll use
750 * pio to complete the transfer)
752 size
= req
->req
.length
;
755 /* device-to-host transfer */
757 /* initialize platform's dma controller */
758 if (net2272_request_dma(ep
->dev
, ep
->num
, req
->req
.dma
, size
, 0))
759 /* unable to obtain DMA channel; return error and use pio mode */
761 req
->req
.actual
+= size
;
763 /* host-to-device transfer */
765 tmp
= net2272_ep_read(ep
, EP_STAT0
);
767 /* initialize platform's dma controller */
768 if (net2272_request_dma(ep
->dev
, ep
->num
, req
->req
.dma
, size
, 1))
769 /* unable to obtain DMA channel; return error and use pio mode */
772 if (!(tmp
& (1 << BUFFER_EMPTY
)))
778 /* allow the endpoint's buffer to fill */
779 net2272_ep_write(ep
, EP_RSPCLR
, 1 << ALT_NAK_OUT_PACKETS
);
781 /* this transfer completed and data's already in the fifo
782 * return error so pio gets used.
784 if (tmp
& (1 << SHORT_PACKET_TRANSFERRED_INTERRUPT
)) {
787 net2272_write(ep
->dev
, DMAREQ
,
788 (0 << DMA_BUFFER_VALID
) |
789 (0 << DMA_REQUEST_ENABLE
) |
790 (1 << DMA_CONTROL_DACK
) |
791 (ep
->dev
->dma_eot_polarity
<< EOT_POLARITY
) |
792 (ep
->dev
->dma_dack_polarity
<< DACK_POLARITY
) |
793 (ep
->dev
->dma_dreq_polarity
<< DREQ_POLARITY
) |
794 ((ep
->num
>> 1) << DMA_ENDPOINT_SELECT
));
800 /* Don't use per-packet interrupts: use dma interrupts only */
801 net2272_ep_write(ep
, EP_IRQENB
, 0);
803 net2272_start_dma(ep
->dev
);
808 static void net2272_cancel_dma(struct net2272
*dev
)
811 switch (dev
->dev_id
) {
812 case PCI_DEVICE_ID_RDK1
:
813 writeb(0, dev
->rdk1
.plx9054_base_addr
+ DMACSR0
);
814 writeb(1 << CHANNEL_ABORT
, dev
->rdk1
.plx9054_base_addr
+ DMACSR0
);
815 while (!(readb(dev
->rdk1
.plx9054_base_addr
+ DMACSR0
) &
816 (1 << CHANNEL_DONE
)))
817 continue; /* wait for dma to stabalize */
819 /* dma abort generates an interrupt */
820 writeb(1 << CHANNEL_CLEAR_INTERRUPT
,
821 dev
->rdk1
.plx9054_base_addr
+ DMACSR0
);
829 /*---------------------------------------------------------------------------*/
832 net2272_queue(struct usb_ep
*_ep
, struct usb_request
*_req
, gfp_t gfp_flags
)
834 struct net2272_request
*req
;
835 struct net2272_ep
*ep
;
841 req
= container_of(_req
, struct net2272_request
, req
);
842 if (!_req
|| !_req
->complete
|| !_req
->buf
843 || !list_empty(&req
->queue
))
845 ep
= container_of(_ep
, struct net2272_ep
, ep
);
846 if (!_ep
|| (!ep
->desc
&& ep
->num
!= 0))
849 if (!dev
->driver
|| dev
->gadget
.speed
== USB_SPEED_UNKNOWN
)
852 /* set up dma mapping in case the caller didn't */
853 if (use_dma
&& ep
->dma
&& _req
->dma
== DMA_ADDR_INVALID
) {
854 _req
->dma
= dma_map_single(dev
->dev
, _req
->buf
, _req
->length
,
855 ep
->is_in
? DMA_TO_DEVICE
: DMA_FROM_DEVICE
);
859 dev_vdbg(dev
->dev
, "%s queue req %p, len %d buf %p dma %08llx %s\n",
860 _ep
->name
, _req
, _req
->length
, _req
->buf
,
861 (unsigned long long) _req
->dma
, _req
->zero
? "zero" : "!zero");
863 spin_lock_irqsave(&dev
->lock
, flags
);
865 _req
->status
= -EINPROGRESS
;
868 /* kickstart this i/o queue? */
869 if (list_empty(&ep
->queue
) && !ep
->stopped
) {
870 /* maybe there's no control data, just status ack */
871 if (ep
->num
== 0 && _req
->length
== 0) {
872 net2272_done(ep
, req
, 0);
873 dev_vdbg(dev
->dev
, "%s status ack\n", ep
->ep
.name
);
877 /* Return zlp, don't let it block subsequent packets */
878 s
= net2272_ep_read(ep
, EP_STAT0
);
879 if (s
& (1 << BUFFER_EMPTY
)) {
880 /* Buffer is empty check for a blocking zlp, handle it */
881 if ((s
& (1 << NAK_OUT_PACKETS
)) &&
882 net2272_ep_read(ep
, EP_STAT1
) & (1 << LOCAL_OUT_ZLP
)) {
883 dev_dbg(dev
->dev
, "WARNING: returning ZLP short packet termination!\n");
885 * Request is going to terminate with a short packet ...
886 * hope the client is ready for it!
888 status
= net2272_read_fifo(ep
, req
);
889 /* clear short packet naking */
890 net2272_ep_write(ep
, EP_STAT0
, (1 << NAK_OUT_PACKETS
));
896 status
= net2272_kick_dma(ep
, req
);
899 /* dma failed (most likely in use by another endpoint)
905 status
= net2272_write_fifo(ep
, req
);
907 s
= net2272_ep_read(ep
, EP_STAT0
);
908 if ((s
& (1 << BUFFER_EMPTY
)) == 0)
909 status
= net2272_read_fifo(ep
, req
);
912 if (unlikely(status
!= 0)) {
919 if (likely(req
!= 0))
920 list_add_tail(&req
->queue
, &ep
->queue
);
922 if (likely(!list_empty(&ep
->queue
)))
923 net2272_ep_write(ep
, EP_RSPCLR
, 1 << ALT_NAK_OUT_PACKETS
);
925 spin_unlock_irqrestore(&dev
->lock
, flags
);
930 /* dequeue ALL requests */
932 net2272_dequeue_all(struct net2272_ep
*ep
)
934 struct net2272_request
*req
;
936 /* called with spinlock held */
939 while (!list_empty(&ep
->queue
)) {
940 req
= list_entry(ep
->queue
.next
,
941 struct net2272_request
,
943 net2272_done(ep
, req
, -ESHUTDOWN
);
947 /* dequeue JUST ONE request */
949 net2272_dequeue(struct usb_ep
*_ep
, struct usb_request
*_req
)
951 struct net2272_ep
*ep
;
952 struct net2272_request
*req
;
956 ep
= container_of(_ep
, struct net2272_ep
, ep
);
957 if (!_ep
|| (!ep
->desc
&& ep
->num
!= 0) || !_req
)
960 spin_lock_irqsave(&ep
->dev
->lock
, flags
);
961 stopped
= ep
->stopped
;
964 /* make sure it's still queued on this endpoint */
965 list_for_each_entry(req
, &ep
->queue
, queue
) {
966 if (&req
->req
== _req
)
969 if (&req
->req
!= _req
) {
970 spin_unlock_irqrestore(&ep
->dev
->lock
, flags
);
974 /* queue head may be partially complete */
975 if (ep
->queue
.next
== &req
->queue
) {
976 dev_dbg(ep
->dev
->dev
, "unlink (%s) pio\n", _ep
->name
);
977 net2272_done(ep
, req
, -ECONNRESET
);
980 ep
->stopped
= stopped
;
982 spin_unlock_irqrestore(&ep
->dev
->lock
, flags
);
986 /*---------------------------------------------------------------------------*/
989 net2272_set_halt_and_wedge(struct usb_ep
*_ep
, int value
, int wedged
)
991 struct net2272_ep
*ep
;
995 ep
= container_of(_ep
, struct net2272_ep
, ep
);
996 if (!_ep
|| (!ep
->desc
&& ep
->num
!= 0))
998 if (!ep
->dev
->driver
|| ep
->dev
->gadget
.speed
== USB_SPEED_UNKNOWN
)
1000 if (ep
->desc
/* not ep0 */ && usb_endpoint_xfer_isoc(ep
->desc
))
1003 spin_lock_irqsave(&ep
->dev
->lock
, flags
);
1004 if (!list_empty(&ep
->queue
))
1006 else if (ep
->is_in
&& value
&& net2272_fifo_status(_ep
) != 0)
1009 dev_vdbg(ep
->dev
->dev
, "%s %s %s\n", _ep
->name
,
1010 value
? "set" : "clear",
1011 wedged
? "wedge" : "halt");
1015 ep
->dev
->protocol_stall
= 1;
1025 spin_unlock_irqrestore(&ep
->dev
->lock
, flags
);
1031 net2272_set_halt(struct usb_ep
*_ep
, int value
)
1033 return net2272_set_halt_and_wedge(_ep
, value
, 0);
1037 net2272_set_wedge(struct usb_ep
*_ep
)
1039 if (!_ep
|| _ep
->name
== ep0name
)
1041 return net2272_set_halt_and_wedge(_ep
, 1, 1);
1045 net2272_fifo_status(struct usb_ep
*_ep
)
1047 struct net2272_ep
*ep
;
1050 ep
= container_of(_ep
, struct net2272_ep
, ep
);
1051 if (!_ep
|| (!ep
->desc
&& ep
->num
!= 0))
1053 if (!ep
->dev
->driver
|| ep
->dev
->gadget
.speed
== USB_SPEED_UNKNOWN
)
1056 avail
= net2272_ep_read(ep
, EP_AVAIL1
) << 8;
1057 avail
|= net2272_ep_read(ep
, EP_AVAIL0
);
1058 if (avail
> ep
->fifo_size
)
1061 avail
= ep
->fifo_size
- avail
;
1066 net2272_fifo_flush(struct usb_ep
*_ep
)
1068 struct net2272_ep
*ep
;
1070 ep
= container_of(_ep
, struct net2272_ep
, ep
);
1071 if (!_ep
|| (!ep
->desc
&& ep
->num
!= 0))
1073 if (!ep
->dev
->driver
|| ep
->dev
->gadget
.speed
== USB_SPEED_UNKNOWN
)
1076 net2272_ep_write(ep
, EP_STAT1
, 1 << BUFFER_FLUSH
);
1079 static struct usb_ep_ops net2272_ep_ops
= {
1080 .enable
= net2272_enable
,
1081 .disable
= net2272_disable
,
1083 .alloc_request
= net2272_alloc_request
,
1084 .free_request
= net2272_free_request
,
1086 .queue
= net2272_queue
,
1087 .dequeue
= net2272_dequeue
,
1089 .set_halt
= net2272_set_halt
,
1090 .set_wedge
= net2272_set_wedge
,
1091 .fifo_status
= net2272_fifo_status
,
1092 .fifo_flush
= net2272_fifo_flush
,
1095 /*---------------------------------------------------------------------------*/
1098 net2272_get_frame(struct usb_gadget
*_gadget
)
1100 struct net2272
*dev
;
1101 unsigned long flags
;
1106 dev
= container_of(_gadget
, struct net2272
, gadget
);
1107 spin_lock_irqsave(&dev
->lock
, flags
);
1109 ret
= net2272_read(dev
, FRAME1
) << 8;
1110 ret
|= net2272_read(dev
, FRAME0
);
1112 spin_unlock_irqrestore(&dev
->lock
, flags
);
1117 net2272_wakeup(struct usb_gadget
*_gadget
)
1119 struct net2272
*dev
;
1121 unsigned long flags
;
1125 dev
= container_of(_gadget
, struct net2272
, gadget
);
1127 spin_lock_irqsave(&dev
->lock
, flags
);
1128 tmp
= net2272_read(dev
, USBCTL0
);
1129 if (tmp
& (1 << IO_WAKEUP_ENABLE
))
1130 net2272_write(dev
, USBCTL1
, (1 << GENERATE_RESUME
));
1132 spin_unlock_irqrestore(&dev
->lock
, flags
);
1138 net2272_set_selfpowered(struct usb_gadget
*_gadget
, int value
)
1140 struct net2272
*dev
;
1144 dev
= container_of(_gadget
, struct net2272
, gadget
);
1146 dev
->is_selfpowered
= value
;
1152 net2272_pullup(struct usb_gadget
*_gadget
, int is_on
)
1154 struct net2272
*dev
;
1156 unsigned long flags
;
1160 dev
= container_of(_gadget
, struct net2272
, gadget
);
1162 spin_lock_irqsave(&dev
->lock
, flags
);
1163 tmp
= net2272_read(dev
, USBCTL0
);
1164 dev
->softconnect
= (is_on
!= 0);
1166 tmp
|= (1 << USB_DETECT_ENABLE
);
1168 tmp
&= ~(1 << USB_DETECT_ENABLE
);
1169 net2272_write(dev
, USBCTL0
, tmp
);
1170 spin_unlock_irqrestore(&dev
->lock
, flags
);
1175 static int net2272_start(struct usb_gadget
*_gadget
,
1176 struct usb_gadget_driver
*driver
);
1177 static int net2272_stop(struct usb_gadget
*_gadget
,
1178 struct usb_gadget_driver
*driver
);
1180 static const struct usb_gadget_ops net2272_ops
= {
1181 .get_frame
= net2272_get_frame
,
1182 .wakeup
= net2272_wakeup
,
1183 .set_selfpowered
= net2272_set_selfpowered
,
1184 .pullup
= net2272_pullup
,
1185 .udc_start
= net2272_start
,
1186 .udc_stop
= net2272_stop
,
1189 /*---------------------------------------------------------------------------*/
1192 net2272_show_registers(struct device
*_dev
, struct device_attribute
*attr
, char *buf
)
1194 struct net2272
*dev
;
1197 unsigned long flags
;
1202 dev
= dev_get_drvdata(_dev
);
1205 spin_lock_irqsave(&dev
->lock
, flags
);
1208 s
= dev
->driver
->driver
.name
;
1212 /* Main Control Registers */
1213 t
= scnprintf(next
, size
, "%s version %s,"
1214 "chiprev %02x, locctl %02x\n"
1215 "irqenb0 %02x irqenb1 %02x "
1216 "irqstat0 %02x irqstat1 %02x\n",
1217 driver_name
, driver_vers
, dev
->chiprev
,
1218 net2272_read(dev
, LOCCTL
),
1219 net2272_read(dev
, IRQENB0
),
1220 net2272_read(dev
, IRQENB1
),
1221 net2272_read(dev
, IRQSTAT0
),
1222 net2272_read(dev
, IRQSTAT1
));
1227 t1
= net2272_read(dev
, DMAREQ
);
1228 t
= scnprintf(next
, size
, "\ndmareq %02x: %s %s%s%s%s\n",
1229 t1
, ep_name
[(t1
& 0x01) + 1],
1230 t1
& (1 << DMA_CONTROL_DACK
) ? "dack " : "",
1231 t1
& (1 << DMA_REQUEST_ENABLE
) ? "reqenb " : "",
1232 t1
& (1 << DMA_REQUEST
) ? "req " : "",
1233 t1
& (1 << DMA_BUFFER_VALID
) ? "valid " : "");
1237 /* USB Control Registers */
1238 t1
= net2272_read(dev
, USBCTL1
);
1239 if (t1
& (1 << VBUS_PIN
)) {
1240 if (t1
& (1 << USB_HIGH_SPEED
))
1242 else if (dev
->gadget
.speed
== USB_SPEED_UNKNOWN
)
1248 t
= scnprintf(next
, size
,
1249 "usbctl0 %02x usbctl1 %02x addr 0x%02x (%s)\n",
1250 net2272_read(dev
, USBCTL0
), t1
,
1251 net2272_read(dev
, OURADDR
), s
);
1255 /* Endpoint Registers */
1256 for (i
= 0; i
< 4; ++i
) {
1257 struct net2272_ep
*ep
;
1263 t1
= net2272_ep_read(ep
, EP_CFG
);
1264 t2
= net2272_ep_read(ep
, EP_RSPSET
);
1265 t
= scnprintf(next
, size
,
1266 "\n%s\tcfg %02x rsp (%02x) %s%s%s%s%s%s%s%s"
1268 ep
->ep
.name
, t1
, t2
,
1269 (t2
& (1 << ALT_NAK_OUT_PACKETS
)) ? "NAK " : "",
1270 (t2
& (1 << HIDE_STATUS_PHASE
)) ? "hide " : "",
1271 (t2
& (1 << AUTOVALIDATE
)) ? "auto " : "",
1272 (t2
& (1 << INTERRUPT_MODE
)) ? "interrupt " : "",
1273 (t2
& (1 << CONTROL_STATUS_PHASE_HANDSHAKE
)) ? "status " : "",
1274 (t2
& (1 << NAK_OUT_PACKETS_MODE
)) ? "NAKmode " : "",
1275 (t2
& (1 << ENDPOINT_TOGGLE
)) ? "DATA1 " : "DATA0 ",
1276 (t2
& (1 << ENDPOINT_HALT
)) ? "HALT " : "",
1277 net2272_ep_read(ep
, EP_IRQENB
));
1281 t
= scnprintf(next
, size
,
1282 "\tstat0 %02x stat1 %02x avail %04x "
1284 net2272_ep_read(ep
, EP_STAT0
),
1285 net2272_ep_read(ep
, EP_STAT1
),
1286 (net2272_ep_read(ep
, EP_AVAIL1
) << 8) | net2272_ep_read(ep
, EP_AVAIL0
),
1288 ep
->is_in
? "in" : "out",
1289 type_string(t1
>> 5),
1290 ep
->stopped
? "*" : "");
1294 t
= scnprintf(next
, size
,
1295 "\tep_transfer %06x\n",
1296 ((net2272_ep_read(ep
, EP_TRANSFER2
) & 0xff) << 16) |
1297 ((net2272_ep_read(ep
, EP_TRANSFER1
) & 0xff) << 8) |
1298 ((net2272_ep_read(ep
, EP_TRANSFER0
) & 0xff)));
1302 t1
= net2272_ep_read(ep
, EP_BUFF_STATES
) & 0x03;
1303 t2
= (net2272_ep_read(ep
, EP_BUFF_STATES
) >> 2) & 0x03;
1304 t
= scnprintf(next
, size
,
1305 "\tbuf-a %s buf-b %s\n",
1306 buf_state_string(t1
),
1307 buf_state_string(t2
));
1312 spin_unlock_irqrestore(&dev
->lock
, flags
);
1314 return PAGE_SIZE
- size
;
1316 static DEVICE_ATTR(registers
, S_IRUGO
, net2272_show_registers
, NULL
);
1318 /*---------------------------------------------------------------------------*/
1321 net2272_set_fifo_mode(struct net2272
*dev
, int mode
)
1325 tmp
= net2272_read(dev
, LOCCTL
) & 0x3f;
1327 net2272_write(dev
, LOCCTL
, tmp
);
1329 INIT_LIST_HEAD(&dev
->gadget
.ep_list
);
1331 /* always ep-a, ep-c ... maybe not ep-b */
1332 list_add_tail(&dev
->ep
[1].ep
.ep_list
, &dev
->gadget
.ep_list
);
1336 list_add_tail(&dev
->ep
[2].ep
.ep_list
, &dev
->gadget
.ep_list
);
1337 dev
->ep
[1].fifo_size
= dev
->ep
[2].fifo_size
= 512;
1340 list_add_tail(&dev
->ep
[2].ep
.ep_list
, &dev
->gadget
.ep_list
);
1341 dev
->ep
[1].fifo_size
= 1024;
1342 dev
->ep
[2].fifo_size
= 512;
1345 list_add_tail(&dev
->ep
[2].ep
.ep_list
, &dev
->gadget
.ep_list
);
1346 dev
->ep
[1].fifo_size
= dev
->ep
[2].fifo_size
= 1024;
1349 dev
->ep
[1].fifo_size
= 1024;
1353 /* ep-c is always 2 512 byte buffers */
1354 list_add_tail(&dev
->ep
[3].ep
.ep_list
, &dev
->gadget
.ep_list
);
1355 dev
->ep
[3].fifo_size
= 512;
1358 /*---------------------------------------------------------------------------*/
1361 net2272_usb_reset(struct net2272
*dev
)
1363 dev
->gadget
.speed
= USB_SPEED_UNKNOWN
;
1365 net2272_cancel_dma(dev
);
1367 net2272_write(dev
, IRQENB0
, 0);
1368 net2272_write(dev
, IRQENB1
, 0);
1370 /* clear irq state */
1371 net2272_write(dev
, IRQSTAT0
, 0xff);
1372 net2272_write(dev
, IRQSTAT1
, ~(1 << SUSPEND_REQUEST_INTERRUPT
));
1374 net2272_write(dev
, DMAREQ
,
1375 (0 << DMA_BUFFER_VALID
) |
1376 (0 << DMA_REQUEST_ENABLE
) |
1377 (1 << DMA_CONTROL_DACK
) |
1378 (dev
->dma_eot_polarity
<< EOT_POLARITY
) |
1379 (dev
->dma_dack_polarity
<< DACK_POLARITY
) |
1380 (dev
->dma_dreq_polarity
<< DREQ_POLARITY
) |
1381 ((dma_ep
>> 1) << DMA_ENDPOINT_SELECT
));
1383 net2272_cancel_dma(dev
);
1384 net2272_set_fifo_mode(dev
, (fifo_mode
<= 3) ? fifo_mode
: 0);
1386 /* Set the NET2272 ep fifo data width to 16-bit mode and for correct byte swapping
1387 * note that the higher level gadget drivers are expected to convert data to little endian.
1388 * Enable byte swap for your local bus/cpu if needed by setting BYTE_SWAP in LOCCTL here
1390 net2272_write(dev
, LOCCTL
, net2272_read(dev
, LOCCTL
) | (1 << DATA_WIDTH
));
1391 net2272_write(dev
, LOCCTL1
, (dma_mode
<< DMA_MODE
));
1395 net2272_usb_reinit(struct net2272
*dev
)
1399 /* basic endpoint init */
1400 for (i
= 0; i
< 4; ++i
) {
1401 struct net2272_ep
*ep
= &dev
->ep
[i
];
1403 ep
->ep
.name
= ep_name
[i
];
1408 if (use_dma
&& ep
->num
== dma_ep
)
1411 if (i
> 0 && i
<= 3)
1412 ep
->fifo_size
= 512;
1415 net2272_ep_reset(ep
);
1417 dev
->ep
[0].ep
.maxpacket
= 64;
1419 dev
->gadget
.ep0
= &dev
->ep
[0].ep
;
1420 dev
->ep
[0].stopped
= 0;
1421 INIT_LIST_HEAD(&dev
->gadget
.ep0
->ep_list
);
1425 net2272_ep0_start(struct net2272
*dev
)
1427 struct net2272_ep
*ep0
= &dev
->ep
[0];
1429 net2272_ep_write(ep0
, EP_RSPSET
,
1430 (1 << NAK_OUT_PACKETS_MODE
) |
1431 (1 << ALT_NAK_OUT_PACKETS
));
1432 net2272_ep_write(ep0
, EP_RSPCLR
,
1433 (1 << HIDE_STATUS_PHASE
) |
1434 (1 << CONTROL_STATUS_PHASE_HANDSHAKE
));
1435 net2272_write(dev
, USBCTL0
,
1436 (dev
->softconnect
<< USB_DETECT_ENABLE
) |
1437 (1 << USB_ROOT_PORT_WAKEUP_ENABLE
) |
1438 (1 << IO_WAKEUP_ENABLE
));
1439 net2272_write(dev
, IRQENB0
,
1440 (1 << SETUP_PACKET_INTERRUPT_ENABLE
) |
1441 (1 << ENDPOINT_0_INTERRUPT_ENABLE
) |
1442 (1 << DMA_DONE_INTERRUPT_ENABLE
));
1443 net2272_write(dev
, IRQENB1
,
1444 (1 << VBUS_INTERRUPT_ENABLE
) |
1445 (1 << ROOT_PORT_RESET_INTERRUPT_ENABLE
) |
1446 (1 << SUSPEND_REQUEST_CHANGE_INTERRUPT_ENABLE
));
1449 /* when a driver is successfully registered, it will receive
1450 * control requests including set_configuration(), which enables
1451 * non-control requests. then usb traffic follows until a
1452 * disconnect is reported. then a host may connect again, or
1453 * the driver might get unbound.
1455 static int net2272_start(struct usb_gadget
*_gadget
,
1456 struct usb_gadget_driver
*driver
)
1458 struct net2272
*dev
;
1461 if (!driver
|| !driver
->unbind
|| !driver
->setup
||
1462 driver
->max_speed
!= USB_SPEED_HIGH
)
1465 dev
= container_of(_gadget
, struct net2272
, gadget
);
1467 for (i
= 0; i
< 4; ++i
)
1468 dev
->ep
[i
].irqs
= 0;
1469 /* hook up the driver ... */
1470 dev
->softconnect
= 1;
1471 driver
->driver
.bus
= NULL
;
1472 dev
->driver
= driver
;
1473 dev
->gadget
.dev
.driver
= &driver
->driver
;
1475 /* ... then enable host detection and ep0; and we're ready
1476 * for set_configuration as well as eventual disconnect.
1478 net2272_ep0_start(dev
);
1480 dev_dbg(dev
->dev
, "%s ready\n", driver
->driver
.name
);
1486 stop_activity(struct net2272
*dev
, struct usb_gadget_driver
*driver
)
1490 /* don't disconnect if it's not connected */
1491 if (dev
->gadget
.speed
== USB_SPEED_UNKNOWN
)
1494 /* stop hardware; prevent new request submissions;
1495 * and kill any outstanding requests.
1497 net2272_usb_reset(dev
);
1498 for (i
= 0; i
< 4; ++i
)
1499 net2272_dequeue_all(&dev
->ep
[i
]);
1501 net2272_usb_reinit(dev
);
1504 static int net2272_stop(struct usb_gadget
*_gadget
,
1505 struct usb_gadget_driver
*driver
)
1507 struct net2272
*dev
;
1508 unsigned long flags
;
1510 dev
= container_of(_gadget
, struct net2272
, gadget
);
1512 spin_lock_irqsave(&dev
->lock
, flags
);
1513 stop_activity(dev
, driver
);
1514 spin_unlock_irqrestore(&dev
->lock
, flags
);
1516 dev
->gadget
.dev
.driver
= NULL
;
1519 dev_dbg(dev
->dev
, "unregistered driver '%s'\n", driver
->driver
.name
);
1523 /*---------------------------------------------------------------------------*/
1524 /* handle ep-a/ep-b dma completions */
1526 net2272_handle_dma(struct net2272_ep
*ep
)
1528 struct net2272_request
*req
;
1532 if (!list_empty(&ep
->queue
))
1533 req
= list_entry(ep
->queue
.next
,
1534 struct net2272_request
, queue
);
1538 dev_vdbg(ep
->dev
->dev
, "handle_dma %s req %p\n", ep
->ep
.name
, req
);
1540 /* Ensure DREQ is de-asserted */
1541 net2272_write(ep
->dev
, DMAREQ
,
1542 (0 << DMA_BUFFER_VALID
)
1543 | (0 << DMA_REQUEST_ENABLE
)
1544 | (1 << DMA_CONTROL_DACK
)
1545 | (ep
->dev
->dma_eot_polarity
<< EOT_POLARITY
)
1546 | (ep
->dev
->dma_dack_polarity
<< DACK_POLARITY
)
1547 | (ep
->dev
->dma_dreq_polarity
<< DREQ_POLARITY
)
1548 | ((ep
->dma
>> 1) << DMA_ENDPOINT_SELECT
));
1550 ep
->dev
->dma_busy
= 0;
1552 net2272_ep_write(ep
, EP_IRQENB
,
1553 (1 << DATA_PACKET_RECEIVED_INTERRUPT_ENABLE
)
1554 | (1 << DATA_PACKET_TRANSMITTED_INTERRUPT_ENABLE
)
1555 | net2272_ep_read(ep
, EP_IRQENB
));
1557 /* device-to-host transfer completed */
1559 /* validate a short packet or zlp if necessary */
1560 if ((req
->req
.length
% ep
->ep
.maxpacket
!= 0) ||
1562 set_fifo_bytecount(ep
, 0);
1564 net2272_done(ep
, req
, 0);
1565 if (!list_empty(&ep
->queue
)) {
1566 req
= list_entry(ep
->queue
.next
,
1567 struct net2272_request
, queue
);
1568 status
= net2272_kick_dma(ep
, req
);
1570 net2272_pio_advance(ep
);
1573 /* host-to-device transfer completed */
1575 /* terminated with a short packet? */
1576 if (net2272_read(ep
->dev
, IRQSTAT0
) &
1577 (1 << DMA_DONE_INTERRUPT
)) {
1578 /* abort system dma */
1579 net2272_cancel_dma(ep
->dev
);
1582 /* EP_TRANSFER will contain the number of bytes
1583 * actually received.
1584 * NOTE: There is no overflow detection on EP_TRANSFER:
1585 * We can't deal with transfers larger than 2^24 bytes!
1587 len
= (net2272_ep_read(ep
, EP_TRANSFER2
) << 16)
1588 | (net2272_ep_read(ep
, EP_TRANSFER1
) << 8)
1589 | (net2272_ep_read(ep
, EP_TRANSFER0
));
1594 req
->req
.actual
+= len
;
1596 /* get any remaining data */
1597 net2272_pio_advance(ep
);
1601 /*---------------------------------------------------------------------------*/
1604 net2272_handle_ep(struct net2272_ep
*ep
)
1606 struct net2272_request
*req
;
1609 if (!list_empty(&ep
->queue
))
1610 req
= list_entry(ep
->queue
.next
,
1611 struct net2272_request
, queue
);
1615 /* ack all, and handle what we care about */
1616 stat0
= net2272_ep_read(ep
, EP_STAT0
);
1617 stat1
= net2272_ep_read(ep
, EP_STAT1
);
1620 dev_vdbg(ep
->dev
->dev
, "%s ack ep_stat0 %02x, ep_stat1 %02x, req %p\n",
1621 ep
->ep
.name
, stat0
, stat1
, req
? &req
->req
: 0);
1623 net2272_ep_write(ep
, EP_STAT0
, stat0
&
1624 ~((1 << NAK_OUT_PACKETS
)
1625 | (1 << SHORT_PACKET_TRANSFERRED_INTERRUPT
)));
1626 net2272_ep_write(ep
, EP_STAT1
, stat1
);
1628 /* data packet(s) received (in the fifo, OUT)
1629 * direction must be validated, otherwise control read status phase
1630 * could be interpreted as a valid packet
1632 if (!ep
->is_in
&& (stat0
& (1 << DATA_PACKET_RECEIVED_INTERRUPT
)))
1633 net2272_pio_advance(ep
);
1634 /* data packet(s) transmitted (IN) */
1635 else if (stat0
& (1 << DATA_PACKET_TRANSMITTED_INTERRUPT
))
1636 net2272_pio_advance(ep
);
1639 static struct net2272_ep
*
1640 net2272_get_ep_by_addr(struct net2272
*dev
, u16 wIndex
)
1642 struct net2272_ep
*ep
;
1644 if ((wIndex
& USB_ENDPOINT_NUMBER_MASK
) == 0)
1647 list_for_each_entry(ep
, &dev
->gadget
.ep_list
, ep
.ep_list
) {
1648 u8 bEndpointAddress
;
1652 bEndpointAddress
= ep
->desc
->bEndpointAddress
;
1653 if ((wIndex
^ bEndpointAddress
) & USB_DIR_IN
)
1655 if ((wIndex
& 0x0f) == (bEndpointAddress
& 0x0f))
1666 * JJJJJJJKKKKKKK * 8
1668 * {JKKKKKKK * 10}, JK
1670 static const u8 net2272_test_packet
[] = {
1671 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1672 0xAA, 0xAA, 0xAA, 0xAA, 0xAA, 0xAA, 0xAA, 0xAA,
1673 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE,
1674 0xFE, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
1675 0x7F, 0xBF, 0xDF, 0xEF, 0xF7, 0xFB, 0xFD,
1676 0xFC, 0x7E, 0xBF, 0xDF, 0xEF, 0xF7, 0xFD, 0x7E
1680 net2272_set_test_mode(struct net2272
*dev
, int mode
)
1684 /* Disable all net2272 interrupts:
1685 * Nothing but a power cycle should stop the test.
1687 net2272_write(dev
, IRQENB0
, 0x00);
1688 net2272_write(dev
, IRQENB1
, 0x00);
1690 /* Force tranceiver to high-speed */
1691 net2272_write(dev
, XCVRDIAG
, 1 << FORCE_HIGH_SPEED
);
1693 net2272_write(dev
, PAGESEL
, 0);
1694 net2272_write(dev
, EP_STAT0
, 1 << DATA_PACKET_TRANSMITTED_INTERRUPT
);
1695 net2272_write(dev
, EP_RSPCLR
,
1696 (1 << CONTROL_STATUS_PHASE_HANDSHAKE
)
1697 | (1 << HIDE_STATUS_PHASE
));
1698 net2272_write(dev
, EP_CFG
, 1 << ENDPOINT_DIRECTION
);
1699 net2272_write(dev
, EP_STAT1
, 1 << BUFFER_FLUSH
);
1701 /* wait for status phase to complete */
1702 while (!(net2272_read(dev
, EP_STAT0
) &
1703 (1 << DATA_PACKET_TRANSMITTED_INTERRUPT
)))
1706 /* Enable test mode */
1707 net2272_write(dev
, USBTEST
, mode
);
1709 /* load test packet */
1710 if (mode
== TEST_PACKET
) {
1711 /* switch to 8 bit mode */
1712 net2272_write(dev
, LOCCTL
, net2272_read(dev
, LOCCTL
) &
1713 ~(1 << DATA_WIDTH
));
1715 for (i
= 0; i
< sizeof(net2272_test_packet
); ++i
)
1716 net2272_write(dev
, EP_DATA
, net2272_test_packet
[i
]);
1718 /* Validate test packet */
1719 net2272_write(dev
, EP_TRANSFER0
, 0);
1724 net2272_handle_stat0_irqs(struct net2272
*dev
, u8 stat
)
1726 struct net2272_ep
*ep
;
1729 /* starting a control request? */
1730 if (unlikely(stat
& (1 << SETUP_PACKET_INTERRUPT
))) {
1733 struct usb_ctrlrequest r
;
1736 struct net2272_request
*req
;
1738 if (dev
->gadget
.speed
== USB_SPEED_UNKNOWN
) {
1739 if (net2272_read(dev
, USBCTL1
) & (1 << USB_HIGH_SPEED
))
1740 dev
->gadget
.speed
= USB_SPEED_HIGH
;
1742 dev
->gadget
.speed
= USB_SPEED_FULL
;
1743 dev_dbg(dev
->dev
, "%s\n",
1744 usb_speed_string(dev
->gadget
.speed
));
1750 /* make sure any leftover interrupt state is cleared */
1751 stat
&= ~(1 << ENDPOINT_0_INTERRUPT
);
1752 while (!list_empty(&ep
->queue
)) {
1753 req
= list_entry(ep
->queue
.next
,
1754 struct net2272_request
, queue
);
1755 net2272_done(ep
, req
,
1756 (req
->req
.actual
== req
->req
.length
) ? 0 : -EPROTO
);
1759 dev
->protocol_stall
= 0;
1760 net2272_ep_write(ep
, EP_STAT0
,
1761 (1 << DATA_IN_TOKEN_INTERRUPT
)
1762 | (1 << DATA_OUT_TOKEN_INTERRUPT
)
1763 | (1 << DATA_PACKET_TRANSMITTED_INTERRUPT
)
1764 | (1 << DATA_PACKET_RECEIVED_INTERRUPT
)
1765 | (1 << SHORT_PACKET_TRANSFERRED_INTERRUPT
));
1766 net2272_ep_write(ep
, EP_STAT1
,
1768 | (1 << USB_OUT_ACK_SENT
)
1769 | (1 << USB_OUT_NAK_SENT
)
1770 | (1 << USB_IN_ACK_RCVD
)
1771 | (1 << USB_IN_NAK_SENT
)
1772 | (1 << USB_STALL_SENT
)
1773 | (1 << LOCAL_OUT_ZLP
));
1776 * Ensure Control Read pre-validation setting is beyond maximum size
1777 * - Control Writes can leave non-zero values in EP_TRANSFER. If
1778 * an EP0 transfer following the Control Write is a Control Read,
1779 * the NET2272 sees the non-zero EP_TRANSFER as an unexpected
1780 * pre-validation count.
1781 * - Setting EP_TRANSFER beyond the maximum EP0 transfer size ensures
1782 * the pre-validation count cannot cause an unexpected validatation
1784 net2272_write(dev
, PAGESEL
, 0);
1785 net2272_write(dev
, EP_TRANSFER2
, 0xff);
1786 net2272_write(dev
, EP_TRANSFER1
, 0xff);
1787 net2272_write(dev
, EP_TRANSFER0
, 0xff);
1789 u
.raw
[0] = net2272_read(dev
, SETUP0
);
1790 u
.raw
[1] = net2272_read(dev
, SETUP1
);
1791 u
.raw
[2] = net2272_read(dev
, SETUP2
);
1792 u
.raw
[3] = net2272_read(dev
, SETUP3
);
1793 u
.raw
[4] = net2272_read(dev
, SETUP4
);
1794 u
.raw
[5] = net2272_read(dev
, SETUP5
);
1795 u
.raw
[6] = net2272_read(dev
, SETUP6
);
1796 u
.raw
[7] = net2272_read(dev
, SETUP7
);
1798 * If you have a big endian cpu make sure le16_to_cpus
1799 * performs the proper byte swapping here...
1801 le16_to_cpus(&u
.r
.wValue
);
1802 le16_to_cpus(&u
.r
.wIndex
);
1803 le16_to_cpus(&u
.r
.wLength
);
1806 net2272_write(dev
, IRQSTAT0
, 1 << SETUP_PACKET_INTERRUPT
);
1807 stat
^= (1 << SETUP_PACKET_INTERRUPT
);
1809 /* watch control traffic at the token level, and force
1810 * synchronization before letting the status phase happen.
1812 ep
->is_in
= (u
.r
.bRequestType
& USB_DIR_IN
) != 0;
1814 scratch
= (1 << DATA_PACKET_TRANSMITTED_INTERRUPT_ENABLE
)
1815 | (1 << DATA_OUT_TOKEN_INTERRUPT_ENABLE
)
1816 | (1 << DATA_IN_TOKEN_INTERRUPT_ENABLE
);
1817 stop_out_naking(ep
);
1819 scratch
= (1 << DATA_PACKET_RECEIVED_INTERRUPT_ENABLE
)
1820 | (1 << DATA_OUT_TOKEN_INTERRUPT_ENABLE
)
1821 | (1 << DATA_IN_TOKEN_INTERRUPT_ENABLE
);
1822 net2272_ep_write(ep
, EP_IRQENB
, scratch
);
1824 if ((u
.r
.bRequestType
& USB_TYPE_MASK
) != USB_TYPE_STANDARD
)
1826 switch (u
.r
.bRequest
) {
1827 case USB_REQ_GET_STATUS
: {
1828 struct net2272_ep
*e
;
1831 switch (u
.r
.bRequestType
& USB_RECIP_MASK
) {
1832 case USB_RECIP_ENDPOINT
:
1833 e
= net2272_get_ep_by_addr(dev
, u
.r
.wIndex
);
1834 if (!e
|| u
.r
.wLength
> 2)
1836 if (net2272_ep_read(e
, EP_RSPSET
) & (1 << ENDPOINT_HALT
))
1837 status
= __constant_cpu_to_le16(1);
1839 status
= __constant_cpu_to_le16(0);
1841 /* don't bother with a request object! */
1842 net2272_ep_write(&dev
->ep
[0], EP_IRQENB
, 0);
1843 writew(status
, net2272_reg_addr(dev
, EP_DATA
));
1844 set_fifo_bytecount(&dev
->ep
[0], 0);
1846 dev_vdbg(dev
->dev
, "%s stat %02x\n",
1847 ep
->ep
.name
, status
);
1848 goto next_endpoints
;
1849 case USB_RECIP_DEVICE
:
1850 if (u
.r
.wLength
> 2)
1852 if (dev
->is_selfpowered
)
1853 status
= (1 << USB_DEVICE_SELF_POWERED
);
1855 /* don't bother with a request object! */
1856 net2272_ep_write(&dev
->ep
[0], EP_IRQENB
, 0);
1857 writew(status
, net2272_reg_addr(dev
, EP_DATA
));
1858 set_fifo_bytecount(&dev
->ep
[0], 0);
1860 dev_vdbg(dev
->dev
, "device stat %02x\n", status
);
1861 goto next_endpoints
;
1862 case USB_RECIP_INTERFACE
:
1863 if (u
.r
.wLength
> 2)
1866 /* don't bother with a request object! */
1867 net2272_ep_write(&dev
->ep
[0], EP_IRQENB
, 0);
1868 writew(status
, net2272_reg_addr(dev
, EP_DATA
));
1869 set_fifo_bytecount(&dev
->ep
[0], 0);
1871 dev_vdbg(dev
->dev
, "interface status %02x\n", status
);
1872 goto next_endpoints
;
1877 case USB_REQ_CLEAR_FEATURE
: {
1878 struct net2272_ep
*e
;
1880 if (u
.r
.bRequestType
!= USB_RECIP_ENDPOINT
)
1882 if (u
.r
.wValue
!= USB_ENDPOINT_HALT
||
1885 e
= net2272_get_ep_by_addr(dev
, u
.r
.wIndex
);
1889 dev_vdbg(dev
->dev
, "%s wedged, halt not cleared\n",
1892 dev_vdbg(dev
->dev
, "%s clear halt\n", ep
->ep
.name
);
1896 goto next_endpoints
;
1898 case USB_REQ_SET_FEATURE
: {
1899 struct net2272_ep
*e
;
1901 if (u
.r
.bRequestType
== USB_RECIP_DEVICE
) {
1902 if (u
.r
.wIndex
!= NORMAL_OPERATION
)
1903 net2272_set_test_mode(dev
, (u
.r
.wIndex
>> 8));
1905 dev_vdbg(dev
->dev
, "test mode: %d\n", u
.r
.wIndex
);
1906 goto next_endpoints
;
1907 } else if (u
.r
.bRequestType
!= USB_RECIP_ENDPOINT
)
1909 if (u
.r
.wValue
!= USB_ENDPOINT_HALT
||
1912 e
= net2272_get_ep_by_addr(dev
, u
.r
.wIndex
);
1917 dev_vdbg(dev
->dev
, "%s set halt\n", ep
->ep
.name
);
1918 goto next_endpoints
;
1920 case USB_REQ_SET_ADDRESS
: {
1921 net2272_write(dev
, OURADDR
, u
.r
.wValue
& 0xff);
1927 dev_vdbg(dev
->dev
, "setup %02x.%02x v%04x i%04x "
1929 u
.r
.bRequestType
, u
.r
.bRequest
,
1930 u
.r
.wValue
, u
.r
.wIndex
,
1931 net2272_ep_read(ep
, EP_CFG
));
1932 spin_unlock(&dev
->lock
);
1933 tmp
= dev
->driver
->setup(&dev
->gadget
, &u
.r
);
1934 spin_lock(&dev
->lock
);
1937 /* stall ep0 on error */
1940 dev_vdbg(dev
->dev
, "req %02x.%02x protocol STALL; stat %d\n",
1941 u
.r
.bRequestType
, u
.r
.bRequest
, tmp
);
1942 dev
->protocol_stall
= 1;
1944 /* endpoint dma irq? */
1945 } else if (stat
& (1 << DMA_DONE_INTERRUPT
)) {
1946 net2272_cancel_dma(dev
);
1947 net2272_write(dev
, IRQSTAT0
, 1 << DMA_DONE_INTERRUPT
);
1948 stat
&= ~(1 << DMA_DONE_INTERRUPT
);
1949 num
= (net2272_read(dev
, DMAREQ
) & (1 << DMA_ENDPOINT_SELECT
))
1953 net2272_handle_dma(ep
);
1957 /* endpoint data irq? */
1958 scratch
= stat
& 0x0f;
1960 for (num
= 0; scratch
; num
++) {
1963 /* does this endpoint's FIFO and queue need tending? */
1965 if ((scratch
& t
) == 0)
1970 net2272_handle_ep(ep
);
1973 /* some interrupts we can just ignore */
1974 stat
&= ~(1 << SOF_INTERRUPT
);
1977 dev_dbg(dev
->dev
, "unhandled irqstat0 %02x\n", stat
);
1981 net2272_handle_stat1_irqs(struct net2272
*dev
, u8 stat
)
1985 /* after disconnect there's nothing else to do! */
1986 tmp
= (1 << VBUS_INTERRUPT
) | (1 << ROOT_PORT_RESET_INTERRUPT
);
1987 mask
= (1 << USB_HIGH_SPEED
) | (1 << USB_FULL_SPEED
);
1990 net2272_write(dev
, IRQSTAT1
, tmp
);
1991 if ((((stat
& (1 << ROOT_PORT_RESET_INTERRUPT
)) &&
1992 ((net2272_read(dev
, USBCTL1
) & mask
) == 0))
1993 || ((net2272_read(dev
, USBCTL1
) & (1 << VBUS_PIN
))
1995 && (dev
->gadget
.speed
!= USB_SPEED_UNKNOWN
)) {
1996 dev_dbg(dev
->dev
, "disconnect %s\n",
1997 dev
->driver
->driver
.name
);
1998 stop_activity(dev
, dev
->driver
);
1999 net2272_ep0_start(dev
);
2008 tmp
= (1 << SUSPEND_REQUEST_CHANGE_INTERRUPT
);
2010 net2272_write(dev
, IRQSTAT1
, tmp
);
2011 if (stat
& (1 << SUSPEND_REQUEST_INTERRUPT
)) {
2012 if (dev
->driver
->suspend
)
2013 dev
->driver
->suspend(&dev
->gadget
);
2014 if (!enable_suspend
) {
2015 stat
&= ~(1 << SUSPEND_REQUEST_INTERRUPT
);
2016 dev_dbg(dev
->dev
, "Suspend disabled, ignoring\n");
2019 if (dev
->driver
->resume
)
2020 dev
->driver
->resume(&dev
->gadget
);
2025 /* clear any other status/irqs */
2027 net2272_write(dev
, IRQSTAT1
, stat
);
2029 /* some status we can just ignore */
2030 stat
&= ~((1 << CONTROL_STATUS_INTERRUPT
)
2031 | (1 << SUSPEND_REQUEST_INTERRUPT
)
2032 | (1 << RESUME_INTERRUPT
));
2036 dev_dbg(dev
->dev
, "unhandled irqstat1 %02x\n", stat
);
2039 static irqreturn_t
net2272_irq(int irq
, void *_dev
)
2041 struct net2272
*dev
= _dev
;
2042 #if defined(PLX_PCI_RDK) || defined(PLX_PCI_RDK2)
2045 #if defined(PLX_PCI_RDK)
2048 spin_lock(&dev
->lock
);
2049 #if defined(PLX_PCI_RDK)
2050 intcsr
= readl(dev
->rdk1
.plx9054_base_addr
+ INTCSR
);
2052 if ((intcsr
& LOCAL_INTERRUPT_TEST
) == LOCAL_INTERRUPT_TEST
) {
2053 writel(intcsr
& ~(1 << PCI_INTERRUPT_ENABLE
),
2054 dev
->rdk1
.plx9054_base_addr
+ INTCSR
);
2055 net2272_handle_stat1_irqs(dev
, net2272_read(dev
, IRQSTAT1
));
2056 net2272_handle_stat0_irqs(dev
, net2272_read(dev
, IRQSTAT0
));
2057 intcsr
= readl(dev
->rdk1
.plx9054_base_addr
+ INTCSR
);
2058 writel(intcsr
| (1 << PCI_INTERRUPT_ENABLE
),
2059 dev
->rdk1
.plx9054_base_addr
+ INTCSR
);
2061 if ((intcsr
& DMA_CHANNEL_0_TEST
) == DMA_CHANNEL_0_TEST
) {
2062 writeb((1 << CHANNEL_CLEAR_INTERRUPT
| (0 << CHANNEL_ENABLE
)),
2063 dev
->rdk1
.plx9054_base_addr
+ DMACSR0
);
2065 dmareq
= net2272_read(dev
, DMAREQ
);
2067 net2272_handle_dma(&dev
->ep
[2]);
2069 net2272_handle_dma(&dev
->ep
[1]);
2072 #if defined(PLX_PCI_RDK2)
2073 /* see if PCI int for us by checking irqstat */
2074 intcsr
= readl(dev
->rdk2
.fpga_base_addr
+ RDK2_IRQSTAT
);
2075 if (!intcsr
& (1 << NET2272_PCI_IRQ
))
2077 /* check dma interrupts */
2079 /* Platform/devcice interrupt handler */
2080 #if !defined(PLX_PCI_RDK)
2081 net2272_handle_stat1_irqs(dev
, net2272_read(dev
, IRQSTAT1
));
2082 net2272_handle_stat0_irqs(dev
, net2272_read(dev
, IRQSTAT0
));
2084 spin_unlock(&dev
->lock
);
2089 static int net2272_present(struct net2272
*dev
)
2092 * Quick test to see if CPU can communicate properly with the NET2272.
2093 * Verifies connection using writes and reads to write/read and
2094 * read-only registers.
2096 * This routine is strongly recommended especially during early bring-up
2097 * of new hardware, however for designs that do not apply Power On System
2098 * Tests (POST) it may discarded (or perhaps minimized).
2103 /* Verify NET2272 write/read SCRATCH register can write and read */
2104 refval
= net2272_read(dev
, SCRATCH
);
2105 for (ii
= 0; ii
< 0x100; ii
+= 7) {
2106 net2272_write(dev
, SCRATCH
, ii
);
2107 val
= net2272_read(dev
, SCRATCH
);
2110 "%s: write/read SCRATCH register test failed: "
2111 "wrote:0x%2.2x, read:0x%2.2x\n",
2116 /* To be nice, we write the original SCRATCH value back: */
2117 net2272_write(dev
, SCRATCH
, refval
);
2119 /* Verify NET2272 CHIPREV register is read-only: */
2120 refval
= net2272_read(dev
, CHIPREV_2272
);
2121 for (ii
= 0; ii
< 0x100; ii
+= 7) {
2122 net2272_write(dev
, CHIPREV_2272
, ii
);
2123 val
= net2272_read(dev
, CHIPREV_2272
);
2124 if (val
!= refval
) {
2126 "%s: write/read CHIPREV register test failed: "
2127 "wrote 0x%2.2x, read:0x%2.2x expected:0x%2.2x\n",
2128 __func__
, ii
, val
, refval
);
2134 * Verify NET2272's "NET2270 legacy revision" register
2135 * - NET2272 has two revision registers. The NET2270 legacy revision
2136 * register should read the same value, regardless of the NET2272
2137 * silicon revision. The legacy register applies to NET2270
2138 * firmware being applied to the NET2272.
2140 val
= net2272_read(dev
, CHIPREV_LEGACY
);
2141 if (val
!= NET2270_LEGACY_REV
) {
2143 * Unexpected legacy revision value
2144 * - Perhaps the chip is a NET2270?
2147 "%s: WARNING: UNEXPECTED NET2272 LEGACY REGISTER VALUE:\n"
2148 " - CHIPREV_LEGACY: expected 0x%2.2x, got:0x%2.2x. (Not NET2272?)\n",
2149 __func__
, NET2270_LEGACY_REV
, val
);
2154 * Verify NET2272 silicon revision
2155 * - This revision register is appropriate for the silicon version
2158 val
= net2272_read(dev
, CHIPREV_2272
);
2160 case CHIPREV_NET2272_R1
:
2162 * NET2272 Rev 1 has DMA related errata:
2163 * - Newer silicon (Rev 1A or better) required
2166 "%s: Rev 1 detected: newer silicon recommended for DMA support\n",
2169 case CHIPREV_NET2272_R1A
:
2172 /* NET2272 silicon version *may* not work with this firmware */
2174 "%s: unexpected silicon revision register value: "
2175 " CHIPREV_2272: 0x%2.2x\n",
2178 * Return Success, even though the chip rev is not an expected value
2179 * - Older, pre-built firmware can attempt to operate on newer silicon
2180 * - Often, new silicon is perfectly compatible
2184 /* Success: NET2272 checks out OK */
2189 net2272_gadget_release(struct device
*_dev
)
2191 struct net2272
*dev
= dev_get_drvdata(_dev
);
2195 /*---------------------------------------------------------------------------*/
2197 static void __devexit
2198 net2272_remove(struct net2272
*dev
)
2200 usb_del_gadget_udc(&dev
->gadget
);
2202 /* start with the driver above us */
2204 /* should have been done already by driver model core */
2205 dev_warn(dev
->dev
, "pci remove, driver '%s' is still registered\n",
2206 dev
->driver
->driver
.name
);
2207 usb_gadget_unregister_driver(dev
->driver
);
2210 free_irq(dev
->irq
, dev
);
2211 iounmap(dev
->base_addr
);
2213 device_unregister(&dev
->gadget
.dev
);
2214 device_remove_file(dev
->dev
, &dev_attr_registers
);
2216 dev_info(dev
->dev
, "unbind\n");
2219 static struct net2272
* __devinit
2220 net2272_probe_init(struct device
*dev
, unsigned int irq
)
2222 struct net2272
*ret
;
2225 dev_dbg(dev
, "No IRQ!\n");
2226 return ERR_PTR(-ENODEV
);
2229 /* alloc, and start init */
2230 ret
= kzalloc(sizeof(*ret
), GFP_KERNEL
);
2232 return ERR_PTR(-ENOMEM
);
2234 spin_lock_init(&ret
->lock
);
2237 ret
->gadget
.ops
= &net2272_ops
;
2238 ret
->gadget
.max_speed
= USB_SPEED_HIGH
;
2240 /* the "gadget" abstracts/virtualizes the controller */
2241 dev_set_name(&ret
->gadget
.dev
, "gadget");
2242 ret
->gadget
.dev
.parent
= dev
;
2243 ret
->gadget
.dev
.dma_mask
= dev
->dma_mask
;
2244 ret
->gadget
.dev
.release
= net2272_gadget_release
;
2245 ret
->gadget
.name
= driver_name
;
2250 static int __devinit
2251 net2272_probe_fin(struct net2272
*dev
, unsigned int irqflags
)
2255 /* See if there... */
2256 if (net2272_present(dev
)) {
2257 dev_warn(dev
->dev
, "2272 not found!\n");
2262 net2272_usb_reset(dev
);
2263 net2272_usb_reinit(dev
);
2265 ret
= request_irq(dev
->irq
, net2272_irq
, irqflags
, driver_name
, dev
);
2267 dev_err(dev
->dev
, "request interrupt %i failed\n", dev
->irq
);
2271 dev
->chiprev
= net2272_read(dev
, CHIPREV_2272
);
2274 dev_info(dev
->dev
, "%s\n", driver_desc
);
2275 dev_info(dev
->dev
, "irq %i, mem %p, chip rev %04x, dma %s\n",
2276 dev
->irq
, dev
->base_addr
, dev
->chiprev
,
2278 dev_info(dev
->dev
, "version: %s\n", driver_vers
);
2280 ret
= device_register(&dev
->gadget
.dev
);
2283 ret
= device_create_file(dev
->dev
, &dev_attr_registers
);
2287 ret
= usb_add_gadget_udc(dev
->dev
, &dev
->gadget
);
2294 device_remove_file(dev
->dev
, &dev_attr_registers
);
2296 device_unregister(&dev
->gadget
.dev
);
2298 free_irq(dev
->irq
, dev
);
2306 * wrap this driver around the specified device, but
2307 * don't respond over USB until a gadget driver binds to us
2310 static int __devinit
2311 net2272_rdk1_probe(struct pci_dev
*pdev
, struct net2272
*dev
)
2313 unsigned long resource
, len
, tmp
;
2314 void __iomem
*mem_mapped_addr
[4];
2318 * BAR 0 holds PLX 9054 config registers
2319 * BAR 1 is i/o memory; unused here
2320 * BAR 2 holds EPLD config registers
2321 * BAR 3 holds NET2272 registers
2324 /* Find and map all address spaces */
2325 for (i
= 0; i
< 4; ++i
) {
2327 continue; /* BAR1 unused */
2329 resource
= pci_resource_start(pdev
, i
);
2330 len
= pci_resource_len(pdev
, i
);
2332 if (!request_mem_region(resource
, len
, driver_name
)) {
2333 dev_dbg(dev
->dev
, "controller already in use\n");
2338 mem_mapped_addr
[i
] = ioremap_nocache(resource
, len
);
2339 if (mem_mapped_addr
[i
] == NULL
) {
2340 release_mem_region(resource
, len
);
2341 dev_dbg(dev
->dev
, "can't map memory\n");
2347 dev
->rdk1
.plx9054_base_addr
= mem_mapped_addr
[0];
2348 dev
->rdk1
.epld_base_addr
= mem_mapped_addr
[2];
2349 dev
->base_addr
= mem_mapped_addr
[3];
2351 /* Set PLX 9054 bus width (16 bits) */
2352 tmp
= readl(dev
->rdk1
.plx9054_base_addr
+ LBRD1
);
2353 writel((tmp
& ~(3 << MEMORY_SPACE_LOCAL_BUS_WIDTH
)) | W16_BIT
,
2354 dev
->rdk1
.plx9054_base_addr
+ LBRD1
);
2356 /* Enable PLX 9054 Interrupts */
2357 writel(readl(dev
->rdk1
.plx9054_base_addr
+ INTCSR
) |
2358 (1 << PCI_INTERRUPT_ENABLE
) |
2359 (1 << LOCAL_INTERRUPT_INPUT_ENABLE
),
2360 dev
->rdk1
.plx9054_base_addr
+ INTCSR
);
2362 writeb((1 << CHANNEL_CLEAR_INTERRUPT
| (0 << CHANNEL_ENABLE
)),
2363 dev
->rdk1
.plx9054_base_addr
+ DMACSR0
);
2366 writeb((1 << EPLD_DMA_ENABLE
) |
2367 (1 << DMA_CTL_DACK
) |
2368 (1 << DMA_TIMEOUT_ENABLE
) |
2372 (1 << NET2272_RESET
),
2373 dev
->base_addr
+ EPLD_IO_CONTROL_REGISTER
);
2376 writeb(readb(dev
->base_addr
+ EPLD_IO_CONTROL_REGISTER
) &
2377 ~(1 << NET2272_RESET
),
2378 dev
->base_addr
+ EPLD_IO_CONTROL_REGISTER
);
2385 iounmap(mem_mapped_addr
[i
]);
2386 release_mem_region(pci_resource_start(pdev
, i
),
2387 pci_resource_len(pdev
, i
));
2393 static int __devinit
2394 net2272_rdk2_probe(struct pci_dev
*pdev
, struct net2272
*dev
)
2396 unsigned long resource
, len
;
2397 void __iomem
*mem_mapped_addr
[2];
2401 * BAR 0 holds FGPA config registers
2402 * BAR 1 holds NET2272 registers
2405 /* Find and map all address spaces, bar2-3 unused in rdk 2 */
2406 for (i
= 0; i
< 2; ++i
) {
2407 resource
= pci_resource_start(pdev
, i
);
2408 len
= pci_resource_len(pdev
, i
);
2410 if (!request_mem_region(resource
, len
, driver_name
)) {
2411 dev_dbg(dev
->dev
, "controller already in use\n");
2416 mem_mapped_addr
[i
] = ioremap_nocache(resource
, len
);
2417 if (mem_mapped_addr
[i
] == NULL
) {
2418 release_mem_region(resource
, len
);
2419 dev_dbg(dev
->dev
, "can't map memory\n");
2425 dev
->rdk2
.fpga_base_addr
= mem_mapped_addr
[0];
2426 dev
->base_addr
= mem_mapped_addr
[1];
2429 /* Set 2272 bus width (16 bits) and reset */
2430 writel((1 << CHIP_RESET
), dev
->rdk2
.fpga_base_addr
+ RDK2_LOCCTLRDK
);
2432 writel((1 << BUS_WIDTH
), dev
->rdk2
.fpga_base_addr
+ RDK2_LOCCTLRDK
);
2433 /* Print fpga version number */
2434 dev_info(dev
->dev
, "RDK2 FPGA version %08x\n",
2435 readl(dev
->rdk2
.fpga_base_addr
+ RDK2_FPGAREV
));
2436 /* Enable FPGA Interrupts */
2437 writel((1 << NET2272_PCI_IRQ
), dev
->rdk2
.fpga_base_addr
+ RDK2_IRQENB
);
2443 iounmap(mem_mapped_addr
[i
]);
2444 release_mem_region(pci_resource_start(pdev
, i
),
2445 pci_resource_len(pdev
, i
));
2451 static int __devinit
2452 net2272_pci_probe(struct pci_dev
*pdev
, const struct pci_device_id
*id
)
2454 struct net2272
*dev
;
2457 dev
= net2272_probe_init(&pdev
->dev
, pdev
->irq
);
2459 return PTR_ERR(dev
);
2460 dev
->dev_id
= pdev
->device
;
2462 if (pci_enable_device(pdev
) < 0) {
2467 pci_set_master(pdev
);
2469 switch (pdev
->device
) {
2470 case PCI_DEVICE_ID_RDK1
: ret
= net2272_rdk1_probe(pdev
, dev
); break;
2471 case PCI_DEVICE_ID_RDK2
: ret
= net2272_rdk2_probe(pdev
, dev
); break;
2477 ret
= net2272_probe_fin(dev
, 0);
2481 pci_set_drvdata(pdev
, dev
);
2486 pci_disable_device(pdev
);
2493 static void __devexit
2494 net2272_rdk1_remove(struct pci_dev
*pdev
, struct net2272
*dev
)
2498 /* disable PLX 9054 interrupts */
2499 writel(readl(dev
->rdk1
.plx9054_base_addr
+ INTCSR
) &
2500 ~(1 << PCI_INTERRUPT_ENABLE
),
2501 dev
->rdk1
.plx9054_base_addr
+ INTCSR
);
2503 /* clean up resources allocated during probe() */
2504 iounmap(dev
->rdk1
.plx9054_base_addr
);
2505 iounmap(dev
->rdk1
.epld_base_addr
);
2507 for (i
= 0; i
< 4; ++i
) {
2509 continue; /* BAR1 unused */
2510 release_mem_region(pci_resource_start(pdev
, i
),
2511 pci_resource_len(pdev
, i
));
2515 static void __devexit
2516 net2272_rdk2_remove(struct pci_dev
*pdev
, struct net2272
*dev
)
2520 /* disable fpga interrupts
2521 writel(readl(dev->rdk1.plx9054_base_addr + INTCSR) &
2522 ~(1 << PCI_INTERRUPT_ENABLE),
2523 dev->rdk1.plx9054_base_addr + INTCSR);
2526 /* clean up resources allocated during probe() */
2527 iounmap(dev
->rdk2
.fpga_base_addr
);
2529 for (i
= 0; i
< 2; ++i
)
2530 release_mem_region(pci_resource_start(pdev
, i
),
2531 pci_resource_len(pdev
, i
));
2534 static void __devexit
2535 net2272_pci_remove(struct pci_dev
*pdev
)
2537 struct net2272
*dev
= pci_get_drvdata(pdev
);
2539 net2272_remove(dev
);
2541 switch (pdev
->device
) {
2542 case PCI_DEVICE_ID_RDK1
: net2272_rdk1_remove(pdev
, dev
); break;
2543 case PCI_DEVICE_ID_RDK2
: net2272_rdk2_remove(pdev
, dev
); break;
2547 pci_disable_device(pdev
);
2552 /* Table of matching PCI IDs */
2553 static struct pci_device_id __devinitdata pci_ids
[] = {
2555 .class = ((PCI_CLASS_BRIDGE_OTHER
<< 8) | 0xfe),
2557 .vendor
= PCI_VENDOR_ID_PLX
,
2558 .device
= PCI_DEVICE_ID_RDK1
,
2559 .subvendor
= PCI_ANY_ID
,
2560 .subdevice
= PCI_ANY_ID
,
2563 .class = ((PCI_CLASS_BRIDGE_OTHER
<< 8) | 0xfe),
2565 .vendor
= PCI_VENDOR_ID_PLX
,
2566 .device
= PCI_DEVICE_ID_RDK2
,
2567 .subvendor
= PCI_ANY_ID
,
2568 .subdevice
= PCI_ANY_ID
,
2572 MODULE_DEVICE_TABLE(pci
, pci_ids
);
2574 static struct pci_driver net2272_pci_driver
= {
2575 .name
= driver_name
,
2576 .id_table
= pci_ids
,
2578 .probe
= net2272_pci_probe
,
2579 .remove
= __devexit_p(net2272_pci_remove
),
2582 static int net2272_pci_register(void)
2584 return pci_register_driver(&net2272_pci_driver
);
2587 static void net2272_pci_unregister(void)
2589 pci_unregister_driver(&net2272_pci_driver
);
2593 static inline int net2272_pci_register(void) { return 0; }
2594 static inline void net2272_pci_unregister(void) { }
2597 /*---------------------------------------------------------------------------*/
2599 static int __devinit
2600 net2272_plat_probe(struct platform_device
*pdev
)
2602 struct net2272
*dev
;
2604 unsigned int irqflags
;
2605 resource_size_t base
, len
;
2606 struct resource
*iomem
, *iomem_bus
, *irq_res
;
2608 irq_res
= platform_get_resource(pdev
, IORESOURCE_IRQ
, 0);
2609 iomem
= platform_get_resource(pdev
, IORESOURCE_MEM
, 0);
2610 iomem_bus
= platform_get_resource(pdev
, IORESOURCE_BUS
, 0);
2611 if (!irq_res
|| !iomem
) {
2612 dev_err(&pdev
->dev
, "must provide irq/base addr");
2616 dev
= net2272_probe_init(&pdev
->dev
, irq_res
->start
);
2618 return PTR_ERR(dev
);
2621 if (irq_res
->flags
& IORESOURCE_IRQ_HIGHEDGE
)
2622 irqflags
|= IRQF_TRIGGER_RISING
;
2623 if (irq_res
->flags
& IORESOURCE_IRQ_LOWEDGE
)
2624 irqflags
|= IRQF_TRIGGER_FALLING
;
2625 if (irq_res
->flags
& IORESOURCE_IRQ_HIGHLEVEL
)
2626 irqflags
|= IRQF_TRIGGER_HIGH
;
2627 if (irq_res
->flags
& IORESOURCE_IRQ_LOWLEVEL
)
2628 irqflags
|= IRQF_TRIGGER_LOW
;
2630 base
= iomem
->start
;
2631 len
= resource_size(iomem
);
2633 dev
->base_shift
= iomem_bus
->start
;
2635 if (!request_mem_region(base
, len
, driver_name
)) {
2636 dev_dbg(dev
->dev
, "get request memory region!\n");
2640 dev
->base_addr
= ioremap_nocache(base
, len
);
2641 if (!dev
->base_addr
) {
2642 dev_dbg(dev
->dev
, "can't map memory\n");
2647 ret
= net2272_probe_fin(dev
, IRQF_TRIGGER_LOW
);
2651 platform_set_drvdata(pdev
, dev
);
2652 dev_info(&pdev
->dev
, "running in 16-bit, %sbyte swap local bus mode\n",
2653 (net2272_read(dev
, LOCCTL
) & (1 << BYTE_SWAP
)) ? "" : "no ");
2658 iounmap(dev
->base_addr
);
2660 release_mem_region(base
, len
);
2665 static int __devexit
2666 net2272_plat_remove(struct platform_device
*pdev
)
2668 struct net2272
*dev
= platform_get_drvdata(pdev
);
2670 net2272_remove(dev
);
2672 release_mem_region(pdev
->resource
[0].start
,
2673 resource_size(&pdev
->resource
[0]));
2680 static struct platform_driver net2272_plat_driver
= {
2681 .probe
= net2272_plat_probe
,
2682 .remove
= __devexit_p(net2272_plat_remove
),
2684 .name
= driver_name
,
2685 .owner
= THIS_MODULE
,
2687 /* FIXME .suspend, .resume */
2689 MODULE_ALIAS("platform:net2272");
2691 static int __init
net2272_init(void)
2695 ret
= net2272_pci_register();
2698 ret
= platform_driver_register(&net2272_plat_driver
);
2704 net2272_pci_unregister();
2707 module_init(net2272_init
);
2709 static void __exit
net2272_cleanup(void)
2711 net2272_pci_unregister();
2712 platform_driver_unregister(&net2272_plat_driver
);
2714 module_exit(net2272_cleanup
);
2716 MODULE_DESCRIPTION(DRIVER_DESC
);
2717 MODULE_AUTHOR("PLX Technology, Inc.");
2718 MODULE_LICENSE("GPL");