1/*
  2 * Copyright 2012-15 Advanced Micro Devices, Inc.
  3 *
  4 * Permission is hereby granted, free of charge, to any person obtaining a
  5 * copy of this software and associated documentation files (the "Software"),
  6 * to deal in the Software without restriction, including without limitation
  7 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
  8 * and/or sell copies of the Software, and to permit persons to whom the
  9 * Software is furnished to do so, subject to the following conditions:
 10 *
 11 * The above copyright notice and this permission notice shall be included in
 12 * all copies or substantial portions of the Software.
 13 *
 14 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 15 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 16 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
 17 * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
 18 * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
 19 * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
 20 * OTHER DEALINGS IN THE SOFTWARE.
 21 *
 22 * Authors: AMD
 23 *
 24 */
 25
 26/*
 27 * Pre-requisites: headers required by header of this unit
 28 */
 29
 30#include <linux/slab.h>
 31
 32#include "dm_services.h"
 33#include "include/gpio_interface.h"
 34#include "include/gpio_service_interface.h"
 35#include "hw_translate.h"
 36#include "hw_factory.h"
 37
 38/*
 39 * Header of this unit
 40 */
 41
 42#include "gpio_service.h"
 43
 44/*
 45 * Post-requisites: headers required by this unit
 46 */
 47
 48#include "hw_gpio.h"
 49
 50/*
 51 * @brief
 52 * Public API.
 53 */
 54
 55struct gpio_service *dal_gpio_service_create(
 56	enum dce_version dce_version_major,
 57	enum dce_version dce_version_minor,
 58	struct dc_context *ctx)
 59{
 60	struct gpio_service *service;
 61	uint32_t index_of_id;
 62
 63	service = kzalloc(sizeof(struct gpio_service), GFP_KERNEL);
 64
 65	if (!service) {
 66		BREAK_TO_DEBUGGER();
 67		return NULL;
 68	}
 69
 70	if (!dal_hw_translate_init(&service->translate, dce_version_major,
 71			dce_version_minor)) {
 72		BREAK_TO_DEBUGGER();
 73		goto failure_1;
 74	}
 75
 76	if (!dal_hw_factory_init(&service->factory, dce_version_major,
 77			dce_version_minor)) {
 78		BREAK_TO_DEBUGGER();
 79		goto failure_1;
 80	}
 81
 82	/* allocate and initialize busyness storage */
 83	{
 84		index_of_id = 0;
 85		service->ctx = ctx;
 86
 87		do {
 88			uint32_t number_of_bits =
 89				service->factory.number_of_pins[index_of_id];
 90			uint32_t i = 0;
 91
 92			if (number_of_bits)  {
 93				service->busyness[index_of_id] =
 94					kcalloc(number_of_bits, sizeof(char),
 95						GFP_KERNEL);
 96
 97				if (!service->busyness[index_of_id]) {
 98					BREAK_TO_DEBUGGER();
 99					goto failure_2;
100				}
101
102				do {
103					service->busyness[index_of_id][i] = 0;
104					++i;
105				} while (i < number_of_bits);
106			} else {
107				service->busyness[index_of_id] = NULL;
108			}
109
110			++index_of_id;
111		} while (index_of_id < GPIO_ID_COUNT);
112	}
113
114	return service;
115
116failure_2:
117	while (index_of_id) {
118		--index_of_id;
119		kfree(service->busyness[index_of_id]);
120	}
121
122failure_1:
123	kfree(service);
124
125	return NULL;
126}
127
128struct gpio *dal_gpio_service_create_irq(
129	struct gpio_service *service,
130	uint32_t offset,
131	uint32_t mask)
132{
133	enum gpio_id id;
134	uint32_t en;
135
136	if (!service->translate.funcs->offset_to_id(offset, mask, &id, &en)) {
137		ASSERT_CRITICAL(false);
138		return NULL;
139	}
140
141	return dal_gpio_create_irq(service, id, en);
142}
143
144struct gpio *dal_gpio_service_create_generic_mux(
145	struct gpio_service *service,
146	uint32_t offset,
147	uint32_t mask)
148{
149	enum gpio_id id;
150	uint32_t en;
151	struct gpio *generic;
152
153	if (!service->translate.funcs->offset_to_id(offset, mask, &id, &en)) {
154		ASSERT_CRITICAL(false);
155		return NULL;
156	}
157
158	generic = dal_gpio_create(
159		service, id, en, GPIO_PIN_OUTPUT_STATE_DEFAULT);
160
161	return generic;
162}
163
164void dal_gpio_destroy_generic_mux(
165	struct gpio **mux)
166{
167	if (!mux || !*mux) {
168		ASSERT_CRITICAL(false);
169		return;
170	}
171
172	dal_gpio_destroy(mux);
173	kfree(*mux);
174
175	*mux = NULL;
176}
177
178struct gpio_pin_info dal_gpio_get_generic_pin_info(
179	struct gpio_service *service,
180	enum gpio_id id,
181	uint32_t en)
182{
183	struct gpio_pin_info pin;
184
185	if (service->translate.funcs->id_to_offset) {
186		service->translate.funcs->id_to_offset(id, en, &pin);
187	} else {
188		pin.mask = 0xFFFFFFFF;
189		pin.offset = 0xFFFFFFFF;
190	}
191
192	return pin;
193}
194
195void dal_gpio_service_destroy(
196	struct gpio_service **ptr)
197{
198	if (!ptr || !*ptr) {
199		BREAK_TO_DEBUGGER();
200		return;
201	}
202
203	/* free business storage */
204	{
205		uint32_t index_of_id = 0;
206
207		do {
208			kfree((*ptr)->busyness[index_of_id]);
209
210			++index_of_id;
211		} while (index_of_id < GPIO_ID_COUNT);
212	}
213
214	kfree(*ptr);
215
216	*ptr = NULL;
217}
218
219enum gpio_result dal_mux_setup_config(
220	struct gpio *mux,
221	struct gpio_generic_mux_config *config)
222{
223	struct gpio_config_data config_data;
224
225	if (!config)
226		return GPIO_RESULT_INVALID_DATA;
227
228	config_data.config.generic_mux = *config;
229	config_data.type = GPIO_CONFIG_TYPE_GENERIC_MUX;
230
231	return dal_gpio_set_config(mux, &config_data);
232}
233
234/*
235 * @brief
236 * Private API.
237 */
238
239static bool is_pin_busy(
240	const struct gpio_service *service,
241	enum gpio_id id,
242	uint32_t en)
243{
244	return service->busyness[id][en];
245}
246
247static void set_pin_busy(
248	struct gpio_service *service,
249	enum gpio_id id,
250	uint32_t en)
251{
252	service->busyness[id][en] = true;
253}
254
255static void set_pin_free(
256	struct gpio_service *service,
257	enum gpio_id id,
258	uint32_t en)
259{
260	service->busyness[id][en] = false;
261}
262
263enum gpio_result dal_gpio_service_lock(
264	struct gpio_service *service,
265	enum gpio_id id,
266	uint32_t en)
267{
268	if (!service->busyness[id]) {
269		ASSERT_CRITICAL(false);
270		return GPIO_RESULT_OPEN_FAILED;
271	}
272
273	set_pin_busy(service, id, en);
274	return GPIO_RESULT_OK;
275}
276
277enum gpio_result dal_gpio_service_unlock(
278	struct gpio_service *service,
279	enum gpio_id id,
280	uint32_t en)
281{
282	if (!service->busyness[id]) {
283		ASSERT_CRITICAL(false);
284		return GPIO_RESULT_OPEN_FAILED;
285	}
286
287	set_pin_free(service, id, en);
288	return GPIO_RESULT_OK;
289}
290
291enum gpio_result dal_gpio_service_open(
292	struct gpio *gpio)
293{
294	struct gpio_service *service = gpio->service;
295	enum gpio_id id = gpio->id;
296	uint32_t en = gpio->en;
297	enum gpio_mode mode = gpio->mode;
298
299	struct hw_gpio_pin **pin = &gpio->pin;
300
301
302	if (!service->busyness[id]) {
303		ASSERT_CRITICAL(false);
304		return GPIO_RESULT_OPEN_FAILED;
305	}
306
307	if (is_pin_busy(service, id, en)) {
308		ASSERT_CRITICAL(false);
309		return GPIO_RESULT_DEVICE_BUSY;
310	}
311
312	switch (id) {
313	case GPIO_ID_DDC_DATA:
314		*pin = service->factory.funcs->get_ddc_pin(gpio);
315		service->factory.funcs->define_ddc_registers(*pin, en);
316	break;
317	case GPIO_ID_DDC_CLOCK:
318		*pin = service->factory.funcs->get_ddc_pin(gpio);
319		service->factory.funcs->define_ddc_registers(*pin, en);
320	break;
321	case GPIO_ID_GENERIC:
322		*pin = service->factory.funcs->get_generic_pin(gpio);
323		service->factory.funcs->define_generic_registers(*pin, en);
324	break;
325	case GPIO_ID_HPD:
326		*pin = service->factory.funcs->get_hpd_pin(gpio);
327		service->factory.funcs->define_hpd_registers(*pin, en);
328	break;
329
330	//TODO: gsl and sync support? create_sync and create_gsl are NULL
331	case GPIO_ID_SYNC:
332	case GPIO_ID_GSL:
333	break;
334	default:
335		ASSERT_CRITICAL(false);
336		return GPIO_RESULT_NON_SPECIFIC_ERROR;
337	}
338
339	if (!*pin) {
340		ASSERT_CRITICAL(false);
341		return GPIO_RESULT_NON_SPECIFIC_ERROR;
342	}
343
344	if (!(*pin)->funcs->open(*pin, mode)) {
345		ASSERT_CRITICAL(false);
346		dal_gpio_service_close(service, pin);
347		return GPIO_RESULT_OPEN_FAILED;
348	}
349
350	set_pin_busy(service, id, en);
351	return GPIO_RESULT_OK;
352}
353
354void dal_gpio_service_close(
355	struct gpio_service *service,
356	struct hw_gpio_pin **ptr)
357{
358	struct hw_gpio_pin *pin;
359
360	if (!ptr) {
361		ASSERT_CRITICAL(false);
362		return;
363	}
364
365	pin = *ptr;
366
367	if (pin) {
368		set_pin_free(service, pin->id, pin->en);
369
370		pin->funcs->close(pin);
371
372		*ptr = NULL;
373	}
374}
375
376enum dc_irq_source dal_irq_get_source(
377	const struct gpio *irq)
378{
379	enum gpio_id id = dal_gpio_get_id(irq);
380
381	switch (id) {
382	case GPIO_ID_HPD:
383		return (enum dc_irq_source)(DC_IRQ_SOURCE_HPD1 +
384			dal_gpio_get_enum(irq));
385	case GPIO_ID_GPIO_PAD:
386		return (enum dc_irq_source)(DC_IRQ_SOURCE_GPIOPAD0 +
387			dal_gpio_get_enum(irq));
388	default:
389		return DC_IRQ_SOURCE_INVALID;
390	}
391}
392
393enum dc_irq_source dal_irq_get_rx_source(
394	const struct gpio *irq)
395{
396	enum gpio_id id = dal_gpio_get_id(irq);
397
398	switch (id) {
399	case GPIO_ID_HPD:
400		return (enum dc_irq_source)(DC_IRQ_SOURCE_HPD1RX +
401			dal_gpio_get_enum(irq));
402	default:
403		return DC_IRQ_SOURCE_INVALID;
404	}
405}
406
407enum gpio_result dal_irq_setup_hpd_filter(
408	struct gpio *irq,
409	struct gpio_hpd_config *config)
410{
411	struct gpio_config_data config_data;
412
413	if (!config)
414		return GPIO_RESULT_INVALID_DATA;
415
416	config_data.type = GPIO_CONFIG_TYPE_HPD;
417	config_data.config.hpd = *config;
418
419	return dal_gpio_set_config(irq, &config_data);
420}
421
422/*
423 * @brief
424 * Creation and destruction
425 */
426
427struct gpio *dal_gpio_create_irq(
428	struct gpio_service *service,
429	enum gpio_id id,
430	uint32_t en)
431{
432	struct gpio *irq;
433
434	switch (id) {
435	case GPIO_ID_HPD:
436	case GPIO_ID_GPIO_PAD:
437	break;
438	default:
439		id = GPIO_ID_HPD;
440		ASSERT_CRITICAL(false);
441		return NULL;
442	}
443
444	irq = dal_gpio_create(
445		service, id, en, GPIO_PIN_OUTPUT_STATE_DEFAULT);
446
447	if (irq)
448		return irq;
449
450	ASSERT_CRITICAL(false);
451	return NULL;
452}
453
454void dal_gpio_destroy_irq(
455	struct gpio **irq)
456{
457	if (!irq || !*irq) {
458		ASSERT_CRITICAL(false);
459		return;
460	}
461
462	dal_gpio_destroy(irq);
463	kfree(*irq);
464
465	*irq = NULL;
466}
467
468struct ddc *dal_gpio_create_ddc(
469	struct gpio_service *service,
470	uint32_t offset,
471	uint32_t mask,
472	struct gpio_ddc_hw_info *info)
473{
474	enum gpio_id id;
475	uint32_t en;
476	struct ddc *ddc;
477
478	if (!service->translate.funcs->offset_to_id(offset, mask, &id, &en))
479		return NULL;
480
481	ddc = kzalloc(sizeof(struct ddc), GFP_KERNEL);
482
483	if (!ddc) {
484		BREAK_TO_DEBUGGER();
485		return NULL;
486	}
487
488	ddc->pin_data = dal_gpio_create(
489		service, GPIO_ID_DDC_DATA, en, GPIO_PIN_OUTPUT_STATE_DEFAULT);
490
491	if (!ddc->pin_data) {
492		BREAK_TO_DEBUGGER();
493		goto failure_1;
494	}
495
496	ddc->pin_clock = dal_gpio_create(
497		service, GPIO_ID_DDC_CLOCK, en, GPIO_PIN_OUTPUT_STATE_DEFAULT);
498
499	if (!ddc->pin_clock) {
500		BREAK_TO_DEBUGGER();
501		goto failure_2;
502	}
503
504	ddc->hw_info = *info;
505
506	ddc->ctx = service->ctx;
507
508	return ddc;
509
510failure_2:
511	dal_gpio_destroy(&ddc->pin_data);
512
513failure_1:
514	kfree(ddc);
515
516	return NULL;
517}
518
519void dal_gpio_destroy_ddc(
520	struct ddc **ddc)
521{
522	if (!ddc || !*ddc) {
523		BREAK_TO_DEBUGGER();
524		return;
525	}
526
527	dal_ddc_close(*ddc);
528	dal_gpio_destroy(&(*ddc)->pin_data);
529	dal_gpio_destroy(&(*ddc)->pin_clock);
530	kfree(*ddc);
531
532	*ddc = NULL;
533}
534
535enum gpio_result dal_ddc_open(
536	struct ddc *ddc,
537	enum gpio_mode mode,
538	enum gpio_ddc_config_type config_type)
539{
540	enum gpio_result result;
541
542	struct gpio_config_data config_data;
543	struct hw_gpio *hw_data;
544	struct hw_gpio *hw_clock;
545
546	result = dal_gpio_open_ex(ddc->pin_data, mode);
547
548	if (result != GPIO_RESULT_OK) {
549		BREAK_TO_DEBUGGER();
550		return result;
551	}
552
553	result = dal_gpio_open_ex(ddc->pin_clock, mode);
554
555	if (result != GPIO_RESULT_OK) {
556		BREAK_TO_DEBUGGER();
557		goto failure;
558	}
559
560	/* DDC clock and data pins should belong
561	 * to the same DDC block id,
562	 * we use the data pin to set the pad mode. */
563
564	if (mode == GPIO_MODE_INPUT)
565		/* this is from detect_sink_type,
566		 * we need extra delay there */
567		config_data.type = GPIO_CONFIG_TYPE_I2C_AUX_DUAL_MODE;
568	else
569		config_data.type = GPIO_CONFIG_TYPE_DDC;
570
571	config_data.config.ddc.type = config_type;
572
573	hw_data = FROM_HW_GPIO_PIN(ddc->pin_data->pin);
574	hw_clock = FROM_HW_GPIO_PIN(ddc->pin_clock->pin);
575
576	config_data.config.ddc.data_en_bit_present = hw_data->store.en != 0;
577	config_data.config.ddc.clock_en_bit_present = hw_clock->store.en != 0;
578
579	result = dal_gpio_set_config(ddc->pin_data, &config_data);
580
581	if (result == GPIO_RESULT_OK)
582		return result;
583
584	BREAK_TO_DEBUGGER();
585
586	dal_gpio_close(ddc->pin_clock);
587
588failure:
589	dal_gpio_close(ddc->pin_data);
590
591	return result;
592}
593
594enum gpio_result dal_ddc_change_mode(
595	struct ddc *ddc,
596	enum gpio_mode mode)
597{
598	enum gpio_result result;
599
600	enum gpio_mode original_mode =
601		dal_gpio_get_mode(ddc->pin_data);
602
603	result = dal_gpio_change_mode(ddc->pin_data, mode);
604
605	/* [anaumov] DAL2 code returns GPIO_RESULT_NON_SPECIFIC_ERROR
606	 * in case of failures;
607	 * set_mode() is so that, in case of failure,
608	 * we must explicitly set original mode */
609
610	if (result != GPIO_RESULT_OK)
611		goto failure;
612
613	result = dal_gpio_change_mode(ddc->pin_clock, mode);
614
615	if (result == GPIO_RESULT_OK)
616		return result;
617
618	dal_gpio_change_mode(ddc->pin_clock, original_mode);
619
620failure:
621	dal_gpio_change_mode(ddc->pin_data, original_mode);
622
623	return result;
624}
625
626enum gpio_ddc_line dal_ddc_get_line(
627	const struct ddc *ddc)
628{
629	return (enum gpio_ddc_line)dal_gpio_get_enum(ddc->pin_data);
630}
631
632enum gpio_result dal_ddc_set_config(
633	struct ddc *ddc,
634	enum gpio_ddc_config_type config_type)
635{
636	struct gpio_config_data config_data;
637
638	config_data.type = GPIO_CONFIG_TYPE_DDC;
639
640	config_data.config.ddc.type = config_type;
641	config_data.config.ddc.data_en_bit_present = false;
642	config_data.config.ddc.clock_en_bit_present = false;
643
644	return dal_gpio_set_config(ddc->pin_data, &config_data);
645}
646
647void dal_ddc_close(
648	struct ddc *ddc)
649{
650	dal_gpio_close(ddc->pin_clock);
651	dal_gpio_close(ddc->pin_data);
 
 
652}
653

  1/*
  2 * Copyright 2012-15 Advanced Micro Devices, Inc.
  3 *
  4 * Permission is hereby granted, free of charge, to any person obtaining a
  5 * copy of this software and associated documentation files (the "Software"),
  6 * to deal in the Software without restriction, including without limitation
  7 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
  8 * and/or sell copies of the Software, and to permit persons to whom the
  9 * Software is furnished to do so, subject to the following conditions:
 10 *
 11 * The above copyright notice and this permission notice shall be included in
 12 * all copies or substantial portions of the Software.
 13 *
 14 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 15 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 16 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
 17 * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
 18 * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
 19 * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
 20 * OTHER DEALINGS IN THE SOFTWARE.
 21 *
 22 * Authors: AMD
 23 *
 24 */
 25
 26/*
 27 * Pre-requisites: headers required by header of this unit
 28 */
 29
 
 
 30#include "dm_services.h"
 31#include "include/gpio_interface.h"
 32#include "include/gpio_service_interface.h"
 33#include "hw_translate.h"
 34#include "hw_factory.h"
 35
 36/*
 37 * Header of this unit
 38 */
 39
 40#include "gpio_service.h"
 41
 42/*
 43 * Post-requisites: headers required by this unit
 44 */
 45
 46#include "hw_gpio.h"
 47
 48/*
 49 * @brief
 50 * Public API.
 51 */
 52
 53struct gpio_service *dal_gpio_service_create(
 54	enum dce_version dce_version,
 55	enum dce_environment dce_environment,
 56	struct dc_context *ctx)
 57{
 58	struct gpio_service *service;
 59	uint32_t index_of_id;
 60
 61	service = kzalloc(sizeof(struct gpio_service), GFP_KERNEL);
 62
 63	if (!service) {
 64		BREAK_TO_DEBUGGER();
 65		return NULL;
 66	}
 67
 68	if (!dal_hw_translate_init(&service->translate, dce_version,
 69			dce_environment)) {
 70		BREAK_TO_DEBUGGER();
 71		goto failure_1;
 72	}
 73
 74	if (!dal_hw_factory_init(&service->factory, dce_version,
 75			dce_environment)) {
 76		BREAK_TO_DEBUGGER();
 77		goto failure_1;
 78	}
 79
 80	/* allocate and initialize busyness storage */
 81	{
 82		index_of_id = 0;
 83		service->ctx = ctx;
 84
 85		do {
 86			uint32_t number_of_bits =
 87				service->factory.number_of_pins[index_of_id];
 88			uint32_t i = 0;
 89
 90			if (number_of_bits)  {
 91				service->busyness[index_of_id] =
 92					kcalloc(number_of_bits, sizeof(char),
 93						GFP_KERNEL);
 94
 95				if (!service->busyness[index_of_id]) {
 96					BREAK_TO_DEBUGGER();
 97					goto failure_2;
 98				}
 99
100				do {
101					service->busyness[index_of_id][i] = 0;
102					++i;
103				} while (i < number_of_bits);
104			} else {
105				service->busyness[index_of_id] = NULL;
106			}
107
108			++index_of_id;
109		} while (index_of_id < GPIO_ID_COUNT);
110	}
111
112	return service;
113
114failure_2:
115	while (index_of_id) {
116		--index_of_id;
117		kfree(service->busyness[index_of_id]);
118	}
119
120failure_1:
121	kfree(service);
122
123	return NULL;
124}
125
126struct gpio *dal_gpio_service_create_irq(
127	struct gpio_service *service,
128	uint32_t offset,
129	uint32_t mask)
130{
131	enum gpio_id id;
132	uint32_t en;
133
134	if (!service->translate.funcs->offset_to_id(offset, mask, &id, &en)) {
135		ASSERT_CRITICAL(false);
136		return NULL;
137	}
138
139	return dal_gpio_create_irq(service, id, en);
140}
141
142struct gpio *dal_gpio_service_create_generic_mux(
143	struct gpio_service *service,
144	uint32_t offset,
145	uint32_t mask)
146{
147	enum gpio_id id;
148	uint32_t en;
149	struct gpio *generic;
150
151	if (!service->translate.funcs->offset_to_id(offset, mask, &id, &en)) {
152		ASSERT_CRITICAL(false);
153		return NULL;
154	}
155
156	generic = dal_gpio_create(
157		service, id, en, GPIO_PIN_OUTPUT_STATE_DEFAULT);
158
159	return generic;
160}
161
162void dal_gpio_destroy_generic_mux(
163	struct gpio **mux)
164{
165	if (!mux || !*mux) {
166		ASSERT_CRITICAL(false);
167		return;
168	}
169
170	dal_gpio_destroy(mux);
171	kfree(*mux);
172
173	*mux = NULL;
174}
175
176struct gpio_pin_info dal_gpio_get_generic_pin_info(
177	struct gpio_service *service,
178	enum gpio_id id,
179	uint32_t en)
180{
181	struct gpio_pin_info pin;
182
183	if (service->translate.funcs->id_to_offset) {
184		service->translate.funcs->id_to_offset(id, en, &pin);
185	} else {
186		pin.mask = 0xFFFFFFFF;
187		pin.offset = 0xFFFFFFFF;
188	}
189
190	return pin;
191}
192
193void dal_gpio_service_destroy(
194	struct gpio_service **ptr)
195{
196	if (!ptr || !*ptr) {
197		BREAK_TO_DEBUGGER();
198		return;
199	}
200
201	/* free business storage */
202	{
203		uint32_t index_of_id = 0;
204
205		do {
206			kfree((*ptr)->busyness[index_of_id]);
207
208			++index_of_id;
209		} while (index_of_id < GPIO_ID_COUNT);
210	}
211
212	kfree(*ptr);
213
214	*ptr = NULL;
215}
216
217enum gpio_result dal_mux_setup_config(
218	struct gpio *mux,
219	struct gpio_generic_mux_config *config)
220{
221	struct gpio_config_data config_data;
222
223	if (!config)
224		return GPIO_RESULT_INVALID_DATA;
225
226	config_data.config.generic_mux = *config;
227	config_data.type = GPIO_CONFIG_TYPE_GENERIC_MUX;
228
229	return dal_gpio_set_config(mux, &config_data);
230}
231
232/*
233 * @brief
234 * Private API.
235 */
236
237static bool is_pin_busy(
238	const struct gpio_service *service,
239	enum gpio_id id,
240	uint32_t en)
241{
242	return service->busyness[id][en];
243}
244
245static void set_pin_busy(
246	struct gpio_service *service,
247	enum gpio_id id,
248	uint32_t en)
249{
250	service->busyness[id][en] = true;
251}
252
253static void set_pin_free(
254	struct gpio_service *service,
255	enum gpio_id id,
256	uint32_t en)
257{
258	service->busyness[id][en] = false;
259}
260
261enum gpio_result dal_gpio_service_lock(
262	struct gpio_service *service,
263	enum gpio_id id,
264	uint32_t en)
265{
266	if (!service->busyness[id]) {
267		ASSERT_CRITICAL(false);
268		return GPIO_RESULT_OPEN_FAILED;
269	}
270
271	set_pin_busy(service, id, en);
272	return GPIO_RESULT_OK;
273}
274
275enum gpio_result dal_gpio_service_unlock(
276	struct gpio_service *service,
277	enum gpio_id id,
278	uint32_t en)
279{
280	if (!service->busyness[id]) {
281		ASSERT_CRITICAL(false);
282		return GPIO_RESULT_OPEN_FAILED;
283	}
284
285	set_pin_free(service, id, en);
286	return GPIO_RESULT_OK;
287}
288
289enum gpio_result dal_gpio_service_open(
290	struct gpio *gpio)
291{
292	struct gpio_service *service = gpio->service;
293	enum gpio_id id = gpio->id;
294	uint32_t en = gpio->en;
295	enum gpio_mode mode = gpio->mode;
296
297	struct hw_gpio_pin **pin = &gpio->pin;
298
299
300	if (!service->busyness[id]) {
301		ASSERT_CRITICAL(false);
302		return GPIO_RESULT_OPEN_FAILED;
303	}
304
305	if (is_pin_busy(service, id, en)) {
306		ASSERT_CRITICAL(false);
307		return GPIO_RESULT_DEVICE_BUSY;
308	}
309
310	switch (id) {
311	case GPIO_ID_DDC_DATA:
312		*pin = service->factory.funcs->get_ddc_pin(gpio);
313		service->factory.funcs->define_ddc_registers(*pin, en);
314	break;
315	case GPIO_ID_DDC_CLOCK:
316		*pin = service->factory.funcs->get_ddc_pin(gpio);
317		service->factory.funcs->define_ddc_registers(*pin, en);
318	break;
319	case GPIO_ID_GENERIC:
320		*pin = service->factory.funcs->get_generic_pin(gpio);
321		service->factory.funcs->define_generic_registers(*pin, en);
322	break;
323	case GPIO_ID_HPD:
324		*pin = service->factory.funcs->get_hpd_pin(gpio);
325		service->factory.funcs->define_hpd_registers(*pin, en);
326	break;
327
328	//TODO: gsl and sync support? create_sync and create_gsl are NULL
329	case GPIO_ID_SYNC:
330	case GPIO_ID_GSL:
331	break;
332	default:
333		ASSERT_CRITICAL(false);
334		return GPIO_RESULT_NON_SPECIFIC_ERROR;
335	}
336
337	if (!*pin) {
338		ASSERT_CRITICAL(false);
339		return GPIO_RESULT_NON_SPECIFIC_ERROR;
340	}
341
342	if (!(*pin)->funcs->open(*pin, mode)) {
343		ASSERT_CRITICAL(false);
344		dal_gpio_service_close(service, pin);
345		return GPIO_RESULT_OPEN_FAILED;
346	}
347
348	set_pin_busy(service, id, en);
349	return GPIO_RESULT_OK;
350}
351
352void dal_gpio_service_close(
353	struct gpio_service *service,
354	struct hw_gpio_pin **ptr)
355{
356	struct hw_gpio_pin *pin;
357
358	if (!ptr) {
359		ASSERT_CRITICAL(false);
360		return;
361	}
362
363	pin = *ptr;
364
365	if (pin) {
366		set_pin_free(service, pin->id, pin->en);
367
368		pin->funcs->close(pin);
369
370		*ptr = NULL;
371	}
372}
373
374enum dc_irq_source dal_irq_get_source(
375	const struct gpio *irq)
376{
377	enum gpio_id id = dal_gpio_get_id(irq);
378
379	switch (id) {
380	case GPIO_ID_HPD:
381		return (enum dc_irq_source)(DC_IRQ_SOURCE_HPD1 +
382			dal_gpio_get_enum(irq));
383	case GPIO_ID_GPIO_PAD:
384		return (enum dc_irq_source)(DC_IRQ_SOURCE_GPIOPAD0 +
385			dal_gpio_get_enum(irq));
386	default:
387		return DC_IRQ_SOURCE_INVALID;
388	}
389}
390
391enum dc_irq_source dal_irq_get_rx_source(
392	const struct gpio *irq)
393{
394	enum gpio_id id = dal_gpio_get_id(irq);
395
396	switch (id) {
397	case GPIO_ID_HPD:
398		return (enum dc_irq_source)(DC_IRQ_SOURCE_HPD1RX +
399			dal_gpio_get_enum(irq));
400	default:
401		return DC_IRQ_SOURCE_INVALID;
402	}
403}
404
405enum gpio_result dal_irq_setup_hpd_filter(
406	struct gpio *irq,
407	struct gpio_hpd_config *config)
408{
409	struct gpio_config_data config_data;
410
411	if (!config)
412		return GPIO_RESULT_INVALID_DATA;
413
414	config_data.type = GPIO_CONFIG_TYPE_HPD;
415	config_data.config.hpd = *config;
416
417	return dal_gpio_set_config(irq, &config_data);
418}
419
420/*
421 * @brief
422 * Creation and destruction
423 */
424
425struct gpio *dal_gpio_create_irq(
426	struct gpio_service *service,
427	enum gpio_id id,
428	uint32_t en)
429{
430	struct gpio *irq;
431
432	switch (id) {
433	case GPIO_ID_HPD:
434	case GPIO_ID_GPIO_PAD:
435	break;
436	default:
437		id = GPIO_ID_HPD;
438		ASSERT_CRITICAL(false);
439		return NULL;
440	}
441
442	irq = dal_gpio_create(
443		service, id, en, GPIO_PIN_OUTPUT_STATE_DEFAULT);
444
445	if (irq)
446		return irq;
447
448	ASSERT_CRITICAL(false);
449	return NULL;
450}
451
452void dal_gpio_destroy_irq(
453	struct gpio **irq)
454{
455	if (!irq || !*irq) {
456		ASSERT_CRITICAL(false);
457		return;
458	}
459
460	dal_gpio_destroy(irq);
461	kfree(*irq);
462
463	*irq = NULL;
464}
465
466struct ddc *dal_gpio_create_ddc(
467	struct gpio_service *service,
468	uint32_t offset,
469	uint32_t mask,
470	struct gpio_ddc_hw_info *info)
471{
472	enum gpio_id id;
473	uint32_t en;
474	struct ddc *ddc;
475
476	if (!service->translate.funcs->offset_to_id(offset, mask, &id, &en))
477		return NULL;
478
479	ddc = kzalloc(sizeof(struct ddc), GFP_KERNEL);
480
481	if (!ddc) {
482		BREAK_TO_DEBUGGER();
483		return NULL;
484	}
485
486	ddc->pin_data = dal_gpio_create(
487		service, GPIO_ID_DDC_DATA, en, GPIO_PIN_OUTPUT_STATE_DEFAULT);
488
489	if (!ddc->pin_data) {
490		BREAK_TO_DEBUGGER();
491		goto failure_1;
492	}
493
494	ddc->pin_clock = dal_gpio_create(
495		service, GPIO_ID_DDC_CLOCK, en, GPIO_PIN_OUTPUT_STATE_DEFAULT);
496
497	if (!ddc->pin_clock) {
498		BREAK_TO_DEBUGGER();
499		goto failure_2;
500	}
501
502	ddc->hw_info = *info;
503
504	ddc->ctx = service->ctx;
505
506	return ddc;
507
508failure_2:
509	dal_gpio_destroy(&ddc->pin_data);
510
511failure_1:
512	kfree(ddc);
513
514	return NULL;
515}
516
517void dal_gpio_destroy_ddc(
518	struct ddc **ddc)
519{
520	if (!ddc || !*ddc) {
521		BREAK_TO_DEBUGGER();
522		return;
523	}
524
525	dal_ddc_close(*ddc);
526	dal_gpio_destroy(&(*ddc)->pin_data);
527	dal_gpio_destroy(&(*ddc)->pin_clock);
528	kfree(*ddc);
529
530	*ddc = NULL;
531}
532
533enum gpio_result dal_ddc_open(
534	struct ddc *ddc,
535	enum gpio_mode mode,
536	enum gpio_ddc_config_type config_type)
537{
538	enum gpio_result result;
539
540	struct gpio_config_data config_data;
541	struct hw_gpio *hw_data;
542	struct hw_gpio *hw_clock;
543
544	result = dal_gpio_open_ex(ddc->pin_data, mode);
545
546	if (result != GPIO_RESULT_OK) {
547		BREAK_TO_DEBUGGER();
548		return result;
549	}
550
551	result = dal_gpio_open_ex(ddc->pin_clock, mode);
552
553	if (result != GPIO_RESULT_OK) {
554		BREAK_TO_DEBUGGER();
555		goto failure;
556	}
557
558	/* DDC clock and data pins should belong
559	 * to the same DDC block id,
560	 * we use the data pin to set the pad mode. */
561
562	if (mode == GPIO_MODE_INPUT)
563		/* this is from detect_sink_type,
564		 * we need extra delay there */
565		config_data.type = GPIO_CONFIG_TYPE_I2C_AUX_DUAL_MODE;
566	else
567		config_data.type = GPIO_CONFIG_TYPE_DDC;
568
569	config_data.config.ddc.type = config_type;
570
571	hw_data = FROM_HW_GPIO_PIN(ddc->pin_data->pin);
572	hw_clock = FROM_HW_GPIO_PIN(ddc->pin_clock->pin);
573
574	config_data.config.ddc.data_en_bit_present = hw_data->store.en != 0;
575	config_data.config.ddc.clock_en_bit_present = hw_clock->store.en != 0;
576
577	result = dal_gpio_set_config(ddc->pin_data, &config_data);
578
579	if (result == GPIO_RESULT_OK)
580		return result;
581
582	BREAK_TO_DEBUGGER();
583
584	dal_gpio_close(ddc->pin_clock);
585
586failure:
587	dal_gpio_close(ddc->pin_data);
588
589	return result;
590}
591
592enum gpio_result dal_ddc_change_mode(
593	struct ddc *ddc,
594	enum gpio_mode mode)
595{
596	enum gpio_result result;
597
598	enum gpio_mode original_mode =
599		dal_gpio_get_mode(ddc->pin_data);
600
601	result = dal_gpio_change_mode(ddc->pin_data, mode);
602
603	/* [anaumov] DAL2 code returns GPIO_RESULT_NON_SPECIFIC_ERROR
604	 * in case of failures;
605	 * set_mode() is so that, in case of failure,
606	 * we must explicitly set original mode */
607
608	if (result != GPIO_RESULT_OK)
609		goto failure;
610
611	result = dal_gpio_change_mode(ddc->pin_clock, mode);
612
613	if (result == GPIO_RESULT_OK)
614		return result;
615
616	dal_gpio_change_mode(ddc->pin_clock, original_mode);
617
618failure:
619	dal_gpio_change_mode(ddc->pin_data, original_mode);
620
621	return result;
622}
623
624enum gpio_ddc_line dal_ddc_get_line(
625	const struct ddc *ddc)
626{
627	return (enum gpio_ddc_line)dal_gpio_get_enum(ddc->pin_data);
628}
629
630enum gpio_result dal_ddc_set_config(
631	struct ddc *ddc,
632	enum gpio_ddc_config_type config_type)
633{
634	struct gpio_config_data config_data;
635
636	config_data.type = GPIO_CONFIG_TYPE_DDC;
637
638	config_data.config.ddc.type = config_type;
639	config_data.config.ddc.data_en_bit_present = false;
640	config_data.config.ddc.clock_en_bit_present = false;
641
642	return dal_gpio_set_config(ddc->pin_data, &config_data);
643}
644
645void dal_ddc_close(
646	struct ddc *ddc)
647{
648	if (ddc != NULL) {
649		dal_gpio_close(ddc->pin_clock);
650		dal_gpio_close(ddc->pin_data);
651	}
652}
653