2 * driver/usb/gadget/fsl_qe_udc.c
4 * Copyright (c) 2006-2008 Freescale Semiconductor, Inc. All rights reserved.
6 * Xie Xiaobo <X.Xie@freescale.com>
7 * Li Yang <leoli@freescale.com>
8 * Based on bareboard code from Shlomi Gridish.
11 * Freescle QE/CPM USB Pheripheral Controller Driver
12 * The controller can be found on MPC8360, MPC8272, and etc.
13 * MPC8360 Rev 1.1 may need QE mircocode update
15 * This program is free software; you can redistribute it and/or modify it
16 * under the terms of the GNU General Public License as published by the
17 * Free Software Foundation; either version 2 of the License, or (at your
18 * option) any later version.
23 #include <linux/module.h>
24 #include <linux/kernel.h>
25 #include <linux/init.h>
26 #include <linux/ioport.h>
27 #include <linux/types.h>
28 #include <linux/errno.h>
29 #include <linux/err.h>
30 #include <linux/slab.h>
31 #include <linux/list.h>
32 #include <linux/interrupt.h>
34 #include <linux/moduleparam.h>
35 #include <linux/of_address.h>
36 #include <linux/of_platform.h>
37 #include <linux/dma-mapping.h>
38 #include <linux/usb/ch9.h>
39 #include <linux/usb/gadget.h>
40 #include <linux/usb/otg.h>
45 #include "fsl_qe_udc.h"
47 #define DRIVER_DESC "Freescale QE/CPM USB Device Controller driver"
48 #define DRIVER_AUTHOR "Xie XiaoBo"
49 #define DRIVER_VERSION "1.0"
51 #define DMA_ADDR_INVALID (~(dma_addr_t)0)
53 static const char driver_name
[] = "fsl_qe_udc";
54 static const char driver_desc
[] = DRIVER_DESC
;
56 /*ep name is important in gadget, it should obey the convention of ep_match()*/
57 static const char *const ep_name
[] = {
58 "ep0-control", /* everyone has ep0 */
59 /* 3 configurable endpoints */
65 static struct usb_endpoint_descriptor qe_ep0_desc
= {
66 .bLength
= USB_DT_ENDPOINT_SIZE
,
67 .bDescriptorType
= USB_DT_ENDPOINT
,
69 .bEndpointAddress
= 0,
70 .bmAttributes
= USB_ENDPOINT_XFER_CONTROL
,
71 .wMaxPacketSize
= USB_MAX_CTRL_PAYLOAD
,
74 /* it is initialized in probe() */
75 static struct qe_udc
*udc_controller
;
77 /********************************************************************
78 * Internal Used Function Start
79 ********************************************************************/
80 /*-----------------------------------------------------------------
81 * done() - retire a request; caller blocked irqs
82 *--------------------------------------------------------------*/
83 static void done(struct qe_ep
*ep
, struct qe_req
*req
, int status
)
85 struct qe_udc
*udc
= ep
->udc
;
86 unsigned char stopped
= ep
->stopped
;
88 /* the req->queue pointer is used by ep_queue() func, in which
89 * the request will be added into a udc_ep->queue 'd tail
90 * so here the req will be dropped from the ep->queue
92 list_del_init(&req
->queue
);
94 /* req.status should be set as -EINPROGRESS in ep_queue() */
95 if (req
->req
.status
== -EINPROGRESS
)
96 req
->req
.status
= status
;
98 status
= req
->req
.status
;
101 dma_unmap_single(udc
->gadget
.dev
.parent
,
102 req
->req
.dma
, req
->req
.length
,
106 req
->req
.dma
= DMA_ADDR_INVALID
;
109 dma_sync_single_for_cpu(udc
->gadget
.dev
.parent
,
110 req
->req
.dma
, req
->req
.length
,
115 if (status
&& (status
!= -ESHUTDOWN
))
116 dev_vdbg(udc
->dev
, "complete %s req %p stat %d len %u/%u\n",
117 ep
->ep
.name
, &req
->req
, status
,
118 req
->req
.actual
, req
->req
.length
);
120 /* don't modify queue heads during completion callback */
122 spin_unlock(&udc
->lock
);
124 /* this complete() should a func implemented by gadget layer,
125 * eg fsg->bulk_in_complete() */
126 if (req
->req
.complete
)
127 req
->req
.complete(&ep
->ep
, &req
->req
);
129 spin_lock(&udc
->lock
);
131 ep
->stopped
= stopped
;
134 /*-----------------------------------------------------------------
135 * nuke(): delete all requests related to this ep
136 *--------------------------------------------------------------*/
137 static void nuke(struct qe_ep
*ep
, int status
)
139 /* Whether this eq has request linked */
140 while (!list_empty(&ep
->queue
)) {
141 struct qe_req
*req
= NULL
;
142 req
= list_entry(ep
->queue
.next
, struct qe_req
, queue
);
144 done(ep
, req
, status
);
148 /*---------------------------------------------------------------------------*
149 * USB and Endpoint manipulate process, include parameter and register *
150 *---------------------------------------------------------------------------*/
151 /* @value: 1--set stall 0--clean stall */
152 static int qe_eprx_stall_change(struct qe_ep
*ep
, int value
)
155 u8 epnum
= ep
->epnum
;
156 struct qe_udc
*udc
= ep
->udc
;
158 tem_usep
= in_be16(&udc
->usb_regs
->usb_usep
[epnum
]);
159 tem_usep
= tem_usep
& ~USB_RHS_MASK
;
161 tem_usep
|= USB_RHS_STALL
;
162 else if (ep
->dir
== USB_DIR_IN
)
163 tem_usep
|= USB_RHS_IGNORE_OUT
;
165 out_be16(&udc
->usb_regs
->usb_usep
[epnum
], tem_usep
);
169 static int qe_eptx_stall_change(struct qe_ep
*ep
, int value
)
172 u8 epnum
= ep
->epnum
;
173 struct qe_udc
*udc
= ep
->udc
;
175 tem_usep
= in_be16(&udc
->usb_regs
->usb_usep
[epnum
]);
176 tem_usep
= tem_usep
& ~USB_THS_MASK
;
178 tem_usep
|= USB_THS_STALL
;
179 else if (ep
->dir
== USB_DIR_OUT
)
180 tem_usep
|= USB_THS_IGNORE_IN
;
182 out_be16(&udc
->usb_regs
->usb_usep
[epnum
], tem_usep
);
187 static int qe_ep0_stall(struct qe_udc
*udc
)
189 qe_eptx_stall_change(&udc
->eps
[0], 1);
190 qe_eprx_stall_change(&udc
->eps
[0], 1);
191 udc_controller
->ep0_state
= WAIT_FOR_SETUP
;
192 udc_controller
->ep0_dir
= 0;
196 static int qe_eprx_nack(struct qe_ep
*ep
)
198 u8 epnum
= ep
->epnum
;
199 struct qe_udc
*udc
= ep
->udc
;
201 if (ep
->state
== EP_STATE_IDLE
) {
202 /* Set the ep's nack */
203 clrsetbits_be16(&udc
->usb_regs
->usb_usep
[epnum
],
204 USB_RHS_MASK
, USB_RHS_NACK
);
206 /* Mask Rx and Busy interrupts */
207 clrbits16(&udc
->usb_regs
->usb_usbmr
,
208 (USB_E_RXB_MASK
| USB_E_BSY_MASK
));
210 ep
->state
= EP_STATE_NACK
;
215 static int qe_eprx_normal(struct qe_ep
*ep
)
217 struct qe_udc
*udc
= ep
->udc
;
219 if (ep
->state
== EP_STATE_NACK
) {
220 clrsetbits_be16(&udc
->usb_regs
->usb_usep
[ep
->epnum
],
221 USB_RTHS_MASK
, USB_THS_IGNORE_IN
);
223 /* Unmask RX interrupts */
224 out_be16(&udc
->usb_regs
->usb_usber
,
225 USB_E_BSY_MASK
| USB_E_RXB_MASK
);
226 setbits16(&udc
->usb_regs
->usb_usbmr
,
227 (USB_E_RXB_MASK
| USB_E_BSY_MASK
));
229 ep
->state
= EP_STATE_IDLE
;
236 static int qe_ep_cmd_stoptx(struct qe_ep
*ep
)
238 if (ep
->udc
->soc_type
== PORT_CPM
)
239 cpm_command(CPM_USB_STOP_TX
| (ep
->epnum
<< CPM_USB_EP_SHIFT
),
240 CPM_USB_STOP_TX_OPCODE
);
242 qe_issue_cmd(QE_USB_STOP_TX
, QE_CR_SUBBLOCK_USB
,
248 static int qe_ep_cmd_restarttx(struct qe_ep
*ep
)
250 if (ep
->udc
->soc_type
== PORT_CPM
)
251 cpm_command(CPM_USB_RESTART_TX
| (ep
->epnum
<<
252 CPM_USB_EP_SHIFT
), CPM_USB_RESTART_TX_OPCODE
);
254 qe_issue_cmd(QE_USB_RESTART_TX
, QE_CR_SUBBLOCK_USB
,
260 static int qe_ep_flushtxfifo(struct qe_ep
*ep
)
262 struct qe_udc
*udc
= ep
->udc
;
267 qe_ep_cmd_stoptx(ep
);
268 out_8(&udc
->usb_regs
->usb_uscom
,
269 USB_CMD_FLUSH_FIFO
| (USB_CMD_EP_MASK
& (ep
->epnum
)));
270 out_be16(&udc
->ep_param
[i
]->tbptr
, in_be16(&udc
->ep_param
[i
]->tbase
));
271 out_be32(&udc
->ep_param
[i
]->tstate
, 0);
272 out_be16(&udc
->ep_param
[i
]->tbcnt
, 0);
274 ep
->c_txbd
= ep
->txbase
;
275 ep
->n_txbd
= ep
->txbase
;
276 qe_ep_cmd_restarttx(ep
);
280 static int qe_ep_filltxfifo(struct qe_ep
*ep
)
282 struct qe_udc
*udc
= ep
->udc
;
284 out_8(&udc
->usb_regs
->usb_uscom
,
285 USB_CMD_STR_FIFO
| (USB_CMD_EP_MASK
& (ep
->epnum
)));
289 static int qe_epbds_reset(struct qe_udc
*udc
, int pipe_num
)
293 struct qe_bd __iomem
*bd
;
296 ep
= &udc
->eps
[pipe_num
];
298 if (ep
->dir
== USB_DIR_OUT
)
299 bdring_len
= USB_BDRING_LEN_RX
;
301 bdring_len
= USB_BDRING_LEN
;
304 for (i
= 0; i
< (bdring_len
- 1); i
++) {
305 out_be32((u32 __iomem
*)bd
, R_E
| R_I
);
308 out_be32((u32 __iomem
*)bd
, R_E
| R_I
| R_W
);
311 for (i
= 0; i
< USB_BDRING_LEN_TX
- 1; i
++) {
312 out_be32(&bd
->buf
, 0);
313 out_be32((u32 __iomem
*)bd
, 0);
316 out_be32((u32 __iomem
*)bd
, T_W
);
321 static int qe_ep_reset(struct qe_udc
*udc
, int pipe_num
)
326 ep
= &udc
->eps
[pipe_num
];
327 tmpusep
= in_be16(&udc
->usb_regs
->usb_usep
[pipe_num
]);
328 tmpusep
&= ~USB_RTHS_MASK
;
332 qe_ep_flushtxfifo(ep
);
335 tmpusep
|= USB_THS_IGNORE_IN
;
338 qe_ep_flushtxfifo(ep
);
339 tmpusep
|= USB_RHS_IGNORE_OUT
;
344 out_be16(&udc
->usb_regs
->usb_usep
[pipe_num
], tmpusep
);
346 qe_epbds_reset(udc
, pipe_num
);
351 static int qe_ep_toggledata01(struct qe_ep
*ep
)
357 static int qe_ep_bd_init(struct qe_udc
*udc
, unsigned char pipe_num
)
359 struct qe_ep
*ep
= &udc
->eps
[pipe_num
];
360 unsigned long tmp_addr
= 0;
361 struct usb_ep_para __iomem
*epparam
;
363 struct qe_bd __iomem
*bd
;
366 if (ep
->dir
== USB_DIR_OUT
)
367 bdring_len
= USB_BDRING_LEN_RX
;
369 bdring_len
= USB_BDRING_LEN
;
371 epparam
= udc
->ep_param
[pipe_num
];
372 /* alloc multi-ram for BD rings and set the ep parameters */
373 tmp_addr
= cpm_muram_alloc(sizeof(struct qe_bd
) * (bdring_len
+
374 USB_BDRING_LEN_TX
), QE_ALIGNMENT_OF_BD
);
375 if (IS_ERR_VALUE(tmp_addr
))
378 out_be16(&epparam
->rbase
, (u16
)tmp_addr
);
379 out_be16(&epparam
->tbase
, (u16
)(tmp_addr
+
380 (sizeof(struct qe_bd
) * bdring_len
)));
382 out_be16(&epparam
->rbptr
, in_be16(&epparam
->rbase
));
383 out_be16(&epparam
->tbptr
, in_be16(&epparam
->tbase
));
385 ep
->rxbase
= cpm_muram_addr(tmp_addr
);
386 ep
->txbase
= cpm_muram_addr(tmp_addr
+ (sizeof(struct qe_bd
)
388 ep
->n_rxbd
= ep
->rxbase
;
389 ep
->e_rxbd
= ep
->rxbase
;
390 ep
->n_txbd
= ep
->txbase
;
391 ep
->c_txbd
= ep
->txbase
;
392 ep
->data01
= 0; /* data0 */
394 /* Init TX and RX bds */
396 for (i
= 0; i
< bdring_len
- 1; i
++) {
397 out_be32(&bd
->buf
, 0);
398 out_be32((u32 __iomem
*)bd
, 0);
401 out_be32(&bd
->buf
, 0);
402 out_be32((u32 __iomem
*)bd
, R_W
);
405 for (i
= 0; i
< USB_BDRING_LEN_TX
- 1; i
++) {
406 out_be32(&bd
->buf
, 0);
407 out_be32((u32 __iomem
*)bd
, 0);
410 out_be32(&bd
->buf
, 0);
411 out_be32((u32 __iomem
*)bd
, T_W
);
416 static int qe_ep_rxbd_update(struct qe_ep
*ep
)
421 struct qe_bd __iomem
*bd
;
422 unsigned int bdring_len
;
424 if (ep
->rxbase
== NULL
)
429 ep
->rxframe
= kmalloc(sizeof(*ep
->rxframe
), GFP_ATOMIC
);
430 if (ep
->rxframe
== NULL
) {
431 dev_err(ep
->udc
->dev
, "malloc rxframe failed\n");
435 qe_frame_init(ep
->rxframe
);
437 if (ep
->dir
== USB_DIR_OUT
)
438 bdring_len
= USB_BDRING_LEN_RX
;
440 bdring_len
= USB_BDRING_LEN
;
442 size
= (ep
->ep
.maxpacket
+ USB_CRC_SIZE
+ 2) * (bdring_len
+ 1);
443 ep
->rxbuffer
= kzalloc(size
, GFP_ATOMIC
);
444 if (ep
->rxbuffer
== NULL
) {
445 dev_err(ep
->udc
->dev
, "malloc rxbuffer failed,size=%d\n",
451 ep
->rxbuf_d
= virt_to_phys((void *)ep
->rxbuffer
);
452 if (ep
->rxbuf_d
== DMA_ADDR_INVALID
) {
453 ep
->rxbuf_d
= dma_map_single(udc_controller
->gadget
.dev
.parent
,
459 dma_sync_single_for_device(udc_controller
->gadget
.dev
.parent
,
465 size
= ep
->ep
.maxpacket
+ USB_CRC_SIZE
+ 2;
467 tmp
= (u32
)(((tmp
>> 2) << 2) + 4);
469 for (i
= 0; i
< bdring_len
- 1; i
++) {
470 out_be32(&bd
->buf
, tmp
);
471 out_be32((u32 __iomem
*)bd
, (R_E
| R_I
));
475 out_be32(&bd
->buf
, tmp
);
476 out_be32((u32 __iomem
*)bd
, (R_E
| R_I
| R_W
));
481 static int qe_ep_register_init(struct qe_udc
*udc
, unsigned char pipe_num
)
483 struct qe_ep
*ep
= &udc
->eps
[pipe_num
];
484 struct usb_ep_para __iomem
*epparam
;
489 epparam
= udc
->ep_param
[pipe_num
];
492 logepnum
= (ep
->desc
->bEndpointAddress
& USB_ENDPOINT_NUMBER_MASK
);
493 usep
|= (logepnum
<< USB_EPNUM_SHIFT
);
495 switch (ep
->desc
->bmAttributes
& 0x03) {
496 case USB_ENDPOINT_XFER_BULK
:
497 usep
|= USB_TRANS_BULK
;
499 case USB_ENDPOINT_XFER_ISOC
:
500 usep
|= USB_TRANS_ISO
;
502 case USB_ENDPOINT_XFER_INT
:
503 usep
|= USB_TRANS_INT
;
506 usep
|= USB_TRANS_CTR
;
512 usep
|= USB_THS_IGNORE_IN
;
515 usep
|= USB_RHS_IGNORE_OUT
;
520 out_be16(&udc
->usb_regs
->usb_usep
[pipe_num
], usep
);
523 out_8(&epparam
->rbmr
, rtfcr
);
524 out_8(&epparam
->tbmr
, rtfcr
);
526 tmp
= (u16
)(ep
->ep
.maxpacket
+ USB_CRC_SIZE
);
527 /* MRBLR must be divisble by 4 */
528 tmp
= (u16
)(((tmp
>> 2) << 2) + 4);
529 out_be16(&epparam
->mrblr
, tmp
);
534 static int qe_ep_init(struct qe_udc
*udc
,
535 unsigned char pipe_num
,
536 const struct usb_endpoint_descriptor
*desc
)
538 struct qe_ep
*ep
= &udc
->eps
[pipe_num
];
543 max
= usb_endpoint_maxp(desc
);
545 /* check the max package size validate for this endpoint */
546 /* Refer to USB2.0 spec table 9-13,
549 switch (desc
->bmAttributes
& USB_ENDPOINT_XFERTYPE_MASK
) {
550 case USB_ENDPOINT_XFER_BULK
:
551 if (strstr(ep
->ep
.name
, "-iso")
552 || strstr(ep
->ep
.name
, "-int"))
554 switch (udc
->gadget
.speed
) {
556 if ((max
== 128) || (max
== 256) || (max
== 512))
572 case USB_ENDPOINT_XFER_INT
:
573 if (strstr(ep
->ep
.name
, "-iso")) /* bulk is ok */
575 switch (udc
->gadget
.speed
) {
588 case USB_ENDPOINT_XFER_ISOC
:
589 if (strstr(ep
->ep
.name
, "-bulk")
590 || strstr(ep
->ep
.name
, "-int"))
592 switch (udc
->gadget
.speed
) {
603 case USB_ENDPOINT_XFER_CONTROL
:
604 if (strstr(ep
->ep
.name
, "-iso")
605 || strstr(ep
->ep
.name
, "-int"))
607 switch (udc
->gadget
.speed
) {
642 spin_lock_irqsave(&udc
->lock
, flags
);
644 /* initialize ep structure */
645 ep
->ep
.maxpacket
= max
;
646 ep
->tm
= (u8
)(desc
->bmAttributes
& USB_ENDPOINT_XFERTYPE_MASK
);
652 ep
->dir
= USB_DIR_BOTH
;
653 udc
->ep0_dir
= USB_DIR_OUT
;
654 udc
->ep0_state
= WAIT_FOR_SETUP
;
656 switch (desc
->bEndpointAddress
& USB_ENDPOINT_DIR_MASK
) {
658 ep
->dir
= USB_DIR_OUT
;
661 ep
->dir
= USB_DIR_IN
;
667 /* hardware special operation */
668 qe_ep_bd_init(udc
, pipe_num
);
669 if ((ep
->tm
== USBP_TM_CTL
) || (ep
->dir
== USB_DIR_OUT
)) {
670 reval
= qe_ep_rxbd_update(ep
);
675 if ((ep
->tm
== USBP_TM_CTL
) || (ep
->dir
== USB_DIR_IN
)) {
676 ep
->txframe
= kmalloc(sizeof(*ep
->txframe
), GFP_ATOMIC
);
677 if (ep
->txframe
== NULL
) {
678 dev_err(udc
->dev
, "malloc txframe failed\n");
681 qe_frame_init(ep
->txframe
);
684 qe_ep_register_init(udc
, pipe_num
);
686 /* Now HW will be NAKing transfers to that EP,
687 * until a buffer is queued to it. */
688 spin_unlock_irqrestore(&udc
->lock
, flags
);
695 spin_unlock_irqrestore(&udc
->lock
, flags
);
697 dev_err(udc
->dev
, "failed to initialize %s\n", ep
->ep
.name
);
701 static inline void qe_usb_enable(void)
703 setbits8(&udc_controller
->usb_regs
->usb_usmod
, USB_MODE_EN
);
706 static inline void qe_usb_disable(void)
708 clrbits8(&udc_controller
->usb_regs
->usb_usmod
, USB_MODE_EN
);
711 /*----------------------------------------------------------------------------*
712 * USB and EP basic manipulate function end *
713 *----------------------------------------------------------------------------*/
716 /******************************************************************************
717 UDC transmit and receive process
718 ******************************************************************************/
719 static void recycle_one_rxbd(struct qe_ep
*ep
)
723 bdstatus
= in_be32((u32 __iomem
*)ep
->e_rxbd
);
724 bdstatus
= R_I
| R_E
| (bdstatus
& R_W
);
725 out_be32((u32 __iomem
*)ep
->e_rxbd
, bdstatus
);
728 ep
->e_rxbd
= ep
->rxbase
;
733 static void recycle_rxbds(struct qe_ep
*ep
, unsigned char stopatnext
)
736 struct qe_bd __iomem
*bd
, *nextbd
;
737 unsigned char stop
= 0;
741 bdstatus
= in_be32((u32 __iomem
*)bd
);
743 while (!(bdstatus
& R_E
) && !(bdstatus
& BD_LENGTH_MASK
) && !stop
) {
744 bdstatus
= R_E
| R_I
| (bdstatus
& R_W
);
745 out_be32((u32 __iomem
*)bd
, bdstatus
);
752 bdstatus
= in_be32((u32 __iomem
*)bd
);
753 if (stopatnext
&& (bd
== nextbd
))
760 static void ep_recycle_rxbds(struct qe_ep
*ep
)
762 struct qe_bd __iomem
*bd
= ep
->n_rxbd
;
764 u8 epnum
= ep
->epnum
;
765 struct qe_udc
*udc
= ep
->udc
;
767 bdstatus
= in_be32((u32 __iomem
*)bd
);
768 if (!(bdstatus
& R_E
) && !(bdstatus
& BD_LENGTH_MASK
)) {
770 ((in_be16(&udc
->ep_param
[epnum
]->rbptr
) -
771 in_be16(&udc
->ep_param
[epnum
]->rbase
))
773 bdstatus
= in_be32((u32 __iomem
*)bd
);
781 recycle_rxbds(ep
, 0);
782 ep
->e_rxbd
= ep
->n_rxbd
;
784 recycle_rxbds(ep
, 1);
786 if (in_be16(&udc
->usb_regs
->usb_usber
) & USB_E_BSY_MASK
)
787 out_be16(&udc
->usb_regs
->usb_usber
, USB_E_BSY_MASK
);
789 if (ep
->has_data
<= 0 && (!list_empty(&ep
->queue
)))
795 static void setup_received_handle(struct qe_udc
*udc
,
796 struct usb_ctrlrequest
*setup
);
797 static int qe_ep_rxframe_handle(struct qe_ep
*ep
);
798 static void ep0_req_complete(struct qe_udc
*udc
, struct qe_req
*req
);
799 /* when BD PID is setup, handle the packet */
800 static int ep0_setup_handle(struct qe_udc
*udc
)
802 struct qe_ep
*ep
= &udc
->eps
[0];
803 struct qe_frame
*pframe
;
807 pframe
= ep
->rxframe
;
808 if ((frame_get_info(pframe
) & PID_SETUP
)
809 && (udc
->ep0_state
== WAIT_FOR_SETUP
)) {
810 fsize
= frame_get_length(pframe
);
811 if (unlikely(fsize
!= 8))
813 cp
= (u8
*)&udc
->local_setup_buff
;
814 memcpy(cp
, pframe
->data
, fsize
);
817 /* handle the usb command base on the usb_ctrlrequest */
818 setup_received_handle(udc
, &udc
->local_setup_buff
);
824 static int qe_ep0_rx(struct qe_udc
*udc
)
826 struct qe_ep
*ep
= &udc
->eps
[0];
827 struct qe_frame
*pframe
;
828 struct qe_bd __iomem
*bd
;
829 u32 bdstatus
, length
;
832 pframe
= ep
->rxframe
;
834 if (ep
->dir
== USB_DIR_IN
) {
835 dev_err(udc
->dev
, "ep0 not a control endpoint\n");
840 bdstatus
= in_be32((u32 __iomem
*)bd
);
841 length
= bdstatus
& BD_LENGTH_MASK
;
843 while (!(bdstatus
& R_E
) && length
) {
844 if ((bdstatus
& R_F
) && (bdstatus
& R_L
)
845 && !(bdstatus
& R_ERROR
)) {
846 if (length
== USB_CRC_SIZE
) {
847 udc
->ep0_state
= WAIT_FOR_SETUP
;
849 "receive a ZLP in status phase\n");
851 qe_frame_clean(pframe
);
852 vaddr
= (u32
)phys_to_virt(in_be32(&bd
->buf
));
853 frame_set_data(pframe
, (u8
*)vaddr
);
854 frame_set_length(pframe
,
855 (length
- USB_CRC_SIZE
));
856 frame_set_status(pframe
, FRAME_OK
);
857 switch (bdstatus
& R_PID
) {
859 frame_set_info(pframe
, PID_SETUP
);
862 frame_set_info(pframe
, PID_DATA1
);
865 frame_set_info(pframe
, PID_DATA0
);
869 if ((bdstatus
& R_PID
) == R_PID_SETUP
)
870 ep0_setup_handle(udc
);
872 qe_ep_rxframe_handle(ep
);
875 dev_err(udc
->dev
, "The receive frame with error!\n");
878 /* note: don't clear the rxbd's buffer address */
879 recycle_one_rxbd(ep
);
887 bdstatus
= in_be32((u32 __iomem
*)bd
);
888 length
= bdstatus
& BD_LENGTH_MASK
;
897 static int qe_ep_rxframe_handle(struct qe_ep
*ep
)
899 struct qe_frame
*pframe
;
905 pframe
= ep
->rxframe
;
907 if (frame_get_info(pframe
) & PID_DATA1
)
910 if (framepid
!= ep
->data01
) {
911 dev_err(ep
->udc
->dev
, "the data01 error!\n");
915 fsize
= frame_get_length(pframe
);
916 if (list_empty(&ep
->queue
)) {
917 dev_err(ep
->udc
->dev
, "the %s have no requeue!\n", ep
->name
);
919 req
= list_entry(ep
->queue
.next
, struct qe_req
, queue
);
921 cp
= (u8
*)(req
->req
.buf
) + req
->req
.actual
;
923 memcpy(cp
, pframe
->data
, fsize
);
924 req
->req
.actual
+= fsize
;
925 if ((fsize
< ep
->ep
.maxpacket
) ||
926 (req
->req
.actual
>= req
->req
.length
)) {
928 ep0_req_complete(ep
->udc
, req
);
931 if (list_empty(&ep
->queue
) && ep
->epnum
!= 0)
937 qe_ep_toggledata01(ep
);
942 static void ep_rx_tasklet(unsigned long data
)
944 struct qe_udc
*udc
= (struct qe_udc
*)data
;
946 struct qe_frame
*pframe
;
947 struct qe_bd __iomem
*bd
;
949 u32 bdstatus
, length
;
952 spin_lock_irqsave(&udc
->lock
, flags
);
954 for (i
= 1; i
< USB_MAX_ENDPOINTS
; i
++) {
957 if (ep
->dir
== USB_DIR_IN
|| ep
->enable_tasklet
== 0) {
959 "This is a transmit ep or disable tasklet!\n");
963 pframe
= ep
->rxframe
;
965 bdstatus
= in_be32((u32 __iomem
*)bd
);
966 length
= bdstatus
& BD_LENGTH_MASK
;
968 while (!(bdstatus
& R_E
) && length
) {
969 if (list_empty(&ep
->queue
)) {
972 "The rxep have noreq %d\n",
977 if ((bdstatus
& R_F
) && (bdstatus
& R_L
)
978 && !(bdstatus
& R_ERROR
)) {
979 qe_frame_clean(pframe
);
980 vaddr
= (u32
)phys_to_virt(in_be32(&bd
->buf
));
981 frame_set_data(pframe
, (u8
*)vaddr
);
982 frame_set_length(pframe
,
983 (length
- USB_CRC_SIZE
));
984 frame_set_status(pframe
, FRAME_OK
);
985 switch (bdstatus
& R_PID
) {
987 frame_set_info(pframe
, PID_DATA1
);
990 frame_set_info(pframe
, PID_SETUP
);
993 frame_set_info(pframe
, PID_DATA0
);
996 /* handle the rx frame */
997 qe_ep_rxframe_handle(ep
);
1000 "error in received frame\n");
1002 /* note: don't clear the rxbd's buffer address */
1003 /*clear the length */
1004 out_be32((u32 __iomem
*)bd
, bdstatus
& BD_STATUS_MASK
);
1006 if (!(ep
->localnack
))
1007 recycle_one_rxbd(ep
);
1015 bdstatus
= in_be32((u32 __iomem
*)bd
);
1016 length
= bdstatus
& BD_LENGTH_MASK
;
1022 ep_recycle_rxbds(ep
);
1024 ep
->enable_tasklet
= 0;
1027 spin_unlock_irqrestore(&udc
->lock
, flags
);
1030 static int qe_ep_rx(struct qe_ep
*ep
)
1033 struct qe_frame
*pframe
;
1034 struct qe_bd __iomem
*bd
;
1035 u16 swoffs
, ucoffs
, emptybds
;
1038 pframe
= ep
->rxframe
;
1040 if (ep
->dir
== USB_DIR_IN
) {
1041 dev_err(udc
->dev
, "transmit ep in rx function\n");
1047 swoffs
= (u16
)(bd
- ep
->rxbase
);
1048 ucoffs
= (u16
)((in_be16(&udc
->ep_param
[ep
->epnum
]->rbptr
) -
1049 in_be16(&udc
->ep_param
[ep
->epnum
]->rbase
)) >> 3);
1050 if (swoffs
< ucoffs
)
1051 emptybds
= USB_BDRING_LEN_RX
- ucoffs
+ swoffs
;
1053 emptybds
= swoffs
- ucoffs
;
1055 if (emptybds
< MIN_EMPTY_BDS
) {
1058 dev_vdbg(udc
->dev
, "%d empty bds, send NACK\n", emptybds
);
1060 ep
->has_data
= USB_BDRING_LEN_RX
- emptybds
;
1062 if (list_empty(&ep
->queue
)) {
1064 dev_vdbg(udc
->dev
, "The rxep have no req queued with %d BDs\n",
1069 tasklet_schedule(&udc
->rx_tasklet
);
1070 ep
->enable_tasklet
= 1;
1075 /* send data from a frame, no matter what tx_req */
1076 static int qe_ep_tx(struct qe_ep
*ep
, struct qe_frame
*frame
)
1078 struct qe_udc
*udc
= ep
->udc
;
1079 struct qe_bd __iomem
*bd
;
1081 u32 bdstatus
, pidmask
;
1084 if (ep
->dir
== USB_DIR_OUT
) {
1085 dev_err(udc
->dev
, "receive ep passed to tx function\n");
1089 /* Disable the Tx interrupt */
1090 saveusbmr
= in_be16(&udc
->usb_regs
->usb_usbmr
);
1091 out_be16(&udc
->usb_regs
->usb_usbmr
,
1092 saveusbmr
& ~(USB_E_TXB_MASK
| USB_E_TXE_MASK
));
1095 bdstatus
= in_be32((u32 __iomem
*)bd
);
1097 if (!(bdstatus
& (T_R
| BD_LENGTH_MASK
))) {
1098 if (frame_get_length(frame
) == 0) {
1099 frame_set_data(frame
, udc
->nullbuf
);
1100 frame_set_length(frame
, 2);
1101 frame
->info
|= (ZLP
| NO_CRC
);
1102 dev_vdbg(udc
->dev
, "the frame size = 0\n");
1104 paddr
= virt_to_phys((void *)frame
->data
);
1105 out_be32(&bd
->buf
, paddr
);
1106 bdstatus
= (bdstatus
&T_W
);
1107 if (!(frame_get_info(frame
) & NO_CRC
))
1108 bdstatus
|= T_R
| T_I
| T_L
| T_TC
1109 | frame_get_length(frame
);
1111 bdstatus
|= T_R
| T_I
| T_L
| frame_get_length(frame
);
1113 /* if the packet is a ZLP in status phase */
1114 if ((ep
->epnum
== 0) && (udc
->ep0_state
== DATA_STATE_NEED_ZLP
))
1118 pidmask
= T_PID_DATA1
;
1119 frame
->info
|= PID_DATA1
;
1121 pidmask
= T_PID_DATA0
;
1122 frame
->info
|= PID_DATA0
;
1125 bdstatus
|= pidmask
;
1126 out_be32((u32 __iomem
*)bd
, bdstatus
);
1127 qe_ep_filltxfifo(ep
);
1129 /* enable the TX interrupt */
1130 out_be16(&udc
->usb_regs
->usb_usbmr
, saveusbmr
);
1132 qe_ep_toggledata01(ep
);
1134 ep
->n_txbd
= ep
->txbase
;
1140 out_be16(&udc
->usb_regs
->usb_usbmr
, saveusbmr
);
1141 dev_vdbg(udc
->dev
, "The tx bd is not ready!\n");
1146 /* when a bd was transmitted, the function can
1147 * handle the tx_req, not include ep0 */
1148 static int txcomplete(struct qe_ep
*ep
, unsigned char restart
)
1150 if (ep
->tx_req
!= NULL
) {
1151 struct qe_req
*req
= ep
->tx_req
;
1152 unsigned zlp
= 0, last_len
= 0;
1154 last_len
= min_t(unsigned, req
->req
.length
- ep
->sent
,
1158 int asent
= ep
->last
;
1165 /* zlp needed when req->re.zero is set */
1166 if (req
->req
.zero
) {
1167 if (last_len
== 0 ||
1168 (req
->req
.length
% ep
->ep
.maxpacket
) != 0)
1175 /* a request already were transmitted completely */
1176 if (((ep
->tx_req
->req
.length
- ep
->sent
) <= 0) && !zlp
) {
1177 done(ep
, ep
->tx_req
, 0);
1184 /* we should gain a new tx_req fot this endpoint */
1185 if (ep
->tx_req
== NULL
) {
1186 if (!list_empty(&ep
->queue
)) {
1187 ep
->tx_req
= list_entry(ep
->queue
.next
, struct qe_req
,
1197 /* give a frame and a tx_req, send some data */
1198 static int qe_usb_senddata(struct qe_ep
*ep
, struct qe_frame
*frame
)
1203 qe_frame_clean(frame
);
1204 size
= min_t(u32
, (ep
->tx_req
->req
.length
- ep
->sent
),
1206 buf
= (u8
*)ep
->tx_req
->req
.buf
+ ep
->sent
;
1209 ep
->tx_req
->req
.actual
+= size
;
1210 frame_set_data(frame
, buf
);
1211 frame_set_length(frame
, size
);
1212 frame_set_status(frame
, FRAME_OK
);
1213 frame_set_info(frame
, 0);
1214 return qe_ep_tx(ep
, frame
);
1219 /* give a frame struct,send a ZLP */
1220 static int sendnulldata(struct qe_ep
*ep
, struct qe_frame
*frame
, uint infor
)
1222 struct qe_udc
*udc
= ep
->udc
;
1227 qe_frame_clean(frame
);
1228 frame_set_data(frame
, (u8
*)udc
->nullbuf
);
1229 frame_set_length(frame
, 2);
1230 frame_set_status(frame
, FRAME_OK
);
1231 frame_set_info(frame
, (ZLP
| NO_CRC
| infor
));
1233 return qe_ep_tx(ep
, frame
);
1236 static int frame_create_tx(struct qe_ep
*ep
, struct qe_frame
*frame
)
1238 struct qe_req
*req
= ep
->tx_req
;
1244 if ((req
->req
.length
- ep
->sent
) > 0)
1245 reval
= qe_usb_senddata(ep
, frame
);
1247 reval
= sendnulldata(ep
, frame
, 0);
1252 /* if direction is DIR_IN, the status is Device->Host
1253 * if direction is DIR_OUT, the status transaction is Device<-Host
1254 * in status phase, udc create a request and gain status */
1255 static int ep0_prime_status(struct qe_udc
*udc
, int direction
)
1258 struct qe_ep
*ep
= &udc
->eps
[0];
1260 if (direction
== USB_DIR_IN
) {
1261 udc
->ep0_state
= DATA_STATE_NEED_ZLP
;
1262 udc
->ep0_dir
= USB_DIR_IN
;
1263 sendnulldata(ep
, ep
->txframe
, SETUP_STATUS
| NO_REQ
);
1265 udc
->ep0_dir
= USB_DIR_OUT
;
1266 udc
->ep0_state
= WAIT_FOR_OUT_STATUS
;
1272 /* a request complete in ep0, whether gadget request or udc request */
1273 static void ep0_req_complete(struct qe_udc
*udc
, struct qe_req
*req
)
1275 struct qe_ep
*ep
= &udc
->eps
[0];
1276 /* because usb and ep's status already been set in ch9setaddress() */
1278 switch (udc
->ep0_state
) {
1279 case DATA_STATE_XMIT
:
1281 /* receive status phase */
1282 if (ep0_prime_status(udc
, USB_DIR_OUT
))
1286 case DATA_STATE_NEED_ZLP
:
1288 udc
->ep0_state
= WAIT_FOR_SETUP
;
1291 case DATA_STATE_RECV
:
1293 /* send status phase */
1294 if (ep0_prime_status(udc
, USB_DIR_IN
))
1298 case WAIT_FOR_OUT_STATUS
:
1300 udc
->ep0_state
= WAIT_FOR_SETUP
;
1303 case WAIT_FOR_SETUP
:
1304 dev_vdbg(udc
->dev
, "Unexpected interrupt\n");
1313 static int ep0_txcomplete(struct qe_ep
*ep
, unsigned char restart
)
1315 struct qe_req
*tx_req
= NULL
;
1316 struct qe_frame
*frame
= ep
->txframe
;
1318 if ((frame_get_info(frame
) & (ZLP
| NO_REQ
)) == (ZLP
| NO_REQ
)) {
1320 ep
->udc
->ep0_state
= WAIT_FOR_SETUP
;
1322 sendnulldata(ep
, ep
->txframe
, SETUP_STATUS
| NO_REQ
);
1326 tx_req
= ep
->tx_req
;
1327 if (tx_req
!= NULL
) {
1329 int asent
= ep
->last
;
1336 /* a request already were transmitted completely */
1337 if ((ep
->tx_req
->req
.length
- ep
->sent
) <= 0) {
1338 ep
->tx_req
->req
.actual
= (unsigned int)ep
->sent
;
1339 ep0_req_complete(ep
->udc
, ep
->tx_req
);
1345 dev_vdbg(ep
->udc
->dev
, "the ep0_controller have no req\n");
1351 static int ep0_txframe_handle(struct qe_ep
*ep
)
1353 /* if have error, transmit again */
1354 if (frame_get_status(ep
->txframe
) & FRAME_ERROR
) {
1355 qe_ep_flushtxfifo(ep
);
1356 dev_vdbg(ep
->udc
->dev
, "The EP0 transmit data have error!\n");
1357 if (frame_get_info(ep
->txframe
) & PID_DATA0
)
1362 ep0_txcomplete(ep
, 1);
1364 ep0_txcomplete(ep
, 0);
1366 frame_create_tx(ep
, ep
->txframe
);
1370 static int qe_ep0_txconf(struct qe_ep
*ep
)
1372 struct qe_bd __iomem
*bd
;
1373 struct qe_frame
*pframe
;
1377 bdstatus
= in_be32((u32 __iomem
*)bd
);
1378 while (!(bdstatus
& T_R
) && (bdstatus
& ~T_W
)) {
1379 pframe
= ep
->txframe
;
1381 /* clear and recycle the BD */
1382 out_be32((u32 __iomem
*)bd
, bdstatus
& T_W
);
1383 out_be32(&bd
->buf
, 0);
1385 ep
->c_txbd
= ep
->txbase
;
1389 if (ep
->c_txbd
== ep
->n_txbd
) {
1390 if (bdstatus
& DEVICE_T_ERROR
) {
1391 frame_set_status(pframe
, FRAME_ERROR
);
1392 if (bdstatus
& T_TO
)
1393 pframe
->status
|= TX_ER_TIMEOUT
;
1394 if (bdstatus
& T_UN
)
1395 pframe
->status
|= TX_ER_UNDERUN
;
1397 ep0_txframe_handle(ep
);
1401 bdstatus
= in_be32((u32 __iomem
*)bd
);
1407 static int ep_txframe_handle(struct qe_ep
*ep
)
1409 if (frame_get_status(ep
->txframe
) & FRAME_ERROR
) {
1410 qe_ep_flushtxfifo(ep
);
1411 dev_vdbg(ep
->udc
->dev
, "The EP0 transmit data have error!\n");
1412 if (frame_get_info(ep
->txframe
) & PID_DATA0
)
1421 frame_create_tx(ep
, ep
->txframe
); /* send the data */
1425 /* confirm the already trainsmited bd */
1426 static int qe_ep_txconf(struct qe_ep
*ep
)
1428 struct qe_bd __iomem
*bd
;
1429 struct qe_frame
*pframe
= NULL
;
1431 unsigned char breakonrxinterrupt
= 0;
1434 bdstatus
= in_be32((u32 __iomem
*)bd
);
1435 while (!(bdstatus
& T_R
) && (bdstatus
& ~T_W
)) {
1436 pframe
= ep
->txframe
;
1437 if (bdstatus
& DEVICE_T_ERROR
) {
1438 frame_set_status(pframe
, FRAME_ERROR
);
1439 if (bdstatus
& T_TO
)
1440 pframe
->status
|= TX_ER_TIMEOUT
;
1441 if (bdstatus
& T_UN
)
1442 pframe
->status
|= TX_ER_UNDERUN
;
1445 /* clear and recycle the BD */
1446 out_be32((u32 __iomem
*)bd
, bdstatus
& T_W
);
1447 out_be32(&bd
->buf
, 0);
1449 ep
->c_txbd
= ep
->txbase
;
1453 /* handle the tx frame */
1454 ep_txframe_handle(ep
);
1456 bdstatus
= in_be32((u32 __iomem
*)bd
);
1458 if (breakonrxinterrupt
)
1464 /* Add a request in queue, and try to transmit a packet */
1465 static int ep_req_send(struct qe_ep
*ep
, struct qe_req
*req
)
1469 if (ep
->tx_req
== NULL
) {
1472 txcomplete(ep
, 0); /* can gain a new tx_req */
1473 reval
= frame_create_tx(ep
, ep
->txframe
);
1478 /* Maybe this is a good ideal */
1479 static int ep_req_rx(struct qe_ep
*ep
, struct qe_req
*req
)
1481 struct qe_udc
*udc
= ep
->udc
;
1482 struct qe_frame
*pframe
= NULL
;
1483 struct qe_bd __iomem
*bd
;
1484 u32 bdstatus
, length
;
1490 if (list_empty(&ep
->queue
)) {
1491 dev_vdbg(udc
->dev
, "the req already finish!\n");
1494 pframe
= ep
->rxframe
;
1497 bdstatus
= in_be32((u32 __iomem
*)bd
);
1498 length
= bdstatus
& BD_LENGTH_MASK
;
1500 while (!(bdstatus
& R_E
) && length
) {
1503 if ((bdstatus
& R_F
) && (bdstatus
& R_L
)
1504 && !(bdstatus
& R_ERROR
)) {
1505 qe_frame_clean(pframe
);
1506 vaddr
= (u32
)phys_to_virt(in_be32(&bd
->buf
));
1507 frame_set_data(pframe
, (u8
*)vaddr
);
1508 frame_set_length(pframe
, (length
- USB_CRC_SIZE
));
1509 frame_set_status(pframe
, FRAME_OK
);
1510 switch (bdstatus
& R_PID
) {
1512 frame_set_info(pframe
, PID_DATA1
); break;
1514 frame_set_info(pframe
, PID_DATA0
); break;
1516 /* handle the rx frame */
1518 if (frame_get_info(pframe
) & PID_DATA1
)
1523 if (framepid
!= ep
->data01
) {
1524 dev_vdbg(udc
->dev
, "the data01 error!\n");
1526 fsize
= frame_get_length(pframe
);
1528 cp
= (u8
*)(req
->req
.buf
) + req
->req
.actual
;
1530 memcpy(cp
, pframe
->data
, fsize
);
1531 req
->req
.actual
+= fsize
;
1532 if ((fsize
< ep
->ep
.maxpacket
)
1533 || (req
->req
.actual
>=
1537 if (list_empty(&ep
->queue
))
1541 qe_ep_toggledata01(ep
);
1544 dev_err(udc
->dev
, "The receive frame with error!\n");
1547 /* note: don't clear the rxbd's buffer address *
1548 * only Clear the length */
1549 out_be32((u32 __iomem
*)bd
, (bdstatus
& BD_STATUS_MASK
));
1558 bdstatus
= in_be32((u32 __iomem
*)bd
);
1559 length
= bdstatus
& BD_LENGTH_MASK
;
1563 ep_recycle_rxbds(ep
);
1568 /* only add the request in queue */
1569 static int ep_req_receive(struct qe_ep
*ep
, struct qe_req
*req
)
1571 if (ep
->state
== EP_STATE_NACK
) {
1572 if (ep
->has_data
<= 0) {
1573 /* Enable rx and unmask rx interrupt */
1576 /* Copy the exist BD data */
1584 /********************************************************************
1585 Internal Used Function End
1586 ********************************************************************/
1588 /*-----------------------------------------------------------------------
1589 Endpoint Management Functions For Gadget
1590 -----------------------------------------------------------------------*/
1591 static int qe_ep_enable(struct usb_ep
*_ep
,
1592 const struct usb_endpoint_descriptor
*desc
)
1597 unsigned char epnum
;
1599 ep
= container_of(_ep
, struct qe_ep
, ep
);
1601 /* catch various bogus parameters */
1602 if (!_ep
|| !desc
|| ep
->desc
|| _ep
->name
== ep_name
[0] ||
1603 (desc
->bDescriptorType
!= USB_DT_ENDPOINT
))
1607 if (!udc
->driver
|| (udc
->gadget
.speed
== USB_SPEED_UNKNOWN
))
1610 epnum
= (u8
)desc
->bEndpointAddress
& 0xF;
1612 retval
= qe_ep_init(udc
, epnum
, desc
);
1614 cpm_muram_free(cpm_muram_offset(ep
->rxbase
));
1615 dev_dbg(udc
->dev
, "enable ep%d failed\n", ep
->epnum
);
1618 dev_dbg(udc
->dev
, "enable ep%d successful\n", ep
->epnum
);
1622 static int qe_ep_disable(struct usb_ep
*_ep
)
1626 unsigned long flags
;
1629 ep
= container_of(_ep
, struct qe_ep
, ep
);
1632 if (!_ep
|| !ep
->desc
) {
1633 dev_dbg(udc
->dev
, "%s not enabled\n", _ep
? ep
->ep
.name
: NULL
);
1637 spin_lock_irqsave(&udc
->lock
, flags
);
1638 /* Nuke all pending requests (does flush) */
1639 nuke(ep
, -ESHUTDOWN
);
1644 qe_ep_reset(udc
, ep
->epnum
);
1645 spin_unlock_irqrestore(&udc
->lock
, flags
);
1647 cpm_muram_free(cpm_muram_offset(ep
->rxbase
));
1649 if (ep
->dir
== USB_DIR_OUT
)
1650 size
= (ep
->ep
.maxpacket
+ USB_CRC_SIZE
+ 2) *
1651 (USB_BDRING_LEN_RX
+ 1);
1653 size
= (ep
->ep
.maxpacket
+ USB_CRC_SIZE
+ 2) *
1654 (USB_BDRING_LEN
+ 1);
1656 if (ep
->dir
!= USB_DIR_IN
) {
1659 dma_unmap_single(udc_controller
->gadget
.dev
.parent
,
1662 ep
->rxbuf_d
= DMA_ADDR_INVALID
;
1664 dma_sync_single_for_cpu(
1665 udc_controller
->gadget
.dev
.parent
,
1669 kfree(ep
->rxbuffer
);
1672 if (ep
->dir
!= USB_DIR_OUT
)
1675 dev_dbg(udc
->dev
, "disabled %s OK\n", _ep
->name
);
1679 static struct usb_request
*qe_alloc_request(struct usb_ep
*_ep
, gfp_t gfp_flags
)
1683 req
= kzalloc(sizeof(*req
), gfp_flags
);
1687 req
->req
.dma
= DMA_ADDR_INVALID
;
1689 INIT_LIST_HEAD(&req
->queue
);
1694 static void qe_free_request(struct usb_ep
*_ep
, struct usb_request
*_req
)
1698 req
= container_of(_req
, struct qe_req
, req
);
1704 static int __qe_ep_queue(struct usb_ep
*_ep
, struct usb_request
*_req
)
1706 struct qe_ep
*ep
= container_of(_ep
, struct qe_ep
, ep
);
1707 struct qe_req
*req
= container_of(_req
, struct qe_req
, req
);
1712 /* catch various bogus parameters */
1713 if (!_req
|| !req
->req
.complete
|| !req
->req
.buf
1714 || !list_empty(&req
->queue
)) {
1715 dev_dbg(udc
->dev
, "bad params\n");
1718 if (!_ep
|| (!ep
->desc
&& ep_index(ep
))) {
1719 dev_dbg(udc
->dev
, "bad ep\n");
1723 if (!udc
->driver
|| udc
->gadget
.speed
== USB_SPEED_UNKNOWN
)
1728 /* map virtual address to hardware */
1729 if (req
->req
.dma
== DMA_ADDR_INVALID
) {
1730 req
->req
.dma
= dma_map_single(ep
->udc
->gadget
.dev
.parent
,
1738 dma_sync_single_for_device(ep
->udc
->gadget
.dev
.parent
,
1739 req
->req
.dma
, req
->req
.length
,
1746 req
->req
.status
= -EINPROGRESS
;
1747 req
->req
.actual
= 0;
1749 list_add_tail(&req
->queue
, &ep
->queue
);
1750 dev_vdbg(udc
->dev
, "gadget have request in %s! %d\n",
1751 ep
->name
, req
->req
.length
);
1753 /* push the request to device */
1755 reval
= ep_req_send(ep
, req
);
1758 if (ep_index(ep
) == 0 && req
->req
.length
> 0) {
1760 udc
->ep0_state
= DATA_STATE_XMIT
;
1762 udc
->ep0_state
= DATA_STATE_RECV
;
1765 if (ep
->dir
== USB_DIR_OUT
)
1766 reval
= ep_req_receive(ep
, req
);
1771 /* queues (submits) an I/O request to an endpoint */
1772 static int qe_ep_queue(struct usb_ep
*_ep
, struct usb_request
*_req
,
1775 struct qe_ep
*ep
= container_of(_ep
, struct qe_ep
, ep
);
1776 struct qe_udc
*udc
= ep
->udc
;
1777 unsigned long flags
;
1780 spin_lock_irqsave(&udc
->lock
, flags
);
1781 ret
= __qe_ep_queue(_ep
, _req
);
1782 spin_unlock_irqrestore(&udc
->lock
, flags
);
1786 /* dequeues (cancels, unlinks) an I/O request from an endpoint */
1787 static int qe_ep_dequeue(struct usb_ep
*_ep
, struct usb_request
*_req
)
1789 struct qe_ep
*ep
= container_of(_ep
, struct qe_ep
, ep
);
1791 unsigned long flags
;
1796 spin_lock_irqsave(&ep
->udc
->lock
, flags
);
1798 /* make sure it's actually queued on this endpoint */
1799 list_for_each_entry(req
, &ep
->queue
, queue
) {
1800 if (&req
->req
== _req
)
1804 if (&req
->req
!= _req
) {
1805 spin_unlock_irqrestore(&ep
->udc
->lock
, flags
);
1809 done(ep
, req
, -ECONNRESET
);
1811 spin_unlock_irqrestore(&ep
->udc
->lock
, flags
);
1815 /*-----------------------------------------------------------------
1816 * modify the endpoint halt feature
1817 * @ep: the non-isochronous endpoint being stalled
1818 * @value: 1--set halt 0--clear halt
1819 * Returns zero, or a negative error code.
1820 *----------------------------------------------------------------*/
1821 static int qe_ep_set_halt(struct usb_ep
*_ep
, int value
)
1824 unsigned long flags
;
1825 int status
= -EOPNOTSUPP
;
1828 ep
= container_of(_ep
, struct qe_ep
, ep
);
1829 if (!_ep
|| !ep
->desc
) {
1835 /* Attempt to halt IN ep will fail if any transfer requests
1836 * are still queue */
1837 if (value
&& ep_is_in(ep
) && !list_empty(&ep
->queue
)) {
1843 spin_lock_irqsave(&ep
->udc
->lock
, flags
);
1844 qe_eptx_stall_change(ep
, value
);
1845 qe_eprx_stall_change(ep
, value
);
1846 spin_unlock_irqrestore(&ep
->udc
->lock
, flags
);
1848 if (ep
->epnum
== 0) {
1849 udc
->ep0_state
= WAIT_FOR_SETUP
;
1853 /* set data toggle to DATA0 on clear halt */
1857 dev_vdbg(udc
->dev
, "%s %s halt stat %d\n", ep
->ep
.name
,
1858 value
? "set" : "clear", status
);
1863 static struct usb_ep_ops qe_ep_ops
= {
1864 .enable
= qe_ep_enable
,
1865 .disable
= qe_ep_disable
,
1867 .alloc_request
= qe_alloc_request
,
1868 .free_request
= qe_free_request
,
1870 .queue
= qe_ep_queue
,
1871 .dequeue
= qe_ep_dequeue
,
1873 .set_halt
= qe_ep_set_halt
,
1876 /*------------------------------------------------------------------------
1877 Gadget Driver Layer Operations
1878 ------------------------------------------------------------------------*/
1880 /* Get the current frame number */
1881 static int qe_get_frame(struct usb_gadget
*gadget
)
1885 tmp
= in_be16(&udc_controller
->usb_param
->frame_n
);
1894 /* Tries to wake up the host connected to this gadget
1896 * Return : 0-success
1897 * Negative-this feature not enabled by host or not supported by device hw
1899 static int qe_wakeup(struct usb_gadget
*gadget
)
1904 /* Notify controller that VBUS is powered, Called by whatever
1905 detects VBUS sessions */
1906 static int qe_vbus_session(struct usb_gadget
*gadget
, int is_active
)
1911 /* constrain controller's VBUS power usage
1912 * This call is used by gadget drivers during SET_CONFIGURATION calls,
1913 * reporting how much power the device may consume. For example, this
1914 * could affect how quickly batteries are recharged.
1916 * Returns zero on success, else negative errno.
1918 static int qe_vbus_draw(struct usb_gadget
*gadget
, unsigned mA
)
1923 /* Change Data+ pullup status
1924 * this func is used by usb_gadget_connect/disconnect
1926 static int qe_pullup(struct usb_gadget
*gadget
, int is_on
)
1931 static int fsl_qe_start(struct usb_gadget_driver
*driver
,
1932 int (*bind
)(struct usb_gadget
*));
1933 static int fsl_qe_stop(struct usb_gadget_driver
*driver
);
1935 /* defined in usb_gadget.h */
1936 static struct usb_gadget_ops qe_gadget_ops
= {
1937 .get_frame
= qe_get_frame
,
1938 .wakeup
= qe_wakeup
,
1939 /* .set_selfpowered = qe_set_selfpowered,*/ /* always selfpowered */
1940 .vbus_session
= qe_vbus_session
,
1941 .vbus_draw
= qe_vbus_draw
,
1942 .pullup
= qe_pullup
,
1943 .start
= fsl_qe_start
,
1944 .stop
= fsl_qe_stop
,
1947 /*-------------------------------------------------------------------------
1948 USB ep0 Setup process in BUS Enumeration
1949 -------------------------------------------------------------------------*/
1950 static int udc_reset_ep_queue(struct qe_udc
*udc
, u8 pipe
)
1952 struct qe_ep
*ep
= &udc
->eps
[pipe
];
1954 nuke(ep
, -ECONNRESET
);
1959 static int reset_queues(struct qe_udc
*udc
)
1963 for (pipe
= 0; pipe
< USB_MAX_ENDPOINTS
; pipe
++)
1964 udc_reset_ep_queue(udc
, pipe
);
1966 /* report disconnect; the driver is already quiesced */
1967 spin_unlock(&udc
->lock
);
1968 udc
->driver
->disconnect(&udc
->gadget
);
1969 spin_lock(&udc
->lock
);
1974 static void ch9setaddress(struct qe_udc
*udc
, u16 value
, u16 index
,
1977 /* Save the new address to device struct */
1978 udc
->device_address
= (u8
) value
;
1979 /* Update usb state */
1980 udc
->usb_state
= USB_STATE_ADDRESS
;
1982 /* Status phase , send a ZLP */
1983 if (ep0_prime_status(udc
, USB_DIR_IN
))
1987 static void ownercomplete(struct usb_ep
*_ep
, struct usb_request
*_req
)
1989 struct qe_req
*req
= container_of(_req
, struct qe_req
, req
);
1991 req
->req
.buf
= NULL
;
1995 static void ch9getstatus(struct qe_udc
*udc
, u8 request_type
, u16 value
,
1996 u16 index
, u16 length
)
2004 if ((request_type
& USB_RECIP_MASK
) == USB_RECIP_DEVICE
) {
2005 /* Get device status */
2006 usb_status
= 1 << USB_DEVICE_SELF_POWERED
;
2007 } else if ((request_type
& USB_RECIP_MASK
) == USB_RECIP_INTERFACE
) {
2008 /* Get interface status */
2009 /* We don't have interface information in udc driver */
2011 } else if ((request_type
& USB_RECIP_MASK
) == USB_RECIP_ENDPOINT
) {
2012 /* Get endpoint status */
2013 int pipe
= index
& USB_ENDPOINT_NUMBER_MASK
;
2014 struct qe_ep
*target_ep
= &udc
->eps
[pipe
];
2017 /* stall if endpoint doesn't exist */
2018 if (!target_ep
->desc
)
2021 usep
= in_be16(&udc
->usb_regs
->usb_usep
[pipe
]);
2022 if (index
& USB_DIR_IN
) {
2023 if (target_ep
->dir
!= USB_DIR_IN
)
2025 if ((usep
& USB_THS_MASK
) == USB_THS_STALL
)
2026 usb_status
= 1 << USB_ENDPOINT_HALT
;
2028 if (target_ep
->dir
!= USB_DIR_OUT
)
2030 if ((usep
& USB_RHS_MASK
) == USB_RHS_STALL
)
2031 usb_status
= 1 << USB_ENDPOINT_HALT
;
2035 req
= container_of(qe_alloc_request(&ep
->ep
, GFP_KERNEL
),
2036 struct qe_req
, req
);
2037 req
->req
.length
= 2;
2038 req
->req
.buf
= udc
->statusbuf
;
2039 *(u16
*)req
->req
.buf
= cpu_to_le16(usb_status
);
2040 req
->req
.status
= -EINPROGRESS
;
2041 req
->req
.actual
= 0;
2042 req
->req
.complete
= ownercomplete
;
2044 udc
->ep0_dir
= USB_DIR_IN
;
2047 status
= __qe_ep_queue(&ep
->ep
, &req
->req
);
2052 dev_err(udc
->dev
, "Can't respond to getstatus request \n");
2056 /* only handle the setup request, suppose the device in normal status */
2057 static void setup_received_handle(struct qe_udc
*udc
,
2058 struct usb_ctrlrequest
*setup
)
2060 /* Fix Endian (udc->local_setup_buff is cpu Endian now)*/
2061 u16 wValue
= le16_to_cpu(setup
->wValue
);
2062 u16 wIndex
= le16_to_cpu(setup
->wIndex
);
2063 u16 wLength
= le16_to_cpu(setup
->wLength
);
2065 /* clear the previous request in the ep0 */
2066 udc_reset_ep_queue(udc
, 0);
2068 if (setup
->bRequestType
& USB_DIR_IN
)
2069 udc
->ep0_dir
= USB_DIR_IN
;
2071 udc
->ep0_dir
= USB_DIR_OUT
;
2073 switch (setup
->bRequest
) {
2074 case USB_REQ_GET_STATUS
:
2075 /* Data+Status phase form udc */
2076 if ((setup
->bRequestType
& (USB_DIR_IN
| USB_TYPE_MASK
))
2077 != (USB_DIR_IN
| USB_TYPE_STANDARD
))
2079 ch9getstatus(udc
, setup
->bRequestType
, wValue
, wIndex
,
2083 case USB_REQ_SET_ADDRESS
:
2084 /* Status phase from udc */
2085 if (setup
->bRequestType
!= (USB_DIR_OUT
| USB_TYPE_STANDARD
|
2088 ch9setaddress(udc
, wValue
, wIndex
, wLength
);
2091 case USB_REQ_CLEAR_FEATURE
:
2092 case USB_REQ_SET_FEATURE
:
2093 /* Requests with no data phase, status phase from udc */
2094 if ((setup
->bRequestType
& USB_TYPE_MASK
)
2095 != USB_TYPE_STANDARD
)
2098 if ((setup
->bRequestType
& USB_RECIP_MASK
)
2099 == USB_RECIP_ENDPOINT
) {
2100 int pipe
= wIndex
& USB_ENDPOINT_NUMBER_MASK
;
2103 if (wValue
!= 0 || wLength
!= 0
2104 || pipe
> USB_MAX_ENDPOINTS
)
2106 ep
= &udc
->eps
[pipe
];
2108 spin_unlock(&udc
->lock
);
2109 qe_ep_set_halt(&ep
->ep
,
2110 (setup
->bRequest
== USB_REQ_SET_FEATURE
)
2112 spin_lock(&udc
->lock
);
2115 ep0_prime_status(udc
, USB_DIR_IN
);
2124 /* Data phase from gadget, status phase from udc */
2125 if (setup
->bRequestType
& USB_DIR_IN
) {
2126 udc
->ep0_state
= DATA_STATE_XMIT
;
2127 udc
->ep0_dir
= USB_DIR_IN
;
2129 udc
->ep0_state
= DATA_STATE_RECV
;
2130 udc
->ep0_dir
= USB_DIR_OUT
;
2132 spin_unlock(&udc
->lock
);
2133 if (udc
->driver
->setup(&udc
->gadget
,
2134 &udc
->local_setup_buff
) < 0)
2136 spin_lock(&udc
->lock
);
2138 /* No data phase, IN status from gadget */
2139 udc
->ep0_dir
= USB_DIR_IN
;
2140 spin_unlock(&udc
->lock
);
2141 if (udc
->driver
->setup(&udc
->gadget
,
2142 &udc
->local_setup_buff
) < 0)
2144 spin_lock(&udc
->lock
);
2145 udc
->ep0_state
= DATA_STATE_NEED_ZLP
;
2149 /*-------------------------------------------------------------------------
2150 USB Interrupt handlers
2151 -------------------------------------------------------------------------*/
2152 static void suspend_irq(struct qe_udc
*udc
)
2154 udc
->resume_state
= udc
->usb_state
;
2155 udc
->usb_state
= USB_STATE_SUSPENDED
;
2157 /* report suspend to the driver ,serial.c not support this*/
2158 if (udc
->driver
->suspend
)
2159 udc
->driver
->suspend(&udc
->gadget
);
2162 static void resume_irq(struct qe_udc
*udc
)
2164 udc
->usb_state
= udc
->resume_state
;
2165 udc
->resume_state
= 0;
2167 /* report resume to the driver , serial.c not support this*/
2168 if (udc
->driver
->resume
)
2169 udc
->driver
->resume(&udc
->gadget
);
2172 static void idle_irq(struct qe_udc
*udc
)
2176 usbs
= in_8(&udc
->usb_regs
->usb_usbs
);
2177 if (usbs
& USB_IDLE_STATUS_MASK
) {
2178 if ((udc
->usb_state
) != USB_STATE_SUSPENDED
)
2181 if (udc
->usb_state
== USB_STATE_SUSPENDED
)
2186 static int reset_irq(struct qe_udc
*udc
)
2190 if (udc
->usb_state
== USB_STATE_DEFAULT
)
2194 out_8(&udc
->usb_regs
->usb_usadr
, 0);
2196 for (i
= 0; i
< USB_MAX_ENDPOINTS
; i
++) {
2197 if (udc
->eps
[i
].init
)
2198 qe_ep_reset(udc
, i
);
2202 udc
->usb_state
= USB_STATE_DEFAULT
;
2203 udc
->ep0_state
= WAIT_FOR_SETUP
;
2204 udc
->ep0_dir
= USB_DIR_OUT
;
2209 static int bsy_irq(struct qe_udc
*udc
)
2214 static int txe_irq(struct qe_udc
*udc
)
2219 /* ep0 tx interrupt also in here */
2220 static int tx_irq(struct qe_udc
*udc
)
2223 struct qe_bd __iomem
*bd
;
2226 if ((udc
->usb_state
== USB_STATE_ADDRESS
)
2227 && (in_8(&udc
->usb_regs
->usb_usadr
) == 0))
2228 out_8(&udc
->usb_regs
->usb_usadr
, udc
->device_address
);
2230 for (i
= (USB_MAX_ENDPOINTS
-1); ((i
>= 0) && (res
== 0)); i
--) {
2232 if (ep
&& ep
->init
&& (ep
->dir
!= USB_DIR_OUT
)) {
2234 if (!(in_be32((u32 __iomem
*)bd
) & T_R
)
2235 && (in_be32(&bd
->buf
))) {
2236 /* confirm the transmitted bd */
2238 res
= qe_ep0_txconf(ep
);
2240 res
= qe_ep_txconf(ep
);
2248 /* setup packect's rx is handle in the function too */
2249 static void rx_irq(struct qe_udc
*udc
)
2252 struct qe_bd __iomem
*bd
;
2255 for (i
= 0; i
< USB_MAX_ENDPOINTS
; i
++) {
2257 if (ep
&& ep
->init
&& (ep
->dir
!= USB_DIR_IN
)) {
2259 if (!(in_be32((u32 __iomem
*)bd
) & R_E
)
2260 && (in_be32(&bd
->buf
))) {
2261 if (ep
->epnum
== 0) {
2264 /*non-setup package receive*/
2272 static irqreturn_t
qe_udc_irq(int irq
, void *_udc
)
2274 struct qe_udc
*udc
= (struct qe_udc
*)_udc
;
2276 irqreturn_t status
= IRQ_NONE
;
2277 unsigned long flags
;
2279 spin_lock_irqsave(&udc
->lock
, flags
);
2281 irq_src
= in_be16(&udc
->usb_regs
->usb_usber
) &
2282 in_be16(&udc
->usb_regs
->usb_usbmr
);
2283 /* Clear notification bits */
2284 out_be16(&udc
->usb_regs
->usb_usber
, irq_src
);
2286 if (irq_src
& USB_E_IDLE_MASK
) {
2288 irq_src
&= ~USB_E_IDLE_MASK
;
2289 status
= IRQ_HANDLED
;
2292 if (irq_src
& USB_E_TXB_MASK
) {
2294 irq_src
&= ~USB_E_TXB_MASK
;
2295 status
= IRQ_HANDLED
;
2298 if (irq_src
& USB_E_RXB_MASK
) {
2300 irq_src
&= ~USB_E_RXB_MASK
;
2301 status
= IRQ_HANDLED
;
2304 if (irq_src
& USB_E_RESET_MASK
) {
2306 irq_src
&= ~USB_E_RESET_MASK
;
2307 status
= IRQ_HANDLED
;
2310 if (irq_src
& USB_E_BSY_MASK
) {
2312 irq_src
&= ~USB_E_BSY_MASK
;
2313 status
= IRQ_HANDLED
;
2316 if (irq_src
& USB_E_TXE_MASK
) {
2318 irq_src
&= ~USB_E_TXE_MASK
;
2319 status
= IRQ_HANDLED
;
2322 spin_unlock_irqrestore(&udc
->lock
, flags
);
2327 /*-------------------------------------------------------------------------
2328 Gadget driver probe and unregister.
2329 --------------------------------------------------------------------------*/
2330 static int fsl_qe_start(struct usb_gadget_driver
*driver
,
2331 int (*bind
)(struct usb_gadget
*))
2334 unsigned long flags
= 0;
2336 /* standard operations */
2337 if (!udc_controller
)
2340 if (!driver
|| driver
->max_speed
< USB_SPEED_FULL
2341 || !bind
|| !driver
->disconnect
|| !driver
->setup
)
2344 if (udc_controller
->driver
)
2347 /* lock is needed but whether should use this lock or another */
2348 spin_lock_irqsave(&udc_controller
->lock
, flags
);
2350 driver
->driver
.bus
= NULL
;
2351 /* hook up the driver */
2352 udc_controller
->driver
= driver
;
2353 udc_controller
->gadget
.dev
.driver
= &driver
->driver
;
2354 udc_controller
->gadget
.speed
= driver
->max_speed
;
2355 spin_unlock_irqrestore(&udc_controller
->lock
, flags
);
2357 retval
= bind(&udc_controller
->gadget
);
2359 dev_err(udc_controller
->dev
, "bind to %s --> %d",
2360 driver
->driver
.name
, retval
);
2361 udc_controller
->gadget
.dev
.driver
= NULL
;
2362 udc_controller
->driver
= NULL
;
2366 /* Enable IRQ reg and Set usbcmd reg EN bit */
2369 out_be16(&udc_controller
->usb_regs
->usb_usber
, 0xffff);
2370 out_be16(&udc_controller
->usb_regs
->usb_usbmr
, USB_E_DEFAULT_DEVICE
);
2371 udc_controller
->usb_state
= USB_STATE_ATTACHED
;
2372 udc_controller
->ep0_state
= WAIT_FOR_SETUP
;
2373 udc_controller
->ep0_dir
= USB_DIR_OUT
;
2374 dev_info(udc_controller
->dev
, "%s bind to driver %s \n",
2375 udc_controller
->gadget
.name
, driver
->driver
.name
);
2379 static int fsl_qe_stop(struct usb_gadget_driver
*driver
)
2381 struct qe_ep
*loop_ep
;
2382 unsigned long flags
;
2384 if (!udc_controller
)
2387 if (!driver
|| driver
!= udc_controller
->driver
)
2390 /* stop usb controller, disable intr */
2393 /* in fact, no needed */
2394 udc_controller
->usb_state
= USB_STATE_ATTACHED
;
2395 udc_controller
->ep0_state
= WAIT_FOR_SETUP
;
2396 udc_controller
->ep0_dir
= 0;
2398 /* stand operation */
2399 spin_lock_irqsave(&udc_controller
->lock
, flags
);
2400 udc_controller
->gadget
.speed
= USB_SPEED_UNKNOWN
;
2401 nuke(&udc_controller
->eps
[0], -ESHUTDOWN
);
2402 list_for_each_entry(loop_ep
, &udc_controller
->gadget
.ep_list
,
2404 nuke(loop_ep
, -ESHUTDOWN
);
2405 spin_unlock_irqrestore(&udc_controller
->lock
, flags
);
2407 /* report disconnect; the controller is already quiesced */
2408 driver
->disconnect(&udc_controller
->gadget
);
2410 /* unbind gadget and unhook driver. */
2411 driver
->unbind(&udc_controller
->gadget
);
2412 udc_controller
->gadget
.dev
.driver
= NULL
;
2413 udc_controller
->driver
= NULL
;
2415 dev_info(udc_controller
->dev
, "unregistered gadget driver '%s'\r\n",
2416 driver
->driver
.name
);
2420 /* udc structure's alloc and setup, include ep-param alloc */
2421 static struct qe_udc __devinit
*qe_udc_config(struct platform_device
*ofdev
)
2424 struct device_node
*np
= ofdev
->dev
.of_node
;
2425 unsigned int tmp_addr
= 0;
2426 struct usb_device_para __iomem
*usbpram
;
2431 udc
= kzalloc(sizeof(*udc
), GFP_KERNEL
);
2433 dev_err(&ofdev
->dev
, "malloc udc failed\n");
2437 udc
->dev
= &ofdev
->dev
;
2439 /* get default address of usb parameter in MURAM from device tree */
2440 offset
= *of_get_address(np
, 1, &size
, NULL
);
2441 udc
->usb_param
= cpm_muram_addr(offset
);
2442 memset_io(udc
->usb_param
, 0, size
);
2444 usbpram
= udc
->usb_param
;
2445 out_be16(&usbpram
->frame_n
, 0);
2446 out_be32(&usbpram
->rstate
, 0);
2448 tmp_addr
= cpm_muram_alloc((USB_MAX_ENDPOINTS
*
2449 sizeof(struct usb_ep_para
)),
2450 USB_EP_PARA_ALIGNMENT
);
2451 if (IS_ERR_VALUE(tmp_addr
))
2454 for (i
= 0; i
< USB_MAX_ENDPOINTS
; i
++) {
2455 out_be16(&usbpram
->epptr
[i
], (u16
)tmp_addr
);
2456 udc
->ep_param
[i
] = cpm_muram_addr(tmp_addr
);
2460 memset_io(udc
->ep_param
[0], 0,
2461 USB_MAX_ENDPOINTS
* sizeof(struct usb_ep_para
));
2463 udc
->resume_state
= USB_STATE_NOTATTACHED
;
2464 udc
->usb_state
= USB_STATE_POWERED
;
2467 spin_lock_init(&udc
->lock
);
2475 /* USB Controller register init */
2476 static int __devinit
qe_udc_reg_init(struct qe_udc
*udc
)
2478 struct usb_ctlr __iomem
*qe_usbregs
;
2479 qe_usbregs
= udc
->usb_regs
;
2481 /* Spec says that we must enable the USB controller to change mode. */
2482 out_8(&qe_usbregs
->usb_usmod
, 0x01);
2483 /* Mode changed, now disable it, since muram isn't initialized yet. */
2484 out_8(&qe_usbregs
->usb_usmod
, 0x00);
2486 /* Initialize the rest. */
2487 out_be16(&qe_usbregs
->usb_usbmr
, 0);
2488 out_8(&qe_usbregs
->usb_uscom
, 0);
2489 out_be16(&qe_usbregs
->usb_usber
, USBER_ALL_CLEAR
);
2494 static int __devinit
qe_ep_config(struct qe_udc
*udc
, unsigned char pipe_num
)
2496 struct qe_ep
*ep
= &udc
->eps
[pipe_num
];
2499 strcpy(ep
->name
, ep_name
[pipe_num
]);
2500 ep
->ep
.name
= ep_name
[pipe_num
];
2502 ep
->ep
.ops
= &qe_ep_ops
;
2504 ep
->ep
.maxpacket
= (unsigned short) ~0;
2507 ep
->epnum
= (u8
)pipe_num
;
2514 ep
->state
= EP_STATE_IDLE
;
2517 /* the queue lists any req for this ep */
2518 INIT_LIST_HEAD(&ep
->queue
);
2520 /* gagdet.ep_list used for ep_autoconfig so no ep0*/
2522 list_add_tail(&ep
->ep
.ep_list
, &udc
->gadget
.ep_list
);
2524 ep
->gadget
= &udc
->gadget
;
2529 /*-----------------------------------------------------------------------
2530 * UDC device Driver operation functions *
2531 *----------------------------------------------------------------------*/
2532 static void qe_udc_release(struct device
*dev
)
2536 complete(udc_controller
->done
);
2537 cpm_muram_free(cpm_muram_offset(udc_controller
->ep_param
[0]));
2538 for (i
= 0; i
< USB_MAX_ENDPOINTS
; i
++)
2539 udc_controller
->ep_param
[i
] = NULL
;
2541 kfree(udc_controller
);
2542 udc_controller
= NULL
;
2545 /* Driver probe functions */
2546 static const struct of_device_id qe_udc_match
[];
2547 static int __devinit
qe_udc_probe(struct platform_device
*ofdev
)
2549 const struct of_device_id
*match
;
2550 struct device_node
*np
= ofdev
->dev
.of_node
;
2552 unsigned int ret
= 0;
2556 match
= of_match_device(qe_udc_match
, &ofdev
->dev
);
2560 prop
= of_get_property(np
, "mode", NULL
);
2561 if (!prop
|| strcmp(prop
, "peripheral"))
2564 /* Initialize the udc structure including QH member and other member */
2565 udc_controller
= qe_udc_config(ofdev
);
2566 if (!udc_controller
) {
2567 dev_err(&ofdev
->dev
, "failed to initialize\n");
2571 udc_controller
->soc_type
= (unsigned long)match
->data
;
2572 udc_controller
->usb_regs
= of_iomap(np
, 0);
2573 if (!udc_controller
->usb_regs
) {
2578 /* initialize usb hw reg except for regs for EP,
2579 * leave usbintr reg untouched*/
2580 qe_udc_reg_init(udc_controller
);
2582 /* here comes the stand operations for probe
2583 * set the qe_udc->gadget.xxx */
2584 udc_controller
->gadget
.ops
= &qe_gadget_ops
;
2586 /* gadget.ep0 is a pointer */
2587 udc_controller
->gadget
.ep0
= &udc_controller
->eps
[0].ep
;
2589 INIT_LIST_HEAD(&udc_controller
->gadget
.ep_list
);
2591 /* modify in register gadget process */
2592 udc_controller
->gadget
.speed
= USB_SPEED_UNKNOWN
;
2594 /* name: Identifies the controller hardware type. */
2595 udc_controller
->gadget
.name
= driver_name
;
2597 device_initialize(&udc_controller
->gadget
.dev
);
2599 dev_set_name(&udc_controller
->gadget
.dev
, "gadget");
2601 udc_controller
->gadget
.dev
.release
= qe_udc_release
;
2602 udc_controller
->gadget
.dev
.parent
= &ofdev
->dev
;
2604 /* initialize qe_ep struct */
2605 for (i
= 0; i
< USB_MAX_ENDPOINTS
; i
++) {
2606 /* because the ep type isn't decide here so
2607 * qe_ep_init() should be called in ep_enable() */
2609 /* setup the qe_ep struct and link ep.ep.list
2610 * into gadget.ep_list */
2611 qe_ep_config(udc_controller
, (unsigned char)i
);
2614 /* ep0 initialization in here */
2615 ret
= qe_ep_init(udc_controller
, 0, &qe_ep0_desc
);
2619 /* create a buf for ZLP send, need to remain zeroed */
2620 udc_controller
->nullbuf
= kzalloc(256, GFP_KERNEL
);
2621 if (udc_controller
->nullbuf
== NULL
) {
2622 dev_err(udc_controller
->dev
, "cannot alloc nullbuf\n");
2627 /* buffer for data of get_status request */
2628 udc_controller
->statusbuf
= kzalloc(2, GFP_KERNEL
);
2629 if (udc_controller
->statusbuf
== NULL
) {
2634 udc_controller
->nullp
= virt_to_phys((void *)udc_controller
->nullbuf
);
2635 if (udc_controller
->nullp
== DMA_ADDR_INVALID
) {
2636 udc_controller
->nullp
= dma_map_single(
2637 udc_controller
->gadget
.dev
.parent
,
2638 udc_controller
->nullbuf
,
2641 udc_controller
->nullmap
= 1;
2643 dma_sync_single_for_device(udc_controller
->gadget
.dev
.parent
,
2644 udc_controller
->nullp
, 256,
2648 tasklet_init(&udc_controller
->rx_tasklet
, ep_rx_tasklet
,
2649 (unsigned long)udc_controller
);
2650 /* request irq and disable DR */
2651 udc_controller
->usb_irq
= irq_of_parse_and_map(np
, 0);
2652 if (!udc_controller
->usb_irq
) {
2657 ret
= request_irq(udc_controller
->usb_irq
, qe_udc_irq
, 0,
2658 driver_name
, udc_controller
);
2660 dev_err(udc_controller
->dev
, "cannot request irq %d err %d \n",
2661 udc_controller
->usb_irq
, ret
);
2665 ret
= device_add(&udc_controller
->gadget
.dev
);
2669 ret
= usb_add_gadget_udc(&ofdev
->dev
, &udc_controller
->gadget
);
2673 dev_info(udc_controller
->dev
,
2674 "%s USB controller initialized as device\n",
2675 (udc_controller
->soc_type
== PORT_QE
) ? "QE" : "CPM");
2679 device_unregister(&udc_controller
->gadget
.dev
);
2681 free_irq(udc_controller
->usb_irq
, udc_controller
);
2683 irq_dispose_mapping(udc_controller
->usb_irq
);
2685 if (udc_controller
->nullmap
) {
2686 dma_unmap_single(udc_controller
->gadget
.dev
.parent
,
2687 udc_controller
->nullp
, 256,
2689 udc_controller
->nullp
= DMA_ADDR_INVALID
;
2691 dma_sync_single_for_cpu(udc_controller
->gadget
.dev
.parent
,
2692 udc_controller
->nullp
, 256,
2695 kfree(udc_controller
->statusbuf
);
2697 kfree(udc_controller
->nullbuf
);
2699 ep
= &udc_controller
->eps
[0];
2700 cpm_muram_free(cpm_muram_offset(ep
->rxbase
));
2702 kfree(ep
->rxbuffer
);
2705 iounmap(udc_controller
->usb_regs
);
2707 kfree(udc_controller
);
2708 udc_controller
= NULL
;
2713 static int qe_udc_suspend(struct platform_device
*dev
, pm_message_t state
)
2718 static int qe_udc_resume(struct platform_device
*dev
)
2724 static int __devexit
qe_udc_remove(struct platform_device
*ofdev
)
2729 DECLARE_COMPLETION(done
);
2731 if (!udc_controller
)
2734 usb_del_gadget_udc(&udc_controller
->gadget
);
2736 udc_controller
->done
= &done
;
2737 tasklet_disable(&udc_controller
->rx_tasklet
);
2739 if (udc_controller
->nullmap
) {
2740 dma_unmap_single(udc_controller
->gadget
.dev
.parent
,
2741 udc_controller
->nullp
, 256,
2743 udc_controller
->nullp
= DMA_ADDR_INVALID
;
2745 dma_sync_single_for_cpu(udc_controller
->gadget
.dev
.parent
,
2746 udc_controller
->nullp
, 256,
2749 kfree(udc_controller
->statusbuf
);
2750 kfree(udc_controller
->nullbuf
);
2752 ep
= &udc_controller
->eps
[0];
2753 cpm_muram_free(cpm_muram_offset(ep
->rxbase
));
2754 size
= (ep
->ep
.maxpacket
+ USB_CRC_SIZE
+ 2) * (USB_BDRING_LEN
+ 1);
2758 dma_unmap_single(udc_controller
->gadget
.dev
.parent
,
2761 ep
->rxbuf_d
= DMA_ADDR_INVALID
;
2763 dma_sync_single_for_cpu(udc_controller
->gadget
.dev
.parent
,
2768 kfree(ep
->rxbuffer
);
2771 free_irq(udc_controller
->usb_irq
, udc_controller
);
2772 irq_dispose_mapping(udc_controller
->usb_irq
);
2774 tasklet_kill(&udc_controller
->rx_tasklet
);
2776 iounmap(udc_controller
->usb_regs
);
2778 device_unregister(&udc_controller
->gadget
.dev
);
2779 /* wait for release() of gadget.dev to free udc */
2780 wait_for_completion(&done
);
2785 /*-------------------------------------------------------------------------*/
2786 static const struct of_device_id qe_udc_match
[] __devinitconst
= {
2788 .compatible
= "fsl,mpc8323-qe-usb",
2789 .data
= (void *)PORT_QE
,
2792 .compatible
= "fsl,mpc8360-qe-usb",
2793 .data
= (void *)PORT_QE
,
2796 .compatible
= "fsl,mpc8272-cpm-usb",
2797 .data
= (void *)PORT_CPM
,
2802 MODULE_DEVICE_TABLE(of
, qe_udc_match
);
2804 static struct platform_driver udc_driver
= {
2806 .name
= (char *)driver_name
,
2807 .owner
= THIS_MODULE
,
2808 .of_match_table
= qe_udc_match
,
2810 .probe
= qe_udc_probe
,
2811 .remove
= __devexit_p(qe_udc_remove
),
2813 .suspend
= qe_udc_suspend
,
2814 .resume
= qe_udc_resume
,
2818 module_platform_driver(udc_driver
);
2820 MODULE_DESCRIPTION(DRIVER_DESC
);
2821 MODULE_AUTHOR(DRIVER_AUTHOR
);
2822 MODULE_LICENSE("GPL");