arm: kirkwood: NETGEAR ReadyNAS Duo v2 init PCIe via DT
[platform/adaptation/renesas_rcar/renesas_kernel.git] / drivers / power / pm2301_charger.c
1 /*
2  * Copyright 2012 ST Ericsson.
3  *
4  * Power supply driver for ST Ericsson pm2xxx_charger charger
5  *
6  * This program is free software; you can redistribute it and/or modify
7  * it under the terms of the GNU General Public License version 2 as
8  * published by the Free Software Foundation.
9  */
10
11 #include <linux/init.h>
12 #include <linux/module.h>
13 #include <linux/device.h>
14 #include <linux/interrupt.h>
15 #include <linux/delay.h>
16 #include <linux/slab.h>
17 #include <linux/platform_device.h>
18 #include <linux/power_supply.h>
19 #include <linux/regulator/consumer.h>
20 #include <linux/err.h>
21 #include <linux/i2c.h>
22 #include <linux/workqueue.h>
23 #include <linux/mfd/abx500/ab8500.h>
24 #include <linux/mfd/abx500/ab8500-bm.h>
25 #include <linux/mfd/abx500/ux500_chargalg.h>
26 #include <linux/pm2301_charger.h>
27 #include <linux/gpio.h>
28 #include <linux/pm_runtime.h>
29 #include <linux/pm.h>
30
31 #include "pm2301_charger.h"
32
33 #define to_pm2xxx_charger_ac_device_info(x) container_of((x), \
34                 struct pm2xxx_charger, ac_chg)
35 #define SLEEP_MIN               50
36 #define SLEEP_MAX               100
37 #define PM2XXX_AUTOSUSPEND_DELAY 500
38
39 static int pm2xxx_interrupt_registers[] = {
40         PM2XXX_REG_INT1,
41         PM2XXX_REG_INT2,
42         PM2XXX_REG_INT3,
43         PM2XXX_REG_INT4,
44         PM2XXX_REG_INT5,
45         PM2XXX_REG_INT6,
46 };
47
48 static enum power_supply_property pm2xxx_charger_ac_props[] = {
49         POWER_SUPPLY_PROP_HEALTH,
50         POWER_SUPPLY_PROP_PRESENT,
51         POWER_SUPPLY_PROP_ONLINE,
52         POWER_SUPPLY_PROP_VOLTAGE_AVG,
53 };
54
55 static int pm2xxx_charger_voltage_map[] = {
56         3500,
57         3525,
58         3550,
59         3575,
60         3600,
61         3625,
62         3650,
63         3675,
64         3700,
65         3725,
66         3750,
67         3775,
68         3800,
69         3825,
70         3850,
71         3875,
72         3900,
73         3925,
74         3950,
75         3975,
76         4000,
77         4025,
78         4050,
79         4075,
80         4100,
81         4125,
82         4150,
83         4175,
84         4200,
85         4225,
86         4250,
87         4275,
88         4300,
89 };
90
91 static int pm2xxx_charger_current_map[] = {
92         200,
93         200,
94         400,
95         600,
96         800,
97         1000,
98         1200,
99         1400,
100         1600,
101         1800,
102         2000,
103         2200,
104         2400,
105         2600,
106         2800,
107         3000,
108 };
109
110 static const struct i2c_device_id pm2xxx_ident[] = {
111         { "pm2301", 0 },
112         { }
113 };
114
115 static void set_lpn_pin(struct pm2xxx_charger *pm2)
116 {
117         if (!pm2->ac.charger_connected && gpio_is_valid(pm2->lpn_pin)) {
118                 gpio_set_value(pm2->lpn_pin, 1);
119                 usleep_range(SLEEP_MIN, SLEEP_MAX);
120         }
121 }
122
123 static void clear_lpn_pin(struct pm2xxx_charger *pm2)
124 {
125         if (!pm2->ac.charger_connected && gpio_is_valid(pm2->lpn_pin))
126                 gpio_set_value(pm2->lpn_pin, 0);
127 }
128
129 static int pm2xxx_reg_read(struct pm2xxx_charger *pm2, int reg, u8 *val)
130 {
131         int ret;
132
133         /* wake up the device */
134         pm_runtime_get_sync(pm2->dev);
135
136         ret = i2c_smbus_read_i2c_block_data(pm2->config.pm2xxx_i2c, reg,
137                                 1, val);
138         if (ret < 0)
139                 dev_err(pm2->dev, "Error reading register at 0x%x\n", reg);
140         else
141                 ret = 0;
142
143         pm_runtime_put_sync(pm2->dev);
144
145         return ret;
146 }
147
148 static int pm2xxx_reg_write(struct pm2xxx_charger *pm2, int reg, u8 val)
149 {
150         int ret;
151
152         /* wake up the device */
153         pm_runtime_get_sync(pm2->dev);
154
155         ret = i2c_smbus_write_i2c_block_data(pm2->config.pm2xxx_i2c, reg,
156                                 1, &val);
157         if (ret < 0)
158                 dev_err(pm2->dev, "Error writing register at 0x%x\n", reg);
159         else
160                 ret = 0;
161
162         pm_runtime_put_sync(pm2->dev);
163
164         return ret;
165 }
166
167 static int pm2xxx_charging_enable_mngt(struct pm2xxx_charger *pm2)
168 {
169         int ret;
170
171         /* Enable charging */
172         ret = pm2xxx_reg_write(pm2, PM2XXX_BATT_CTRL_REG2,
173                         (PM2XXX_CH_AUTO_RESUME_EN | PM2XXX_CHARGER_ENA));
174
175         return ret;
176 }
177
178 static int pm2xxx_charging_disable_mngt(struct pm2xxx_charger *pm2)
179 {
180         int ret;
181
182         /* Disable SW EOC ctrl */
183         ret = pm2xxx_reg_write(pm2, PM2XXX_SW_CTRL_REG, PM2XXX_SWCTRL_HW);
184         if (ret < 0) {
185                 dev_err(pm2->dev, "%s pm2xxx write failed\n", __func__);
186                 return ret;
187         }
188
189         /* Disable charging */
190         ret = pm2xxx_reg_write(pm2, PM2XXX_BATT_CTRL_REG2,
191                         (PM2XXX_CH_AUTO_RESUME_DIS | PM2XXX_CHARGER_DIS));
192         if (ret < 0) {
193                 dev_err(pm2->dev, "%s pm2xxx write failed\n", __func__);
194                 return ret;
195         }
196
197         return 0;
198 }
199
200 static int pm2xxx_charger_batt_therm_mngt(struct pm2xxx_charger *pm2, int val)
201 {
202         queue_work(pm2->charger_wq, &pm2->check_main_thermal_prot_work);
203
204         return 0;
205 }
206
207
208 int pm2xxx_charger_die_therm_mngt(struct pm2xxx_charger *pm2, int val)
209 {
210         queue_work(pm2->charger_wq, &pm2->check_main_thermal_prot_work);
211
212         return 0;
213 }
214
215 static int pm2xxx_charger_ovv_mngt(struct pm2xxx_charger *pm2, int val)
216 {
217         dev_err(pm2->dev, "Overvoltage detected\n");
218         pm2->flags.ovv = true;
219         power_supply_changed(&pm2->ac_chg.psy);
220
221         /* Schedule a new HW failure check */
222         queue_delayed_work(pm2->charger_wq, &pm2->check_hw_failure_work, 0);
223
224         return 0;
225 }
226
227 static int pm2xxx_charger_wd_exp_mngt(struct pm2xxx_charger *pm2, int val)
228 {
229         dev_dbg(pm2->dev , "20 minutes watchdog expired\n");
230
231         pm2->ac.wd_expired = true;
232         power_supply_changed(&pm2->ac_chg.psy);
233
234         return 0;
235 }
236
237 static int pm2xxx_charger_vbat_lsig_mngt(struct pm2xxx_charger *pm2, int val)
238 {
239         int ret;
240
241         switch (val) {
242         case PM2XXX_INT1_ITVBATLOWR:
243                 dev_dbg(pm2->dev, "VBAT grows above VBAT_LOW level\n");
244                 /* Enable SW EOC ctrl */
245                 ret = pm2xxx_reg_write(pm2, PM2XXX_SW_CTRL_REG,
246                                                         PM2XXX_SWCTRL_SW);
247                 if (ret < 0) {
248                         dev_err(pm2->dev, "%s pm2xxx write failed\n", __func__);
249                         return ret;
250                 }
251                 break;
252
253         case PM2XXX_INT1_ITVBATLOWF:
254                 dev_dbg(pm2->dev, "VBAT drops below VBAT_LOW level\n");
255                 /* Disable SW EOC ctrl */
256                 ret = pm2xxx_reg_write(pm2, PM2XXX_SW_CTRL_REG,
257                                                         PM2XXX_SWCTRL_HW);
258                 if (ret < 0) {
259                         dev_err(pm2->dev, "%s pm2xxx write failed\n", __func__);
260                         return ret;
261                 }
262                 break;
263
264         default:
265                 dev_err(pm2->dev, "Unknown VBAT level\n");
266         }
267
268         return 0;
269 }
270
271 static int pm2xxx_charger_bat_disc_mngt(struct pm2xxx_charger *pm2, int val)
272 {
273         dev_dbg(pm2->dev, "battery disconnected\n");
274
275         return 0;
276 }
277
278 static int pm2xxx_charger_detection(struct pm2xxx_charger *pm2, u8 *val)
279 {
280         int ret;
281
282         ret = pm2xxx_reg_read(pm2, PM2XXX_SRCE_REG_INT2, val);
283
284         if (ret < 0) {
285                 dev_err(pm2->dev, "Charger detection failed\n");
286                 goto out;
287         }
288
289         *val &= (PM2XXX_INT2_S_ITVPWR1PLUG | PM2XXX_INT2_S_ITVPWR2PLUG);
290
291 out:
292         return ret;
293 }
294
295 static int pm2xxx_charger_itv_pwr_plug_mngt(struct pm2xxx_charger *pm2, int val)
296 {
297
298         int ret;
299         u8 read_val;
300
301         /*
302          * Since we can't be sure that the events are received
303          * synchronously, we have the check if the main charger is
304          * connected by reading the interrupt source register.
305          */
306         ret = pm2xxx_charger_detection(pm2, &read_val);
307
308         if ((ret == 0) && read_val) {
309                 pm2->ac.charger_connected = 1;
310                 pm2->ac_conn = true;
311                 queue_work(pm2->charger_wq, &pm2->ac_work);
312         }
313
314
315         return ret;
316 }
317
318 static int pm2xxx_charger_itv_pwr_unplug_mngt(struct pm2xxx_charger *pm2,
319                                                                 int val)
320 {
321         pm2->ac.charger_connected = 0;
322         queue_work(pm2->charger_wq, &pm2->ac_work);
323
324         return 0;
325 }
326
327 static int pm2_int_reg0(void *pm2_data, int val)
328 {
329         struct pm2xxx_charger *pm2 = pm2_data;
330         int ret = 0;
331
332         if (val & PM2XXX_INT1_ITVBATLOWR) {
333                 ret = pm2xxx_charger_vbat_lsig_mngt(pm2,
334                                                 PM2XXX_INT1_ITVBATLOWR);
335                 if (ret < 0)
336                         goto out;
337         }
338
339         if (val & PM2XXX_INT1_ITVBATLOWF) {
340                 ret = pm2xxx_charger_vbat_lsig_mngt(pm2,
341                                                 PM2XXX_INT1_ITVBATLOWF);
342                 if (ret < 0)
343                         goto out;
344         }
345
346         if (val & PM2XXX_INT1_ITVBATDISCONNECT) {
347                 ret = pm2xxx_charger_bat_disc_mngt(pm2,
348                                 PM2XXX_INT1_ITVBATDISCONNECT);
349                 if (ret < 0)
350                         goto out;
351         }
352 out:
353         return ret;
354 }
355
356 static int pm2_int_reg1(void *pm2_data, int val)
357 {
358         struct pm2xxx_charger *pm2 = pm2_data;
359         int ret = 0;
360
361         if (val & (PM2XXX_INT2_ITVPWR1PLUG | PM2XXX_INT2_ITVPWR2PLUG)) {
362                 dev_dbg(pm2->dev , "Main charger plugged\n");
363                 ret = pm2xxx_charger_itv_pwr_plug_mngt(pm2, val &
364                         (PM2XXX_INT2_ITVPWR1PLUG | PM2XXX_INT2_ITVPWR2PLUG));
365         }
366
367         if (val &
368                 (PM2XXX_INT2_ITVPWR1UNPLUG | PM2XXX_INT2_ITVPWR2UNPLUG)) {
369                 dev_dbg(pm2->dev , "Main charger unplugged\n");
370                 ret = pm2xxx_charger_itv_pwr_unplug_mngt(pm2, val &
371                                                 (PM2XXX_INT2_ITVPWR1UNPLUG |
372                                                 PM2XXX_INT2_ITVPWR2UNPLUG));
373         }
374
375         return ret;
376 }
377
378 static int pm2_int_reg2(void *pm2_data, int val)
379 {
380         struct pm2xxx_charger *pm2 = pm2_data;
381         int ret = 0;
382
383         if (val & PM2XXX_INT3_ITAUTOTIMEOUTWD)
384                 ret = pm2xxx_charger_wd_exp_mngt(pm2, val);
385
386         if (val & (PM2XXX_INT3_ITCHPRECHARGEWD |
387                                 PM2XXX_INT3_ITCHCCWD | PM2XXX_INT3_ITCHCVWD)) {
388                 dev_dbg(pm2->dev,
389                         "Watchdog occured for precharge, CC and CV charge\n");
390         }
391
392         return ret;
393 }
394
395 static int pm2_int_reg3(void *pm2_data, int val)
396 {
397         struct pm2xxx_charger *pm2 = pm2_data;
398         int ret = 0;
399
400         if (val & (PM2XXX_INT4_ITCHARGINGON)) {
401                 dev_dbg(pm2->dev ,
402                         "chargind operation has started\n");
403         }
404
405         if (val & (PM2XXX_INT4_ITVRESUME)) {
406                 dev_dbg(pm2->dev,
407                         "battery discharged down to VResume threshold\n");
408         }
409
410         if (val & (PM2XXX_INT4_ITBATTFULL)) {
411                 dev_dbg(pm2->dev , "battery fully detected\n");
412         }
413
414         if (val & (PM2XXX_INT4_ITCVPHASE)) {
415                 dev_dbg(pm2->dev, "CV phase enter with 0.5C charging\n");
416         }
417
418         if (val & (PM2XXX_INT4_ITVPWR2OVV | PM2XXX_INT4_ITVPWR1OVV)) {
419                 pm2->failure_case = VPWR_OVV;
420                 ret = pm2xxx_charger_ovv_mngt(pm2, val &
421                         (PM2XXX_INT4_ITVPWR2OVV | PM2XXX_INT4_ITVPWR1OVV));
422                 dev_dbg(pm2->dev, "VPWR/VSYSTEM overvoltage detected\n");
423         }
424
425         if (val & (PM2XXX_INT4_S_ITBATTEMPCOLD |
426                                 PM2XXX_INT4_S_ITBATTEMPHOT)) {
427                 ret = pm2xxx_charger_batt_therm_mngt(pm2, val &
428                         (PM2XXX_INT4_S_ITBATTEMPCOLD |
429                         PM2XXX_INT4_S_ITBATTEMPHOT));
430                 dev_dbg(pm2->dev, "BTEMP is too Low/High\n");
431         }
432
433         return ret;
434 }
435
436 static int pm2_int_reg4(void *pm2_data, int val)
437 {
438         struct pm2xxx_charger *pm2 = pm2_data;
439         int ret = 0;
440
441         if (val & PM2XXX_INT5_ITVSYSTEMOVV) {
442                 pm2->failure_case = VSYSTEM_OVV;
443                 ret = pm2xxx_charger_ovv_mngt(pm2, val &
444                                                 PM2XXX_INT5_ITVSYSTEMOVV);
445                 dev_dbg(pm2->dev, "VSYSTEM overvoltage detected\n");
446         }
447
448         if (val & (PM2XXX_INT5_ITTHERMALWARNINGFALL |
449                                 PM2XXX_INT5_ITTHERMALWARNINGRISE |
450                                 PM2XXX_INT5_ITTHERMALSHUTDOWNFALL |
451                                 PM2XXX_INT5_ITTHERMALSHUTDOWNRISE)) {
452                 dev_dbg(pm2->dev, "BTEMP die temperature is too Low/High\n");
453                 ret = pm2xxx_charger_die_therm_mngt(pm2, val &
454                         (PM2XXX_INT5_ITTHERMALWARNINGFALL |
455                         PM2XXX_INT5_ITTHERMALWARNINGRISE |
456                         PM2XXX_INT5_ITTHERMALSHUTDOWNFALL |
457                         PM2XXX_INT5_ITTHERMALSHUTDOWNRISE));
458         }
459
460         return ret;
461 }
462
463 static int pm2_int_reg5(void *pm2_data, int val)
464 {
465         struct pm2xxx_charger *pm2 = pm2_data;
466         int ret = 0;
467
468         if (val & (PM2XXX_INT6_ITVPWR2DROP | PM2XXX_INT6_ITVPWR1DROP)) {
469                 dev_dbg(pm2->dev, "VMPWR drop to VBAT level\n");
470         }
471
472         if (val & (PM2XXX_INT6_ITVPWR2VALIDRISE |
473                         PM2XXX_INT6_ITVPWR1VALIDRISE |
474                         PM2XXX_INT6_ITVPWR2VALIDFALL |
475                         PM2XXX_INT6_ITVPWR1VALIDFALL)) {
476                 dev_dbg(pm2->dev, "Falling/Rising edge on WPWR1/2\n");
477         }
478
479         return ret;
480 }
481
482 static irqreturn_t  pm2xxx_irq_int(int irq, void *data)
483 {
484         struct pm2xxx_charger *pm2 = data;
485         struct pm2xxx_interrupts *interrupt = pm2->pm2_int;
486         int i;
487
488         /* wake up the device */
489         pm_runtime_get_sync(pm2->dev);
490
491         do {
492                 for (i = 0; i < PM2XXX_NUM_INT_REG; i++) {
493                         pm2xxx_reg_read(pm2,
494                                 pm2xxx_interrupt_registers[i],
495                                 &(interrupt->reg[i]));
496
497                         if (interrupt->reg[i] > 0)
498                                 interrupt->handler[i](pm2, interrupt->reg[i]);
499                 }
500         } while (gpio_get_value(pm2->pdata->gpio_irq_number) == 0);
501
502         pm_runtime_mark_last_busy(pm2->dev);
503         pm_runtime_put_autosuspend(pm2->dev);
504
505         return IRQ_HANDLED;
506 }
507
508 static int pm2xxx_charger_get_ac_cv(struct pm2xxx_charger *pm2)
509 {
510         int ret = 0;
511         u8 val;
512
513         if (pm2->ac.charger_connected && pm2->ac.charger_online) {
514
515                 ret = pm2xxx_reg_read(pm2, PM2XXX_SRCE_REG_INT4, &val);
516                 if (ret < 0) {
517                         dev_err(pm2->dev, "%s pm2xxx read failed\n", __func__);
518                         goto out;
519                 }
520
521                 if (val & PM2XXX_INT4_S_ITCVPHASE)
522                         ret = PM2XXX_CONST_VOLT;
523                 else
524                         ret = PM2XXX_CONST_CURR;
525         }
526 out:
527         return ret;
528 }
529
530 static int pm2xxx_current_to_regval(int curr)
531 {
532         int i;
533
534         if (curr < pm2xxx_charger_current_map[0])
535                 return 0;
536
537         for (i = 1; i < ARRAY_SIZE(pm2xxx_charger_current_map); i++) {
538                 if (curr < pm2xxx_charger_current_map[i])
539                         return (i - 1);
540         }
541
542         i = ARRAY_SIZE(pm2xxx_charger_current_map) - 1;
543         if (curr == pm2xxx_charger_current_map[i])
544                 return i;
545         else
546                 return -EINVAL;
547 }
548
549 static int pm2xxx_voltage_to_regval(int curr)
550 {
551         int i;
552
553         if (curr < pm2xxx_charger_voltage_map[0])
554                 return 0;
555
556         for (i = 1; i < ARRAY_SIZE(pm2xxx_charger_voltage_map); i++) {
557                 if (curr < pm2xxx_charger_voltage_map[i])
558                         return i - 1;
559         }
560
561         i = ARRAY_SIZE(pm2xxx_charger_voltage_map) - 1;
562         if (curr == pm2xxx_charger_voltage_map[i])
563                 return i;
564         else
565                 return -EINVAL;
566 }
567
568 static int pm2xxx_charger_update_charger_current(struct ux500_charger *charger,
569                 int ich_out)
570 {
571         int ret;
572         int curr_index;
573         struct pm2xxx_charger *pm2;
574         u8 val;
575
576         if (charger->psy.type == POWER_SUPPLY_TYPE_MAINS)
577                 pm2 = to_pm2xxx_charger_ac_device_info(charger);
578         else
579                 return -ENXIO;
580
581         curr_index = pm2xxx_current_to_regval(ich_out);
582         if (curr_index < 0) {
583                 dev_err(pm2->dev,
584                         "Charger current too high, charging not started\n");
585                 return -ENXIO;
586         }
587
588         ret = pm2xxx_reg_read(pm2, PM2XXX_BATT_CTRL_REG6, &val);
589         if (ret >= 0) {
590                 val &= ~PM2XXX_DIR_CH_CC_CURRENT_MASK;
591                 val |= curr_index;
592                 ret = pm2xxx_reg_write(pm2, PM2XXX_BATT_CTRL_REG6, val);
593                 if (ret < 0) {
594                         dev_err(pm2->dev,
595                                 "%s write failed\n", __func__);
596                 }
597         }
598         else
599                 dev_err(pm2->dev, "%s read failed\n", __func__);
600
601         return ret;
602 }
603
604 static int pm2xxx_charger_ac_get_property(struct power_supply *psy,
605         enum power_supply_property psp,
606         union power_supply_propval *val)
607 {
608         struct pm2xxx_charger *pm2;
609
610         pm2 = to_pm2xxx_charger_ac_device_info(psy_to_ux500_charger(psy));
611
612         switch (psp) {
613         case POWER_SUPPLY_PROP_HEALTH:
614                 if (pm2->flags.mainextchnotok)
615                         val->intval = POWER_SUPPLY_HEALTH_UNSPEC_FAILURE;
616                 else if (pm2->ac.wd_expired)
617                         val->intval = POWER_SUPPLY_HEALTH_DEAD;
618                 else if (pm2->flags.main_thermal_prot)
619                         val->intval = POWER_SUPPLY_HEALTH_OVERHEAT;
620                 else if (pm2->flags.ovv)
621                         val->intval = POWER_SUPPLY_HEALTH_OVERVOLTAGE;
622                 else
623                         val->intval = POWER_SUPPLY_HEALTH_GOOD;
624                 break;
625         case POWER_SUPPLY_PROP_ONLINE:
626                 val->intval = pm2->ac.charger_online;
627                 break;
628         case POWER_SUPPLY_PROP_PRESENT:
629                 val->intval = pm2->ac.charger_connected;
630                 break;
631         case POWER_SUPPLY_PROP_VOLTAGE_AVG:
632                 pm2->ac.cv_active = pm2xxx_charger_get_ac_cv(pm2);
633                 val->intval = pm2->ac.cv_active;
634                 break;
635         default:
636                 return -EINVAL;
637         }
638         return 0;
639 }
640
641 static int pm2xxx_charging_init(struct pm2xxx_charger *pm2)
642 {
643         int ret = 0;
644
645         /* enable CC and CV watchdog */
646         ret = pm2xxx_reg_write(pm2, PM2XXX_BATT_CTRL_REG3,
647                 (PM2XXX_CH_WD_CV_PHASE_60MIN | PM2XXX_CH_WD_CC_PHASE_60MIN));
648         if( ret < 0)
649                 return ret;
650
651         /* enable precharge watchdog */
652         ret = pm2xxx_reg_write(pm2, PM2XXX_BATT_CTRL_REG4,
653                                         PM2XXX_CH_WD_PRECH_PHASE_60MIN);
654
655         /* Disable auto timeout */
656         ret = pm2xxx_reg_write(pm2, PM2XXX_BATT_CTRL_REG5,
657                                         PM2XXX_CH_WD_AUTO_TIMEOUT_20MIN);
658
659         /*
660      * EOC current level = 100mA
661          * Precharge current level = 100mA
662          * CC current level = 1000mA
663          */
664         ret = pm2xxx_reg_write(pm2, PM2XXX_BATT_CTRL_REG6,
665                 (PM2XXX_DIR_CH_CC_CURRENT_1000MA |
666                 PM2XXX_CH_PRECH_CURRENT_100MA |
667                 PM2XXX_CH_EOC_CURRENT_100MA));
668
669         /*
670      * recharge threshold = 3.8V
671          * Precharge to CC threshold = 2.9V
672          */
673         ret = pm2xxx_reg_write(pm2, PM2XXX_BATT_CTRL_REG7,
674                 (PM2XXX_CH_PRECH_VOL_2_9 | PM2XXX_CH_VRESUME_VOL_3_8));
675
676         /* float voltage charger level = 4.2V */
677         ret = pm2xxx_reg_write(pm2, PM2XXX_BATT_CTRL_REG8,
678                 PM2XXX_CH_VOLT_4_2);
679
680         /* Voltage drop between VBAT and VSYS in HW charging = 300mV */
681         ret = pm2xxx_reg_write(pm2, PM2XXX_BATT_CTRL_REG9,
682                 (PM2XXX_CH_150MV_DROP_300MV | PM2XXX_CHARCHING_INFO_DIS |
683                 PM2XXX_CH_CC_REDUCED_CURRENT_IDENT |
684                 PM2XXX_CH_CC_MODEDROP_DIS));
685
686         /* Input charger level of over voltage = 10V */
687         ret = pm2xxx_reg_write(pm2, PM2XXX_INP_VOLT_VPWR2,
688                                         PM2XXX_VPWR2_OVV_10);
689         ret = pm2xxx_reg_write(pm2, PM2XXX_INP_VOLT_VPWR1,
690                                         PM2XXX_VPWR1_OVV_10);
691
692         /* Input charger drop */
693         ret = pm2xxx_reg_write(pm2, PM2XXX_INP_DROP_VPWR2,
694                 (PM2XXX_VPWR2_HW_OPT_DIS | PM2XXX_VPWR2_VALID_DIS |
695                 PM2XXX_VPWR2_DROP_DIS));
696         ret = pm2xxx_reg_write(pm2, PM2XXX_INP_DROP_VPWR1,
697                 (PM2XXX_VPWR1_HW_OPT_DIS | PM2XXX_VPWR1_VALID_DIS |
698                 PM2XXX_VPWR1_DROP_DIS));
699
700         /* Disable battery low monitoring */
701         ret = pm2xxx_reg_write(pm2, PM2XXX_BATT_LOW_LEV_COMP_REG,
702                 PM2XXX_VBAT_LOW_MONITORING_ENA);
703
704         return ret;
705 }
706
707 static int pm2xxx_charger_ac_en(struct ux500_charger *charger,
708         int enable, int vset, int iset)
709 {
710         int ret;
711         int volt_index;
712         int curr_index;
713         u8 val;
714
715         struct pm2xxx_charger *pm2 = to_pm2xxx_charger_ac_device_info(charger);
716
717         if (enable) {
718                 if (!pm2->ac.charger_connected) {
719                         dev_dbg(pm2->dev, "AC charger not connected\n");
720                         return -ENXIO;
721                 }
722
723                 dev_dbg(pm2->dev, "Enable AC: %dmV %dmA\n", vset, iset);
724                 if (!pm2->vddadc_en_ac) {
725                         regulator_enable(pm2->regu);
726                         pm2->vddadc_en_ac = true;
727                 }
728
729                 ret = pm2xxx_charging_init(pm2);
730                 if (ret < 0) {
731                         dev_err(pm2->dev, "%s charging init failed\n",
732                                         __func__);
733                         goto error_occured;
734                 }
735
736                 volt_index = pm2xxx_voltage_to_regval(vset);
737                 curr_index = pm2xxx_current_to_regval(iset);
738
739                 if (volt_index < 0 || curr_index < 0) {
740                         dev_err(pm2->dev,
741                                 "Charger voltage or current too high, "
742                                 "charging not started\n");
743                         return -ENXIO;
744                 }
745
746                 ret = pm2xxx_reg_read(pm2, PM2XXX_BATT_CTRL_REG8, &val);
747                 if (ret < 0) {
748                         dev_err(pm2->dev, "%s pm2xxx read failed\n", __func__);
749                         goto error_occured;
750                 }
751                 val &= ~PM2XXX_CH_VOLT_MASK;
752                 val |= volt_index;
753                 ret = pm2xxx_reg_write(pm2, PM2XXX_BATT_CTRL_REG8, val);
754                 if (ret < 0) {
755                         dev_err(pm2->dev, "%s pm2xxx write failed\n", __func__);
756                         goto error_occured;
757                 }
758
759                 ret = pm2xxx_reg_read(pm2, PM2XXX_BATT_CTRL_REG6, &val);
760                 if (ret < 0) {
761                         dev_err(pm2->dev, "%s pm2xxx read failed\n", __func__);
762                         goto error_occured;
763                 }
764                 val &= ~PM2XXX_DIR_CH_CC_CURRENT_MASK;
765                 val |= curr_index;
766                 ret = pm2xxx_reg_write(pm2, PM2XXX_BATT_CTRL_REG6, val);
767                 if (ret < 0) {
768                         dev_err(pm2->dev, "%s pm2xxx write failed\n", __func__);
769                         goto error_occured;
770                 }
771
772                 if (!pm2->bat->enable_overshoot) {
773                         ret = pm2xxx_reg_read(pm2, PM2XXX_LED_CTRL_REG, &val);
774                         if (ret < 0) {
775                                 dev_err(pm2->dev, "%s pm2xxx read failed\n",
776                                                                 __func__);
777                                 goto error_occured;
778                         }
779                         val |= PM2XXX_ANTI_OVERSHOOT_EN;
780                         ret = pm2xxx_reg_write(pm2, PM2XXX_LED_CTRL_REG, val);
781                         if (ret < 0) {
782                                 dev_err(pm2->dev, "%s pm2xxx write failed\n",
783                                                                 __func__);
784                                 goto error_occured;
785                         }
786                 }
787
788                 ret = pm2xxx_charging_enable_mngt(pm2);
789                 if (ret < 0) {
790                         dev_err(pm2->dev, "Failed to enable"
791                                                 "pm2xxx ac charger\n");
792                         goto error_occured;
793                 }
794
795                 pm2->ac.charger_online = 1;
796         } else {
797                 pm2->ac.charger_online = 0;
798                 pm2->ac.wd_expired = false;
799
800                 /* Disable regulator if enabled */
801                 if (pm2->vddadc_en_ac) {
802                         regulator_disable(pm2->regu);
803                         pm2->vddadc_en_ac = false;
804                 }
805
806                 ret = pm2xxx_charging_disable_mngt(pm2);
807                 if (ret < 0) {
808                         dev_err(pm2->dev, "failed to disable"
809                                                 "pm2xxx ac charger\n");
810                         goto error_occured;
811                 }
812
813                 dev_dbg(pm2->dev, "PM2301: " "Disabled AC charging\n");
814         }
815         power_supply_changed(&pm2->ac_chg.psy);
816
817 error_occured:
818         return ret;
819 }
820
821 static int pm2xxx_charger_watchdog_kick(struct ux500_charger *charger)
822 {
823         int ret;
824         struct pm2xxx_charger *pm2;
825
826         if (charger->psy.type == POWER_SUPPLY_TYPE_MAINS)
827                 pm2 = to_pm2xxx_charger_ac_device_info(charger);
828         else
829                 return -ENXIO;
830
831         ret = pm2xxx_reg_write(pm2, PM2XXX_BATT_WD_KICK, WD_TIMER);
832         if (ret)
833                 dev_err(pm2->dev, "Failed to kick WD!\n");
834
835         return ret;
836 }
837
838 static void pm2xxx_charger_ac_work(struct work_struct *work)
839 {
840         struct pm2xxx_charger *pm2 = container_of(work,
841                 struct pm2xxx_charger, ac_work);
842
843
844         power_supply_changed(&pm2->ac_chg.psy);
845         sysfs_notify(&pm2->ac_chg.psy.dev->kobj, NULL, "present");
846 };
847
848 static void pm2xxx_charger_check_hw_failure_work(struct work_struct *work)
849 {
850         u8 reg_value;
851
852         struct pm2xxx_charger *pm2 = container_of(work,
853                 struct pm2xxx_charger, check_hw_failure_work.work);
854
855         if (pm2->flags.ovv) {
856                 pm2xxx_reg_read(pm2, PM2XXX_SRCE_REG_INT4, &reg_value);
857
858                 if (!(reg_value & (PM2XXX_INT4_S_ITVPWR1OVV |
859                                         PM2XXX_INT4_S_ITVPWR2OVV))) {
860                         pm2->flags.ovv = false;
861                         power_supply_changed(&pm2->ac_chg.psy);
862                 }
863         }
864
865         /* If we still have a failure, schedule a new check */
866         if (pm2->flags.ovv) {
867                 queue_delayed_work(pm2->charger_wq,
868                         &pm2->check_hw_failure_work, round_jiffies(HZ));
869         }
870 }
871
872 static void pm2xxx_charger_check_main_thermal_prot_work(
873         struct work_struct *work)
874 {
875         int ret;
876         u8 val;
877
878         struct pm2xxx_charger *pm2 = container_of(work, struct pm2xxx_charger,
879                                         check_main_thermal_prot_work);
880
881         /* Check if die temp warning is still active */
882         ret = pm2xxx_reg_read(pm2, PM2XXX_SRCE_REG_INT5, &val);
883         if (ret < 0) {
884                 dev_err(pm2->dev, "%s pm2xxx read failed\n", __func__);
885                 return;
886         }
887         if (val & (PM2XXX_INT5_S_ITTHERMALWARNINGRISE
888                         | PM2XXX_INT5_S_ITTHERMALSHUTDOWNRISE))
889                 pm2->flags.main_thermal_prot = true;
890         else if (val & (PM2XXX_INT5_S_ITTHERMALWARNINGFALL
891                                 | PM2XXX_INT5_S_ITTHERMALSHUTDOWNFALL))
892                 pm2->flags.main_thermal_prot = false;
893
894         power_supply_changed(&pm2->ac_chg.psy);
895 }
896
897 static struct pm2xxx_interrupts pm2xxx_int = {
898         .handler[0] = pm2_int_reg0,
899         .handler[1] = pm2_int_reg1,
900         .handler[2] = pm2_int_reg2,
901         .handler[3] = pm2_int_reg3,
902         .handler[4] = pm2_int_reg4,
903         .handler[5] = pm2_int_reg5,
904 };
905
906 static struct pm2xxx_irq pm2xxx_charger_irq[] = {
907         {"PM2XXX_IRQ_INT", pm2xxx_irq_int},
908 };
909
910 #ifdef CONFIG_PM
911
912 #ifdef CONFIG_PM_SLEEP
913
914 static int pm2xxx_wall_charger_resume(struct device *dev)
915 {
916         struct i2c_client *i2c_client = to_i2c_client(dev);
917         struct pm2xxx_charger *pm2;
918
919         pm2 =  (struct pm2xxx_charger *)i2c_get_clientdata(i2c_client);
920         set_lpn_pin(pm2);
921
922         /* If we still have a HW failure, schedule a new check */
923         if (pm2->flags.ovv)
924                 queue_delayed_work(pm2->charger_wq,
925                                 &pm2->check_hw_failure_work, 0);
926
927         return 0;
928 }
929
930 static int pm2xxx_wall_charger_suspend(struct device *dev)
931 {
932         struct i2c_client *i2c_client = to_i2c_client(dev);
933         struct pm2xxx_charger *pm2;
934
935         pm2 =  (struct pm2xxx_charger *)i2c_get_clientdata(i2c_client);
936         clear_lpn_pin(pm2);
937
938         /* Cancel any pending HW failure check */
939         if (delayed_work_pending(&pm2->check_hw_failure_work))
940                 cancel_delayed_work(&pm2->check_hw_failure_work);
941
942         flush_work(&pm2->ac_work);
943         flush_work(&pm2->check_main_thermal_prot_work);
944
945         return 0;
946 }
947
948 #endif
949
950 #ifdef CONFIG_PM_RUNTIME
951
952 static int  pm2xxx_runtime_suspend(struct device *dev)
953 {
954         struct i2c_client *pm2xxx_i2c_client = to_i2c_client(dev);
955         struct pm2xxx_charger *pm2;
956         int ret = 0;
957
958         pm2 = (struct pm2xxx_charger *)i2c_get_clientdata(pm2xxx_i2c_client);
959         if (!pm2) {
960                 dev_err(pm2->dev, "no pm2xxx_charger data supplied\n");
961                 ret = -EINVAL;
962                 return ret;
963         }
964
965         clear_lpn_pin(pm2);
966
967         return ret;
968 }
969
970 static int  pm2xxx_runtime_resume(struct device *dev)
971 {
972         struct i2c_client *pm2xxx_i2c_client = to_i2c_client(dev);
973         struct pm2xxx_charger *pm2;
974         int ret = 0;
975
976         pm2 = (struct pm2xxx_charger *)i2c_get_clientdata(pm2xxx_i2c_client);
977         if (!pm2) {
978                 dev_err(pm2->dev, "no pm2xxx_charger data supplied\n");
979                 ret = -EINVAL;
980                 return ret;
981         }
982
983         if (gpio_is_valid(pm2->lpn_pin) && gpio_get_value(pm2->lpn_pin) == 0)
984                 set_lpn_pin(pm2);
985
986         return ret;
987 }
988
989 #endif
990
991 static const struct dev_pm_ops pm2xxx_pm_ops = {
992         SET_SYSTEM_SLEEP_PM_OPS(pm2xxx_wall_charger_suspend,
993                 pm2xxx_wall_charger_resume)
994         SET_RUNTIME_PM_OPS(pm2xxx_runtime_suspend, pm2xxx_runtime_resume, NULL)
995 };
996 #define  PM2XXX_PM_OPS (&pm2xxx_pm_ops)
997 #else
998 #define  PM2XXX_PM_OPS  NULL
999 #endif
1000
1001 static int pm2xxx_wall_charger_probe(struct i2c_client *i2c_client,
1002                 const struct i2c_device_id *id)
1003 {
1004         struct pm2xxx_platform_data *pl_data = i2c_client->dev.platform_data;
1005         struct pm2xxx_charger *pm2;
1006         int ret = 0;
1007         u8 val;
1008         int i;
1009
1010         pm2 = kzalloc(sizeof(struct pm2xxx_charger), GFP_KERNEL);
1011         if (!pm2) {
1012                 dev_err(pm2->dev, "pm2xxx_charger allocation failed\n");
1013                 return -ENOMEM;
1014         }
1015
1016         /* get parent data */
1017         pm2->dev = &i2c_client->dev;
1018
1019         pm2->pm2_int = &pm2xxx_int;
1020
1021         /* get charger spcific platform data */
1022         if (!pl_data->wall_charger) {
1023                 dev_err(pm2->dev, "no charger platform data supplied\n");
1024                 ret = -EINVAL;
1025                 goto free_device_info;
1026         }
1027
1028         pm2->pdata = pl_data->wall_charger;
1029
1030         /* get battery specific platform data */
1031         if (!pl_data->battery) {
1032                 dev_err(pm2->dev, "no battery platform data supplied\n");
1033                 ret = -EINVAL;
1034                 goto free_device_info;
1035         }
1036
1037         pm2->bat = pl_data->battery;
1038
1039         if (!i2c_check_functionality(i2c_client->adapter,
1040                         I2C_FUNC_SMBUS_BYTE_DATA |
1041                         I2C_FUNC_SMBUS_READ_WORD_DATA)) {
1042                 ret = -ENODEV;
1043                 dev_info(pm2->dev, "pm2301 i2c_check_functionality failed\n");
1044                 goto free_device_info;
1045         }
1046
1047         pm2->config.pm2xxx_i2c = i2c_client;
1048         pm2->config.pm2xxx_id = (struct i2c_device_id *) id;
1049         i2c_set_clientdata(i2c_client, pm2);
1050
1051         /* AC supply */
1052         /* power_supply base class */
1053         pm2->ac_chg.psy.name = pm2->pdata->label;
1054         pm2->ac_chg.psy.type = POWER_SUPPLY_TYPE_MAINS;
1055         pm2->ac_chg.psy.properties = pm2xxx_charger_ac_props;
1056         pm2->ac_chg.psy.num_properties = ARRAY_SIZE(pm2xxx_charger_ac_props);
1057         pm2->ac_chg.psy.get_property = pm2xxx_charger_ac_get_property;
1058         pm2->ac_chg.psy.supplied_to = pm2->pdata->supplied_to;
1059         pm2->ac_chg.psy.num_supplicants = pm2->pdata->num_supplicants;
1060         /* pm2xxx_charger sub-class */
1061         pm2->ac_chg.ops.enable = &pm2xxx_charger_ac_en;
1062         pm2->ac_chg.ops.kick_wd = &pm2xxx_charger_watchdog_kick;
1063         pm2->ac_chg.ops.update_curr = &pm2xxx_charger_update_charger_current;
1064         pm2->ac_chg.max_out_volt = pm2xxx_charger_voltage_map[
1065                 ARRAY_SIZE(pm2xxx_charger_voltage_map) - 1];
1066         pm2->ac_chg.max_out_curr = pm2xxx_charger_current_map[
1067                 ARRAY_SIZE(pm2xxx_charger_current_map) - 1];
1068         pm2->ac_chg.wdt_refresh = WD_KICK_INTERVAL;
1069         pm2->ac_chg.enabled = true;
1070         pm2->ac_chg.external = true;
1071
1072         /* Create a work queue for the charger */
1073         pm2->charger_wq =
1074                 create_singlethread_workqueue("pm2xxx_charger_wq");
1075         if (pm2->charger_wq == NULL) {
1076                 dev_err(pm2->dev, "failed to create work queue\n");
1077                 goto free_device_info;
1078         }
1079
1080         /* Init work for charger detection */
1081         INIT_WORK(&pm2->ac_work, pm2xxx_charger_ac_work);
1082
1083         /* Init work for checking HW status */
1084         INIT_WORK(&pm2->check_main_thermal_prot_work,
1085                 pm2xxx_charger_check_main_thermal_prot_work);
1086
1087         /* Init work for HW failure check */
1088         INIT_DEFERRABLE_WORK(&pm2->check_hw_failure_work,
1089                 pm2xxx_charger_check_hw_failure_work);
1090
1091         /*
1092          * VDD ADC supply needs to be enabled from this driver when there
1093          * is a charger connected to avoid erroneous BTEMP_HIGH/LOW
1094          * interrupts during charging
1095          */
1096         pm2->regu = regulator_get(pm2->dev, "vddadc");
1097         if (IS_ERR(pm2->regu)) {
1098                 ret = PTR_ERR(pm2->regu);
1099                 dev_err(pm2->dev, "failed to get vddadc regulator\n");
1100                 goto free_charger_wq;
1101         }
1102
1103         /* Register AC charger class */
1104         ret = power_supply_register(pm2->dev, &pm2->ac_chg.psy);
1105         if (ret) {
1106                 dev_err(pm2->dev, "failed to register AC charger\n");
1107                 goto free_regulator;
1108         }
1109
1110         /* Register interrupts */
1111         ret = request_threaded_irq(gpio_to_irq(pm2->pdata->gpio_irq_number),
1112                                 NULL,
1113                                 pm2xxx_charger_irq[0].isr,
1114                                 pm2->pdata->irq_type,
1115                                 pm2xxx_charger_irq[0].name, pm2);
1116
1117         if (ret != 0) {
1118                 dev_err(pm2->dev, "failed to request %s IRQ %d: %d\n",
1119                 pm2xxx_charger_irq[0].name,
1120                         gpio_to_irq(pm2->pdata->gpio_irq_number), ret);
1121                 goto unregister_pm2xxx_charger;
1122         }
1123
1124         ret = pm_runtime_set_active(pm2->dev);
1125         if (ret)
1126                 dev_err(pm2->dev, "set active Error\n");
1127
1128         pm_runtime_enable(pm2->dev);
1129         pm_runtime_set_autosuspend_delay(pm2->dev, PM2XXX_AUTOSUSPEND_DELAY);
1130         pm_runtime_use_autosuspend(pm2->dev);
1131         pm_runtime_resume(pm2->dev);
1132
1133         /* pm interrupt can wake up system */
1134         ret = enable_irq_wake(gpio_to_irq(pm2->pdata->gpio_irq_number));
1135         if (ret) {
1136                 dev_err(pm2->dev, "failed to set irq wake\n");
1137                 goto unregister_pm2xxx_interrupt;
1138         }
1139
1140         mutex_init(&pm2->lock);
1141
1142         if (gpio_is_valid(pm2->pdata->lpn_gpio)) {
1143                 /* get lpn GPIO from platform data */
1144                 pm2->lpn_pin = pm2->pdata->lpn_gpio;
1145
1146                 /*
1147                  * Charger detection mechanism requires pulling up the LPN pin
1148                  * while i2c communication if Charger is not connected
1149                  * LPN pin of PM2301 is GPIO60 of AB9540
1150                  */
1151                 ret = gpio_request(pm2->lpn_pin, "pm2301_lpm_gpio");
1152
1153                 if (ret < 0) {
1154                         dev_err(pm2->dev, "pm2301_lpm_gpio request failed\n");
1155                         goto disable_pm2_irq_wake;
1156                 }
1157                 ret = gpio_direction_output(pm2->lpn_pin, 0);
1158                 if (ret < 0) {
1159                         dev_err(pm2->dev, "pm2301_lpm_gpio direction failed\n");
1160                         goto free_gpio;
1161                 }
1162                 set_lpn_pin(pm2);
1163         }
1164
1165         /* read  interrupt registers */
1166         for (i = 0; i < PM2XXX_NUM_INT_REG; i++)
1167                 pm2xxx_reg_read(pm2,
1168                         pm2xxx_interrupt_registers[i],
1169                         &val);
1170
1171         ret = pm2xxx_charger_detection(pm2, &val);
1172
1173         if ((ret == 0) && val) {
1174                 pm2->ac.charger_connected = 1;
1175                 ab8500_override_turn_on_stat(~AB8500_POW_KEY_1_ON,
1176                                              AB8500_MAIN_CH_DET);
1177                 pm2->ac_conn = true;
1178                 power_supply_changed(&pm2->ac_chg.psy);
1179                 sysfs_notify(&pm2->ac_chg.psy.dev->kobj, NULL, "present");
1180         }
1181
1182         return 0;
1183
1184 free_gpio:
1185         if (gpio_is_valid(pm2->lpn_pin))
1186                 gpio_free(pm2->lpn_pin);
1187 disable_pm2_irq_wake:
1188         disable_irq_wake(gpio_to_irq(pm2->pdata->gpio_irq_number));
1189 unregister_pm2xxx_interrupt:
1190         /* disable interrupt */
1191         free_irq(gpio_to_irq(pm2->pdata->gpio_irq_number), pm2);
1192 unregister_pm2xxx_charger:
1193         /* unregister power supply */
1194         power_supply_unregister(&pm2->ac_chg.psy);
1195 free_regulator:
1196         /* disable the regulator */
1197         regulator_put(pm2->regu);
1198 free_charger_wq:
1199         destroy_workqueue(pm2->charger_wq);
1200 free_device_info:
1201         kfree(pm2);
1202
1203         return ret;
1204 }
1205
1206 static int pm2xxx_wall_charger_remove(struct i2c_client *i2c_client)
1207 {
1208         struct pm2xxx_charger *pm2 = i2c_get_clientdata(i2c_client);
1209
1210         /* Disable pm_runtime */
1211         pm_runtime_disable(pm2->dev);
1212         /* Disable AC charging */
1213         pm2xxx_charger_ac_en(&pm2->ac_chg, false, 0, 0);
1214
1215         /* Disable wake by pm interrupt */
1216         disable_irq_wake(gpio_to_irq(pm2->pdata->gpio_irq_number));
1217
1218         /* Disable interrupts */
1219         free_irq(gpio_to_irq(pm2->pdata->gpio_irq_number), pm2);
1220
1221         /* Delete the work queue */
1222         destroy_workqueue(pm2->charger_wq);
1223
1224         flush_scheduled_work();
1225
1226         /* disable the regulator */
1227         regulator_put(pm2->regu);
1228
1229         power_supply_unregister(&pm2->ac_chg.psy);
1230
1231         if (gpio_is_valid(pm2->lpn_pin))
1232                 gpio_free(pm2->lpn_pin);
1233
1234         kfree(pm2);
1235
1236         return 0;
1237 }
1238
1239 static const struct i2c_device_id pm2xxx_id[] = {
1240         { "pm2301", 0 },
1241         { }
1242 };
1243
1244 MODULE_DEVICE_TABLE(i2c, pm2xxx_id);
1245
1246 static struct i2c_driver pm2xxx_charger_driver = {
1247         .probe = pm2xxx_wall_charger_probe,
1248         .remove = pm2xxx_wall_charger_remove,
1249         .driver = {
1250                 .name = "pm2xxx-wall_charger",
1251                 .owner = THIS_MODULE,
1252                 .pm = PM2XXX_PM_OPS,
1253         },
1254         .id_table = pm2xxx_id,
1255 };
1256
1257 static int __init pm2xxx_charger_init(void)
1258 {
1259         return i2c_add_driver(&pm2xxx_charger_driver);
1260 }
1261
1262 static void __exit pm2xxx_charger_exit(void)
1263 {
1264         i2c_del_driver(&pm2xxx_charger_driver);
1265 }
1266
1267 device_initcall_sync(pm2xxx_charger_init);
1268 module_exit(pm2xxx_charger_exit);
1269
1270 MODULE_LICENSE("GPL v2");
1271 MODULE_AUTHOR("Rajkumar kasirajan, Olivier Launay");
1272 MODULE_ALIAS("platform:pm2xxx-charger");
1273 MODULE_DESCRIPTION("PM2xxx charger management driver");