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Merge branch 'for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/sage/ceph...
[mirror_ubuntu-zesty-kernel.git] / drivers / mfd / twl4030-irq.c
1 /*
2 * twl4030-irq.c - TWL4030/TPS659x0 irq support
3 *
4 * Copyright (C) 2005-2006 Texas Instruments, Inc.
5 *
6 * Modifications to defer interrupt handling to a kernel thread:
7 * Copyright (C) 2006 MontaVista Software, Inc.
8 *
9 * Based on tlv320aic23.c:
10 * Copyright (c) by Kai Svahn <kai.svahn@nokia.com>
11 *
12 * Code cleanup and modifications to IRQ handler.
13 * by syed khasim <x0khasim@ti.com>
14 *
15 * This program is free software; you can redistribute it and/or modify
16 * it under the terms of the GNU General Public License as published by
17 * the Free Software Foundation; either version 2 of the License, or
18 * (at your option) any later version.
19 *
20 * This program is distributed in the hope that it will be useful,
21 * but WITHOUT ANY WARRANTY; without even the implied warranty of
22 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
23 * GNU General Public License for more details.
24 *
25 * You should have received a copy of the GNU General Public License
26 * along with this program; if not, write to the Free Software
27 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
28 */
29
30 #include <linux/export.h>
31 #include <linux/interrupt.h>
32 #include <linux/irq.h>
33 #include <linux/slab.h>
34 #include <linux/of.h>
35 #include <linux/irqdomain.h>
36 #include <linux/i2c/twl.h>
37
38 #include "twl-core.h"
39
40 /*
41 * TWL4030 IRQ handling has two stages in hardware, and thus in software.
42 * The Primary Interrupt Handler (PIH) stage exposes status bits saying
43 * which Secondary Interrupt Handler (SIH) stage is raising an interrupt.
44 * SIH modules are more traditional IRQ components, which support per-IRQ
45 * enable/disable and trigger controls; they do most of the work.
46 *
47 * These chips are designed to support IRQ handling from two different
48 * I2C masters. Each has a dedicated IRQ line, and dedicated IRQ status
49 * and mask registers in the PIH and SIH modules.
50 *
51 * We set up IRQs starting at a platform-specified base, always starting
52 * with PIH and the SIH for PWR_INT and then usually adding GPIO:
53 * base + 0 .. base + 7 PIH
54 * base + 8 .. base + 15 SIH for PWR_INT
55 * base + 16 .. base + 33 SIH for GPIO
56 */
57 #define TWL4030_CORE_NR_IRQS 8
58 #define TWL4030_PWR_NR_IRQS 8
59
60 /* PIH register offsets */
61 #define REG_PIH_ISR_P1 0x01
62 #define REG_PIH_ISR_P2 0x02
63 #define REG_PIH_SIR 0x03 /* for testing */
64
65 /* Linux could (eventually) use either IRQ line */
66 static int irq_line;
67
68 struct sih {
69 char name[8];
70 u8 module; /* module id */
71 u8 control_offset; /* for SIH_CTRL */
72 bool set_cor;
73
74 u8 bits; /* valid in isr/imr */
75 u8 bytes_ixr; /* bytelen of ISR/IMR/SIR */
76
77 u8 edr_offset;
78 u8 bytes_edr; /* bytelen of EDR */
79
80 u8 irq_lines; /* number of supported irq lines */
81
82 /* SIR ignored -- set interrupt, for testing only */
83 struct sih_irq_data {
84 u8 isr_offset;
85 u8 imr_offset;
86 } mask[2];
87 /* + 2 bytes padding */
88 };
89
90 static const struct sih *sih_modules;
91 static int nr_sih_modules;
92
93 #define SIH_INITIALIZER(modname, nbits) \
94 .module = TWL4030_MODULE_ ## modname, \
95 .control_offset = TWL4030_ ## modname ## _SIH_CTRL, \
96 .bits = nbits, \
97 .bytes_ixr = DIV_ROUND_UP(nbits, 8), \
98 .edr_offset = TWL4030_ ## modname ## _EDR, \
99 .bytes_edr = DIV_ROUND_UP((2*(nbits)), 8), \
100 .irq_lines = 2, \
101 .mask = { { \
102 .isr_offset = TWL4030_ ## modname ## _ISR1, \
103 .imr_offset = TWL4030_ ## modname ## _IMR1, \
104 }, \
105 { \
106 .isr_offset = TWL4030_ ## modname ## _ISR2, \
107 .imr_offset = TWL4030_ ## modname ## _IMR2, \
108 }, },
109
110 /* register naming policies are inconsistent ... */
111 #define TWL4030_INT_PWR_EDR TWL4030_INT_PWR_EDR1
112 #define TWL4030_MODULE_KEYPAD_KEYP TWL4030_MODULE_KEYPAD
113 #define TWL4030_MODULE_INT_PWR TWL4030_MODULE_INT
114
115
116 /*
117 * Order in this table matches order in PIH_ISR. That is,
118 * BIT(n) in PIH_ISR is sih_modules[n].
119 */
120 /* sih_modules_twl4030 is used both in twl4030 and twl5030 */
121 static const struct sih sih_modules_twl4030[6] = {
122 [0] = {
123 .name = "gpio",
124 .module = TWL4030_MODULE_GPIO,
125 .control_offset = REG_GPIO_SIH_CTRL,
126 .set_cor = true,
127 .bits = TWL4030_GPIO_MAX,
128 .bytes_ixr = 3,
129 /* Note: *all* of these IRQs default to no-trigger */
130 .edr_offset = REG_GPIO_EDR1,
131 .bytes_edr = 5,
132 .irq_lines = 2,
133 .mask = { {
134 .isr_offset = REG_GPIO_ISR1A,
135 .imr_offset = REG_GPIO_IMR1A,
136 }, {
137 .isr_offset = REG_GPIO_ISR1B,
138 .imr_offset = REG_GPIO_IMR1B,
139 }, },
140 },
141 [1] = {
142 .name = "keypad",
143 .set_cor = true,
144 SIH_INITIALIZER(KEYPAD_KEYP, 4)
145 },
146 [2] = {
147 .name = "bci",
148 .module = TWL4030_MODULE_INTERRUPTS,
149 .control_offset = TWL4030_INTERRUPTS_BCISIHCTRL,
150 .set_cor = true,
151 .bits = 12,
152 .bytes_ixr = 2,
153 .edr_offset = TWL4030_INTERRUPTS_BCIEDR1,
154 /* Note: most of these IRQs default to no-trigger */
155 .bytes_edr = 3,
156 .irq_lines = 2,
157 .mask = { {
158 .isr_offset = TWL4030_INTERRUPTS_BCIISR1A,
159 .imr_offset = TWL4030_INTERRUPTS_BCIIMR1A,
160 }, {
161 .isr_offset = TWL4030_INTERRUPTS_BCIISR1B,
162 .imr_offset = TWL4030_INTERRUPTS_BCIIMR1B,
163 }, },
164 },
165 [3] = {
166 .name = "madc",
167 SIH_INITIALIZER(MADC, 4)
168 },
169 [4] = {
170 /* USB doesn't use the same SIH organization */
171 .name = "usb",
172 },
173 [5] = {
174 .name = "power",
175 .set_cor = true,
176 SIH_INITIALIZER(INT_PWR, 8)
177 },
178 /* there are no SIH modules #6 or #7 ... */
179 };
180
181 static const struct sih sih_modules_twl5031[8] = {
182 [0] = {
183 .name = "gpio",
184 .module = TWL4030_MODULE_GPIO,
185 .control_offset = REG_GPIO_SIH_CTRL,
186 .set_cor = true,
187 .bits = TWL4030_GPIO_MAX,
188 .bytes_ixr = 3,
189 /* Note: *all* of these IRQs default to no-trigger */
190 .edr_offset = REG_GPIO_EDR1,
191 .bytes_edr = 5,
192 .irq_lines = 2,
193 .mask = { {
194 .isr_offset = REG_GPIO_ISR1A,
195 .imr_offset = REG_GPIO_IMR1A,
196 }, {
197 .isr_offset = REG_GPIO_ISR1B,
198 .imr_offset = REG_GPIO_IMR1B,
199 }, },
200 },
201 [1] = {
202 .name = "keypad",
203 .set_cor = true,
204 SIH_INITIALIZER(KEYPAD_KEYP, 4)
205 },
206 [2] = {
207 .name = "bci",
208 .module = TWL5031_MODULE_INTERRUPTS,
209 .control_offset = TWL5031_INTERRUPTS_BCISIHCTRL,
210 .bits = 7,
211 .bytes_ixr = 1,
212 .edr_offset = TWL5031_INTERRUPTS_BCIEDR1,
213 /* Note: most of these IRQs default to no-trigger */
214 .bytes_edr = 2,
215 .irq_lines = 2,
216 .mask = { {
217 .isr_offset = TWL5031_INTERRUPTS_BCIISR1,
218 .imr_offset = TWL5031_INTERRUPTS_BCIIMR1,
219 }, {
220 .isr_offset = TWL5031_INTERRUPTS_BCIISR2,
221 .imr_offset = TWL5031_INTERRUPTS_BCIIMR2,
222 }, },
223 },
224 [3] = {
225 .name = "madc",
226 SIH_INITIALIZER(MADC, 4)
227 },
228 [4] = {
229 /* USB doesn't use the same SIH organization */
230 .name = "usb",
231 },
232 [5] = {
233 .name = "power",
234 .set_cor = true,
235 SIH_INITIALIZER(INT_PWR, 8)
236 },
237 [6] = {
238 /*
239 * ECI/DBI doesn't use the same SIH organization.
240 * For example, it supports only one interrupt output line.
241 * That is, the interrupts are seen on both INT1 and INT2 lines.
242 */
243 .name = "eci_dbi",
244 .module = TWL5031_MODULE_ACCESSORY,
245 .bits = 9,
246 .bytes_ixr = 2,
247 .irq_lines = 1,
248 .mask = { {
249 .isr_offset = TWL5031_ACIIDR_LSB,
250 .imr_offset = TWL5031_ACIIMR_LSB,
251 }, },
252
253 },
254 [7] = {
255 /* Audio accessory */
256 .name = "audio",
257 .module = TWL5031_MODULE_ACCESSORY,
258 .control_offset = TWL5031_ACCSIHCTRL,
259 .bits = 2,
260 .bytes_ixr = 1,
261 .edr_offset = TWL5031_ACCEDR1,
262 /* Note: most of these IRQs default to no-trigger */
263 .bytes_edr = 1,
264 .irq_lines = 2,
265 .mask = { {
266 .isr_offset = TWL5031_ACCISR1,
267 .imr_offset = TWL5031_ACCIMR1,
268 }, {
269 .isr_offset = TWL5031_ACCISR2,
270 .imr_offset = TWL5031_ACCIMR2,
271 }, },
272 },
273 };
274
275 #undef TWL4030_MODULE_KEYPAD_KEYP
276 #undef TWL4030_MODULE_INT_PWR
277 #undef TWL4030_INT_PWR_EDR
278
279 /*----------------------------------------------------------------------*/
280
281 static unsigned twl4030_irq_base;
282
283 /*
284 * handle_twl4030_pih() is the desc->handle method for the twl4030 interrupt.
285 * This is a chained interrupt, so there is no desc->action method for it.
286 * Now we need to query the interrupt controller in the twl4030 to determine
287 * which module is generating the interrupt request. However, we can't do i2c
288 * transactions in interrupt context, so we must defer that work to a kernel
289 * thread. All we do here is acknowledge and mask the interrupt and wakeup
290 * the kernel thread.
291 */
292 static irqreturn_t handle_twl4030_pih(int irq, void *devid)
293 {
294 irqreturn_t ret;
295 u8 pih_isr;
296
297 ret = twl_i2c_read_u8(TWL_MODULE_PIH, &pih_isr,
298 REG_PIH_ISR_P1);
299 if (ret) {
300 pr_warning("twl4030: I2C error %d reading PIH ISR\n", ret);
301 return IRQ_NONE;
302 }
303
304 while (pih_isr) {
305 unsigned long pending = __ffs(pih_isr);
306 unsigned int irq;
307
308 pih_isr &= ~BIT(pending);
309 irq = pending + twl4030_irq_base;
310 handle_nested_irq(irq);
311 }
312
313 return IRQ_HANDLED;
314 }
315
316 /*----------------------------------------------------------------------*/
317
318 /*
319 * twl4030_init_sih_modules() ... start from a known state where no
320 * IRQs will be coming in, and where we can quickly enable them then
321 * handle them as they arrive. Mask all IRQs: maybe init SIH_CTRL.
322 *
323 * NOTE: we don't touch EDR registers here; they stay with hardware
324 * defaults or whatever the last value was. Note that when both EDR
325 * bits for an IRQ are clear, that's as if its IMR bit is set...
326 */
327 static int twl4030_init_sih_modules(unsigned line)
328 {
329 const struct sih *sih;
330 u8 buf[4];
331 int i;
332 int status;
333
334 /* line 0 == int1_n signal; line 1 == int2_n signal */
335 if (line > 1)
336 return -EINVAL;
337
338 irq_line = line;
339
340 /* disable all interrupts on our line */
341 memset(buf, 0xff, sizeof buf);
342 sih = sih_modules;
343 for (i = 0; i < nr_sih_modules; i++, sih++) {
344 /* skip USB -- it's funky */
345 if (!sih->bytes_ixr)
346 continue;
347
348 /* Not all the SIH modules support multiple interrupt lines */
349 if (sih->irq_lines <= line)
350 continue;
351
352 status = twl_i2c_write(sih->module, buf,
353 sih->mask[line].imr_offset, sih->bytes_ixr);
354 if (status < 0)
355 pr_err("twl4030: err %d initializing %s %s\n",
356 status, sih->name, "IMR");
357
358 /*
359 * Maybe disable "exclusive" mode; buffer second pending irq;
360 * set Clear-On-Read (COR) bit.
361 *
362 * NOTE that sometimes COR polarity is documented as being
363 * inverted: for MADC, COR=1 means "clear on write".
364 * And for PWR_INT it's not documented...
365 */
366 if (sih->set_cor) {
367 status = twl_i2c_write_u8(sih->module,
368 TWL4030_SIH_CTRL_COR_MASK,
369 sih->control_offset);
370 if (status < 0)
371 pr_err("twl4030: err %d initializing %s %s\n",
372 status, sih->name, "SIH_CTRL");
373 }
374 }
375
376 sih = sih_modules;
377 for (i = 0; i < nr_sih_modules; i++, sih++) {
378 u8 rxbuf[4];
379 int j;
380
381 /* skip USB */
382 if (!sih->bytes_ixr)
383 continue;
384
385 /* Not all the SIH modules support multiple interrupt lines */
386 if (sih->irq_lines <= line)
387 continue;
388
389 /*
390 * Clear pending interrupt status. Either the read was
391 * enough, or we need to write those bits. Repeat, in
392 * case an IRQ is pending (PENDDIS=0) ... that's not
393 * uncommon with PWR_INT.PWRON.
394 */
395 for (j = 0; j < 2; j++) {
396 status = twl_i2c_read(sih->module, rxbuf,
397 sih->mask[line].isr_offset, sih->bytes_ixr);
398 if (status < 0)
399 pr_err("twl4030: err %d initializing %s %s\n",
400 status, sih->name, "ISR");
401
402 if (!sih->set_cor)
403 status = twl_i2c_write(sih->module, buf,
404 sih->mask[line].isr_offset,
405 sih->bytes_ixr);
406 /*
407 * else COR=1 means read sufficed.
408 * (for most SIH modules...)
409 */
410 }
411 }
412
413 return 0;
414 }
415
416 static inline void activate_irq(int irq)
417 {
418 #ifdef CONFIG_ARM
419 /*
420 * ARM requires an extra step to clear IRQ_NOREQUEST, which it
421 * sets on behalf of every irq_chip. Also sets IRQ_NOPROBE.
422 */
423 set_irq_flags(irq, IRQF_VALID);
424 #else
425 /* same effect on other architectures */
426 irq_set_noprobe(irq);
427 #endif
428 }
429
430 /*----------------------------------------------------------------------*/
431
432 struct sih_agent {
433 int irq_base;
434 const struct sih *sih;
435
436 u32 imr;
437 bool imr_change_pending;
438
439 u32 edge_change;
440
441 struct mutex irq_lock;
442 char *irq_name;
443 };
444
445 /*----------------------------------------------------------------------*/
446
447 /*
448 * All irq_chip methods get issued from code holding irq_desc[irq].lock,
449 * which can't perform the underlying I2C operations (because they sleep).
450 * So we must hand them off to a thread (workqueue) and cope with asynch
451 * completion, potentially including some re-ordering, of these requests.
452 */
453
454 static void twl4030_sih_mask(struct irq_data *data)
455 {
456 struct sih_agent *agent = irq_data_get_irq_chip_data(data);
457
458 agent->imr |= BIT(data->irq - agent->irq_base);
459 agent->imr_change_pending = true;
460 }
461
462 static void twl4030_sih_unmask(struct irq_data *data)
463 {
464 struct sih_agent *agent = irq_data_get_irq_chip_data(data);
465
466 agent->imr &= ~BIT(data->irq - agent->irq_base);
467 agent->imr_change_pending = true;
468 }
469
470 static int twl4030_sih_set_type(struct irq_data *data, unsigned trigger)
471 {
472 struct sih_agent *agent = irq_data_get_irq_chip_data(data);
473
474 if (trigger & ~(IRQ_TYPE_EDGE_FALLING | IRQ_TYPE_EDGE_RISING))
475 return -EINVAL;
476
477 if (irqd_get_trigger_type(data) != trigger)
478 agent->edge_change |= BIT(data->irq - agent->irq_base);
479
480 return 0;
481 }
482
483 static void twl4030_sih_bus_lock(struct irq_data *data)
484 {
485 struct sih_agent *agent = irq_data_get_irq_chip_data(data);
486
487 mutex_lock(&agent->irq_lock);
488 }
489
490 static void twl4030_sih_bus_sync_unlock(struct irq_data *data)
491 {
492 struct sih_agent *agent = irq_data_get_irq_chip_data(data);
493 const struct sih *sih = agent->sih;
494 int status;
495
496 if (agent->imr_change_pending) {
497 union {
498 u32 word;
499 u8 bytes[4];
500 } imr;
501
502 /* byte[0] gets overwritten as we write ... */
503 imr.word = cpu_to_le32(agent->imr);
504 agent->imr_change_pending = false;
505
506 /* write the whole mask ... simpler than subsetting it */
507 status = twl_i2c_write(sih->module, imr.bytes,
508 sih->mask[irq_line].imr_offset,
509 sih->bytes_ixr);
510 if (status)
511 pr_err("twl4030: %s, %s --> %d\n", __func__,
512 "write", status);
513 }
514
515 if (agent->edge_change) {
516 u32 edge_change;
517 u8 bytes[6];
518
519 edge_change = agent->edge_change;
520 agent->edge_change = 0;
521
522 /*
523 * Read, reserving first byte for write scratch. Yes, this
524 * could be cached for some speedup ... but be careful about
525 * any processor on the other IRQ line, EDR registers are
526 * shared.
527 */
528 status = twl_i2c_read(sih->module, bytes,
529 sih->edr_offset, sih->bytes_edr);
530 if (status) {
531 pr_err("twl4030: %s, %s --> %d\n", __func__,
532 "read", status);
533 return;
534 }
535
536 /* Modify only the bits we know must change */
537 while (edge_change) {
538 int i = fls(edge_change) - 1;
539 int byte = i >> 2;
540 int off = (i & 0x3) * 2;
541 unsigned int type;
542
543 bytes[byte] &= ~(0x03 << off);
544
545 type = irq_get_trigger_type(i + agent->irq_base);
546 if (type & IRQ_TYPE_EDGE_RISING)
547 bytes[byte] |= BIT(off + 1);
548 if (type & IRQ_TYPE_EDGE_FALLING)
549 bytes[byte] |= BIT(off + 0);
550
551 edge_change &= ~BIT(i);
552 }
553
554 /* Write */
555 status = twl_i2c_write(sih->module, bytes,
556 sih->edr_offset, sih->bytes_edr);
557 if (status)
558 pr_err("twl4030: %s, %s --> %d\n", __func__,
559 "write", status);
560 }
561
562 mutex_unlock(&agent->irq_lock);
563 }
564
565 static struct irq_chip twl4030_sih_irq_chip = {
566 .name = "twl4030",
567 .irq_mask = twl4030_sih_mask,
568 .irq_unmask = twl4030_sih_unmask,
569 .irq_set_type = twl4030_sih_set_type,
570 .irq_bus_lock = twl4030_sih_bus_lock,
571 .irq_bus_sync_unlock = twl4030_sih_bus_sync_unlock,
572 .flags = IRQCHIP_SKIP_SET_WAKE,
573 };
574
575 /*----------------------------------------------------------------------*/
576
577 static inline int sih_read_isr(const struct sih *sih)
578 {
579 int status;
580 union {
581 u8 bytes[4];
582 u32 word;
583 } isr;
584
585 /* FIXME need retry-on-error ... */
586
587 isr.word = 0;
588 status = twl_i2c_read(sih->module, isr.bytes,
589 sih->mask[irq_line].isr_offset, sih->bytes_ixr);
590
591 return (status < 0) ? status : le32_to_cpu(isr.word);
592 }
593
594 /*
595 * Generic handler for SIH interrupts ... we "know" this is called
596 * in task context, with IRQs enabled.
597 */
598 static irqreturn_t handle_twl4030_sih(int irq, void *data)
599 {
600 struct sih_agent *agent = irq_get_handler_data(irq);
601 const struct sih *sih = agent->sih;
602 int isr;
603
604 /* reading ISR acks the IRQs, using clear-on-read mode */
605 isr = sih_read_isr(sih);
606
607 if (isr < 0) {
608 pr_err("twl4030: %s SIH, read ISR error %d\n",
609 sih->name, isr);
610 /* REVISIT: recover; eventually mask it all, etc */
611 return IRQ_HANDLED;
612 }
613
614 while (isr) {
615 irq = fls(isr);
616 irq--;
617 isr &= ~BIT(irq);
618
619 if (irq < sih->bits)
620 handle_nested_irq(agent->irq_base + irq);
621 else
622 pr_err("twl4030: %s SIH, invalid ISR bit %d\n",
623 sih->name, irq);
624 }
625 return IRQ_HANDLED;
626 }
627
628 /* returns the first IRQ used by this SIH bank, or negative errno */
629 int twl4030_sih_setup(struct device *dev, int module, int irq_base)
630 {
631 int sih_mod;
632 const struct sih *sih = NULL;
633 struct sih_agent *agent;
634 int i, irq;
635 int status = -EINVAL;
636
637 /* only support modules with standard clear-on-read for now */
638 for (sih_mod = 0, sih = sih_modules; sih_mod < nr_sih_modules;
639 sih_mod++, sih++) {
640 if (sih->module == module && sih->set_cor) {
641 status = 0;
642 break;
643 }
644 }
645
646 if (status < 0)
647 return status;
648
649 agent = kzalloc(sizeof *agent, GFP_KERNEL);
650 if (!agent)
651 return -ENOMEM;
652
653 agent->irq_base = irq_base;
654 agent->sih = sih;
655 agent->imr = ~0;
656 mutex_init(&agent->irq_lock);
657
658 for (i = 0; i < sih->bits; i++) {
659 irq = irq_base + i;
660
661 irq_set_chip_data(irq, agent);
662 irq_set_chip_and_handler(irq, &twl4030_sih_irq_chip,
663 handle_edge_irq);
664 irq_set_nested_thread(irq, 1);
665 activate_irq(irq);
666 }
667
668 /* replace generic PIH handler (handle_simple_irq) */
669 irq = sih_mod + twl4030_irq_base;
670 irq_set_handler_data(irq, agent);
671 agent->irq_name = kasprintf(GFP_KERNEL, "twl4030_%s", sih->name);
672 status = request_threaded_irq(irq, NULL, handle_twl4030_sih,
673 IRQF_EARLY_RESUME,
674 agent->irq_name ?: sih->name, NULL);
675
676 dev_info(dev, "%s (irq %d) chaining IRQs %d..%d\n", sih->name,
677 irq, irq_base, irq_base + i - 1);
678
679 return status < 0 ? status : irq_base;
680 }
681
682 /* FIXME need a call to reverse twl4030_sih_setup() ... */
683
684 /*----------------------------------------------------------------------*/
685
686 /* FIXME pass in which interrupt line we'll use ... */
687 #define twl_irq_line 0
688
689 int twl4030_init_irq(struct device *dev, int irq_num)
690 {
691 static struct irq_chip twl4030_irq_chip;
692 int status, i;
693 int irq_base, irq_end, nr_irqs;
694 struct device_node *node = dev->of_node;
695
696 /*
697 * TWL core and pwr interrupts must be contiguous because
698 * the hwirqs numbers are defined contiguously from 1 to 15.
699 * Create only one domain for both.
700 */
701 nr_irqs = TWL4030_PWR_NR_IRQS + TWL4030_CORE_NR_IRQS;
702
703 irq_base = irq_alloc_descs(-1, 0, nr_irqs, 0);
704 if (IS_ERR_VALUE(irq_base)) {
705 dev_err(dev, "Fail to allocate IRQ descs\n");
706 return irq_base;
707 }
708
709 irq_domain_add_legacy(node, nr_irqs, irq_base, 0,
710 &irq_domain_simple_ops, NULL);
711
712 irq_end = irq_base + TWL4030_CORE_NR_IRQS;
713
714 /*
715 * Mask and clear all TWL4030 interrupts since initially we do
716 * not have any TWL4030 module interrupt handlers present
717 */
718 status = twl4030_init_sih_modules(twl_irq_line);
719 if (status < 0)
720 return status;
721
722 twl4030_irq_base = irq_base;
723
724 /*
725 * Install an irq handler for each of the SIH modules;
726 * clone dummy irq_chip since PIH can't *do* anything
727 */
728 twl4030_irq_chip = dummy_irq_chip;
729 twl4030_irq_chip.name = "twl4030";
730
731 twl4030_sih_irq_chip.irq_ack = dummy_irq_chip.irq_ack;
732
733 for (i = irq_base; i < irq_end; i++) {
734 irq_set_chip_and_handler(i, &twl4030_irq_chip,
735 handle_simple_irq);
736 irq_set_nested_thread(i, 1);
737 activate_irq(i);
738 }
739
740 dev_info(dev, "%s (irq %d) chaining IRQs %d..%d\n", "PIH",
741 irq_num, irq_base, irq_end);
742
743 /* ... and the PWR_INT module ... */
744 status = twl4030_sih_setup(dev, TWL4030_MODULE_INT, irq_end);
745 if (status < 0) {
746 dev_err(dev, "sih_setup PWR INT --> %d\n", status);
747 goto fail;
748 }
749
750 /* install an irq handler to demultiplex the TWL4030 interrupt */
751 status = request_threaded_irq(irq_num, NULL, handle_twl4030_pih,
752 IRQF_ONESHOT,
753 "TWL4030-PIH", NULL);
754 if (status < 0) {
755 dev_err(dev, "could not claim irq%d: %d\n", irq_num, status);
756 goto fail_rqirq;
757 }
758 enable_irq_wake(irq_num);
759
760 return irq_base;
761 fail_rqirq:
762 /* clean up twl4030_sih_setup */
763 fail:
764 for (i = irq_base; i < irq_end; i++) {
765 irq_set_nested_thread(i, 0);
766 irq_set_chip_and_handler(i, NULL, NULL);
767 }
768
769 return status;
770 }
771
772 int twl4030_exit_irq(void)
773 {
774 /* FIXME undo twl_init_irq() */
775 if (twl4030_irq_base) {
776 pr_err("twl4030: can't yet clean up IRQs?\n");
777 return -ENOSYS;
778 }
779 return 0;
780 }
781
782 int twl4030_init_chip_irq(const char *chip)
783 {
784 if (!strcmp(chip, "twl5031")) {
785 sih_modules = sih_modules_twl5031;
786 nr_sih_modules = ARRAY_SIZE(sih_modules_twl5031);
787 } else {
788 sih_modules = sih_modules_twl4030;
789 nr_sih_modules = ARRAY_SIZE(sih_modules_twl4030);
790 }
791
792 return 0;
793 }
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