1
/*
2
 * Copyright (C) 2010 - Maxim Levitsky
3
 * driver for Ricoh memstick readers
4
 *
5
 * This program is free software; you can redistribute it and/or modify
6
 * it under the terms of the GNU General Public License version 2 as
7
 * published by the Free Software Foundation.
8
 */
9

10
#include <linux/kernel.h>
11
#include <linux/module.h>
12
#include <linux/freezer.h>
13
#include <linux/jiffies.h>
14
#include <linux/interrupt.h>
15
#include <linux/pci.h>
16
#include <linux/pci_ids.h>
17
#include <linux/delay.h>
18
#include <linux/slab.h>
19
#include <linux/kthread.h>
20
#include <linux/sched.h>
21
#include <linux/highmem.h>
22
#include <asm/byteorder.h>
23
#include <linux/swab.h>
24
#include "r592.h"
25

26
static int r592_enable_dma = 1;
27
static int debug;
28

29
static const char *tpc_names[] = {
30
	"MS_TPC_READ_MG_STATUS",
31
	"MS_TPC_READ_LONG_DATA",
32
	"MS_TPC_READ_SHORT_DATA",
33
	"MS_TPC_READ_REG",
34
	"MS_TPC_READ_QUAD_DATA",
35
	"INVALID",
36
	"MS_TPC_GET_INT",
37
	"MS_TPC_SET_RW_REG_ADRS",
38
	"MS_TPC_EX_SET_CMD",
39
	"MS_TPC_WRITE_QUAD_DATA",
40
	"MS_TPC_WRITE_REG",
41
	"MS_TPC_WRITE_SHORT_DATA",
42
	"MS_TPC_WRITE_LONG_DATA",
43
	"MS_TPC_SET_CMD",
44
};
45

46
/**
47
 * memstick_debug_get_tpc_name - debug helper that returns string for
48
 * a TPC number
49
 */
50
const char *memstick_debug_get_tpc_name(int tpc)
51
{
52
	return tpc_names[tpc-1];
53
}
54
EXPORT_SYMBOL(memstick_debug_get_tpc_name);
55

56

57
/* Read a register*/
58
static inline u32 r592_read_reg(struct r592_device *dev, int address)
59
{
60
	u32 value = readl(dev->mmio + address);
61
	dbg_reg("reg #%02d == 0x%08x", address, value);
62
	return value;
63
}
64

65
/* Write a register */
66
static inline void r592_write_reg(struct r592_device *dev,
67
							int address, u32 value)
68
{
69
	dbg_reg("reg #%02d <- 0x%08x", address, value);
70
	writel(value, dev->mmio + address);
71
}
72

73
/* Reads a big endian DWORD register */
74
static inline u32 r592_read_reg_raw_be(struct r592_device *dev, int address)
75
{
76
	u32 value = __raw_readl(dev->mmio + address);
77
	dbg_reg("reg #%02d == 0x%08x", address, value);
78
	return be32_to_cpu(value);
79
}
80

81
/* Writes a big endian DWORD register */
82
static inline void r592_write_reg_raw_be(struct r592_device *dev,
83
							int address, u32 value)
84
{
85
	dbg_reg("reg #%02d <- 0x%08x", address, value);
86
	__raw_writel(cpu_to_be32(value), dev->mmio + address);
87
}
88

89
/* Set specific bits in a register (little endian) */
90
static inline void r592_set_reg_mask(struct r592_device *dev,
91
							int address, u32 mask)
92
{
93
	u32 reg = readl(dev->mmio + address);
94
	dbg_reg("reg #%02d |= 0x%08x (old =0x%08x)", address, mask, reg);
95
	writel(reg | mask , dev->mmio + address);
96
}
97

98
/* Clear specific bits in a register (little endian) */
99
static inline void r592_clear_reg_mask(struct r592_device *dev,
100
						int address, u32 mask)
101
{
102
	u32 reg = readl(dev->mmio + address);
103
	dbg_reg("reg #%02d &= 0x%08x (old = 0x%08x, mask = 0x%08x)",
104
						address, ~mask, reg, mask);
105
	writel(reg & ~mask, dev->mmio + address);
106
}
107

108

109
/* Wait for status bits while checking for errors */
110
static int r592_wait_status(struct r592_device *dev, u32 mask, u32 wanted_mask)
111
{
112
	unsigned long timeout = jiffies + msecs_to_jiffies(1000);
113
	u32 reg = r592_read_reg(dev, R592_STATUS);
114

115
	if ((reg & mask) == wanted_mask)
116
		return 0;
117

118
	while (time_before(jiffies, timeout)) {
119

120
		reg = r592_read_reg(dev, R592_STATUS);
121

122
		if ((reg & mask) == wanted_mask)
123
			return 0;
124

125
		if (reg & (R592_STATUS_SEND_ERR | R592_STATUS_RECV_ERR))
126
			return -EIO;
127

128
		cpu_relax();
129
	}
130
	return -ETIME;
131
}
132

133

134
/* Enable/disable device */
135
static int r592_enable_device(struct r592_device *dev, bool enable)
136
{
137
	dbg("%sabling the device", enable ? "en" : "dis");
138

139
	if (enable) {
140

141
		/* Power up the card */
142
		r592_write_reg(dev, R592_POWER, R592_POWER_0 | R592_POWER_1);
143

144
		/* Perform a reset */
145
		r592_set_reg_mask(dev, R592_IO, R592_IO_RESET);
146

147
		msleep(100);
148
	} else
149
		/* Power down the card */
150
		r592_write_reg(dev, R592_POWER, 0);
151

152
	return 0;
153
}
154

155
/* Set serial/parallel mode */
156
static int r592_set_mode(struct r592_device *dev, bool parallel_mode)
157
{
158
	if (!parallel_mode) {
159
		dbg("switching to serial mode");
160

161
		/* Set serial mode */
162
		r592_write_reg(dev, R592_IO_MODE, R592_IO_MODE_SERIAL);
163

164
		r592_clear_reg_mask(dev, R592_POWER, R592_POWER_20);
165

166
	} else {
167
		dbg("switching to parallel mode");
168

169
		/* This setting should be set _before_ switch TPC */
170
		r592_set_reg_mask(dev, R592_POWER, R592_POWER_20);
171

172
		r592_clear_reg_mask(dev, R592_IO,
173
			R592_IO_SERIAL1 | R592_IO_SERIAL2);
174

175
		/* Set the parallel mode now */
176
		r592_write_reg(dev, R592_IO_MODE, R592_IO_MODE_PARALLEL);
177
	}
178

179
	dev->parallel_mode = parallel_mode;
180
	return 0;
181
}
182

183
/* Perform a controller reset without powering down the card */
184
static void r592_host_reset(struct r592_device *dev)
185
{
186
	r592_set_reg_mask(dev, R592_IO, R592_IO_RESET);
187
	msleep(100);
188
	r592_set_mode(dev, dev->parallel_mode);
189
}
190

191
/* Disable all hardware interrupts */
192
static void r592_clear_interrupts(struct r592_device *dev)
193
{
194
	/* Disable & ACK all interrupts */
195
	r592_clear_reg_mask(dev, R592_REG_MSC, IRQ_ALL_ACK_MASK);
196
	r592_clear_reg_mask(dev, R592_REG_MSC, IRQ_ALL_EN_MASK);
197
}
198

199
/* Tests if there is an CRC error */
200
static int r592_test_io_error(struct r592_device *dev)
201
{
202
	if (!(r592_read_reg(dev, R592_STATUS) &
203
		(R592_STATUS_SEND_ERR | R592_STATUS_RECV_ERR)))
204
		return 0;
205

206
	return -EIO;
207
}
208

209
/* Ensure that FIFO is ready for use */
210
static int r592_test_fifo_empty(struct r592_device *dev)
211
{
212
	if (r592_read_reg(dev, R592_REG_MSC) & R592_REG_MSC_FIFO_EMPTY)
213
		return 0;
214

215
	dbg("FIFO not ready, trying to reset the device");
216
	r592_host_reset(dev);
217

218
	if (r592_read_reg(dev, R592_REG_MSC) & R592_REG_MSC_FIFO_EMPTY)
219
		return 0;
220

221
	message("FIFO still not ready, giving up");
222
	return -EIO;
223
}
224

225
/* Activates the DMA transfer from to FIFO */
226
static void r592_start_dma(struct r592_device *dev, bool is_write)
227
{
228
	unsigned long flags;
229
	u32 reg;
230
	spin_lock_irqsave(&dev->irq_lock, flags);
231

232
	/* Ack interrupts (just in case) + enable them */
233
	r592_clear_reg_mask(dev, R592_REG_MSC, DMA_IRQ_ACK_MASK);
234
	r592_set_reg_mask(dev, R592_REG_MSC, DMA_IRQ_EN_MASK);
235

236
	/* Set DMA address */
237
	r592_write_reg(dev, R592_FIFO_DMA, sg_dma_address(&dev->req->sg));
238

239
	/* Enable the DMA */
240
	reg = r592_read_reg(dev, R592_FIFO_DMA_SETTINGS);
241
	reg |= R592_FIFO_DMA_SETTINGS_EN;
242

243
	if (!is_write)
244
		reg |= R592_FIFO_DMA_SETTINGS_DIR;
245
	else
246
		reg &= ~R592_FIFO_DMA_SETTINGS_DIR;
247
	r592_write_reg(dev, R592_FIFO_DMA_SETTINGS, reg);
248

249
	spin_unlock_irqrestore(&dev->irq_lock, flags);
250
}
251

252
/* Cleanups DMA related settings */
253
static void r592_stop_dma(struct r592_device *dev, int error)
254
{
255
	r592_clear_reg_mask(dev, R592_FIFO_DMA_SETTINGS,
256
		R592_FIFO_DMA_SETTINGS_EN);
257

258
	/* This is only a precation */
259
	r592_write_reg(dev, R592_FIFO_DMA,
260
			dev->dummy_dma_page_physical_address);
261

262
	r592_clear_reg_mask(dev, R592_REG_MSC, DMA_IRQ_EN_MASK);
263
	r592_clear_reg_mask(dev, R592_REG_MSC, DMA_IRQ_ACK_MASK);
264
	dev->dma_error = error;
265
}
266

267
/* Test if hardware supports DMA */
268
static void r592_check_dma(struct r592_device *dev)
269
{
270
	dev->dma_capable = r592_enable_dma &&
271
		(r592_read_reg(dev, R592_FIFO_DMA_SETTINGS) &
272
			R592_FIFO_DMA_SETTINGS_CAP);
273
}
274

275
/* Transfers fifo contents in/out using DMA */
276
static int r592_transfer_fifo_dma(struct r592_device *dev)
277
{
278
	int len, sg_count;
279
	bool is_write;
280

281
	if (!dev->dma_capable || !dev->req->long_data)
282
		return -EINVAL;
283

284
	len = dev->req->sg.length;
285
	is_write = dev->req->data_dir == WRITE;
286

287
	if (len != R592_LFIFO_SIZE)
288
		return -EINVAL;
289

290
	dbg_verbose("doing dma transfer");
291

292
	dev->dma_error = 0;
293
	INIT_COMPLETION(dev->dma_done);
294

295
	/* TODO: hidden assumption about nenth beeing always 1 */
296
	sg_count = dma_map_sg(&dev->pci_dev->dev, &dev->req->sg, 1, is_write ?
297
		PCI_DMA_TODEVICE : PCI_DMA_FROMDEVICE);
298

299
	if (sg_count != 1 ||
300
			(sg_dma_len(&dev->req->sg) < dev->req->sg.length)) {
301
		message("problem in dma_map_sg");
302
		return -EIO;
303
	}
304

305
	r592_start_dma(dev, is_write);
306

307
	/* Wait for DMA completion */
308
	if (!wait_for_completion_timeout(
309
			&dev->dma_done, msecs_to_jiffies(1000))) {
310
		message("DMA timeout");
311
		r592_stop_dma(dev, -ETIMEDOUT);
312
	}
313

314
	dma_unmap_sg(&dev->pci_dev->dev, &dev->req->sg, 1, is_write ?
315
		PCI_DMA_TODEVICE : PCI_DMA_FROMDEVICE);
316

317

318
	return dev->dma_error;
319
}
320

321
/*
322
 * Writes the FIFO in 4 byte chunks.
323
 * If length isn't 4 byte aligned, rest of the data if put to a fifo
324
 * to be written later
325
 * Use r592_flush_fifo_write to flush that fifo when writing for the
326
 * last time
327
 */
328
static void r592_write_fifo_pio(struct r592_device *dev,
329
					unsigned char *buffer, int len)
330
{
331
	/* flush spill from former write */
332
	if (!kfifo_is_empty(&dev->pio_fifo)) {
333

334
		u8 tmp[4] = {0};
335
		int copy_len = kfifo_in(&dev->pio_fifo, buffer, len);
336

337
		if (!kfifo_is_full(&dev->pio_fifo))
338
			return;
339
		len -= copy_len;
340
		buffer += copy_len;
341

342
		copy_len = kfifo_out(&dev->pio_fifo, tmp, 4);
343
		WARN_ON(copy_len != 4);
344
		r592_write_reg_raw_be(dev, R592_FIFO_PIO, *(u32 *)tmp);
345
	}
346

347
	WARN_ON(!kfifo_is_empty(&dev->pio_fifo));
348

349
	/* write full dwords */
350
	while (len >= 4) {
351
		r592_write_reg_raw_be(dev, R592_FIFO_PIO, *(u32 *)buffer);
352
		buffer += 4;
353
		len -= 4;
354
	}
355

356
	/* put remaining bytes to the spill */
357
	if (len)
358
		kfifo_in(&dev->pio_fifo, buffer, len);
359
}
360

361
/* Flushes the temporary FIFO used to make aligned DWORD writes */
362
static void r592_flush_fifo_write(struct r592_device *dev)
363
{
364
	u8 buffer[4] = { 0 };
365
	int len;
366

367
	if (kfifo_is_empty(&dev->pio_fifo))
368
		return;
369

370
	len = kfifo_out(&dev->pio_fifo, buffer, 4);
371
	r592_write_reg_raw_be(dev, R592_FIFO_PIO, *(u32 *)buffer);
372
}
373

374
/*
375
 * Read a fifo in 4 bytes chunks.
376
 * If input doesn't fit the buffer, it places bytes of last dword in spill
377
 * buffer, so that they don't get lost on last read, just throw these away.
378
 */
379
static void r592_read_fifo_pio(struct r592_device *dev,
380
						unsigned char *buffer, int len)
381
{
382
	u8 tmp[4];
383

384
	/* Read from last spill */
385
	if (!kfifo_is_empty(&dev->pio_fifo)) {
386
		int bytes_copied =
387
			kfifo_out(&dev->pio_fifo, buffer, min(4, len));
388
		buffer += bytes_copied;
389
		len -= bytes_copied;
390

391
		if (!kfifo_is_empty(&dev->pio_fifo))
392
			return;
393
	}
394

395
	/* Reads dwords from FIFO */
396
	while (len >= 4) {
397
		*(u32 *)buffer = r592_read_reg_raw_be(dev, R592_FIFO_PIO);
398
		buffer += 4;
399
		len -= 4;
400
	}
401

402
	if (len) {
403
		*(u32 *)tmp = r592_read_reg_raw_be(dev, R592_FIFO_PIO);
404
		kfifo_in(&dev->pio_fifo, tmp, 4);
405
		len -= kfifo_out(&dev->pio_fifo, buffer, len);
406
	}
407

408
	WARN_ON(len);
409
	return;
410
}
411

412
/* Transfers actual data using PIO. */
413
static int r592_transfer_fifo_pio(struct r592_device *dev)
414
{
415
	unsigned long flags;
416

417
	bool is_write = dev->req->tpc >= MS_TPC_SET_RW_REG_ADRS;
418
	struct sg_mapping_iter miter;
419

420
	kfifo_reset(&dev->pio_fifo);
421

422
	if (!dev->req->long_data) {
423
		if (is_write) {
424
			r592_write_fifo_pio(dev, dev->req->data,
425
							dev->req->data_len);
426
			r592_flush_fifo_write(dev);
427
		} else
428
			r592_read_fifo_pio(dev, dev->req->data,
429
							dev->req->data_len);
430
		return 0;
431
	}
432

433
	local_irq_save(flags);
434
	sg_miter_start(&miter, &dev->req->sg, 1, SG_MITER_ATOMIC |
435
		(is_write ? SG_MITER_FROM_SG : SG_MITER_TO_SG));
436

437
	/* Do the transfer fifo<->memory*/
438
	while (sg_miter_next(&miter))
439
		if (is_write)
440
			r592_write_fifo_pio(dev, miter.addr, miter.length);
441
		else
442
			r592_read_fifo_pio(dev, miter.addr, miter.length);
443

444

445
	/* Write last few non aligned bytes*/
446
	if (is_write)
447
		r592_flush_fifo_write(dev);
448

449
	sg_miter_stop(&miter);
450
	local_irq_restore(flags);
451
	return 0;
452
}
453

454
/* Executes one TPC (data is read/written from small or large fifo) */
455
static void r592_execute_tpc(struct r592_device *dev)
456
{
457
	bool is_write = dev->req->tpc >= MS_TPC_SET_RW_REG_ADRS;
458
	int len, error;
459
	u32 status, reg;
460

461
	if (!dev->req) {
462
		message("BUG: tpc execution without request!");
463
		return;
464
	}
465

466
	len = dev->req->long_data ?
467
		dev->req->sg.length : dev->req->data_len;
468

469
	/* Ensure that FIFO can hold the input data */
470
	if (len > R592_LFIFO_SIZE) {
471
		message("IO: hardware doesn't support TPCs longer that 512");
472
		error = -ENOSYS;
473
		goto out;
474
	}
475

476
	if (!(r592_read_reg(dev, R592_REG_MSC) & R592_REG_MSC_PRSNT)) {
477
		dbg("IO: refusing to send TPC because card is absent");
478
		error = -ENODEV;
479
		goto out;
480
	}
481

482
	dbg("IO: executing %s LEN=%d",
483
			memstick_debug_get_tpc_name(dev->req->tpc), len);
484

485
	/* Set IO direction */
486
	if (is_write)
487
		r592_set_reg_mask(dev, R592_IO, R592_IO_DIRECTION);
488
	else
489
		r592_clear_reg_mask(dev, R592_IO, R592_IO_DIRECTION);
490

491

492
	error = r592_test_fifo_empty(dev);
493
	if (error)
494
		goto out;
495

496
	/* Transfer write data */
497
	if (is_write) {
498
		error = r592_transfer_fifo_dma(dev);
499
		if (error == -EINVAL)
500
			error = r592_transfer_fifo_pio(dev);
501
	}
502

503
	if (error)
504
		goto out;
505

506
	/* Trigger the TPC */
507
	reg = (len << R592_TPC_EXEC_LEN_SHIFT) |
508
		(dev->req->tpc << R592_TPC_EXEC_TPC_SHIFT) |
509
			R592_TPC_EXEC_BIG_FIFO;
510

511
	r592_write_reg(dev, R592_TPC_EXEC, reg);
512

513
	/* Wait for TPC completion */
514
	status = R592_STATUS_RDY;
515
	if (dev->req->need_card_int)
516
		status |= R592_STATUS_CED;
517

518
	error = r592_wait_status(dev, status, status);
519
	if (error) {
520
		message("card didn't respond");
521
		goto out;
522
	}
523

524
	/* Test IO errors */
525
	error = r592_test_io_error(dev);
526
	if (error) {
527
		dbg("IO error");
528
		goto out;
529
	}
530

531
	/* Read data from FIFO */
532
	if (!is_write) {
533
		error = r592_transfer_fifo_dma(dev);
534
		if (error == -EINVAL)
535
			error = r592_transfer_fifo_pio(dev);
536
	}
537

538
	/* read INT reg. This can be shortened with shifts, but that way
539
		its more readable */
540
	if (dev->parallel_mode && dev->req->need_card_int) {
541

542
		dev->req->int_reg = 0;
543
		status = r592_read_reg(dev, R592_STATUS);
544

545
		if (status & R592_STATUS_P_CMDNACK)
546
			dev->req->int_reg |= MEMSTICK_INT_CMDNAK;
547
		if (status & R592_STATUS_P_BREQ)
548
			dev->req->int_reg |= MEMSTICK_INT_BREQ;
549
		if (status & R592_STATUS_P_INTERR)
550
			dev->req->int_reg |= MEMSTICK_INT_ERR;
551
		if (status & R592_STATUS_P_CED)
552
			dev->req->int_reg |= MEMSTICK_INT_CED;
553
	}
554

555
	if (error)
556
		dbg("FIFO read error");
557
out:
558
	dev->req->error = error;
559
	r592_clear_reg_mask(dev, R592_REG_MSC, R592_REG_MSC_LED);
560
	return;
561
}
562

563
/* Main request processing thread */
564
static int r592_process_thread(void *data)
565
{
566
	int error;
567
	struct r592_device *dev = (struct r592_device *)data;
568
	unsigned long flags;
569

570
	while (!kthread_should_stop()) {
571
		spin_lock_irqsave(&dev->io_thread_lock, flags);
572
		set_current_state(TASK_INTERRUPTIBLE);
573
		error = memstick_next_req(dev->host, &dev->req);
574
		spin_unlock_irqrestore(&dev->io_thread_lock, flags);
575

576
		if (error) {
577
			if (error == -ENXIO || error == -EAGAIN) {
578
				dbg_verbose("IO: done IO, sleeping");
579
			} else {
580
				dbg("IO: unknown error from "
581
					"memstick_next_req %d", error);
582
			}
583

584
			if (kthread_should_stop())
585
				set_current_state(TASK_RUNNING);
586

587
			schedule();
588
		} else {
589
			set_current_state(TASK_RUNNING);
590
			r592_execute_tpc(dev);
591
		}
592
	}
593
	return 0;
594
}
595

596
/* Reprogram chip to detect change in card state */
597
/* eg, if card is detected, arm it to detect removal, and vice versa */
598
static void r592_update_card_detect(struct r592_device *dev)
599
{
600
	u32 reg = r592_read_reg(dev, R592_REG_MSC);
601
	bool card_detected = reg & R592_REG_MSC_PRSNT;
602

603
	dbg("update card detect. card state: %s", card_detected ?
604
		"present" : "absent");
605

606
	reg &= ~((R592_REG_MSC_IRQ_REMOVE | R592_REG_MSC_IRQ_INSERT) << 16);
607

608
	if (card_detected)
609
		reg |= (R592_REG_MSC_IRQ_REMOVE << 16);
610
	else
611
		reg |= (R592_REG_MSC_IRQ_INSERT << 16);
612

613
	r592_write_reg(dev, R592_REG_MSC, reg);
614
}
615

616
/* Timer routine that fires 1 second after last card detection event, */
617
static void r592_detect_timer(long unsigned int data)
618
{
619
	struct r592_device *dev = (struct r592_device *)data;
620
	r592_update_card_detect(dev);
621
	memstick_detect_change(dev->host);
622
}
623

624
/* Interrupt handler */
625
static irqreturn_t r592_irq(int irq, void *data)
626
{
627
	struct r592_device *dev = (struct r592_device *)data;
628
	irqreturn_t ret = IRQ_NONE;
629
	u32 reg;
630
	u16 irq_enable, irq_status;
631
	unsigned long flags;
632
	int error;
633

634
	spin_lock_irqsave(&dev->irq_lock, flags);
635

636
	reg = r592_read_reg(dev, R592_REG_MSC);
637
	irq_enable = reg >> 16;
638
	irq_status = reg & 0xFFFF;
639

640
	/* Ack the interrupts */
641
	reg &= ~irq_status;
642
	r592_write_reg(dev, R592_REG_MSC, reg);
643

644
	/* Get the IRQ status minus bits that aren't enabled */
645
	irq_status &= (irq_enable);
646

647
	/* Due to limitation of memstick core, we don't look at bits that
648
		indicate that card was removed/inserted and/or present */
649
	if (irq_status & (R592_REG_MSC_IRQ_INSERT | R592_REG_MSC_IRQ_REMOVE)) {
650

651
		bool card_was_added = irq_status & R592_REG_MSC_IRQ_INSERT;
652
		ret = IRQ_HANDLED;
653

654
		message("IRQ: card %s", card_was_added ? "added" : "removed");
655

656
		mod_timer(&dev->detect_timer,
657
			jiffies + msecs_to_jiffies(card_was_added ? 500 : 50));
658
	}
659

660
	if (irq_status &
661
		(R592_REG_MSC_FIFO_DMA_DONE | R592_REG_MSC_FIFO_DMA_ERR)) {
662
		ret = IRQ_HANDLED;
663

664
		if (irq_status & R592_REG_MSC_FIFO_DMA_ERR) {
665
			message("IRQ: DMA error");
666
			error = -EIO;
667
		} else {
668
			dbg_verbose("IRQ: dma done");
669
			error = 0;
670
		}
671

672
		r592_stop_dma(dev, error);
673
		complete(&dev->dma_done);
674
	}
675

676
	spin_unlock_irqrestore(&dev->irq_lock, flags);
677
	return ret;
678
}
679

680
/* External inteface: set settings */
681
static int r592_set_param(struct memstick_host *host,
682
			enum memstick_param param, int value)
683
{
684
	struct r592_device *dev = memstick_priv(host);
685

686
	switch (param) {
687
	case MEMSTICK_POWER:
688
		switch (value) {
689
		case MEMSTICK_POWER_ON:
690
			return r592_enable_device(dev, true);
691
		case MEMSTICK_POWER_OFF:
692
			return r592_enable_device(dev, false);
693
		default:
694
			return -EINVAL;
695
		}
696
	case MEMSTICK_INTERFACE:
697
		switch (value) {
698
		case MEMSTICK_SERIAL:
699
			return r592_set_mode(dev, 0);
700
		case MEMSTICK_PAR4:
701
			return r592_set_mode(dev, 1);
702
		default:
703
			return -EINVAL;
704
		}
705
	default:
706
		return -EINVAL;
707
	}
708
}
709

710
/* External interface: submit requests */
711
static void r592_submit_req(struct memstick_host *host)
712
{
713
	struct r592_device *dev = memstick_priv(host);
714
	unsigned long flags;
715

716
	if (dev->req)
717
		return;
718

719
	spin_lock_irqsave(&dev->io_thread_lock, flags);
720
	if (wake_up_process(dev->io_thread))
721
		dbg_verbose("IO thread woken to process requests");
722
	spin_unlock_irqrestore(&dev->io_thread_lock, flags);
723
}
724

725
static const struct pci_device_id r592_pci_id_tbl[] = {
726

727
	{ PCI_VDEVICE(RICOH, 0x0592), },
728
	{ },
729
};
730

731
/* Main entry */
732
static int r592_probe(struct pci_dev *pdev, const struct pci_device_id *id)
733
{
734
	int error = -ENOMEM;
735
	struct memstick_host *host;
736
	struct r592_device *dev;
737

738
	/* Allocate memory */
739
	host = memstick_alloc_host(sizeof(struct r592_device), &pdev->dev);
740
	if (!host)
741
		goto error1;
742

743
	dev = memstick_priv(host);
744
	dev->host = host;
745
	dev->pci_dev = pdev;
746
	pci_set_drvdata(pdev, dev);
747

748
	/* pci initialization */
749
	error = pci_enable_device(pdev);
750
	if (error)
751
		goto error2;
752

753
	pci_set_master(pdev);
754
	error = pci_set_dma_mask(pdev, DMA_BIT_MASK(32));
755
	if (error)
756
		goto error3;
757

758
	error = pci_request_regions(pdev, DRV_NAME);
759
	if (error)
760
		goto error3;
761

762
	dev->mmio = pci_ioremap_bar(pdev, 0);
763
	if (!dev->mmio)
764
		goto error4;
765

766
	dev->irq = pdev->irq;
767
	spin_lock_init(&dev->irq_lock);
768
	spin_lock_init(&dev->io_thread_lock);
769
	init_completion(&dev->dma_done);
770
	INIT_KFIFO(dev->pio_fifo);
771
	setup_timer(&dev->detect_timer,
772
		r592_detect_timer, (long unsigned int)dev);
773

774
	/* Host initialization */
775
	host->caps = MEMSTICK_CAP_PAR4;
776
	host->request = r592_submit_req;
777
	host->set_param = r592_set_param;
778
	r592_check_dma(dev);
779

780
	dev->io_thread = kthread_run(r592_process_thread, dev, "r592_io");
781
	if (IS_ERR(dev->io_thread)) {
782
		error = PTR_ERR(dev->io_thread);
783
		goto error5;
784
	}
785

786
	/* This is just a precation, so don't fail */
787
	dev->dummy_dma_page = pci_alloc_consistent(pdev, PAGE_SIZE,
788
		&dev->dummy_dma_page_physical_address);
789
	r592_stop_dma(dev , 0);
790

791
	if (request_irq(dev->irq, &r592_irq, IRQF_SHARED,
792
			  DRV_NAME, dev))
793
		goto error6;
794

795
	r592_update_card_detect(dev);
796
	if (memstick_add_host(host))
797
		goto error7;
798

799
	message("driver successfully loaded");
800
	return 0;
801
error7:
802
	free_irq(dev->irq, dev);
803
error6:
804
	if (dev->dummy_dma_page)
805
		pci_free_consistent(pdev, PAGE_SIZE, dev->dummy_dma_page,
806
			dev->dummy_dma_page_physical_address);
807

808
	kthread_stop(dev->io_thread);
809
error5:
810
	iounmap(dev->mmio);
811
error4:
812
	pci_release_regions(pdev);
813
error3:
814
	pci_disable_device(pdev);
815
error2:
816
	memstick_free_host(host);
817
error1:
818
	return error;
819
}
820

821
static void r592_remove(struct pci_dev *pdev)
822
{
823
	int error = 0;
824
	struct r592_device *dev = pci_get_drvdata(pdev);
825

826
	/* Stop the processing thread.
827
	That ensures that we won't take any more requests */
828
	kthread_stop(dev->io_thread);
829

830
	r592_enable_device(dev, false);
831

832
	while (!error && dev->req) {
833
		dev->req->error = -ETIME;
834
		error = memstick_next_req(dev->host, &dev->req);
835
	}
836
	memstick_remove_host(dev->host);
837

838
	free_irq(dev->irq, dev);
839
	iounmap(dev->mmio);
840
	pci_release_regions(pdev);
841
	pci_disable_device(pdev);
842
	memstick_free_host(dev->host);
843

844
	if (dev->dummy_dma_page)
845
		pci_free_consistent(pdev, PAGE_SIZE, dev->dummy_dma_page,
846
			dev->dummy_dma_page_physical_address);
847
}
848

849
#ifdef CONFIG_PM
850
static int r592_suspend(struct device *core_dev)
851
{
852
	struct pci_dev *pdev = to_pci_dev(core_dev);
853
	struct r592_device *dev = pci_get_drvdata(pdev);
854

855
	r592_clear_interrupts(dev);
856
	memstick_suspend_host(dev->host);
857
	del_timer_sync(&dev->detect_timer);
858
	return 0;
859
}
860

861
static int r592_resume(struct device *core_dev)
862
{
863
	struct pci_dev *pdev = to_pci_dev(core_dev);
864
	struct r592_device *dev = pci_get_drvdata(pdev);
865

866
	r592_clear_interrupts(dev);
867
	r592_enable_device(dev, false);
868
	memstick_resume_host(dev->host);
869
	r592_update_card_detect(dev);
870
	return 0;
871
}
872

873
SIMPLE_DEV_PM_OPS(r592_pm_ops, r592_suspend, r592_resume);
874
#endif
875

876
MODULE_DEVICE_TABLE(pci, r592_pci_id_tbl);
877

878
static struct pci_driver r852_pci_driver = {
879
	.name		= DRV_NAME,
880
	.id_table	= r592_pci_id_tbl,
881
	.probe		= r592_probe,
882
	.remove		= r592_remove,
883
#ifdef CONFIG_PM
884
	.driver.pm	= &r592_pm_ops,
885
#endif
886
};
887

888
static __init int r592_module_init(void)
889
{
890
	return pci_register_driver(&r852_pci_driver);
891
}
892

893
static void __exit r592_module_exit(void)
894
{
895
	pci_unregister_driver(&r852_pci_driver);
896
}
897

898
module_init(r592_module_init);
899
module_exit(r592_module_exit);
900

901
module_param_named(enable_dma, r592_enable_dma, bool, S_IRUGO);
902
MODULE_PARM_DESC(enable_dma, "Enable usage of the DMA (default)");
903
module_param(debug, int, S_IRUGO | S_IWUSR);
904
MODULE_PARM_DESC(debug, "Debug level (0-3)");
905

906
MODULE_LICENSE("GPL");
907
MODULE_AUTHOR("Maxim Levitsky <[email protected]>");
908
MODULE_DESCRIPTION("Ricoh R5C592 Memstick/Memstick PRO card reader driver");
909

910