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1 // SPDX-License-Identifier: GPL-2.0
2 /*
3  * Support for Intel Camera Imaging ISP subsystem.
4  * Copyright (c) 2010-2015, Intel Corporation.
5  *
6  * This program is free software; you can redistribute it and/or modify it
7  * under the terms and conditions of the GNU General Public License,
8  * version 2, as published by the Free Software Foundation.
9  *
10  * This program is distributed in the hope it will be useful, but WITHOUT
11  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
12  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
13  * more details.
14  */
15 
16 #include "assert_support.h"
17 #include "irq.h"
18 
19 #ifndef __INLINE_GP_DEVICE__
20 #define __INLINE_GP_DEVICE__
21 #endif
22 #include "gp_device.h"	/* _REG_GP_IRQ_REQUEST_ADDR */
23 
24 static inline void irq_wait_for_write_complete(
25     const irq_ID_t		ID);
26 
27 static inline bool any_irq_channel_enabled(
28     const irq_ID_t				ID);
29 
30 static inline irq_ID_t virq_get_irq_id(const enum virq_id irq_ID,
31 				       unsigned int *channel_ID);
32 
33 #ifndef __INLINE_IRQ__
34 #include "irq_private.h"
35 #endif /* __INLINE_IRQ__ */
36 
37 static unsigned short IRQ_N_CHANNEL[N_IRQ_ID] = {
38 	IRQ0_ID_N_CHANNEL,
39 	IRQ1_ID_N_CHANNEL,
40 	IRQ2_ID_N_CHANNEL,
41 	IRQ3_ID_N_CHANNEL
42 };
43 
44 static unsigned short IRQ_N_ID_OFFSET[N_IRQ_ID + 1] = {
45 	IRQ0_ID_OFFSET,
46 	IRQ1_ID_OFFSET,
47 	IRQ2_ID_OFFSET,
48 	IRQ3_ID_OFFSET,
49 	IRQ_END_OFFSET
50 };
51 
52 static enum virq_id IRQ_NESTING_ID[N_IRQ_ID] = {
53 	N_virq_id,
54 	virq_ifmt,
55 	virq_isys,
56 	virq_isel
57 };
58 
irq_clear_all(const irq_ID_t ID)59 void irq_clear_all(
60     const irq_ID_t				ID)
61 {
62 	hrt_data	mask = 0xFFFFFFFF;
63 
64 	assert(ID < N_IRQ_ID);
65 	assert(IRQ_N_CHANNEL[ID] <= HRT_DATA_WIDTH);
66 
67 	if (IRQ_N_CHANNEL[ID] < HRT_DATA_WIDTH) {
68 		mask = ~((~(hrt_data)0) >> IRQ_N_CHANNEL[ID]);
69 	}
70 
71 	irq_reg_store(ID,
72 		      _HRT_IRQ_CONTROLLER_CLEAR_REG_IDX, mask);
73 	return;
74 }
75 
76 /*
77  * Do we want the user to be able to set the signalling method ?
78  */
irq_enable_channel(const irq_ID_t ID,const unsigned int irq_id)79 void irq_enable_channel(
80     const irq_ID_t				ID,
81     const unsigned int			irq_id)
82 {
83 	unsigned int mask = irq_reg_load(ID,
84 					 _HRT_IRQ_CONTROLLER_MASK_REG_IDX);
85 	unsigned int enable = irq_reg_load(ID,
86 					   _HRT_IRQ_CONTROLLER_ENABLE_REG_IDX);
87 	unsigned int edge_in = irq_reg_load(ID,
88 					    _HRT_IRQ_CONTROLLER_EDGE_REG_IDX);
89 	unsigned int me = 1U << irq_id;
90 
91 	assert(ID < N_IRQ_ID);
92 	assert(irq_id < IRQ_N_CHANNEL[ID]);
93 
94 	mask |= me;
95 	enable |= me;
96 	edge_in |= me;	/* rising edge */
97 
98 	/* to avoid mishaps configuration must follow the following order */
99 
100 	/* mask this interrupt */
101 	irq_reg_store(ID,
102 		      _HRT_IRQ_CONTROLLER_MASK_REG_IDX, mask & ~me);
103 	/* rising edge at input */
104 	irq_reg_store(ID,
105 		      _HRT_IRQ_CONTROLLER_EDGE_REG_IDX, edge_in);
106 	/* enable interrupt to output */
107 	irq_reg_store(ID,
108 		      _HRT_IRQ_CONTROLLER_ENABLE_REG_IDX, enable);
109 	/* clear current irq only */
110 	irq_reg_store(ID,
111 		      _HRT_IRQ_CONTROLLER_CLEAR_REG_IDX, me);
112 	/* unmask interrupt from input */
113 	irq_reg_store(ID,
114 		      _HRT_IRQ_CONTROLLER_MASK_REG_IDX, mask);
115 
116 	irq_wait_for_write_complete(ID);
117 
118 	return;
119 }
120 
irq_enable_pulse(const irq_ID_t ID,bool pulse)121 void irq_enable_pulse(
122     const irq_ID_t	ID,
123     bool			pulse)
124 {
125 	unsigned int edge_out = 0x0;
126 
127 	if (pulse) {
128 		edge_out = 0xffffffff;
129 	}
130 	/* output is given as edge, not pulse */
131 	irq_reg_store(ID,
132 		      _HRT_IRQ_CONTROLLER_EDGE_NOT_PULSE_REG_IDX, edge_out);
133 	return;
134 }
135 
irq_disable_channel(const irq_ID_t ID,const unsigned int irq_id)136 void irq_disable_channel(
137     const irq_ID_t				ID,
138     const unsigned int			irq_id)
139 {
140 	unsigned int mask = irq_reg_load(ID,
141 					 _HRT_IRQ_CONTROLLER_MASK_REG_IDX);
142 	unsigned int enable = irq_reg_load(ID,
143 					   _HRT_IRQ_CONTROLLER_ENABLE_REG_IDX);
144 	unsigned int me = 1U << irq_id;
145 
146 	assert(ID < N_IRQ_ID);
147 	assert(irq_id < IRQ_N_CHANNEL[ID]);
148 
149 	mask &= ~me;
150 	enable &= ~me;
151 
152 	/* enable interrupt to output */
153 	irq_reg_store(ID,
154 		      _HRT_IRQ_CONTROLLER_ENABLE_REG_IDX, enable);
155 	/* unmask interrupt from input */
156 	irq_reg_store(ID,
157 		      _HRT_IRQ_CONTROLLER_MASK_REG_IDX, mask);
158 	/* clear current irq only */
159 	irq_reg_store(ID,
160 		      _HRT_IRQ_CONTROLLER_CLEAR_REG_IDX, me);
161 
162 	irq_wait_for_write_complete(ID);
163 
164 	return;
165 }
166 
irq_get_channel_id(const irq_ID_t ID,unsigned int * irq_id)167 enum hrt_isp_css_irq_status irq_get_channel_id(
168     const irq_ID_t				ID,
169     unsigned int				*irq_id)
170 {
171 	unsigned int irq_status = irq_reg_load(ID,
172 					       _HRT_IRQ_CONTROLLER_STATUS_REG_IDX);
173 	unsigned int idx;
174 	enum hrt_isp_css_irq_status status = hrt_isp_css_irq_status_success;
175 
176 	assert(ID < N_IRQ_ID);
177 	assert(irq_id);
178 
179 	/* find the first irq bit */
180 	for (idx = 0; idx < IRQ_N_CHANNEL[ID]; idx++) {
181 		if (irq_status & (1U << idx))
182 			break;
183 	}
184 	if (idx == IRQ_N_CHANNEL[ID])
185 		return hrt_isp_css_irq_status_error;
186 
187 	/* now check whether there are more bits set */
188 	if (irq_status != (1U << idx))
189 		status = hrt_isp_css_irq_status_more_irqs;
190 
191 	irq_reg_store(ID,
192 		      _HRT_IRQ_CONTROLLER_CLEAR_REG_IDX, 1U << idx);
193 
194 	irq_wait_for_write_complete(ID);
195 
196 	if (irq_id)
197 		*irq_id = (unsigned int)idx;
198 
199 	return status;
200 }
201 
202 static const hrt_address IRQ_REQUEST_ADDR[N_IRQ_SW_CHANNEL_ID] = {
203 	_REG_GP_IRQ_REQUEST0_ADDR,
204 	_REG_GP_IRQ_REQUEST1_ADDR
205 };
206 
irq_raise(const irq_ID_t ID,const irq_sw_channel_id_t irq_id)207 void irq_raise(
208     const irq_ID_t				ID,
209     const irq_sw_channel_id_t	irq_id)
210 {
211 	hrt_address		addr;
212 
213 	OP___assert(ID == IRQ0_ID);
214 	OP___assert(IRQ_BASE[ID] != (hrt_address)-1);
215 	OP___assert(irq_id < N_IRQ_SW_CHANNEL_ID);
216 
217 	(void)ID;
218 
219 	addr = IRQ_REQUEST_ADDR[irq_id];
220 	/* The SW IRQ pins are remapped to offset zero */
221 	gp_device_reg_store(GP_DEVICE0_ID,
222 			    (unsigned int)addr, 1);
223 	gp_device_reg_store(GP_DEVICE0_ID,
224 			    (unsigned int)addr, 0);
225 	return;
226 }
227 
irq_controller_get_state(const irq_ID_t ID,struct irq_controller_state * state)228 void irq_controller_get_state(const irq_ID_t ID,
229 			      struct irq_controller_state *state)
230 {
231 	assert(ID < N_IRQ_ID);
232 	assert(state);
233 
234 	state->irq_edge = irq_reg_load(ID,
235 				       _HRT_IRQ_CONTROLLER_EDGE_REG_IDX);
236 	state->irq_mask = irq_reg_load(ID,
237 				       _HRT_IRQ_CONTROLLER_MASK_REG_IDX);
238 	state->irq_status = irq_reg_load(ID,
239 					 _HRT_IRQ_CONTROLLER_STATUS_REG_IDX);
240 	state->irq_enable = irq_reg_load(ID,
241 					 _HRT_IRQ_CONTROLLER_ENABLE_REG_IDX);
242 	state->irq_level_not_pulse = irq_reg_load(ID,
243 				     _HRT_IRQ_CONTROLLER_EDGE_NOT_PULSE_REG_IDX);
244 	return;
245 }
246 
any_virq_signal(void)247 bool any_virq_signal(void)
248 {
249 	unsigned int irq_status = irq_reg_load(IRQ0_ID,
250 					       _HRT_IRQ_CONTROLLER_STATUS_REG_IDX);
251 
252 	return (irq_status != 0);
253 }
254 
cnd_virq_enable_channel(const enum virq_id irq_ID,const bool en)255 void cnd_virq_enable_channel(
256     const enum virq_id				irq_ID,
257     const bool					en)
258 {
259 	irq_ID_t		i;
260 	unsigned int	channel_ID;
261 	irq_ID_t		ID = virq_get_irq_id(irq_ID, &channel_ID);
262 
263 	assert(ID < N_IRQ_ID);
264 
265 	for (i = IRQ1_ID; i < N_IRQ_ID; i++) {
266 		/* It is not allowed to enable the pin of a nested IRQ directly */
267 		assert(irq_ID != IRQ_NESTING_ID[i]);
268 	}
269 
270 	if (en) {
271 		irq_enable_channel(ID, channel_ID);
272 		if (IRQ_NESTING_ID[ID] != N_virq_id) {
273 			/* Single level nesting, otherwise we'd need to recurse */
274 			irq_enable_channel(IRQ0_ID, IRQ_NESTING_ID[ID]);
275 		}
276 	} else {
277 		irq_disable_channel(ID, channel_ID);
278 		if ((IRQ_NESTING_ID[ID] != N_virq_id) && !any_irq_channel_enabled(ID)) {
279 			/* Only disable the top if the nested ones are empty */
280 			irq_disable_channel(IRQ0_ID, IRQ_NESTING_ID[ID]);
281 		}
282 	}
283 	return;
284 }
285 
virq_clear_all(void)286 void virq_clear_all(void)
287 {
288 	irq_ID_t	irq_id;
289 
290 	for (irq_id = (irq_ID_t)0; irq_id < N_IRQ_ID; irq_id++) {
291 		irq_clear_all(irq_id);
292 	}
293 	return;
294 }
295 
296 enum hrt_isp_css_irq_status
virq_get_channel_signals(struct virq_info * irq_info)297 virq_get_channel_signals(struct virq_info *irq_info)
298 {
299 	enum hrt_isp_css_irq_status irq_status = hrt_isp_css_irq_status_error;
300 	irq_ID_t ID;
301 
302 	assert(irq_info);
303 
304 	for (ID = (irq_ID_t)0 ; ID < N_IRQ_ID; ID++) {
305 		if (any_irq_channel_enabled(ID)) {
306 			hrt_data	irq_data = irq_reg_load(ID,
307 							    _HRT_IRQ_CONTROLLER_STATUS_REG_IDX);
308 
309 			if (irq_data != 0) {
310 				/* The error condition is an IRQ pulse received with no IRQ status written */
311 				irq_status = hrt_isp_css_irq_status_success;
312 			}
313 
314 			irq_info->irq_status_reg[ID] |= irq_data;
315 
316 			irq_reg_store(ID,
317 				      _HRT_IRQ_CONTROLLER_CLEAR_REG_IDX, irq_data);
318 
319 			irq_wait_for_write_complete(ID);
320 		}
321 	}
322 
323 	return irq_status;
324 }
325 
virq_clear_info(struct virq_info * irq_info)326 void virq_clear_info(struct virq_info *irq_info)
327 {
328 	irq_ID_t ID;
329 
330 	assert(irq_info);
331 
332 	for (ID = (irq_ID_t)0 ; ID < N_IRQ_ID; ID++) {
333 		irq_info->irq_status_reg[ID] = 0;
334 	}
335 	return;
336 }
337 
virq_get_channel_id(enum virq_id * irq_id)338 enum hrt_isp_css_irq_status virq_get_channel_id(
339     enum virq_id					*irq_id)
340 {
341 	unsigned int irq_status = irq_reg_load(IRQ0_ID,
342 					       _HRT_IRQ_CONTROLLER_STATUS_REG_IDX);
343 	unsigned int idx;
344 	enum hrt_isp_css_irq_status status = hrt_isp_css_irq_status_success;
345 	irq_ID_t ID;
346 
347 	assert(irq_id);
348 
349 	/* find the first irq bit on device 0 */
350 	for (idx = 0; idx < IRQ_N_CHANNEL[IRQ0_ID]; idx++) {
351 		if (irq_status & (1U << idx))
352 			break;
353 	}
354 
355 	if (idx == IRQ_N_CHANNEL[IRQ0_ID]) {
356 		return hrt_isp_css_irq_status_error;
357 	}
358 
359 	/* Check whether there are more bits set on device 0 */
360 	if (irq_status != (1U << idx)) {
361 		status = hrt_isp_css_irq_status_more_irqs;
362 	}
363 
364 	/* Check whether we have an IRQ on one of the nested devices */
365 	for (ID = N_IRQ_ID - 1 ; ID > (irq_ID_t)0; ID--) {
366 		if (IRQ_NESTING_ID[ID] == (enum virq_id)idx) {
367 			break;
368 		}
369 	}
370 
371 	/* If we have a nested IRQ, load that state, discard the device 0 state */
372 	if (ID != IRQ0_ID) {
373 		irq_status = irq_reg_load(ID,
374 					  _HRT_IRQ_CONTROLLER_STATUS_REG_IDX);
375 		/* find the first irq bit on device "id" */
376 		for (idx = 0; idx < IRQ_N_CHANNEL[ID]; idx++) {
377 			if (irq_status & (1U << idx))
378 				break;
379 		}
380 
381 		if (idx == IRQ_N_CHANNEL[ID]) {
382 			return hrt_isp_css_irq_status_error;
383 		}
384 
385 		/* Alternatively check whether there are more bits set on this device */
386 		if (irq_status != (1U << idx)) {
387 			status = hrt_isp_css_irq_status_more_irqs;
388 		} else {
389 			/* If this device is empty, clear the state on device 0 */
390 			irq_reg_store(IRQ0_ID,
391 				      _HRT_IRQ_CONTROLLER_CLEAR_REG_IDX, 1U << IRQ_NESTING_ID[ID]);
392 		}
393 	} /* if (ID != IRQ0_ID) */
394 
395 	/* Here we proceed to clear the IRQ on detected device, if no nested IRQ, this is device 0 */
396 	irq_reg_store(ID,
397 		      _HRT_IRQ_CONTROLLER_CLEAR_REG_IDX, 1U << idx);
398 
399 	irq_wait_for_write_complete(ID);
400 
401 	idx += IRQ_N_ID_OFFSET[ID];
402 	if (irq_id)
403 		*irq_id = (enum virq_id)idx;
404 
405 	return status;
406 }
407 
irq_wait_for_write_complete(const irq_ID_t ID)408 static inline void irq_wait_for_write_complete(
409     const irq_ID_t		ID)
410 {
411 	assert(ID < N_IRQ_ID);
412 	assert(IRQ_BASE[ID] != (hrt_address)-1);
413 	(void)ia_css_device_load_uint32(IRQ_BASE[ID] +
414 					_HRT_IRQ_CONTROLLER_ENABLE_REG_IDX * sizeof(hrt_data));
415 }
416 
any_irq_channel_enabled(const irq_ID_t ID)417 static inline bool any_irq_channel_enabled(
418     const irq_ID_t				ID)
419 {
420 	hrt_data	en_reg;
421 
422 	assert(ID < N_IRQ_ID);
423 
424 	en_reg = irq_reg_load(ID,
425 			      _HRT_IRQ_CONTROLLER_ENABLE_REG_IDX);
426 
427 	return (en_reg != 0);
428 }
429 
virq_get_irq_id(const enum virq_id irq_ID,unsigned int * channel_ID)430 static inline irq_ID_t virq_get_irq_id(
431     const enum virq_id		irq_ID,
432     unsigned int		*channel_ID)
433 {
434 	irq_ID_t ID;
435 
436 	assert(channel_ID);
437 
438 	for (ID = (irq_ID_t)0 ; ID < N_IRQ_ID; ID++) {
439 		if (irq_ID < IRQ_N_ID_OFFSET[ID + 1]) {
440 			break;
441 		}
442 	}
443 
444 	*channel_ID = (unsigned int)irq_ID - IRQ_N_ID_OFFSET[ID];
445 
446 	return ID;
447 }
448