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Merge tag 'gfs2-for-5.2' of git://git.kernel.org/pub/scm/linux/kernel/git/gfs2/linux...
[mirror_ubuntu-jammy-kernel.git] / drivers / mfd / si476x-i2c.c
1 /*
2 * drivers/mfd/si476x-i2c.c -- Core device driver for si476x MFD
3 * device
4 *
5 * Copyright (C) 2012 Innovative Converged Devices(ICD)
6 * Copyright (C) 2013 Andrey Smirnov
7 *
8 * Author: Andrey Smirnov <andrew.smirnov@gmail.com>
9 *
10 * This program is free software; you can redistribute it and/or modify
11 * it under the terms of the GNU General Public License as published by
12 * the Free Software Foundation; version 2 of the License.
13 *
14 * This program is distributed in the hope that it will be useful, but
15 * WITHOUT ANY WARRANTY; without even the implied warranty of
16 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
17 * General Public License for more details.
18 *
19 */
20 #include <linux/module.h>
21
22 #include <linux/slab.h>
23 #include <linux/interrupt.h>
24 #include <linux/delay.h>
25 #include <linux/gpio.h>
26 #include <linux/regulator/consumer.h>
27 #include <linux/i2c.h>
28 #include <linux/err.h>
29
30 #include <linux/mfd/si476x-core.h>
31
32 #define SI476X_MAX_IO_ERRORS 10
33 #define SI476X_DRIVER_RDS_FIFO_DEPTH 128
34
35 /**
36 * si476x_core_config_pinmux() - pin function configuration function
37 *
38 * @core: Core device structure
39 *
40 * Configure the functions of the pins of the radio chip.
41 *
42 * The function returns zero in case of succes or negative error code
43 * otherwise.
44 */
45 static int si476x_core_config_pinmux(struct si476x_core *core)
46 {
47 int err;
48 dev_dbg(&core->client->dev, "Configuring pinmux\n");
49 err = si476x_core_cmd_dig_audio_pin_cfg(core,
50 core->pinmux.dclk,
51 core->pinmux.dfs,
52 core->pinmux.dout,
53 core->pinmux.xout);
54 if (err < 0) {
55 dev_err(&core->client->dev,
56 "Failed to configure digital audio pins(err = %d)\n",
57 err);
58 return err;
59 }
60
61 err = si476x_core_cmd_zif_pin_cfg(core,
62 core->pinmux.iqclk,
63 core->pinmux.iqfs,
64 core->pinmux.iout,
65 core->pinmux.qout);
66 if (err < 0) {
67 dev_err(&core->client->dev,
68 "Failed to configure ZIF pins(err = %d)\n",
69 err);
70 return err;
71 }
72
73 err = si476x_core_cmd_ic_link_gpo_ctl_pin_cfg(core,
74 core->pinmux.icin,
75 core->pinmux.icip,
76 core->pinmux.icon,
77 core->pinmux.icop);
78 if (err < 0) {
79 dev_err(&core->client->dev,
80 "Failed to configure IC-Link/GPO pins(err = %d)\n",
81 err);
82 return err;
83 }
84
85 err = si476x_core_cmd_ana_audio_pin_cfg(core,
86 core->pinmux.lrout);
87 if (err < 0) {
88 dev_err(&core->client->dev,
89 "Failed to configure analog audio pins(err = %d)\n",
90 err);
91 return err;
92 }
93
94 err = si476x_core_cmd_intb_pin_cfg(core,
95 core->pinmux.intb,
96 core->pinmux.a1);
97 if (err < 0) {
98 dev_err(&core->client->dev,
99 "Failed to configure interrupt pins(err = %d)\n",
100 err);
101 return err;
102 }
103
104 return 0;
105 }
106
107 static inline void si476x_core_schedule_polling_work(struct si476x_core *core)
108 {
109 schedule_delayed_work(&core->status_monitor,
110 usecs_to_jiffies(SI476X_STATUS_POLL_US));
111 }
112
113 /**
114 * si476x_core_start() - early chip startup function
115 * @core: Core device structure
116 * @soft: When set, this flag forces "soft" startup, where "soft"
117 * power down is the one done by sending appropriate command instead
118 * of using reset pin of the tuner
119 *
120 * Perform required startup sequence to correctly power
121 * up the chip and perform initial configuration. It does the
122 * following sequence of actions:
123 * 1. Claims and enables the power supplies VD and VIO1 required
124 * for I2C interface of the chip operation.
125 * 2. Waits for 100us, pulls the reset line up, enables irq,
126 * waits for another 100us as it is specified by the
127 * datasheet.
128 * 3. Sends 'POWER_UP' command to the device with all provided
129 * information about power-up parameters.
130 * 4. Configures, pin multiplexor, disables digital audio and
131 * configures interrupt sources.
132 *
133 * The function returns zero in case of succes or negative error code
134 * otherwise.
135 */
136 int si476x_core_start(struct si476x_core *core, bool soft)
137 {
138 struct i2c_client *client = core->client;
139 int err;
140
141 if (!soft) {
142 if (gpio_is_valid(core->gpio_reset))
143 gpio_set_value_cansleep(core->gpio_reset, 1);
144
145 if (client->irq)
146 enable_irq(client->irq);
147
148 udelay(100);
149
150 if (!client->irq) {
151 atomic_set(&core->is_alive, 1);
152 si476x_core_schedule_polling_work(core);
153 }
154 } else {
155 if (client->irq)
156 enable_irq(client->irq);
157 else {
158 atomic_set(&core->is_alive, 1);
159 si476x_core_schedule_polling_work(core);
160 }
161 }
162
163 err = si476x_core_cmd_power_up(core,
164 &core->power_up_parameters);
165
166 if (err < 0) {
167 dev_err(&core->client->dev,
168 "Power up failure(err = %d)\n",
169 err);
170 goto disable_irq;
171 }
172
173 if (client->irq)
174 atomic_set(&core->is_alive, 1);
175
176 err = si476x_core_config_pinmux(core);
177 if (err < 0) {
178 dev_err(&core->client->dev,
179 "Failed to configure pinmux(err = %d)\n",
180 err);
181 goto disable_irq;
182 }
183
184 if (client->irq) {
185 err = regmap_write(core->regmap,
186 SI476X_PROP_INT_CTL_ENABLE,
187 SI476X_RDSIEN |
188 SI476X_STCIEN |
189 SI476X_CTSIEN);
190 if (err < 0) {
191 dev_err(&core->client->dev,
192 "Failed to configure interrupt sources"
193 "(err = %d)\n", err);
194 goto disable_irq;
195 }
196 }
197
198 return 0;
199
200 disable_irq:
201 if (err == -ENODEV)
202 atomic_set(&core->is_alive, 0);
203
204 if (client->irq)
205 disable_irq(client->irq);
206 else
207 cancel_delayed_work_sync(&core->status_monitor);
208
209 if (gpio_is_valid(core->gpio_reset))
210 gpio_set_value_cansleep(core->gpio_reset, 0);
211
212 return err;
213 }
214 EXPORT_SYMBOL_GPL(si476x_core_start);
215
216 /**
217 * si476x_core_stop() - chip power-down function
218 * @core: Core device structure
219 * @soft: When set, function sends a POWER_DOWN command instead of
220 * bringing reset line low
221 *
222 * Power down the chip by performing following actions:
223 * 1. Disable IRQ or stop the polling worker
224 * 2. Send the POWER_DOWN command if the power down is soft or bring
225 * reset line low if not.
226 *
227 * The function returns zero in case of succes or negative error code
228 * otherwise.
229 */
230 int si476x_core_stop(struct si476x_core *core, bool soft)
231 {
232 int err = 0;
233 atomic_set(&core->is_alive, 0);
234
235 if (soft) {
236 /* TODO: This probably shoud be a configurable option,
237 * so it is possible to have the chips keep their
238 * oscillators running
239 */
240 struct si476x_power_down_args args = {
241 .xosc = false,
242 };
243 err = si476x_core_cmd_power_down(core, &args);
244 }
245
246 /* We couldn't disable those before
247 * 'si476x_core_cmd_power_down' since we expect to get CTS
248 * interrupt */
249 if (core->client->irq)
250 disable_irq(core->client->irq);
251 else
252 cancel_delayed_work_sync(&core->status_monitor);
253
254 if (!soft) {
255 if (gpio_is_valid(core->gpio_reset))
256 gpio_set_value_cansleep(core->gpio_reset, 0);
257 }
258 return err;
259 }
260 EXPORT_SYMBOL_GPL(si476x_core_stop);
261
262 /**
263 * si476x_core_set_power_state() - set the level at which the power is
264 * supplied for the chip.
265 * @core: Core device structure
266 * @next_state: enum si476x_power_state describing power state to
267 * switch to.
268 *
269 * Switch on all the required power supplies
270 *
271 * This function returns 0 in case of suvccess and negative error code
272 * otherwise.
273 */
274 int si476x_core_set_power_state(struct si476x_core *core,
275 enum si476x_power_state next_state)
276 {
277 /*
278 It is not clear form the datasheet if it is possible to
279 work with device if not all power domains are operational.
280 So for now the power-up policy is "power-up all the things!"
281 */
282 int err = 0;
283
284 if (core->power_state == SI476X_POWER_INCONSISTENT) {
285 dev_err(&core->client->dev,
286 "The device in inconsistent power state\n");
287 return -EINVAL;
288 }
289
290 if (next_state != core->power_state) {
291 switch (next_state) {
292 case SI476X_POWER_UP_FULL:
293 err = regulator_bulk_enable(ARRAY_SIZE(core->supplies),
294 core->supplies);
295 if (err < 0) {
296 core->power_state = SI476X_POWER_INCONSISTENT;
297 break;
298 }
299 /*
300 * Startup timing diagram recommends to have a
301 * 100 us delay between enabling of the power
302 * supplies and turning the tuner on.
303 */
304 udelay(100);
305
306 err = si476x_core_start(core, false);
307 if (err < 0)
308 goto disable_regulators;
309
310 core->power_state = next_state;
311 break;
312
313 case SI476X_POWER_DOWN:
314 core->power_state = next_state;
315 err = si476x_core_stop(core, false);
316 if (err < 0)
317 core->power_state = SI476X_POWER_INCONSISTENT;
318 disable_regulators:
319 err = regulator_bulk_disable(ARRAY_SIZE(core->supplies),
320 core->supplies);
321 if (err < 0)
322 core->power_state = SI476X_POWER_INCONSISTENT;
323 break;
324 default:
325 BUG();
326 }
327 }
328
329 return err;
330 }
331 EXPORT_SYMBOL_GPL(si476x_core_set_power_state);
332
333 /**
334 * si476x_core_report_drainer_stop() - mark the completion of the RDS
335 * buffer drain porcess by the worker.
336 *
337 * @core: Core device structure
338 */
339 static inline void si476x_core_report_drainer_stop(struct si476x_core *core)
340 {
341 mutex_lock(&core->rds_drainer_status_lock);
342 core->rds_drainer_is_working = false;
343 mutex_unlock(&core->rds_drainer_status_lock);
344 }
345
346 /**
347 * si476x_core_start_rds_drainer_once() - start RDS drainer worker if
348 * ther is none working, do nothing otherwise
349 *
350 * @core: Datastructure corresponding to the chip.
351 */
352 static inline void si476x_core_start_rds_drainer_once(struct si476x_core *core)
353 {
354 mutex_lock(&core->rds_drainer_status_lock);
355 if (!core->rds_drainer_is_working) {
356 core->rds_drainer_is_working = true;
357 schedule_work(&core->rds_fifo_drainer);
358 }
359 mutex_unlock(&core->rds_drainer_status_lock);
360 }
361 /**
362 * si476x_drain_rds_fifo() - RDS buffer drainer.
363 * @work: struct work_struct being ppassed to the function by the
364 * kernel.
365 *
366 * Drain the contents of the RDS FIFO of
367 */
368 static void si476x_core_drain_rds_fifo(struct work_struct *work)
369 {
370 int err;
371
372 struct si476x_core *core = container_of(work, struct si476x_core,
373 rds_fifo_drainer);
374
375 struct si476x_rds_status_report report;
376
377 si476x_core_lock(core);
378 err = si476x_core_cmd_fm_rds_status(core, true, false, false, &report);
379 if (!err) {
380 int i = report.rdsfifoused;
381 dev_dbg(&core->client->dev,
382 "%d elements in RDS FIFO. Draining.\n", i);
383 for (; i > 0; --i) {
384 err = si476x_core_cmd_fm_rds_status(core, false, false,
385 (i == 1), &report);
386 if (err < 0)
387 goto unlock;
388
389 kfifo_in(&core->rds_fifo, report.rds,
390 sizeof(report.rds));
391 dev_dbg(&core->client->dev, "RDS data:\n %*ph\n",
392 (int)sizeof(report.rds), report.rds);
393 }
394 dev_dbg(&core->client->dev, "Drrrrained!\n");
395 wake_up_interruptible(&core->rds_read_queue);
396 }
397
398 unlock:
399 si476x_core_unlock(core);
400 si476x_core_report_drainer_stop(core);
401 }
402
403 /**
404 * si476x_core_pronounce_dead()
405 *
406 * @core: Core device structure
407 *
408 * Mark the device as being dead and wake up all potentially waiting
409 * threads of execution.
410 *
411 */
412 static void si476x_core_pronounce_dead(struct si476x_core *core)
413 {
414 dev_info(&core->client->dev, "Core device is dead.\n");
415
416 atomic_set(&core->is_alive, 0);
417
418 /* Wake up al possible waiting processes */
419 wake_up_interruptible(&core->rds_read_queue);
420
421 atomic_set(&core->cts, 1);
422 wake_up(&core->command);
423
424 atomic_set(&core->stc, 1);
425 wake_up(&core->tuning);
426 }
427
428 /**
429 * si476x_core_i2c_xfer()
430 *
431 * @core: Core device structure
432 * @type: Transfer type
433 * @buf: Transfer buffer for/with data
434 * @count: Transfer buffer size
435 *
436 * Perfrom and I2C transfer(either read or write) and keep a counter
437 * of I/O errors. If the error counter rises above the threshold
438 * pronounce device dead.
439 *
440 * The function returns zero on succes or negative error code on
441 * failure.
442 */
443 int si476x_core_i2c_xfer(struct si476x_core *core,
444 enum si476x_i2c_type type,
445 char *buf, int count)
446 {
447 static int io_errors_count;
448 int err;
449 if (type == SI476X_I2C_SEND)
450 err = i2c_master_send(core->client, buf, count);
451 else
452 err = i2c_master_recv(core->client, buf, count);
453
454 if (err < 0) {
455 if (io_errors_count++ > SI476X_MAX_IO_ERRORS)
456 si476x_core_pronounce_dead(core);
457 } else {
458 io_errors_count = 0;
459 }
460
461 return err;
462 }
463 EXPORT_SYMBOL_GPL(si476x_core_i2c_xfer);
464
465 /**
466 * si476x_get_status()
467 * @core: Core device structure
468 *
469 * Get the status byte of the core device by berforming one byte I2C
470 * read.
471 *
472 * The function returns a status value or a negative error code on
473 * error.
474 */
475 static int si476x_core_get_status(struct si476x_core *core)
476 {
477 u8 response;
478 int err = si476x_core_i2c_xfer(core, SI476X_I2C_RECV,
479 &response, sizeof(response));
480
481 return (err < 0) ? err : response;
482 }
483
484 /**
485 * si476x_get_and_signal_status() - IRQ dispatcher
486 * @core: Core device structure
487 *
488 * Dispatch the arrived interrupt request based on the value of the
489 * status byte reported by the tuner.
490 *
491 */
492 static void si476x_core_get_and_signal_status(struct si476x_core *core)
493 {
494 int status = si476x_core_get_status(core);
495 if (status < 0) {
496 dev_err(&core->client->dev, "Failed to get status\n");
497 return;
498 }
499
500 if (status & SI476X_CTS) {
501 /* Unfortunately completions could not be used for
502 * signalling CTS since this flag cannot be cleared
503 * in status byte, and therefore once it becomes true
504 * multiple calls to 'complete' would cause the
505 * commands following the current one to be completed
506 * before they actually are */
507 dev_dbg(&core->client->dev, "[interrupt] CTSINT\n");
508 atomic_set(&core->cts, 1);
509 wake_up(&core->command);
510 }
511
512 if (status & SI476X_FM_RDS_INT) {
513 dev_dbg(&core->client->dev, "[interrupt] RDSINT\n");
514 si476x_core_start_rds_drainer_once(core);
515 }
516
517 if (status & SI476X_STC_INT) {
518 dev_dbg(&core->client->dev, "[interrupt] STCINT\n");
519 atomic_set(&core->stc, 1);
520 wake_up(&core->tuning);
521 }
522 }
523
524 static void si476x_core_poll_loop(struct work_struct *work)
525 {
526 struct si476x_core *core = SI476X_WORK_TO_CORE(work);
527
528 si476x_core_get_and_signal_status(core);
529
530 if (atomic_read(&core->is_alive))
531 si476x_core_schedule_polling_work(core);
532 }
533
534 static irqreturn_t si476x_core_interrupt(int irq, void *dev)
535 {
536 struct si476x_core *core = dev;
537
538 si476x_core_get_and_signal_status(core);
539
540 return IRQ_HANDLED;
541 }
542
543 /**
544 * si476x_firmware_version_to_revision()
545 * @core: Core device structure
546 * @major: Firmware major number
547 * @minor1: Firmware first minor number
548 * @minor2: Firmware second minor number
549 *
550 * Convert a chip's firmware version number into an offset that later
551 * will be used to as offset in "vtable" of tuner functions
552 *
553 * This function returns a positive offset in case of success and a -1
554 * in case of failure.
555 */
556 static int si476x_core_fwver_to_revision(struct si476x_core *core,
557 int func, int major,
558 int minor1, int minor2)
559 {
560 switch (func) {
561 case SI476X_FUNC_FM_RECEIVER:
562 switch (major) {
563 case 5:
564 return SI476X_REVISION_A10;
565 case 8:
566 return SI476X_REVISION_A20;
567 case 10:
568 return SI476X_REVISION_A30;
569 default:
570 goto unknown_revision;
571 }
572 case SI476X_FUNC_AM_RECEIVER:
573 switch (major) {
574 case 5:
575 return SI476X_REVISION_A10;
576 case 7:
577 return SI476X_REVISION_A20;
578 case 9:
579 return SI476X_REVISION_A30;
580 default:
581 goto unknown_revision;
582 }
583 case SI476X_FUNC_WB_RECEIVER:
584 switch (major) {
585 case 3:
586 return SI476X_REVISION_A10;
587 case 5:
588 return SI476X_REVISION_A20;
589 case 7:
590 return SI476X_REVISION_A30;
591 default:
592 goto unknown_revision;
593 }
594 case SI476X_FUNC_BOOTLOADER:
595 default: /* FALLTHROUG */
596 BUG();
597 return -1;
598 }
599
600 unknown_revision:
601 dev_err(&core->client->dev,
602 "Unsupported version of the firmware: %d.%d.%d, "
603 "reverting to A10 compatible functions\n",
604 major, minor1, minor2);
605
606 return SI476X_REVISION_A10;
607 }
608
609 /**
610 * si476x_get_revision_info()
611 * @core: Core device structure
612 *
613 * Get the firmware version number of the device. It is done in
614 * following three steps:
615 * 1. Power-up the device
616 * 2. Send the 'FUNC_INFO' command
617 * 3. Powering the device down.
618 *
619 * The function return zero on success and a negative error code on
620 * failure.
621 */
622 static int si476x_core_get_revision_info(struct si476x_core *core)
623 {
624 int rval;
625 struct si476x_func_info info;
626
627 si476x_core_lock(core);
628 rval = si476x_core_set_power_state(core, SI476X_POWER_UP_FULL);
629 if (rval < 0)
630 goto exit;
631
632 rval = si476x_core_cmd_func_info(core, &info);
633 if (rval < 0)
634 goto power_down;
635
636 core->revision = si476x_core_fwver_to_revision(core, info.func,
637 info.firmware.major,
638 info.firmware.minor[0],
639 info.firmware.minor[1]);
640 power_down:
641 si476x_core_set_power_state(core, SI476X_POWER_DOWN);
642 exit:
643 si476x_core_unlock(core);
644
645 return rval;
646 }
647
648 bool si476x_core_has_am(struct si476x_core *core)
649 {
650 return core->chip_id == SI476X_CHIP_SI4761 ||
651 core->chip_id == SI476X_CHIP_SI4764;
652 }
653 EXPORT_SYMBOL_GPL(si476x_core_has_am);
654
655 bool si476x_core_has_diversity(struct si476x_core *core)
656 {
657 return core->chip_id == SI476X_CHIP_SI4764;
658 }
659 EXPORT_SYMBOL_GPL(si476x_core_has_diversity);
660
661 bool si476x_core_is_a_secondary_tuner(struct si476x_core *core)
662 {
663 return si476x_core_has_diversity(core) &&
664 (core->diversity_mode == SI476X_PHDIV_SECONDARY_ANTENNA ||
665 core->diversity_mode == SI476X_PHDIV_SECONDARY_COMBINING);
666 }
667 EXPORT_SYMBOL_GPL(si476x_core_is_a_secondary_tuner);
668
669 bool si476x_core_is_a_primary_tuner(struct si476x_core *core)
670 {
671 return si476x_core_has_diversity(core) &&
672 (core->diversity_mode == SI476X_PHDIV_PRIMARY_ANTENNA ||
673 core->diversity_mode == SI476X_PHDIV_PRIMARY_COMBINING);
674 }
675 EXPORT_SYMBOL_GPL(si476x_core_is_a_primary_tuner);
676
677 bool si476x_core_is_in_am_receiver_mode(struct si476x_core *core)
678 {
679 return si476x_core_has_am(core) &&
680 (core->power_up_parameters.func == SI476X_FUNC_AM_RECEIVER);
681 }
682 EXPORT_SYMBOL_GPL(si476x_core_is_in_am_receiver_mode);
683
684 bool si476x_core_is_powered_up(struct si476x_core *core)
685 {
686 return core->power_state == SI476X_POWER_UP_FULL;
687 }
688 EXPORT_SYMBOL_GPL(si476x_core_is_powered_up);
689
690 static int si476x_core_probe(struct i2c_client *client,
691 const struct i2c_device_id *id)
692 {
693 int rval;
694 struct si476x_core *core;
695 struct si476x_platform_data *pdata;
696 struct mfd_cell *cell;
697 int cell_num;
698
699 core = devm_kzalloc(&client->dev, sizeof(*core), GFP_KERNEL);
700 if (!core)
701 return -ENOMEM;
702
703 core->client = client;
704
705 core->regmap = devm_regmap_init_si476x(core);
706 if (IS_ERR(core->regmap)) {
707 rval = PTR_ERR(core->regmap);
708 dev_err(&client->dev,
709 "Failed to allocate register map: %d\n",
710 rval);
711 return rval;
712 }
713
714 i2c_set_clientdata(client, core);
715
716 atomic_set(&core->is_alive, 0);
717 core->power_state = SI476X_POWER_DOWN;
718
719 pdata = dev_get_platdata(&client->dev);
720 if (pdata) {
721 memcpy(&core->power_up_parameters,
722 &pdata->power_up_parameters,
723 sizeof(core->power_up_parameters));
724
725 core->gpio_reset = -1;
726 if (gpio_is_valid(pdata->gpio_reset)) {
727 rval = gpio_request(pdata->gpio_reset, "si476x reset");
728 if (rval) {
729 dev_err(&client->dev,
730 "Failed to request gpio: %d\n", rval);
731 return rval;
732 }
733 core->gpio_reset = pdata->gpio_reset;
734 gpio_direction_output(core->gpio_reset, 0);
735 }
736
737 core->diversity_mode = pdata->diversity_mode;
738 memcpy(&core->pinmux, &pdata->pinmux,
739 sizeof(struct si476x_pinmux));
740 } else {
741 dev_err(&client->dev, "No platform data provided\n");
742 return -EINVAL;
743 }
744
745 core->supplies[0].supply = "vd";
746 core->supplies[1].supply = "va";
747 core->supplies[2].supply = "vio1";
748 core->supplies[3].supply = "vio2";
749
750 rval = devm_regulator_bulk_get(&client->dev,
751 ARRAY_SIZE(core->supplies),
752 core->supplies);
753 if (rval) {
754 dev_err(&client->dev, "Failed to get all of the regulators\n");
755 goto free_gpio;
756 }
757
758 mutex_init(&core->cmd_lock);
759 init_waitqueue_head(&core->command);
760 init_waitqueue_head(&core->tuning);
761
762 rval = kfifo_alloc(&core->rds_fifo,
763 SI476X_DRIVER_RDS_FIFO_DEPTH *
764 sizeof(struct v4l2_rds_data),
765 GFP_KERNEL);
766 if (rval) {
767 dev_err(&client->dev, "Could not allocate the FIFO\n");
768 goto free_gpio;
769 }
770 mutex_init(&core->rds_drainer_status_lock);
771 init_waitqueue_head(&core->rds_read_queue);
772 INIT_WORK(&core->rds_fifo_drainer, si476x_core_drain_rds_fifo);
773
774 if (client->irq) {
775 rval = devm_request_threaded_irq(&client->dev,
776 client->irq, NULL,
777 si476x_core_interrupt,
778 IRQF_TRIGGER_FALLING |
779 IRQF_ONESHOT,
780 client->name, core);
781 if (rval < 0) {
782 dev_err(&client->dev, "Could not request IRQ %d\n",
783 client->irq);
784 goto free_kfifo;
785 }
786 disable_irq(client->irq);
787 dev_dbg(&client->dev, "IRQ requested.\n");
788
789 core->rds_fifo_depth = 20;
790 } else {
791 INIT_DELAYED_WORK(&core->status_monitor,
792 si476x_core_poll_loop);
793 dev_info(&client->dev,
794 "No IRQ number specified, will use polling\n");
795
796 core->rds_fifo_depth = 5;
797 }
798
799 core->chip_id = id->driver_data;
800
801 rval = si476x_core_get_revision_info(core);
802 if (rval < 0) {
803 rval = -ENODEV;
804 goto free_kfifo;
805 }
806
807 cell_num = 0;
808
809 cell = &core->cells[SI476X_RADIO_CELL];
810 cell->name = "si476x-radio";
811 cell_num++;
812
813 #ifdef CONFIG_SND_SOC_SI476X
814 if ((core->chip_id == SI476X_CHIP_SI4761 ||
815 core->chip_id == SI476X_CHIP_SI4764) &&
816 core->pinmux.dclk == SI476X_DCLK_DAUDIO &&
817 core->pinmux.dfs == SI476X_DFS_DAUDIO &&
818 core->pinmux.dout == SI476X_DOUT_I2S_OUTPUT &&
819 core->pinmux.xout == SI476X_XOUT_TRISTATE) {
820 cell = &core->cells[SI476X_CODEC_CELL];
821 cell->name = "si476x-codec";
822 cell_num++;
823 }
824 #endif
825 rval = mfd_add_devices(&client->dev,
826 (client->adapter->nr << 8) + client->addr,
827 core->cells, cell_num,
828 NULL, 0, NULL);
829 if (!rval)
830 return 0;
831
832 free_kfifo:
833 kfifo_free(&core->rds_fifo);
834
835 free_gpio:
836 if (gpio_is_valid(core->gpio_reset))
837 gpio_free(core->gpio_reset);
838
839 return rval;
840 }
841
842 static int si476x_core_remove(struct i2c_client *client)
843 {
844 struct si476x_core *core = i2c_get_clientdata(client);
845
846 si476x_core_pronounce_dead(core);
847 mfd_remove_devices(&client->dev);
848
849 if (client->irq)
850 disable_irq(client->irq);
851 else
852 cancel_delayed_work_sync(&core->status_monitor);
853
854 kfifo_free(&core->rds_fifo);
855
856 if (gpio_is_valid(core->gpio_reset))
857 gpio_free(core->gpio_reset);
858
859 return 0;
860 }
861
862
863 static const struct i2c_device_id si476x_id[] = {
864 { "si4761", SI476X_CHIP_SI4761 },
865 { "si4764", SI476X_CHIP_SI4764 },
866 { "si4768", SI476X_CHIP_SI4768 },
867 { },
868 };
869 MODULE_DEVICE_TABLE(i2c, si476x_id);
870
871 static struct i2c_driver si476x_core_driver = {
872 .driver = {
873 .name = "si476x-core",
874 },
875 .probe = si476x_core_probe,
876 .remove = si476x_core_remove,
877 .id_table = si476x_id,
878 };
879 module_i2c_driver(si476x_core_driver);
880
881
882 MODULE_AUTHOR("Andrey Smirnov <andrew.smirnov@gmail.com>");
883 MODULE_DESCRIPTION("Si4761/64/68 AM/FM MFD core device driver");
884 MODULE_LICENSE("GPL");
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