2 * Remote VUB300 SDIO/SDmem Host Controller Driver
4 * Copyright (C) 2010 Elan Digital Systems Limited
6 * based on USB Skeleton driver - 2.2
8 * Copyright (C) 2001-2004 Greg Kroah-Hartman (greg@kroah.com)
10 * This program is free software; you can redistribute it and/or
11 * modify it under the terms of the GNU General Public License as
12 * published by the Free Software Foundation, version 2
14 * VUB300: is a USB 2.0 client device with a single SDIO/SDmem/MMC slot
15 * Any SDIO/SDmem/MMC device plugged into the VUB300 will appear,
16 * by virtue of this driver, to have been plugged into a local
17 * SDIO host controller, similar to, say, a PCI Ricoh controller
18 * This is because this kernel device driver is both a USB 2.0
19 * client device driver AND an MMC host controller driver. Thus
20 * if there is an existing driver for the inserted SDIO/SDmem/MMC
21 * device then that driver will be used by the kernel to manage
22 * the device in exactly the same fashion as if it had been
23 * directly plugged into, say, a local pci bus Ricoh controller
25 * RANT: this driver was written using a display 128x48 - converting it
26 * to a line width of 80 makes it very difficult to support. In
27 * particular functions have been broken down into sub functions
28 * and the original meaningful names have been shortened into
30 * The problem is that executing a fragment of code subject to
31 * two conditions means an indentation of 24, thus leaving only
32 * 56 characters for a C statement. And that is quite ridiculous!
34 * Data types: data passed to/from the VUB300 is fixed to a number of
35 * bits and driver data fields reflect that limit by using
38 #include <linux/kernel.h>
39 #include <linux/errno.h>
40 #include <linux/init.h>
41 #include <linux/slab.h>
42 #include <linux/module.h>
43 #include <linux/kref.h>
44 #include <linux/uaccess.h>
45 #include <linux/usb.h>
46 #include <linux/mutex.h>
47 #include <linux/mmc/host.h>
48 #include <linux/mmc/card.h>
49 #include <linux/mmc/sdio_func.h>
50 #include <linux/mmc/sdio_ids.h>
51 #include <linux/workqueue.h>
52 #include <linux/ctype.h>
53 #include <linux/firmware.h>
54 #include <linux/scatterlist.h>
56 struct host_controller_info
{
62 #define FIRMWARE_BLOCK_BOUNDARY 1024
63 struct sd_command_header
{
67 u8 command_type
; /* Bit7 - Rd/Wr */
69 u8 transfer_size
[4]; /* ReadSize + ReadSize */
75 u8 reserved
[44]; /* to pad out to 64 bytes */
78 struct sd_irqpoll_header
{
82 u8 command_type
; /* Bit7 - Rd/Wr */
83 u8 padding
[16]; /* don't ask why !! */
86 u8 reserved
[42]; /* to pad out to 64 bytes */
89 struct sd_common_header
{
95 struct sd_response_header
{
101 u8 command_response
[0];
104 struct sd_status_header
{
110 u16 host_header_size
;
111 u16 func_header_size
;
112 u16 ctrl_header_size
;
115 struct sd_error_header
{
122 struct sd_interrupt_header
{
128 struct offload_registers_access
{
133 #define INTERRUPT_REGISTER_ACCESSES 15
134 struct sd_offloaded_interrupt
{
138 struct offload_registers_access reg
[INTERRUPT_REGISTER_ACCESSES
];
141 struct sd_register_header
{
147 u8 command_response
[6];
150 #define PIGGYBACK_REGISTER_ACCESSES 14
151 struct sd_offloaded_piggyback
{
152 struct sd_register_header sdio
;
153 struct offload_registers_access reg
[PIGGYBACK_REGISTER_ACCESSES
];
157 struct sd_common_header common
;
158 struct sd_status_header status
;
159 struct sd_error_header error
;
160 struct sd_interrupt_header interrupt
;
161 struct sd_response_header response
;
162 struct sd_offloaded_interrupt irq
;
163 struct sd_offloaded_piggyback pig
;
167 struct sd_command_header head
;
168 struct sd_irqpoll_header poll
;
171 enum SD_RESPONSE_TYPE
{
172 SDRT_UNSPECIFIED
= 0,
185 #define RESPONSE_INTERRUPT 0x01
186 #define RESPONSE_ERROR 0x02
187 #define RESPONSE_STATUS 0x03
188 #define RESPONSE_IRQ_DISABLED 0x05
189 #define RESPONSE_IRQ_ENABLED 0x06
190 #define RESPONSE_PIGGYBACKED 0x07
191 #define RESPONSE_NO_INTERRUPT 0x08
192 #define RESPONSE_PIG_DISABLED 0x09
193 #define RESPONSE_PIG_ENABLED 0x0A
194 #define SD_ERROR_1BIT_TIMEOUT 0x01
195 #define SD_ERROR_4BIT_TIMEOUT 0x02
196 #define SD_ERROR_1BIT_CRC_WRONG 0x03
197 #define SD_ERROR_4BIT_CRC_WRONG 0x04
198 #define SD_ERROR_1BIT_CRC_ERROR 0x05
199 #define SD_ERROR_4BIT_CRC_ERROR 0x06
200 #define SD_ERROR_NO_CMD_ENDBIT 0x07
201 #define SD_ERROR_NO_1BIT_DATEND 0x08
202 #define SD_ERROR_NO_4BIT_DATEND 0x09
203 #define SD_ERROR_1BIT_UNEXPECTED_TIMEOUT 0x0A
204 #define SD_ERROR_4BIT_UNEXPECTED_TIMEOUT 0x0B
205 #define SD_ERROR_ILLEGAL_COMMAND 0x0C
206 #define SD_ERROR_NO_DEVICE 0x0D
207 #define SD_ERROR_TRANSFER_LENGTH 0x0E
208 #define SD_ERROR_1BIT_DATA_TIMEOUT 0x0F
209 #define SD_ERROR_4BIT_DATA_TIMEOUT 0x10
210 #define SD_ERROR_ILLEGAL_STATE 0x11
211 #define SD_ERROR_UNKNOWN_ERROR 0x12
212 #define SD_ERROR_RESERVED_ERROR 0x13
213 #define SD_ERROR_INVALID_FUNCTION 0x14
214 #define SD_ERROR_OUT_OF_RANGE 0x15
215 #define SD_ERROR_STAT_CMD 0x16
216 #define SD_ERROR_STAT_DATA 0x17
217 #define SD_ERROR_STAT_CMD_TIMEOUT 0x18
218 #define SD_ERROR_SDCRDY_STUCK 0x19
219 #define SD_ERROR_UNHANDLED 0x1A
220 #define SD_ERROR_OVERRUN 0x1B
221 #define SD_ERROR_PIO_TIMEOUT 0x1C
223 #define FUN(c) (0x000007 & (c->arg>>28))
224 #define REG(c) (0x01FFFF & (c->arg>>9))
226 static bool limit_speed_to_24_MHz
;
227 module_param(limit_speed_to_24_MHz
, bool, 0644);
228 MODULE_PARM_DESC(limit_speed_to_24_MHz
, "Limit Max SDIO Clock Speed to 24 MHz");
230 static bool pad_input_to_usb_pkt
;
231 module_param(pad_input_to_usb_pkt
, bool, 0644);
232 MODULE_PARM_DESC(pad_input_to_usb_pkt
,
233 "Pad USB data input transfers to whole USB Packet");
235 static bool disable_offload_processing
;
236 module_param(disable_offload_processing
, bool, 0644);
237 MODULE_PARM_DESC(disable_offload_processing
, "Disable Offload Processing");
239 static bool force_1_bit_data_xfers
;
240 module_param(force_1_bit_data_xfers
, bool, 0644);
241 MODULE_PARM_DESC(force_1_bit_data_xfers
,
242 "Force SDIO Data Transfers to 1-bit Mode");
244 static bool force_polling_for_irqs
;
245 module_param(force_polling_for_irqs
, bool, 0644);
246 MODULE_PARM_DESC(force_polling_for_irqs
, "Force Polling for SDIO interrupts");
248 static int firmware_irqpoll_timeout
= 1024;
249 module_param(firmware_irqpoll_timeout
, int, 0644);
250 MODULE_PARM_DESC(firmware_irqpoll_timeout
, "VUB300 firmware irqpoll timeout");
252 static int force_max_req_size
= 128;
253 module_param(force_max_req_size
, int, 0644);
254 MODULE_PARM_DESC(force_max_req_size
, "set max request size in kBytes");
256 #ifdef SMSC_DEVELOPMENT_BOARD
257 static int firmware_rom_wait_states
= 0x04;
259 static int firmware_rom_wait_states
= 0x1C;
262 module_param(firmware_rom_wait_states
, int, 0644);
263 MODULE_PARM_DESC(firmware_rom_wait_states
,
264 "ROM wait states byte=RRRIIEEE (Reserved Internal External)");
266 #define ELAN_VENDOR_ID 0x2201
267 #define VUB300_VENDOR_ID 0x0424
268 #define VUB300_PRODUCT_ID 0x012C
269 static struct usb_device_id vub300_table
[] = {
270 {USB_DEVICE(ELAN_VENDOR_ID
, VUB300_PRODUCT_ID
)},
271 {USB_DEVICE(VUB300_VENDOR_ID
, VUB300_PRODUCT_ID
)},
272 {} /* Terminating entry */
274 MODULE_DEVICE_TABLE(usb
, vub300_table
);
276 static struct workqueue_struct
*cmndworkqueue
;
277 static struct workqueue_struct
*pollworkqueue
;
278 static struct workqueue_struct
*deadworkqueue
;
280 static inline int interface_to_InterfaceNumber(struct usb_interface
*interface
)
284 if (!interface
->cur_altsetting
)
286 return interface
->cur_altsetting
->desc
.bInterfaceNumber
;
289 struct sdio_register
{
291 unsigned sdio_reg
:17;
296 unsigned sparebit
:26;
299 struct vub300_mmc_host
{
300 struct usb_device
*udev
;
301 struct usb_interface
*interface
;
303 struct mutex cmd_mutex
;
304 struct mutex irq_mutex
;
305 char vub_name
[3 + (9 * 8) + 4 + 1]; /* max of 7 sdio fn's */
306 u8 cmnd_out_ep
; /* EndPoint for commands */
307 u8 cmnd_res_ep
; /* EndPoint for responses */
308 u8 data_out_ep
; /* EndPoint for out data */
309 u8 data_inp_ep
; /* EndPoint for inp data */
313 bool large_usb_packets
;
314 bool app_spec
; /* ApplicationSpecific */
315 bool irq_enabled
; /* by the MMC CORE */
316 bool irq_disabled
; /* in the firmware */
317 unsigned bus_width
:4;
318 u8 total_offload_count
;
319 u8 dynamic_register_count
;
323 int usb_transport_fail
;
326 struct sdio_register sdio_register
[16];
327 struct offload_interrupt_function_register
{
329 #define MAXREGS (1<<MAXREGBITS)
330 #define MAXREGMASK (MAXREGS-1)
333 struct offload_registers_access reg
[MAXREGS
];
335 u16 fbs
[8]; /* Function Block Size */
336 struct mmc_command
*cmd
;
337 struct mmc_request
*req
;
338 struct mmc_data
*data
;
339 struct mmc_host
*mmc
;
341 struct urb
*command_out_urb
;
342 struct urb
*command_res_urb
;
343 struct completion command_complete
;
344 struct completion irqpoll_complete
;
345 union sd_command cmnd
;
346 union sd_response resp
;
347 struct timer_list sg_transfer_timer
;
348 struct usb_sg_request sg_request
;
349 struct timer_list inactivity_timer
;
350 struct work_struct deadwork
;
351 struct work_struct cmndwork
;
352 struct delayed_work pollwork
;
353 struct host_controller_info hc_info
;
354 struct sd_status_header system_port_status
;
355 u8 padded_buffer
[64];
358 #define kref_to_vub300_mmc_host(d) container_of(d, struct vub300_mmc_host, kref)
359 #define SET_TRANSFER_PSEUDOCODE 21
360 #define SET_INTERRUPT_PSEUDOCODE 20
361 #define SET_FAILURE_MODE 18
362 #define SET_ROM_WAIT_STATES 16
363 #define SET_IRQ_ENABLE 13
364 #define SET_CLOCK_SPEED 11
365 #define SET_FUNCTION_BLOCK_SIZE 9
366 #define SET_SD_DATA_MODE 6
367 #define SET_SD_POWER 4
368 #define ENTER_DFU_MODE 3
369 #define GET_HC_INF0 1
370 #define GET_SYSTEM_PORT_STATUS 0
372 static void vub300_delete(struct kref
*kref
)
373 { /* kref callback - softirq */
374 struct vub300_mmc_host
*vub300
= kref_to_vub300_mmc_host(kref
);
375 struct mmc_host
*mmc
= vub300
->mmc
;
376 usb_free_urb(vub300
->command_out_urb
);
377 vub300
->command_out_urb
= NULL
;
378 usb_free_urb(vub300
->command_res_urb
);
379 vub300
->command_res_urb
= NULL
;
380 usb_put_dev(vub300
->udev
);
383 * and hence also frees vub300
384 * which is contained at the end of struct mmc
388 static void vub300_queue_cmnd_work(struct vub300_mmc_host
*vub300
)
390 kref_get(&vub300
->kref
);
391 if (queue_work(cmndworkqueue
, &vub300
->cmndwork
)) {
393 * then the cmndworkqueue was not previously
394 * running and the above get ref is obvious
395 * required and will be put when the thread
396 * terminates by a specific call
400 * the cmndworkqueue was already running from
401 * a previous invocation and thus to keep the
402 * kref counts correct we must undo the get
404 kref_put(&vub300
->kref
, vub300_delete
);
408 static void vub300_queue_poll_work(struct vub300_mmc_host
*vub300
, int delay
)
410 kref_get(&vub300
->kref
);
411 if (queue_delayed_work(pollworkqueue
, &vub300
->pollwork
, delay
)) {
413 * then the pollworkqueue was not previously
414 * running and the above get ref is obvious
415 * required and will be put when the thread
416 * terminates by a specific call
420 * the pollworkqueue was already running from
421 * a previous invocation and thus to keep the
422 * kref counts correct we must undo the get
424 kref_put(&vub300
->kref
, vub300_delete
);
428 static void vub300_queue_dead_work(struct vub300_mmc_host
*vub300
)
430 kref_get(&vub300
->kref
);
431 if (queue_work(deadworkqueue
, &vub300
->deadwork
)) {
433 * then the deadworkqueue was not previously
434 * running and the above get ref is obvious
435 * required and will be put when the thread
436 * terminates by a specific call
440 * the deadworkqueue was already running from
441 * a previous invocation and thus to keep the
442 * kref counts correct we must undo the get
444 kref_put(&vub300
->kref
, vub300_delete
);
448 static void irqpoll_res_completed(struct urb
*urb
)
449 { /* urb completion handler - hardirq */
450 struct vub300_mmc_host
*vub300
= (struct vub300_mmc_host
*)urb
->context
;
452 vub300
->usb_transport_fail
= urb
->status
;
453 complete(&vub300
->irqpoll_complete
);
456 static void irqpoll_out_completed(struct urb
*urb
)
457 { /* urb completion handler - hardirq */
458 struct vub300_mmc_host
*vub300
= (struct vub300_mmc_host
*)urb
->context
;
460 vub300
->usb_transport_fail
= urb
->status
;
461 complete(&vub300
->irqpoll_complete
);
466 usb_rcvbulkpipe(vub300
->udev
, vub300
->cmnd_res_ep
);
467 usb_fill_bulk_urb(vub300
->command_res_urb
, vub300
->udev
, pipe
,
468 &vub300
->resp
, sizeof(vub300
->resp
),
469 irqpoll_res_completed
, vub300
);
470 vub300
->command_res_urb
->actual_length
= 0;
471 ret
= usb_submit_urb(vub300
->command_res_urb
, GFP_ATOMIC
);
473 vub300
->usb_transport_fail
= ret
;
474 complete(&vub300
->irqpoll_complete
);
480 static void send_irqpoll(struct vub300_mmc_host
*vub300
)
482 /* cmd_mutex is held by vub300_pollwork_thread */
484 int timeout
= 0xFFFF & (0x0001FFFF - firmware_irqpoll_timeout
);
485 vub300
->cmnd
.poll
.header_size
= 22;
486 vub300
->cmnd
.poll
.header_type
= 1;
487 vub300
->cmnd
.poll
.port_number
= 0;
488 vub300
->cmnd
.poll
.command_type
= 2;
489 vub300
->cmnd
.poll
.poll_timeout_lsb
= 0xFF & (unsigned)timeout
;
490 vub300
->cmnd
.poll
.poll_timeout_msb
= 0xFF & (unsigned)(timeout
>> 8);
491 usb_fill_bulk_urb(vub300
->command_out_urb
, vub300
->udev
,
492 usb_sndbulkpipe(vub300
->udev
, vub300
->cmnd_out_ep
)
493 , &vub300
->cmnd
, sizeof(vub300
->cmnd
)
494 , irqpoll_out_completed
, vub300
);
495 retval
= usb_submit_urb(vub300
->command_out_urb
, GFP_KERNEL
);
497 vub300
->usb_transport_fail
= retval
;
498 vub300_queue_poll_work(vub300
, 1);
499 complete(&vub300
->irqpoll_complete
);
506 static void new_system_port_status(struct vub300_mmc_host
*vub300
)
508 int old_card_present
= vub300
->card_present
;
509 int new_card_present
=
510 (0x0001 & vub300
->system_port_status
.port_flags
) ? 1 : 0;
512 (0x0010 & vub300
->system_port_status
.port_flags
) ? 1 : 0;
513 if (new_card_present
&& !old_card_present
) {
514 dev_info(&vub300
->udev
->dev
, "card just inserted\n");
515 vub300
->card_present
= 1;
516 vub300
->bus_width
= 0;
517 if (disable_offload_processing
)
518 strncpy(vub300
->vub_name
, "EMPTY Processing Disabled",
519 sizeof(vub300
->vub_name
));
521 vub300
->vub_name
[0] = 0;
522 mmc_detect_change(vub300
->mmc
, 1);
523 } else if (!new_card_present
&& old_card_present
) {
524 dev_info(&vub300
->udev
->dev
, "card just ejected\n");
525 vub300
->card_present
= 0;
526 mmc_detect_change(vub300
->mmc
, 0);
532 static void __add_offloaded_reg_to_fifo(struct vub300_mmc_host
*vub300
,
533 struct offload_registers_access
534 *register_access
, u8 func
)
536 u8 r
= vub300
->fn
[func
].offload_point
+ vub300
->fn
[func
].offload_count
;
537 memcpy(&vub300
->fn
[func
].reg
[MAXREGMASK
& r
], register_access
,
538 sizeof(struct offload_registers_access
));
539 vub300
->fn
[func
].offload_count
+= 1;
540 vub300
->total_offload_count
+= 1;
543 static void add_offloaded_reg(struct vub300_mmc_host
*vub300
,
544 struct offload_registers_access
*register_access
)
546 u32 Register
= ((0x03 & register_access
->command_byte
[0]) << 15)
547 | ((0xFF & register_access
->command_byte
[1]) << 7)
548 | ((0xFE & register_access
->command_byte
[2]) >> 1);
549 u8 func
= ((0x70 & register_access
->command_byte
[0]) >> 4);
550 u8 regs
= vub300
->dynamic_register_count
;
552 while (0 < regs
-- && 1 == vub300
->sdio_register
[i
].activate
) {
553 if (vub300
->sdio_register
[i
].func_num
== func
&&
554 vub300
->sdio_register
[i
].sdio_reg
== Register
) {
555 if (vub300
->sdio_register
[i
].prepared
== 0)
556 vub300
->sdio_register
[i
].prepared
= 1;
557 vub300
->sdio_register
[i
].response
=
558 register_access
->Respond_Byte
[2];
559 vub300
->sdio_register
[i
].regvalue
=
560 register_access
->Respond_Byte
[3];
567 __add_offloaded_reg_to_fifo(vub300
, register_access
, func
);
570 static void check_vub300_port_status(struct vub300_mmc_host
*vub300
)
573 * cmd_mutex is held by vub300_pollwork_thread,
574 * vub300_deadwork_thread or vub300_cmndwork_thread
578 usb_control_msg(vub300
->udev
, usb_rcvctrlpipe(vub300
->udev
, 0),
579 GET_SYSTEM_PORT_STATUS
,
580 USB_DIR_IN
| USB_TYPE_VENDOR
| USB_RECIP_DEVICE
,
581 0x0000, 0x0000, &vub300
->system_port_status
,
582 sizeof(vub300
->system_port_status
), HZ
);
583 if (sizeof(vub300
->system_port_status
) == retval
)
584 new_system_port_status(vub300
);
587 static void __vub300_irqpoll_response(struct vub300_mmc_host
*vub300
)
589 /* cmd_mutex is held by vub300_pollwork_thread */
590 if (vub300
->command_res_urb
->actual_length
== 0)
593 switch (vub300
->resp
.common
.header_type
) {
594 case RESPONSE_INTERRUPT
:
595 mutex_lock(&vub300
->irq_mutex
);
596 if (vub300
->irq_enabled
)
597 mmc_signal_sdio_irq(vub300
->mmc
);
599 vub300
->irqs_queued
+= 1;
600 vub300
->irq_disabled
= 1;
601 mutex_unlock(&vub300
->irq_mutex
);
604 if (vub300
->resp
.error
.error_code
== SD_ERROR_NO_DEVICE
)
605 check_vub300_port_status(vub300
);
607 case RESPONSE_STATUS
:
608 vub300
->system_port_status
= vub300
->resp
.status
;
609 new_system_port_status(vub300
);
610 if (!vub300
->card_present
)
611 vub300_queue_poll_work(vub300
, HZ
/ 5);
613 case RESPONSE_IRQ_DISABLED
:
615 int offloaded_data_length
= vub300
->resp
.common
.header_size
- 3;
616 int register_count
= offloaded_data_length
>> 3;
618 while (register_count
--) {
619 add_offloaded_reg(vub300
, &vub300
->resp
.irq
.reg
[ri
]);
622 mutex_lock(&vub300
->irq_mutex
);
623 if (vub300
->irq_enabled
)
624 mmc_signal_sdio_irq(vub300
->mmc
);
626 vub300
->irqs_queued
+= 1;
627 vub300
->irq_disabled
= 1;
628 mutex_unlock(&vub300
->irq_mutex
);
631 case RESPONSE_IRQ_ENABLED
:
633 int offloaded_data_length
= vub300
->resp
.common
.header_size
- 3;
634 int register_count
= offloaded_data_length
>> 3;
636 while (register_count
--) {
637 add_offloaded_reg(vub300
, &vub300
->resp
.irq
.reg
[ri
]);
640 mutex_lock(&vub300
->irq_mutex
);
641 if (vub300
->irq_enabled
)
642 mmc_signal_sdio_irq(vub300
->mmc
);
643 else if (vub300
->irqs_queued
)
644 vub300
->irqs_queued
+= 1;
646 vub300
->irqs_queued
+= 1;
647 vub300
->irq_disabled
= 0;
648 mutex_unlock(&vub300
->irq_mutex
);
651 case RESPONSE_NO_INTERRUPT
:
652 vub300_queue_poll_work(vub300
, 1);
659 static void __do_poll(struct vub300_mmc_host
*vub300
)
661 /* cmd_mutex is held by vub300_pollwork_thread */
663 mod_timer(&vub300
->inactivity_timer
, jiffies
+ HZ
);
664 init_completion(&vub300
->irqpoll_complete
);
665 send_irqpoll(vub300
);
666 commretval
= wait_for_completion_timeout(&vub300
->irqpoll_complete
,
667 msecs_to_jiffies(500));
668 if (vub300
->usb_transport_fail
) {
669 /* no need to do anything */
670 } else if (commretval
== 0) {
671 vub300
->usb_timed_out
= 1;
672 usb_kill_urb(vub300
->command_out_urb
);
673 usb_kill_urb(vub300
->command_res_urb
);
674 } else if (commretval
< 0) {
675 vub300_queue_poll_work(vub300
, 1);
676 } else { /* commretval > 0 */
677 __vub300_irqpoll_response(vub300
);
681 /* this thread runs only when the driver
682 * is trying to poll the device for an IRQ
684 static void vub300_pollwork_thread(struct work_struct
*work
)
686 struct vub300_mmc_host
*vub300
= container_of(work
,
687 struct vub300_mmc_host
, pollwork
.work
);
688 if (!vub300
->interface
) {
689 kref_put(&vub300
->kref
, vub300_delete
);
692 mutex_lock(&vub300
->cmd_mutex
);
694 vub300_queue_poll_work(vub300
, 1);
695 } else if (!vub300
->card_present
) {
696 /* no need to do anything */
697 } else { /* vub300->card_present */
698 mutex_lock(&vub300
->irq_mutex
);
699 if (!vub300
->irq_enabled
) {
700 mutex_unlock(&vub300
->irq_mutex
);
701 } else if (vub300
->irqs_queued
) {
702 vub300
->irqs_queued
-= 1;
703 mmc_signal_sdio_irq(vub300
->mmc
);
704 mod_timer(&vub300
->inactivity_timer
, jiffies
+ HZ
);
705 mutex_unlock(&vub300
->irq_mutex
);
706 } else { /* NOT vub300->irqs_queued */
707 mutex_unlock(&vub300
->irq_mutex
);
711 mutex_unlock(&vub300
->cmd_mutex
);
712 kref_put(&vub300
->kref
, vub300_delete
);
715 static void vub300_deadwork_thread(struct work_struct
*work
)
717 struct vub300_mmc_host
*vub300
=
718 container_of(work
, struct vub300_mmc_host
, deadwork
);
719 if (!vub300
->interface
) {
720 kref_put(&vub300
->kref
, vub300_delete
);
723 mutex_lock(&vub300
->cmd_mutex
);
726 * a command got in as the inactivity
727 * timer expired - so we just let the
728 * processing of the command show if
731 } else if (vub300
->card_present
) {
732 check_vub300_port_status(vub300
);
733 } else if (vub300
->mmc
&& vub300
->mmc
->card
&&
734 mmc_card_present(vub300
->mmc
->card
)) {
736 * the MMC core must not have responded
737 * to the previous indication - lets
738 * hope that it eventually does so we
739 * will just ignore this for now
742 check_vub300_port_status(vub300
);
744 mod_timer(&vub300
->inactivity_timer
, jiffies
+ HZ
);
745 mutex_unlock(&vub300
->cmd_mutex
);
746 kref_put(&vub300
->kref
, vub300_delete
);
749 static void vub300_inactivity_timer_expired(unsigned long data
)
751 struct vub300_mmc_host
*vub300
= (struct vub300_mmc_host
*)data
;
752 if (!vub300
->interface
) {
753 kref_put(&vub300
->kref
, vub300_delete
);
754 } else if (vub300
->cmd
) {
755 mod_timer(&vub300
->inactivity_timer
, jiffies
+ HZ
);
757 vub300_queue_dead_work(vub300
);
758 mod_timer(&vub300
->inactivity_timer
, jiffies
+ HZ
);
762 static int vub300_response_error(u8 error_code
)
764 switch (error_code
) {
765 case SD_ERROR_PIO_TIMEOUT
:
766 case SD_ERROR_1BIT_TIMEOUT
:
767 case SD_ERROR_4BIT_TIMEOUT
:
769 case SD_ERROR_STAT_DATA
:
770 case SD_ERROR_OVERRUN
:
771 case SD_ERROR_STAT_CMD
:
772 case SD_ERROR_STAT_CMD_TIMEOUT
:
773 case SD_ERROR_SDCRDY_STUCK
:
774 case SD_ERROR_UNHANDLED
:
775 case SD_ERROR_1BIT_CRC_WRONG
:
776 case SD_ERROR_4BIT_CRC_WRONG
:
777 case SD_ERROR_1BIT_CRC_ERROR
:
778 case SD_ERROR_4BIT_CRC_ERROR
:
779 case SD_ERROR_NO_CMD_ENDBIT
:
780 case SD_ERROR_NO_1BIT_DATEND
:
781 case SD_ERROR_NO_4BIT_DATEND
:
782 case SD_ERROR_1BIT_DATA_TIMEOUT
:
783 case SD_ERROR_4BIT_DATA_TIMEOUT
:
784 case SD_ERROR_1BIT_UNEXPECTED_TIMEOUT
:
785 case SD_ERROR_4BIT_UNEXPECTED_TIMEOUT
:
789 case SD_ERROR_ILLEGAL_COMMAND
:
791 case SD_ERROR_NO_DEVICE
:
798 static void command_res_completed(struct urb
*urb
)
799 { /* urb completion handler - hardirq */
800 struct vub300_mmc_host
*vub300
= (struct vub300_mmc_host
*)urb
->context
;
802 /* we have to let the initiator handle the error */
803 } else if (vub300
->command_res_urb
->actual_length
== 0) {
805 * we have seen this happen once or twice and
806 * we suspect a buggy USB host controller
808 } else if (!vub300
->data
) {
809 /* this means that the command (typically CMD52) suceeded */
810 } else if (vub300
->resp
.common
.header_type
!= 0x02) {
812 * this is an error response from the VUB300 chip
813 * and we let the initiator handle it
815 } else if (vub300
->urb
) {
817 vub300_response_error(vub300
->resp
.error
.error_code
);
818 usb_unlink_urb(vub300
->urb
);
821 vub300_response_error(vub300
->resp
.error
.error_code
);
822 usb_sg_cancel(&vub300
->sg_request
);
824 complete(&vub300
->command_complete
); /* got_response_in */
827 static void command_out_completed(struct urb
*urb
)
828 { /* urb completion handler - hardirq */
829 struct vub300_mmc_host
*vub300
= (struct vub300_mmc_host
*)urb
->context
;
831 complete(&vub300
->command_complete
);
835 usb_rcvbulkpipe(vub300
->udev
, vub300
->cmnd_res_ep
);
836 usb_fill_bulk_urb(vub300
->command_res_urb
, vub300
->udev
, pipe
,
837 &vub300
->resp
, sizeof(vub300
->resp
),
838 command_res_completed
, vub300
);
839 vub300
->command_res_urb
->actual_length
= 0;
840 ret
= usb_submit_urb(vub300
->command_res_urb
, GFP_ATOMIC
);
843 * the urb completion handler will call
844 * our completion handler
848 * and thus we only call it directly
849 * when it will not be called
851 complete(&vub300
->command_complete
);
857 * the STUFF bits are masked out for the comparisons
859 static void snoop_block_size_and_bus_width(struct vub300_mmc_host
*vub300
,
862 if ((0xFBFFFE00 & cmd_arg
) == 0x80022200)
863 vub300
->fbs
[1] = (cmd_arg
<< 8) | (0x00FF & vub300
->fbs
[1]);
864 else if ((0xFBFFFE00 & cmd_arg
) == 0x80022000)
865 vub300
->fbs
[1] = (0xFF & cmd_arg
) | (0xFF00 & vub300
->fbs
[1]);
866 else if ((0xFBFFFE00 & cmd_arg
) == 0x80042200)
867 vub300
->fbs
[2] = (cmd_arg
<< 8) | (0x00FF & vub300
->fbs
[2]);
868 else if ((0xFBFFFE00 & cmd_arg
) == 0x80042000)
869 vub300
->fbs
[2] = (0xFF & cmd_arg
) | (0xFF00 & vub300
->fbs
[2]);
870 else if ((0xFBFFFE00 & cmd_arg
) == 0x80062200)
871 vub300
->fbs
[3] = (cmd_arg
<< 8) | (0x00FF & vub300
->fbs
[3]);
872 else if ((0xFBFFFE00 & cmd_arg
) == 0x80062000)
873 vub300
->fbs
[3] = (0xFF & cmd_arg
) | (0xFF00 & vub300
->fbs
[3]);
874 else if ((0xFBFFFE00 & cmd_arg
) == 0x80082200)
875 vub300
->fbs
[4] = (cmd_arg
<< 8) | (0x00FF & vub300
->fbs
[4]);
876 else if ((0xFBFFFE00 & cmd_arg
) == 0x80082000)
877 vub300
->fbs
[4] = (0xFF & cmd_arg
) | (0xFF00 & vub300
->fbs
[4]);
878 else if ((0xFBFFFE00 & cmd_arg
) == 0x800A2200)
879 vub300
->fbs
[5] = (cmd_arg
<< 8) | (0x00FF & vub300
->fbs
[5]);
880 else if ((0xFBFFFE00 & cmd_arg
) == 0x800A2000)
881 vub300
->fbs
[5] = (0xFF & cmd_arg
) | (0xFF00 & vub300
->fbs
[5]);
882 else if ((0xFBFFFE00 & cmd_arg
) == 0x800C2200)
883 vub300
->fbs
[6] = (cmd_arg
<< 8) | (0x00FF & vub300
->fbs
[6]);
884 else if ((0xFBFFFE00 & cmd_arg
) == 0x800C2000)
885 vub300
->fbs
[6] = (0xFF & cmd_arg
) | (0xFF00 & vub300
->fbs
[6]);
886 else if ((0xFBFFFE00 & cmd_arg
) == 0x800E2200)
887 vub300
->fbs
[7] = (cmd_arg
<< 8) | (0x00FF & vub300
->fbs
[7]);
888 else if ((0xFBFFFE00 & cmd_arg
) == 0x800E2000)
889 vub300
->fbs
[7] = (0xFF & cmd_arg
) | (0xFF00 & vub300
->fbs
[7]);
890 else if ((0xFBFFFE03 & cmd_arg
) == 0x80000E00)
891 vub300
->bus_width
= 1;
892 else if ((0xFBFFFE03 & cmd_arg
) == 0x80000E02)
893 vub300
->bus_width
= 4;
896 static void send_command(struct vub300_mmc_host
*vub300
)
898 /* cmd_mutex is held by vub300_cmndwork_thread */
899 struct mmc_command
*cmd
= vub300
->cmd
;
900 struct mmc_data
*data
= vub300
->data
;
904 if (vub300
->app_spec
) {
905 switch (cmd
->opcode
) {
907 response_type
= SDRT_1
;
908 vub300
->resp_len
= 6;
909 if (0x00000000 == (0x00000003 & cmd
->arg
))
910 vub300
->bus_width
= 1;
911 else if (0x00000002 == (0x00000003 & cmd
->arg
))
912 vub300
->bus_width
= 4;
914 dev_err(&vub300
->udev
->dev
,
915 "unexpected ACMD6 bus_width=%d\n",
916 0x00000003 & cmd
->arg
);
919 response_type
= SDRT_1
;
920 vub300
->resp_len
= 6;
923 response_type
= SDRT_1
;
924 vub300
->resp_len
= 6;
927 response_type
= SDRT_1
;
928 vub300
->resp_len
= 6;
931 response_type
= SDRT_3
;
932 vub300
->resp_len
= 6;
935 response_type
= SDRT_1
;
936 vub300
->resp_len
= 6;
939 response_type
= SDRT_1
;
940 vub300
->resp_len
= 6;
943 response_type
= SDRT_1
;
944 vub300
->resp_len
= 6;
947 vub300
->resp_len
= 0;
948 cmd
->error
= -EINVAL
;
949 complete(&vub300
->command_complete
);
952 vub300
->app_spec
= 0;
954 switch (cmd
->opcode
) {
956 response_type
= SDRT_NONE
;
957 vub300
->resp_len
= 0;
960 response_type
= SDRT_3
;
961 vub300
->resp_len
= 6;
964 response_type
= SDRT_2
;
965 vub300
->resp_len
= 17;
968 response_type
= SDRT_6
;
969 vub300
->resp_len
= 6;
972 response_type
= SDRT_NONE
;
973 vub300
->resp_len
= 0;
976 response_type
= SDRT_4
;
977 vub300
->resp_len
= 6;
980 response_type
= SDRT_1
;
981 vub300
->resp_len
= 6;
984 response_type
= SDRT_1B
;
985 vub300
->resp_len
= 6;
988 response_type
= SDRT_7
;
989 vub300
->resp_len
= 6;
992 response_type
= SDRT_2
;
993 vub300
->resp_len
= 17;
996 response_type
= SDRT_2
;
997 vub300
->resp_len
= 17;
1000 response_type
= SDRT_1B
;
1001 vub300
->resp_len
= 6;
1004 response_type
= SDRT_1
;
1005 vub300
->resp_len
= 6;
1008 response_type
= SDRT_NONE
;
1009 vub300
->resp_len
= 0;
1012 for (i
= 0; i
< ARRAY_SIZE(vub300
->fbs
); i
++)
1013 vub300
->fbs
[i
] = 0xFFFF & cmd
->arg
;
1014 response_type
= SDRT_1
;
1015 vub300
->resp_len
= 6;
1022 response_type
= SDRT_1
;
1023 vub300
->resp_len
= 6;
1027 response_type
= SDRT_1B
;
1028 vub300
->resp_len
= 6;
1033 response_type
= SDRT_1
;
1034 vub300
->resp_len
= 6;
1037 response_type
= SDRT_1B
;
1038 vub300
->resp_len
= 6;
1041 response_type
= SDRT_1
;
1042 vub300
->resp_len
= 6;
1045 response_type
= SDRT_5
;
1046 vub300
->resp_len
= 6;
1047 snoop_block_size_and_bus_width(vub300
, cmd
->arg
);
1050 response_type
= SDRT_5
;
1051 vub300
->resp_len
= 6;
1054 response_type
= SDRT_1
;
1055 vub300
->resp_len
= 6;
1056 vub300
->app_spec
= 1;
1059 response_type
= SDRT_1
;
1060 vub300
->resp_len
= 6;
1063 vub300
->resp_len
= 0;
1064 cmd
->error
= -EINVAL
;
1065 complete(&vub300
->command_complete
);
1070 * it is a shame that we can not use "sizeof(struct sd_command_header)"
1071 * this is because the packet _must_ be padded to 64 bytes
1073 vub300
->cmnd
.head
.header_size
= 20;
1074 vub300
->cmnd
.head
.header_type
= 0x00;
1075 vub300
->cmnd
.head
.port_number
= 0; /* "0" means port 1 */
1076 vub300
->cmnd
.head
.command_type
= 0x00; /* standard read command */
1077 vub300
->cmnd
.head
.response_type
= response_type
;
1078 vub300
->cmnd
.head
.command_index
= cmd
->opcode
;
1079 vub300
->cmnd
.head
.arguments
[0] = cmd
->arg
>> 24;
1080 vub300
->cmnd
.head
.arguments
[1] = cmd
->arg
>> 16;
1081 vub300
->cmnd
.head
.arguments
[2] = cmd
->arg
>> 8;
1082 vub300
->cmnd
.head
.arguments
[3] = cmd
->arg
>> 0;
1083 if (cmd
->opcode
== 52) {
1084 int fn
= 0x7 & (cmd
->arg
>> 28);
1085 vub300
->cmnd
.head
.block_count
[0] = 0;
1086 vub300
->cmnd
.head
.block_count
[1] = 0;
1087 vub300
->cmnd
.head
.block_size
[0] = (vub300
->fbs
[fn
] >> 8) & 0xFF;
1088 vub300
->cmnd
.head
.block_size
[1] = (vub300
->fbs
[fn
] >> 0) & 0xFF;
1089 vub300
->cmnd
.head
.command_type
= 0x00;
1090 vub300
->cmnd
.head
.transfer_size
[0] = 0;
1091 vub300
->cmnd
.head
.transfer_size
[1] = 0;
1092 vub300
->cmnd
.head
.transfer_size
[2] = 0;
1093 vub300
->cmnd
.head
.transfer_size
[3] = 0;
1095 vub300
->cmnd
.head
.block_count
[0] = 0;
1096 vub300
->cmnd
.head
.block_count
[1] = 0;
1097 vub300
->cmnd
.head
.block_size
[0] = (vub300
->fbs
[0] >> 8) & 0xFF;
1098 vub300
->cmnd
.head
.block_size
[1] = (vub300
->fbs
[0] >> 0) & 0xFF;
1099 vub300
->cmnd
.head
.command_type
= 0x00;
1100 vub300
->cmnd
.head
.transfer_size
[0] = 0;
1101 vub300
->cmnd
.head
.transfer_size
[1] = 0;
1102 vub300
->cmnd
.head
.transfer_size
[2] = 0;
1103 vub300
->cmnd
.head
.transfer_size
[3] = 0;
1104 } else if (cmd
->opcode
== 53) {
1105 int fn
= 0x7 & (cmd
->arg
>> 28);
1106 if (0x08 & vub300
->cmnd
.head
.arguments
[0]) { /* BLOCK MODE */
1107 vub300
->cmnd
.head
.block_count
[0] =
1108 (data
->blocks
>> 8) & 0xFF;
1109 vub300
->cmnd
.head
.block_count
[1] =
1110 (data
->blocks
>> 0) & 0xFF;
1111 vub300
->cmnd
.head
.block_size
[0] =
1112 (data
->blksz
>> 8) & 0xFF;
1113 vub300
->cmnd
.head
.block_size
[1] =
1114 (data
->blksz
>> 0) & 0xFF;
1115 } else { /* BYTE MODE */
1116 vub300
->cmnd
.head
.block_count
[0] = 0;
1117 vub300
->cmnd
.head
.block_count
[1] = 0;
1118 vub300
->cmnd
.head
.block_size
[0] =
1119 (vub300
->datasize
>> 8) & 0xFF;
1120 vub300
->cmnd
.head
.block_size
[1] =
1121 (vub300
->datasize
>> 0) & 0xFF;
1123 vub300
->cmnd
.head
.command_type
=
1124 (MMC_DATA_READ
& data
->flags
) ? 0x00 : 0x80;
1125 vub300
->cmnd
.head
.transfer_size
[0] =
1126 (vub300
->datasize
>> 24) & 0xFF;
1127 vub300
->cmnd
.head
.transfer_size
[1] =
1128 (vub300
->datasize
>> 16) & 0xFF;
1129 vub300
->cmnd
.head
.transfer_size
[2] =
1130 (vub300
->datasize
>> 8) & 0xFF;
1131 vub300
->cmnd
.head
.transfer_size
[3] =
1132 (vub300
->datasize
>> 0) & 0xFF;
1133 if (vub300
->datasize
< vub300
->fbs
[fn
]) {
1134 vub300
->cmnd
.head
.block_count
[0] = 0;
1135 vub300
->cmnd
.head
.block_count
[1] = 0;
1138 vub300
->cmnd
.head
.block_count
[0] = (data
->blocks
>> 8) & 0xFF;
1139 vub300
->cmnd
.head
.block_count
[1] = (data
->blocks
>> 0) & 0xFF;
1140 vub300
->cmnd
.head
.block_size
[0] = (data
->blksz
>> 8) & 0xFF;
1141 vub300
->cmnd
.head
.block_size
[1] = (data
->blksz
>> 0) & 0xFF;
1142 vub300
->cmnd
.head
.command_type
=
1143 (MMC_DATA_READ
& data
->flags
) ? 0x00 : 0x80;
1144 vub300
->cmnd
.head
.transfer_size
[0] =
1145 (vub300
->datasize
>> 24) & 0xFF;
1146 vub300
->cmnd
.head
.transfer_size
[1] =
1147 (vub300
->datasize
>> 16) & 0xFF;
1148 vub300
->cmnd
.head
.transfer_size
[2] =
1149 (vub300
->datasize
>> 8) & 0xFF;
1150 vub300
->cmnd
.head
.transfer_size
[3] =
1151 (vub300
->datasize
>> 0) & 0xFF;
1152 if (vub300
->datasize
< vub300
->fbs
[0]) {
1153 vub300
->cmnd
.head
.block_count
[0] = 0;
1154 vub300
->cmnd
.head
.block_count
[1] = 0;
1157 if (vub300
->cmnd
.head
.block_size
[0] || vub300
->cmnd
.head
.block_size
[1]) {
1158 u16 block_size
= vub300
->cmnd
.head
.block_size
[1] |
1159 (vub300
->cmnd
.head
.block_size
[0] << 8);
1160 u16 block_boundary
= FIRMWARE_BLOCK_BOUNDARY
-
1161 (FIRMWARE_BLOCK_BOUNDARY
% block_size
);
1162 vub300
->cmnd
.head
.block_boundary
[0] =
1163 (block_boundary
>> 8) & 0xFF;
1164 vub300
->cmnd
.head
.block_boundary
[1] =
1165 (block_boundary
>> 0) & 0xFF;
1167 vub300
->cmnd
.head
.block_boundary
[0] = 0;
1168 vub300
->cmnd
.head
.block_boundary
[1] = 0;
1170 usb_fill_bulk_urb(vub300
->command_out_urb
, vub300
->udev
,
1171 usb_sndbulkpipe(vub300
->udev
, vub300
->cmnd_out_ep
),
1172 &vub300
->cmnd
, sizeof(vub300
->cmnd
),
1173 command_out_completed
, vub300
);
1174 retval
= usb_submit_urb(vub300
->command_out_urb
, GFP_KERNEL
);
1176 cmd
->error
= retval
;
1177 complete(&vub300
->command_complete
);
1185 * timer callback runs in atomic mode
1186 * so it cannot call usb_kill_urb()
1188 static void vub300_sg_timed_out(unsigned long data
)
1190 struct vub300_mmc_host
*vub300
= (struct vub300_mmc_host
*)data
;
1191 vub300
->usb_timed_out
= 1;
1192 usb_sg_cancel(&vub300
->sg_request
);
1193 usb_unlink_urb(vub300
->command_out_urb
);
1194 usb_unlink_urb(vub300
->command_res_urb
);
1197 static u16
roundup_to_multiple_of_64(u16 number
)
1199 return 0xFFC0 & (0x3F + number
);
1203 * this is a separate function to solve the 80 column width restriction
1205 static void __download_offload_pseudocode(struct vub300_mmc_host
*vub300
,
1206 const struct firmware
*fw
)
1208 u8 register_count
= 0;
1210 u16 interrupt_size
= 0;
1211 const u8
*data
= fw
->data
;
1212 int size
= fw
->size
;
1214 dev_info(&vub300
->udev
->dev
, "using %s for SDIO offload processing\n",
1218 } while (size
-- && c
); /* skip comment */
1219 dev_info(&vub300
->udev
->dev
, "using offload firmware %s %s\n", fw
->data
,
1222 dev_err(&vub300
->udev
->dev
,
1223 "corrupt offload pseudocode in firmware %s\n",
1225 strncpy(vub300
->vub_name
, "corrupt offload pseudocode",
1226 sizeof(vub300
->vub_name
));
1229 interrupt_size
+= *data
++;
1231 interrupt_size
<<= 8;
1232 interrupt_size
+= *data
++;
1234 if (interrupt_size
< size
) {
1235 u16 xfer_length
= roundup_to_multiple_of_64(interrupt_size
);
1236 u8
*xfer_buffer
= kmalloc(xfer_length
, GFP_KERNEL
);
1239 memcpy(xfer_buffer
, data
, interrupt_size
);
1240 memset(xfer_buffer
+ interrupt_size
, 0,
1241 xfer_length
- interrupt_size
);
1242 size
-= interrupt_size
;
1243 data
+= interrupt_size
;
1245 usb_control_msg(vub300
->udev
,
1246 usb_sndctrlpipe(vub300
->udev
, 0),
1247 SET_INTERRUPT_PSEUDOCODE
,
1248 USB_DIR_OUT
| USB_TYPE_VENDOR
|
1249 USB_RECIP_DEVICE
, 0x0000, 0x0000,
1250 xfer_buffer
, xfer_length
, HZ
);
1253 strncpy(vub300
->vub_name
,
1254 "SDIO pseudocode download failed",
1255 sizeof(vub300
->vub_name
));
1259 dev_err(&vub300
->udev
->dev
,
1260 "not enough memory for xfer buffer to send"
1261 " INTERRUPT_PSEUDOCODE for %s %s\n", fw
->data
,
1263 strncpy(vub300
->vub_name
,
1264 "SDIO interrupt pseudocode download failed",
1265 sizeof(vub300
->vub_name
));
1269 dev_err(&vub300
->udev
->dev
,
1270 "corrupt interrupt pseudocode in firmware %s %s\n",
1271 fw
->data
, vub300
->vub_name
);
1272 strncpy(vub300
->vub_name
, "corrupt interrupt pseudocode",
1273 sizeof(vub300
->vub_name
));
1282 u16 xfer_length
= roundup_to_multiple_of_64(ts
);
1283 u8
*xfer_buffer
= kmalloc(xfer_length
, GFP_KERNEL
);
1286 memcpy(xfer_buffer
, data
, ts
);
1287 memset(xfer_buffer
+ ts
, 0,
1292 usb_control_msg(vub300
->udev
,
1293 usb_sndctrlpipe(vub300
->udev
, 0),
1294 SET_TRANSFER_PSEUDOCODE
,
1295 USB_DIR_OUT
| USB_TYPE_VENDOR
|
1296 USB_RECIP_DEVICE
, 0x0000, 0x0000,
1297 xfer_buffer
, xfer_length
, HZ
);
1300 strncpy(vub300
->vub_name
,
1301 "SDIO pseudocode download failed",
1302 sizeof(vub300
->vub_name
));
1306 dev_err(&vub300
->udev
->dev
,
1307 "not enough memory for xfer buffer to send"
1308 " TRANSFER_PSEUDOCODE for %s %s\n", fw
->data
,
1310 strncpy(vub300
->vub_name
,
1311 "SDIO transfer pseudocode download failed",
1312 sizeof(vub300
->vub_name
));
1316 dev_err(&vub300
->udev
->dev
,
1317 "corrupt transfer pseudocode in firmware %s %s\n",
1318 fw
->data
, vub300
->vub_name
);
1319 strncpy(vub300
->vub_name
, "corrupt transfer pseudocode",
1320 sizeof(vub300
->vub_name
));
1323 register_count
+= *data
++;
1325 if (register_count
* 4 == size
) {
1326 int I
= vub300
->dynamic_register_count
= register_count
;
1329 unsigned int func_num
= 0;
1330 vub300
->sdio_register
[i
].func_num
= *data
++;
1332 func_num
+= *data
++;
1335 func_num
+= *data
++;
1338 func_num
+= *data
++;
1340 vub300
->sdio_register
[i
].sdio_reg
= func_num
;
1341 vub300
->sdio_register
[i
].activate
= 1;
1342 vub300
->sdio_register
[i
].prepared
= 0;
1345 dev_info(&vub300
->udev
->dev
,
1346 "initialized %d dynamic pseudocode registers\n",
1347 vub300
->dynamic_register_count
);
1350 dev_err(&vub300
->udev
->dev
,
1351 "corrupt dynamic registers in firmware %s\n",
1353 strncpy(vub300
->vub_name
, "corrupt dynamic registers",
1354 sizeof(vub300
->vub_name
));
1360 * if the binary containing the EMPTY PseudoCode can not be found
1361 * vub300->vub_name is set anyway in order to prevent an automatic retry
1363 static void download_offload_pseudocode(struct vub300_mmc_host
*vub300
)
1365 struct mmc_card
*card
= vub300
->mmc
->card
;
1366 int sdio_funcs
= card
->sdio_funcs
;
1367 const struct firmware
*fw
= NULL
;
1368 int l
= snprintf(vub300
->vub_name
, sizeof(vub300
->vub_name
),
1369 "vub_%04X%04X", card
->cis
.vendor
, card
->cis
.device
);
1372 for (n
= 0; n
< sdio_funcs
; n
++) {
1373 struct sdio_func
*sf
= card
->sdio_func
[n
];
1374 l
+= snprintf(vub300
->vub_name
+ l
,
1375 sizeof(vub300
->vub_name
) - l
, "_%04X%04X",
1376 sf
->vendor
, sf
->device
);
1378 snprintf(vub300
->vub_name
+ l
, sizeof(vub300
->vub_name
) - l
, ".bin");
1379 dev_info(&vub300
->udev
->dev
, "requesting offload firmware %s\n",
1381 retval
= request_firmware(&fw
, vub300
->vub_name
, &card
->dev
);
1383 strncpy(vub300
->vub_name
, "vub_default.bin",
1384 sizeof(vub300
->vub_name
));
1385 retval
= request_firmware(&fw
, vub300
->vub_name
, &card
->dev
);
1387 strncpy(vub300
->vub_name
,
1388 "no SDIO offload firmware found",
1389 sizeof(vub300
->vub_name
));
1391 __download_offload_pseudocode(vub300
, fw
);
1392 release_firmware(fw
);
1395 __download_offload_pseudocode(vub300
, fw
);
1396 release_firmware(fw
);
1400 static void vub300_usb_bulk_msg_completion(struct urb
*urb
)
1401 { /* urb completion handler - hardirq */
1402 complete((struct completion
*)urb
->context
);
1405 static int vub300_usb_bulk_msg(struct vub300_mmc_host
*vub300
,
1406 unsigned int pipe
, void *data
, int len
,
1407 int *actual_length
, int timeout_msecs
)
1409 /* cmd_mutex is held by vub300_cmndwork_thread */
1410 struct usb_device
*usb_dev
= vub300
->udev
;
1411 struct completion done
;
1413 vub300
->urb
= usb_alloc_urb(0, GFP_KERNEL
);
1416 usb_fill_bulk_urb(vub300
->urb
, usb_dev
, pipe
, data
, len
,
1417 vub300_usb_bulk_msg_completion
, NULL
);
1418 init_completion(&done
);
1419 vub300
->urb
->context
= &done
;
1420 vub300
->urb
->actual_length
= 0;
1421 retval
= usb_submit_urb(vub300
->urb
, GFP_KERNEL
);
1422 if (unlikely(retval
))
1424 if (!wait_for_completion_timeout
1425 (&done
, msecs_to_jiffies(timeout_msecs
))) {
1426 retval
= -ETIMEDOUT
;
1427 usb_kill_urb(vub300
->urb
);
1429 retval
= vub300
->urb
->status
;
1432 *actual_length
= vub300
->urb
->actual_length
;
1433 usb_free_urb(vub300
->urb
);
1438 static int __command_read_data(struct vub300_mmc_host
*vub300
,
1439 struct mmc_command
*cmd
, struct mmc_data
*data
)
1441 /* cmd_mutex is held by vub300_cmndwork_thread */
1442 int linear_length
= vub300
->datasize
;
1443 int padded_length
= vub300
->large_usb_packets
?
1444 ((511 + linear_length
) >> 9) << 9 :
1445 ((63 + linear_length
) >> 6) << 6;
1446 if ((padded_length
== linear_length
) || !pad_input_to_usb_pkt
) {
1449 pipe
= usb_rcvbulkpipe(vub300
->udev
, vub300
->data_inp_ep
);
1450 result
= usb_sg_init(&vub300
->sg_request
, vub300
->udev
,
1452 data
->sg_len
, 0, GFP_KERNEL
);
1454 usb_unlink_urb(vub300
->command_out_urb
);
1455 usb_unlink_urb(vub300
->command_res_urb
);
1456 cmd
->error
= result
;
1457 data
->bytes_xfered
= 0;
1460 vub300
->sg_transfer_timer
.expires
=
1461 jiffies
+ msecs_to_jiffies(2000 +
1462 (linear_length
/ 16384));
1463 add_timer(&vub300
->sg_transfer_timer
);
1464 usb_sg_wait(&vub300
->sg_request
);
1465 del_timer(&vub300
->sg_transfer_timer
);
1466 if (vub300
->sg_request
.status
< 0) {
1467 cmd
->error
= vub300
->sg_request
.status
;
1468 data
->bytes_xfered
= 0;
1471 data
->bytes_xfered
= vub300
->datasize
;
1472 return linear_length
;
1476 u8
*buf
= kmalloc(padded_length
, GFP_KERNEL
);
1479 unsigned pipe
= usb_rcvbulkpipe(vub300
->udev
,
1480 vub300
->data_inp_ep
);
1481 int actual_length
= 0;
1482 result
= vub300_usb_bulk_msg(vub300
, pipe
, buf
,
1483 padded_length
, &actual_length
,
1484 2000 + (padded_length
/ 16384));
1486 cmd
->error
= result
;
1487 data
->bytes_xfered
= 0;
1490 } else if (actual_length
< linear_length
) {
1491 cmd
->error
= -EREMOTEIO
;
1492 data
->bytes_xfered
= 0;
1496 sg_copy_from_buffer(data
->sg
, data
->sg_len
, buf
,
1499 data
->bytes_xfered
= vub300
->datasize
;
1500 return linear_length
;
1503 cmd
->error
= -ENOMEM
;
1504 data
->bytes_xfered
= 0;
1510 static int __command_write_data(struct vub300_mmc_host
*vub300
,
1511 struct mmc_command
*cmd
, struct mmc_data
*data
)
1513 /* cmd_mutex is held by vub300_cmndwork_thread */
1514 unsigned pipe
= usb_sndbulkpipe(vub300
->udev
, vub300
->data_out_ep
);
1515 int linear_length
= vub300
->datasize
;
1516 int modulo_64_length
= linear_length
& 0x003F;
1517 int modulo_512_length
= linear_length
& 0x01FF;
1518 if (linear_length
< 64) {
1521 sg_copy_to_buffer(data
->sg
, data
->sg_len
,
1522 vub300
->padded_buffer
,
1523 sizeof(vub300
->padded_buffer
));
1524 memset(vub300
->padded_buffer
+ linear_length
, 0,
1525 sizeof(vub300
->padded_buffer
) - linear_length
);
1526 result
= vub300_usb_bulk_msg(vub300
, pipe
, vub300
->padded_buffer
,
1527 sizeof(vub300
->padded_buffer
),
1528 &actual_length
, 2000 +
1529 (sizeof(vub300
->padded_buffer
) /
1532 cmd
->error
= result
;
1533 data
->bytes_xfered
= 0;
1535 data
->bytes_xfered
= vub300
->datasize
;
1537 } else if ((!vub300
->large_usb_packets
&& (0 < modulo_64_length
)) ||
1538 (vub300
->large_usb_packets
&& (64 > modulo_512_length
))
1539 ) { /* don't you just love these work-rounds */
1540 int padded_length
= ((63 + linear_length
) >> 6) << 6;
1541 u8
*buf
= kmalloc(padded_length
, GFP_KERNEL
);
1545 sg_copy_to_buffer(data
->sg
, data
->sg_len
, buf
,
1547 memset(buf
+ linear_length
, 0,
1548 padded_length
- linear_length
);
1550 vub300_usb_bulk_msg(vub300
, pipe
, buf
,
1551 padded_length
, &actual_length
,
1552 2000 + padded_length
/ 16384);
1555 cmd
->error
= result
;
1556 data
->bytes_xfered
= 0;
1558 data
->bytes_xfered
= vub300
->datasize
;
1561 cmd
->error
= -ENOMEM
;
1562 data
->bytes_xfered
= 0;
1564 } else { /* no data padding required */
1566 unsigned char buf
[64 * 4];
1567 sg_copy_to_buffer(data
->sg
, data
->sg_len
, buf
, sizeof(buf
));
1568 result
= usb_sg_init(&vub300
->sg_request
, vub300
->udev
,
1570 data
->sg_len
, 0, GFP_KERNEL
);
1572 usb_unlink_urb(vub300
->command_out_urb
);
1573 usb_unlink_urb(vub300
->command_res_urb
);
1574 cmd
->error
= result
;
1575 data
->bytes_xfered
= 0;
1577 vub300
->sg_transfer_timer
.expires
=
1578 jiffies
+ msecs_to_jiffies(2000 +
1579 linear_length
/ 16384);
1580 add_timer(&vub300
->sg_transfer_timer
);
1581 usb_sg_wait(&vub300
->sg_request
);
1583 data
->bytes_xfered
= 0;
1585 del_timer(&vub300
->sg_transfer_timer
);
1586 if (vub300
->sg_request
.status
< 0) {
1587 cmd
->error
= vub300
->sg_request
.status
;
1588 data
->bytes_xfered
= 0;
1590 data
->bytes_xfered
= vub300
->datasize
;
1595 return linear_length
;
1598 static void __vub300_command_response(struct vub300_mmc_host
*vub300
,
1599 struct mmc_command
*cmd
,
1600 struct mmc_data
*data
, int data_length
)
1602 /* cmd_mutex is held by vub300_cmndwork_thread */
1604 int msec_timeout
= 1000 + data_length
/ 4;
1606 wait_for_completion_timeout(&vub300
->command_complete
,
1607 msecs_to_jiffies(msec_timeout
));
1608 if (respretval
== 0) { /* TIMED OUT */
1609 /* we don't know which of "out" and "res" if any failed */
1611 vub300
->usb_timed_out
= 1;
1612 usb_kill_urb(vub300
->command_out_urb
);
1613 usb_kill_urb(vub300
->command_res_urb
);
1614 cmd
->error
= -ETIMEDOUT
;
1615 result
= usb_lock_device_for_reset(vub300
->udev
,
1618 result
= usb_reset_device(vub300
->udev
);
1619 usb_unlock_device(vub300
->udev
);
1621 } else if (respretval
< 0) {
1622 /* we don't know which of "out" and "res" if any failed */
1623 usb_kill_urb(vub300
->command_out_urb
);
1624 usb_kill_urb(vub300
->command_res_urb
);
1625 cmd
->error
= respretval
;
1626 } else if (cmd
->error
) {
1628 * the error occurred sending the command
1629 * or receiving the response
1631 } else if (vub300
->command_out_urb
->status
) {
1632 vub300
->usb_transport_fail
= vub300
->command_out_urb
->status
;
1633 cmd
->error
= -EPROTO
== vub300
->command_out_urb
->status
?
1634 -ESHUTDOWN
: vub300
->command_out_urb
->status
;
1635 } else if (vub300
->command_res_urb
->status
) {
1636 vub300
->usb_transport_fail
= vub300
->command_res_urb
->status
;
1637 cmd
->error
= -EPROTO
== vub300
->command_res_urb
->status
?
1638 -ESHUTDOWN
: vub300
->command_res_urb
->status
;
1639 } else if (vub300
->resp
.common
.header_type
== 0x00) {
1641 * the command completed successfully
1642 * and there was no piggybacked data
1644 } else if (vub300
->resp
.common
.header_type
== RESPONSE_ERROR
) {
1646 vub300_response_error(vub300
->resp
.error
.error_code
);
1648 usb_sg_cancel(&vub300
->sg_request
);
1649 } else if (vub300
->resp
.common
.header_type
== RESPONSE_PIGGYBACKED
) {
1650 int offloaded_data_length
=
1651 vub300
->resp
.common
.header_size
-
1652 sizeof(struct sd_register_header
);
1653 int register_count
= offloaded_data_length
>> 3;
1655 while (register_count
--) {
1656 add_offloaded_reg(vub300
, &vub300
->resp
.pig
.reg
[ri
]);
1659 vub300
->resp
.common
.header_size
=
1660 sizeof(struct sd_register_header
);
1661 vub300
->resp
.common
.header_type
= 0x00;
1663 } else if (vub300
->resp
.common
.header_type
== RESPONSE_PIG_DISABLED
) {
1664 int offloaded_data_length
=
1665 vub300
->resp
.common
.header_size
-
1666 sizeof(struct sd_register_header
);
1667 int register_count
= offloaded_data_length
>> 3;
1669 while (register_count
--) {
1670 add_offloaded_reg(vub300
, &vub300
->resp
.pig
.reg
[ri
]);
1673 mutex_lock(&vub300
->irq_mutex
);
1674 if (vub300
->irqs_queued
) {
1675 vub300
->irqs_queued
+= 1;
1676 } else if (vub300
->irq_enabled
) {
1677 vub300
->irqs_queued
+= 1;
1678 vub300_queue_poll_work(vub300
, 0);
1680 vub300
->irqs_queued
+= 1;
1682 vub300
->irq_disabled
= 1;
1683 mutex_unlock(&vub300
->irq_mutex
);
1684 vub300
->resp
.common
.header_size
=
1685 sizeof(struct sd_register_header
);
1686 vub300
->resp
.common
.header_type
= 0x00;
1688 } else if (vub300
->resp
.common
.header_type
== RESPONSE_PIG_ENABLED
) {
1689 int offloaded_data_length
=
1690 vub300
->resp
.common
.header_size
-
1691 sizeof(struct sd_register_header
);
1692 int register_count
= offloaded_data_length
>> 3;
1694 while (register_count
--) {
1695 add_offloaded_reg(vub300
, &vub300
->resp
.pig
.reg
[ri
]);
1698 mutex_lock(&vub300
->irq_mutex
);
1699 if (vub300
->irqs_queued
) {
1700 vub300
->irqs_queued
+= 1;
1701 } else if (vub300
->irq_enabled
) {
1702 vub300
->irqs_queued
+= 1;
1703 vub300_queue_poll_work(vub300
, 0);
1705 vub300
->irqs_queued
+= 1;
1707 vub300
->irq_disabled
= 0;
1708 mutex_unlock(&vub300
->irq_mutex
);
1709 vub300
->resp
.common
.header_size
=
1710 sizeof(struct sd_register_header
);
1711 vub300
->resp
.common
.header_type
= 0x00;
1714 cmd
->error
= -EINVAL
;
1718 static void construct_request_response(struct vub300_mmc_host
*vub300
,
1719 struct mmc_command
*cmd
)
1721 int resp_len
= vub300
->resp_len
;
1722 int less_cmd
= (17 == resp_len
) ? resp_len
: resp_len
- 1;
1723 int bytes
= 3 & less_cmd
;
1724 int words
= less_cmd
>> 2;
1725 u8
*r
= vub300
->resp
.response
.command_response
;
1727 cmd
->resp
[words
] = (r
[1 + (words
<< 2)] << 24)
1728 | (r
[2 + (words
<< 2)] << 16)
1729 | (r
[3 + (words
<< 2)] << 8);
1730 } else if (bytes
== 2) {
1731 cmd
->resp
[words
] = (r
[1 + (words
<< 2)] << 24)
1732 | (r
[2 + (words
<< 2)] << 16);
1733 } else if (bytes
== 1) {
1734 cmd
->resp
[words
] = (r
[1 + (words
<< 2)] << 24);
1736 while (words
-- > 0) {
1737 cmd
->resp
[words
] = (r
[1 + (words
<< 2)] << 24)
1738 | (r
[2 + (words
<< 2)] << 16)
1739 | (r
[3 + (words
<< 2)] << 8)
1740 | (r
[4 + (words
<< 2)] << 0);
1742 if ((cmd
->opcode
== 53) && (0x000000FF & cmd
->resp
[0]))
1743 cmd
->resp
[0] &= 0xFFFFFF00;
1746 /* this thread runs only when there is an upper level command req outstanding */
1747 static void vub300_cmndwork_thread(struct work_struct
*work
)
1749 struct vub300_mmc_host
*vub300
=
1750 container_of(work
, struct vub300_mmc_host
, cmndwork
);
1751 if (!vub300
->interface
) {
1752 kref_put(&vub300
->kref
, vub300_delete
);
1755 struct mmc_request
*req
= vub300
->req
;
1756 struct mmc_command
*cmd
= vub300
->cmd
;
1757 struct mmc_data
*data
= vub300
->data
;
1759 mutex_lock(&vub300
->cmd_mutex
);
1760 init_completion(&vub300
->command_complete
);
1761 if (likely(vub300
->vub_name
[0]) || !vub300
->mmc
->card
||
1762 !mmc_card_present(vub300
->mmc
->card
)) {
1764 * the name of the EMPTY Pseudo firmware file
1765 * is used as a flag to indicate that the file
1766 * has been already downloaded to the VUB300 chip
1768 } else if (0 == vub300
->mmc
->card
->sdio_funcs
) {
1769 strncpy(vub300
->vub_name
, "SD memory device",
1770 sizeof(vub300
->vub_name
));
1772 download_offload_pseudocode(vub300
);
1774 send_command(vub300
);
1777 else if (MMC_DATA_READ
& data
->flags
)
1778 data_length
= __command_read_data(vub300
, cmd
, data
);
1780 data_length
= __command_write_data(vub300
, cmd
, data
);
1781 __vub300_command_response(vub300
, cmd
, data
, data_length
);
1784 vub300
->data
= NULL
;
1786 if (cmd
->error
== -ENOMEDIUM
)
1787 check_vub300_port_status(vub300
);
1788 mutex_unlock(&vub300
->cmd_mutex
);
1789 mmc_request_done(vub300
->mmc
, req
);
1790 kref_put(&vub300
->kref
, vub300_delete
);
1793 construct_request_response(vub300
, cmd
);
1794 vub300
->resp_len
= 0;
1795 mutex_unlock(&vub300
->cmd_mutex
);
1796 kref_put(&vub300
->kref
, vub300_delete
);
1797 mmc_request_done(vub300
->mmc
, req
);
1803 static int examine_cyclic_buffer(struct vub300_mmc_host
*vub300
,
1804 struct mmc_command
*cmd
, u8 Function
)
1806 /* cmd_mutex is held by vub300_mmc_request */
1807 u8 cmd0
= 0xFF & (cmd
->arg
>> 24);
1808 u8 cmd1
= 0xFF & (cmd
->arg
>> 16);
1809 u8 cmd2
= 0xFF & (cmd
->arg
>> 8);
1810 u8 cmd3
= 0xFF & (cmd
->arg
>> 0);
1811 int first
= MAXREGMASK
& vub300
->fn
[Function
].offload_point
;
1812 struct offload_registers_access
*rf
= &vub300
->fn
[Function
].reg
[first
];
1813 if (cmd0
== rf
->command_byte
[0] &&
1814 cmd1
== rf
->command_byte
[1] &&
1815 cmd2
== rf
->command_byte
[2] &&
1816 cmd3
== rf
->command_byte
[3]) {
1818 cmd
->resp
[1] = checksum
<< 24;
1819 cmd
->resp
[0] = (rf
->Respond_Byte
[0] << 24)
1820 | (rf
->Respond_Byte
[1] << 16)
1821 | (rf
->Respond_Byte
[2] << 8)
1822 | (rf
->Respond_Byte
[3] << 0);
1823 vub300
->fn
[Function
].offload_point
+= 1;
1824 vub300
->fn
[Function
].offload_count
-= 1;
1825 vub300
->total_offload_count
-= 1;
1828 int delta
= 1; /* because it does not match the first one */
1829 u8 register_count
= vub300
->fn
[Function
].offload_count
- 1;
1830 u32 register_point
= vub300
->fn
[Function
].offload_point
+ 1;
1831 while (0 < register_count
) {
1832 int point
= MAXREGMASK
& register_point
;
1833 struct offload_registers_access
*r
=
1834 &vub300
->fn
[Function
].reg
[point
];
1835 if (cmd0
== r
->command_byte
[0] &&
1836 cmd1
== r
->command_byte
[1] &&
1837 cmd2
== r
->command_byte
[2] &&
1838 cmd3
== r
->command_byte
[3]) {
1840 cmd
->resp
[1] = checksum
<< 24;
1841 cmd
->resp
[0] = (r
->Respond_Byte
[0] << 24)
1842 | (r
->Respond_Byte
[1] << 16)
1843 | (r
->Respond_Byte
[2] << 8)
1844 | (r
->Respond_Byte
[3] << 0);
1845 vub300
->fn
[Function
].offload_point
+= delta
;
1846 vub300
->fn
[Function
].offload_count
-= delta
;
1847 vub300
->total_offload_count
-= delta
;
1850 register_point
+= 1;
1851 register_count
-= 1;
1860 static int satisfy_request_from_offloaded_data(struct vub300_mmc_host
*vub300
,
1861 struct mmc_command
*cmd
)
1863 /* cmd_mutex is held by vub300_mmc_request */
1864 u8 regs
= vub300
->dynamic_register_count
;
1868 while (0 < regs
--) {
1869 if ((vub300
->sdio_register
[i
].func_num
== func
) &&
1870 (vub300
->sdio_register
[i
].sdio_reg
== reg
)) {
1871 if (!vub300
->sdio_register
[i
].prepared
) {
1873 } else if ((0x80000000 & cmd
->arg
) == 0x80000000) {
1875 * a write to a dynamic register
1876 * nullifies our offloaded value
1878 vub300
->sdio_register
[i
].prepared
= 0;
1884 u8 rsp2
= vub300
->sdio_register
[i
].response
;
1885 u8 rsp3
= vub300
->sdio_register
[i
].regvalue
;
1886 vub300
->sdio_register
[i
].prepared
= 0;
1887 cmd
->resp
[1] = checksum
<< 24;
1888 cmd
->resp
[0] = (rsp0
<< 24)
1899 if (vub300
->total_offload_count
== 0)
1901 else if (vub300
->fn
[func
].offload_count
== 0)
1904 return examine_cyclic_buffer(vub300
, cmd
, func
);
1907 static void vub300_mmc_request(struct mmc_host
*mmc
, struct mmc_request
*req
)
1909 struct mmc_command
*cmd
= req
->cmd
;
1910 struct vub300_mmc_host
*vub300
= mmc_priv(mmc
);
1911 if (!vub300
->interface
) {
1912 cmd
->error
= -ESHUTDOWN
;
1913 mmc_request_done(mmc
, req
);
1916 struct mmc_data
*data
= req
->data
;
1917 if (!vub300
->card_powered
) {
1918 cmd
->error
= -ENOMEDIUM
;
1919 mmc_request_done(mmc
, req
);
1922 if (!vub300
->card_present
) {
1923 cmd
->error
= -ENOMEDIUM
;
1924 mmc_request_done(mmc
, req
);
1927 if (vub300
->usb_transport_fail
) {
1928 cmd
->error
= vub300
->usb_transport_fail
;
1929 mmc_request_done(mmc
, req
);
1932 if (!vub300
->interface
) {
1933 cmd
->error
= -ENODEV
;
1934 mmc_request_done(mmc
, req
);
1937 kref_get(&vub300
->kref
);
1938 mutex_lock(&vub300
->cmd_mutex
);
1939 mod_timer(&vub300
->inactivity_timer
, jiffies
+ HZ
);
1941 * for performance we have to return immediately
1942 * if the requested data has been offloaded
1944 if (cmd
->opcode
== 52 &&
1945 satisfy_request_from_offloaded_data(vub300
, cmd
)) {
1947 mutex_unlock(&vub300
->cmd_mutex
);
1948 kref_put(&vub300
->kref
, vub300_delete
);
1949 mmc_request_done(mmc
, req
);
1954 vub300
->data
= data
;
1956 vub300
->datasize
= data
->blksz
* data
->blocks
;
1958 vub300
->datasize
= 0;
1959 vub300_queue_cmnd_work(vub300
);
1960 mutex_unlock(&vub300
->cmd_mutex
);
1961 kref_put(&vub300
->kref
, vub300_delete
);
1963 * the kernel lock diagnostics complain
1964 * if the cmd_mutex * is "passed on"
1965 * to the cmndwork thread,
1966 * so we must release it now
1967 * and re-acquire it in the cmndwork thread
1973 static void __set_clock_speed(struct vub300_mmc_host
*vub300
, u8 buf
[8],
1974 struct mmc_ios
*ios
)
1976 int buf_array_size
= 8; /* ARRAY_SIZE(buf) does not work !!! */
1979 if (ios
->clock
>= 48000000)
1981 else if (ios
->clock
>= 24000000)
1983 else if (ios
->clock
>= 20000000)
1985 else if (ios
->clock
>= 15000000)
1987 else if (ios
->clock
>= 200000)
1994 for (i
= 0; i
< buf_array_size
; i
++) {
2000 usb_control_msg(vub300
->udev
, usb_sndctrlpipe(vub300
->udev
, 0),
2002 USB_DIR_OUT
| USB_TYPE_VENDOR
| USB_RECIP_DEVICE
,
2003 0x00, 0x00, buf
, buf_array_size
, HZ
);
2005 dev_err(&vub300
->udev
->dev
, "SET_CLOCK_SPEED"
2006 " %dkHz failed with retval=%d\n", kHzClock
, retval
);
2008 dev_dbg(&vub300
->udev
->dev
, "SET_CLOCK_SPEED"
2009 " %dkHz\n", kHzClock
);
2013 static void vub300_mmc_set_ios(struct mmc_host
*mmc
, struct mmc_ios
*ios
)
2015 struct vub300_mmc_host
*vub300
= mmc_priv(mmc
);
2016 if (!vub300
->interface
)
2018 kref_get(&vub300
->kref
);
2019 mutex_lock(&vub300
->cmd_mutex
);
2020 if ((ios
->power_mode
== MMC_POWER_OFF
) && vub300
->card_powered
) {
2021 vub300
->card_powered
= 0;
2022 usb_control_msg(vub300
->udev
, usb_sndctrlpipe(vub300
->udev
, 0),
2024 USB_DIR_OUT
| USB_TYPE_VENDOR
| USB_RECIP_DEVICE
,
2025 0x0000, 0x0000, NULL
, 0, HZ
);
2026 /* must wait for the VUB300 u-proc to boot up */
2028 } else if ((ios
->power_mode
== MMC_POWER_UP
) && !vub300
->card_powered
) {
2029 usb_control_msg(vub300
->udev
, usb_sndctrlpipe(vub300
->udev
, 0),
2031 USB_DIR_OUT
| USB_TYPE_VENDOR
| USB_RECIP_DEVICE
,
2032 0x0001, 0x0000, NULL
, 0, HZ
);
2034 vub300
->card_powered
= 1;
2035 } else if (ios
->power_mode
== MMC_POWER_ON
) {
2036 u8
*buf
= kmalloc(8, GFP_KERNEL
);
2038 __set_clock_speed(vub300
, buf
, ios
);
2042 /* this should mean no change of state */
2044 mutex_unlock(&vub300
->cmd_mutex
);
2045 kref_put(&vub300
->kref
, vub300_delete
);
2048 static int vub300_mmc_get_ro(struct mmc_host
*mmc
)
2050 struct vub300_mmc_host
*vub300
= mmc_priv(mmc
);
2051 return vub300
->read_only
;
2054 static void vub300_enable_sdio_irq(struct mmc_host
*mmc
, int enable
)
2056 struct vub300_mmc_host
*vub300
= mmc_priv(mmc
);
2057 if (!vub300
->interface
)
2059 kref_get(&vub300
->kref
);
2061 mutex_lock(&vub300
->irq_mutex
);
2062 if (vub300
->irqs_queued
) {
2063 vub300
->irqs_queued
-= 1;
2064 mmc_signal_sdio_irq(vub300
->mmc
);
2065 } else if (vub300
->irq_disabled
) {
2066 vub300
->irq_disabled
= 0;
2067 vub300
->irq_enabled
= 1;
2068 vub300_queue_poll_work(vub300
, 0);
2069 } else if (vub300
->irq_enabled
) {
2070 /* this should not happen, so we will just ignore it */
2072 vub300
->irq_enabled
= 1;
2073 vub300_queue_poll_work(vub300
, 0);
2075 mutex_unlock(&vub300
->irq_mutex
);
2077 vub300
->irq_enabled
= 0;
2079 kref_put(&vub300
->kref
, vub300_delete
);
2082 void vub300_init_card(struct mmc_host
*mmc
, struct mmc_card
*card
)
2084 struct vub300_mmc_host
*vub300
= mmc_priv(mmc
);
2085 dev_info(&vub300
->udev
->dev
, "NO host QUIRKS for this card\n");
2088 static struct mmc_host_ops vub300_mmc_ops
= {
2089 .request
= vub300_mmc_request
,
2090 .set_ios
= vub300_mmc_set_ios
,
2091 .get_ro
= vub300_mmc_get_ro
,
2092 .enable_sdio_irq
= vub300_enable_sdio_irq
,
2093 .init_card
= vub300_init_card
,
2096 static int vub300_probe(struct usb_interface
*interface
,
2097 const struct usb_device_id
*id
)
2099 struct vub300_mmc_host
*vub300
;
2100 struct usb_host_interface
*iface_desc
;
2101 struct usb_device
*udev
= usb_get_dev(interface_to_usbdev(interface
));
2103 int retval
= -ENOMEM
;
2104 struct urb
*command_out_urb
;
2105 struct urb
*command_res_urb
;
2106 struct mmc_host
*mmc
;
2107 char manufacturer
[48];
2109 char serial_number
[32];
2110 usb_string(udev
, udev
->descriptor
.iManufacturer
, manufacturer
,
2111 sizeof(manufacturer
));
2112 usb_string(udev
, udev
->descriptor
.iProduct
, product
, sizeof(product
));
2113 usb_string(udev
, udev
->descriptor
.iSerialNumber
, serial_number
,
2114 sizeof(serial_number
));
2115 dev_info(&udev
->dev
, "probing VID:PID(%04X:%04X) %s %s %s\n",
2116 udev
->descriptor
.idVendor
, udev
->descriptor
.idProduct
,
2117 manufacturer
, product
, serial_number
);
2118 command_out_urb
= usb_alloc_urb(0, GFP_KERNEL
);
2119 if (!command_out_urb
) {
2121 dev_err(&udev
->dev
, "not enough memory for command_out_urb\n");
2124 command_res_urb
= usb_alloc_urb(0, GFP_KERNEL
);
2125 if (!command_res_urb
) {
2127 dev_err(&udev
->dev
, "not enough memory for command_res_urb\n");
2130 /* this also allocates memory for our VUB300 mmc host device */
2131 mmc
= mmc_alloc_host(sizeof(struct vub300_mmc_host
), &udev
->dev
);
2134 dev_err(&udev
->dev
, "not enough memory for the mmc_host\n");
2137 /* MMC core transfer sizes tunable parameters */
2139 if (!force_1_bit_data_xfers
)
2140 mmc
->caps
|= MMC_CAP_4_BIT_DATA
;
2141 if (!force_polling_for_irqs
)
2142 mmc
->caps
|= MMC_CAP_SDIO_IRQ
;
2143 mmc
->caps
&= ~MMC_CAP_NEEDS_POLL
;
2145 * MMC_CAP_NEEDS_POLL causes core.c:mmc_rescan() to poll
2146 * for devices which results in spurious CMD7's being
2147 * issued which stops some SDIO cards from working
2149 if (limit_speed_to_24_MHz
) {
2150 mmc
->caps
|= MMC_CAP_MMC_HIGHSPEED
;
2151 mmc
->caps
|= MMC_CAP_SD_HIGHSPEED
;
2152 mmc
->f_max
= 24000000;
2153 dev_info(&udev
->dev
, "limiting SDIO speed to 24_MHz\n");
2155 mmc
->caps
|= MMC_CAP_MMC_HIGHSPEED
;
2156 mmc
->caps
|= MMC_CAP_SD_HIGHSPEED
;
2157 mmc
->f_max
= 48000000;
2159 mmc
->f_min
= 200000;
2160 mmc
->max_blk_count
= 511;
2161 mmc
->max_blk_size
= 512;
2162 mmc
->max_segs
= 128;
2163 if (force_max_req_size
)
2164 mmc
->max_req_size
= force_max_req_size
* 1024;
2166 mmc
->max_req_size
= 64 * 1024;
2167 mmc
->max_seg_size
= mmc
->max_req_size
;
2169 mmc
->ocr_avail
|= MMC_VDD_165_195
;
2170 mmc
->ocr_avail
|= MMC_VDD_20_21
;
2171 mmc
->ocr_avail
|= MMC_VDD_21_22
;
2172 mmc
->ocr_avail
|= MMC_VDD_22_23
;
2173 mmc
->ocr_avail
|= MMC_VDD_23_24
;
2174 mmc
->ocr_avail
|= MMC_VDD_24_25
;
2175 mmc
->ocr_avail
|= MMC_VDD_25_26
;
2176 mmc
->ocr_avail
|= MMC_VDD_26_27
;
2177 mmc
->ocr_avail
|= MMC_VDD_27_28
;
2178 mmc
->ocr_avail
|= MMC_VDD_28_29
;
2179 mmc
->ocr_avail
|= MMC_VDD_29_30
;
2180 mmc
->ocr_avail
|= MMC_VDD_30_31
;
2181 mmc
->ocr_avail
|= MMC_VDD_31_32
;
2182 mmc
->ocr_avail
|= MMC_VDD_32_33
;
2183 mmc
->ocr_avail
|= MMC_VDD_33_34
;
2184 mmc
->ocr_avail
|= MMC_VDD_34_35
;
2185 mmc
->ocr_avail
|= MMC_VDD_35_36
;
2186 mmc
->ops
= &vub300_mmc_ops
;
2187 vub300
= mmc_priv(mmc
);
2189 vub300
->card_powered
= 0;
2190 vub300
->bus_width
= 0;
2191 vub300
->cmnd
.head
.block_size
[0] = 0x00;
2192 vub300
->cmnd
.head
.block_size
[1] = 0x00;
2193 vub300
->app_spec
= 0;
2194 mutex_init(&vub300
->cmd_mutex
);
2195 mutex_init(&vub300
->irq_mutex
);
2196 vub300
->command_out_urb
= command_out_urb
;
2197 vub300
->command_res_urb
= command_res_urb
;
2198 vub300
->usb_timed_out
= 0;
2199 vub300
->dynamic_register_count
= 0;
2201 for (i
= 0; i
< ARRAY_SIZE(vub300
->fn
); i
++) {
2202 vub300
->fn
[i
].offload_point
= 0;
2203 vub300
->fn
[i
].offload_count
= 0;
2206 vub300
->total_offload_count
= 0;
2207 vub300
->irq_enabled
= 0;
2208 vub300
->irq_disabled
= 0;
2209 vub300
->irqs_queued
= 0;
2211 for (i
= 0; i
< ARRAY_SIZE(vub300
->sdio_register
); i
++)
2212 vub300
->sdio_register
[i
++].activate
= 0;
2214 vub300
->udev
= udev
;
2215 vub300
->interface
= interface
;
2216 vub300
->cmnd_res_ep
= 0;
2217 vub300
->cmnd_out_ep
= 0;
2218 vub300
->data_inp_ep
= 0;
2219 vub300
->data_out_ep
= 0;
2221 for (i
= 0; i
< ARRAY_SIZE(vub300
->fbs
); i
++)
2222 vub300
->fbs
[i
] = 512;
2225 * set up the endpoint information
2227 * use the first pair of bulk-in and bulk-out
2228 * endpoints for Command/Response+Interrupt
2230 * use the second pair of bulk-in and bulk-out
2231 * endpoints for Data In/Out
2233 vub300
->large_usb_packets
= 0;
2234 iface_desc
= interface
->cur_altsetting
;
2235 for (i
= 0; i
< iface_desc
->desc
.bNumEndpoints
; ++i
) {
2236 struct usb_endpoint_descriptor
*endpoint
=
2237 &iface_desc
->endpoint
[i
].desc
;
2238 dev_info(&vub300
->udev
->dev
,
2239 "vub300 testing %s EndPoint(%d) %02X\n",
2240 usb_endpoint_is_bulk_in(endpoint
) ? "BULK IN" :
2241 usb_endpoint_is_bulk_out(endpoint
) ? "BULK OUT" :
2242 "UNKNOWN", i
, endpoint
->bEndpointAddress
);
2243 if (endpoint
->wMaxPacketSize
> 64)
2244 vub300
->large_usb_packets
= 1;
2245 if (usb_endpoint_is_bulk_in(endpoint
)) {
2246 if (!vub300
->cmnd_res_ep
) {
2247 vub300
->cmnd_res_ep
=
2248 endpoint
->bEndpointAddress
;
2249 } else if (!vub300
->data_inp_ep
) {
2250 vub300
->data_inp_ep
=
2251 endpoint
->bEndpointAddress
;
2253 dev_warn(&vub300
->udev
->dev
,
2255 " unexpected bulk_in endpoint");
2257 } else if (usb_endpoint_is_bulk_out(endpoint
)) {
2258 if (!vub300
->cmnd_out_ep
) {
2259 vub300
->cmnd_out_ep
=
2260 endpoint
->bEndpointAddress
;
2261 } else if (!vub300
->data_out_ep
) {
2262 vub300
->data_out_ep
=
2263 endpoint
->bEndpointAddress
;
2265 dev_warn(&vub300
->udev
->dev
,
2267 " unexpected bulk_out endpoint");
2270 dev_warn(&vub300
->udev
->dev
,
2271 "vub300 ignoring EndPoint(%d) %02X", i
,
2272 endpoint
->bEndpointAddress
);
2275 if (vub300
->cmnd_res_ep
&& vub300
->cmnd_out_ep
&&
2276 vub300
->data_inp_ep
&& vub300
->data_out_ep
) {
2277 dev_info(&vub300
->udev
->dev
,
2279 " using EndPoints %02X %02X %02X %02X\n",
2280 vub300
->large_usb_packets
? "LARGE" : "SMALL",
2281 vub300
->cmnd_out_ep
, vub300
->cmnd_res_ep
,
2282 vub300
->data_out_ep
, vub300
->data_inp_ep
);
2283 /* we have the expected EndPoints */
2285 dev_err(&vub300
->udev
->dev
,
2286 "Could not find two sets of bulk-in/out endpoint pairs\n");
2291 usb_control_msg(vub300
->udev
, usb_rcvctrlpipe(vub300
->udev
, 0),
2293 USB_DIR_IN
| USB_TYPE_VENDOR
| USB_RECIP_DEVICE
,
2294 0x0000, 0x0000, &vub300
->hc_info
,
2295 sizeof(vub300
->hc_info
), HZ
);
2299 usb_control_msg(vub300
->udev
, usb_rcvctrlpipe(vub300
->udev
, 0),
2300 SET_ROM_WAIT_STATES
,
2301 USB_DIR_OUT
| USB_TYPE_VENDOR
| USB_RECIP_DEVICE
,
2302 firmware_rom_wait_states
, 0x0000, NULL
, 0, HZ
);
2305 dev_info(&vub300
->udev
->dev
,
2306 "operating_mode = %s %s %d MHz %s %d byte USB packets\n",
2307 (mmc
->caps
& MMC_CAP_SDIO_IRQ
) ? "IRQs" : "POLL",
2308 (mmc
->caps
& MMC_CAP_4_BIT_DATA
) ? "4-bit" : "1-bit",
2309 mmc
->f_max
/ 1000000,
2310 pad_input_to_usb_pkt
? "padding input data to" : "with",
2311 vub300
->large_usb_packets
? 512 : 64);
2313 usb_control_msg(vub300
->udev
, usb_rcvctrlpipe(vub300
->udev
, 0),
2314 GET_SYSTEM_PORT_STATUS
,
2315 USB_DIR_IN
| USB_TYPE_VENDOR
| USB_RECIP_DEVICE
,
2316 0x0000, 0x0000, &vub300
->system_port_status
,
2317 sizeof(vub300
->system_port_status
), HZ
);
2320 } else if (sizeof(vub300
->system_port_status
) == retval
) {
2321 vub300
->card_present
=
2322 (0x0001 & vub300
->system_port_status
.port_flags
) ? 1 : 0;
2324 (0x0010 & vub300
->system_port_status
.port_flags
) ? 1 : 0;
2328 usb_set_intfdata(interface
, vub300
);
2329 INIT_DELAYED_WORK(&vub300
->pollwork
, vub300_pollwork_thread
);
2330 INIT_WORK(&vub300
->cmndwork
, vub300_cmndwork_thread
);
2331 INIT_WORK(&vub300
->deadwork
, vub300_deadwork_thread
);
2332 kref_init(&vub300
->kref
);
2333 init_timer(&vub300
->sg_transfer_timer
);
2334 vub300
->sg_transfer_timer
.data
= (unsigned long)vub300
;
2335 vub300
->sg_transfer_timer
.function
= vub300_sg_timed_out
;
2336 kref_get(&vub300
->kref
);
2337 init_timer(&vub300
->inactivity_timer
);
2338 vub300
->inactivity_timer
.data
= (unsigned long)vub300
;
2339 vub300
->inactivity_timer
.function
= vub300_inactivity_timer_expired
;
2340 vub300
->inactivity_timer
.expires
= jiffies
+ HZ
;
2341 add_timer(&vub300
->inactivity_timer
);
2342 if (vub300
->card_present
)
2343 dev_info(&vub300
->udev
->dev
,
2344 "USB vub300 remote SDIO host controller[%d]"
2345 "connected with SD/SDIO card inserted\n",
2346 interface_to_InterfaceNumber(interface
));
2348 dev_info(&vub300
->udev
->dev
,
2349 "USB vub300 remote SDIO host controller[%d]"
2350 "connected with no SD/SDIO card inserted\n",
2351 interface_to_InterfaceNumber(interface
));
2357 * and hence also frees vub300
2358 * which is contained at the end of struct mmc
2361 usb_free_urb(command_out_urb
);
2363 usb_free_urb(command_res_urb
);
2368 static void vub300_disconnect(struct usb_interface
*interface
)
2370 struct vub300_mmc_host
*vub300
= usb_get_intfdata(interface
);
2371 if (!vub300
|| !vub300
->mmc
) {
2374 struct mmc_host
*mmc
= vub300
->mmc
;
2378 int ifnum
= interface_to_InterfaceNumber(interface
);
2379 usb_set_intfdata(interface
, NULL
);
2380 /* prevent more I/O from starting */
2381 vub300
->interface
= NULL
;
2382 kref_put(&vub300
->kref
, vub300_delete
);
2383 mmc_remove_host(mmc
);
2384 pr_info("USB vub300 remote SDIO host controller[%d]"
2385 " now disconnected", ifnum
);
2392 static int vub300_suspend(struct usb_interface
*intf
, pm_message_t message
)
2394 struct vub300_mmc_host
*vub300
= usb_get_intfdata(intf
);
2395 if (!vub300
|| !vub300
->mmc
) {
2398 struct mmc_host
*mmc
= vub300
->mmc
;
2399 mmc_suspend_host(mmc
);
2404 static int vub300_resume(struct usb_interface
*intf
)
2406 struct vub300_mmc_host
*vub300
= usb_get_intfdata(intf
);
2407 if (!vub300
|| !vub300
->mmc
) {
2410 struct mmc_host
*mmc
= vub300
->mmc
;
2411 mmc_resume_host(mmc
);
2416 #define vub300_suspend NULL
2417 #define vub300_resume NULL
2419 static int vub300_pre_reset(struct usb_interface
*intf
)
2421 struct vub300_mmc_host
*vub300
= usb_get_intfdata(intf
);
2422 mutex_lock(&vub300
->cmd_mutex
);
2426 static int vub300_post_reset(struct usb_interface
*intf
)
2428 struct vub300_mmc_host
*vub300
= usb_get_intfdata(intf
);
2429 /* we are sure no URBs are active - no locking needed */
2430 vub300
->errors
= -EPIPE
;
2431 mutex_unlock(&vub300
->cmd_mutex
);
2435 static struct usb_driver vub300_driver
= {
2437 .probe
= vub300_probe
,
2438 .disconnect
= vub300_disconnect
,
2439 .suspend
= vub300_suspend
,
2440 .resume
= vub300_resume
,
2441 .pre_reset
= vub300_pre_reset
,
2442 .post_reset
= vub300_post_reset
,
2443 .id_table
= vub300_table
,
2444 .supports_autosuspend
= 1,
2447 static int __init
vub300_init(void)
2451 pr_info("VUB300 Driver rom wait states = %02X irqpoll timeout = %04X",
2452 firmware_rom_wait_states
, 0x0FFFF & firmware_irqpoll_timeout
);
2453 cmndworkqueue
= create_singlethread_workqueue("kvub300c");
2454 if (!cmndworkqueue
) {
2455 pr_err("not enough memory for the REQUEST workqueue");
2459 pollworkqueue
= create_singlethread_workqueue("kvub300p");
2460 if (!pollworkqueue
) {
2461 pr_err("not enough memory for the IRQPOLL workqueue");
2465 deadworkqueue
= create_singlethread_workqueue("kvub300d");
2466 if (!deadworkqueue
) {
2467 pr_err("not enough memory for the EXPIRED workqueue");
2471 result
= usb_register(&vub300_driver
);
2473 pr_err("usb_register failed. Error number %d", result
);
2478 destroy_workqueue(deadworkqueue
);
2480 destroy_workqueue(pollworkqueue
);
2482 destroy_workqueue(cmndworkqueue
);
2487 static void __exit
vub300_exit(void)
2489 usb_deregister(&vub300_driver
);
2490 flush_workqueue(cmndworkqueue
);
2491 flush_workqueue(pollworkqueue
);
2492 flush_workqueue(deadworkqueue
);
2493 destroy_workqueue(cmndworkqueue
);
2494 destroy_workqueue(pollworkqueue
);
2495 destroy_workqueue(deadworkqueue
);
2498 module_init(vub300_init
);
2499 module_exit(vub300_exit
);
2501 MODULE_AUTHOR("Tony Olech <tony.olech@elandigitalsystems.com>");
2502 MODULE_DESCRIPTION("VUB300 USB to SD/MMC/SDIO adapter driver");
2503 MODULE_LICENSE("GPL");