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[linux/fpc-iii.git] / drivers / regulator / tps6524x-regulator.c
blob9d6ea3a4dccd1c3bc2d35052c72ea374652b6045
1 /*
2 * Regulator driver for TPS6524x PMIC
4 * Copyright (C) 2010 Texas Instruments
6 * This program is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU General Public License as
8 * published by the Free Software Foundation version 2.
10 * This program is distributed "as is" WITHOUT ANY WARRANTY of any kind,
11 * whether express or implied; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
13 * General Public License for more details.
16 #include <linux/kernel.h>
17 #include <linux/module.h>
18 #include <linux/err.h>
19 #include <linux/errno.h>
20 #include <linux/slab.h>
21 #include <linux/spi/spi.h>
22 #include <linux/regulator/driver.h>
23 #include <linux/regulator/machine.h>
25 #define REG_LDO_SET 0x0
26 #define LDO_ILIM_MASK 1 /* 0 = 400-800, 1 = 900-1500 */
27 #define LDO_VSEL_MASK 0x0f
28 #define LDO2_ILIM_SHIFT 12
29 #define LDO2_VSEL_SHIFT 4
30 #define LDO1_ILIM_SHIFT 8
31 #define LDO1_VSEL_SHIFT 0
33 #define REG_BLOCK_EN 0x1
34 #define BLOCK_MASK 1
35 #define BLOCK_LDO1_SHIFT 0
36 #define BLOCK_LDO2_SHIFT 1
37 #define BLOCK_LCD_SHIFT 2
38 #define BLOCK_USB_SHIFT 3
40 #define REG_DCDC_SET 0x2
41 #define DCDC_VDCDC_MASK 0x1f
42 #define DCDC_VDCDC1_SHIFT 0
43 #define DCDC_VDCDC2_SHIFT 5
44 #define DCDC_VDCDC3_SHIFT 10
46 #define REG_DCDC_EN 0x3
47 #define DCDCDCDC_EN_MASK 0x1
48 #define DCDCDCDC1_EN_SHIFT 0
49 #define DCDCDCDC1_PG_MSK BIT(1)
50 #define DCDCDCDC2_EN_SHIFT 2
51 #define DCDCDCDC2_PG_MSK BIT(3)
52 #define DCDCDCDC3_EN_SHIFT 4
53 #define DCDCDCDC3_PG_MSK BIT(5)
55 #define REG_USB 0x4
56 #define USB_ILIM_SHIFT 0
57 #define USB_ILIM_MASK 0x3
58 #define USB_TSD_SHIFT 2
59 #define USB_TSD_MASK 0x3
60 #define USB_TWARN_SHIFT 4
61 #define USB_TWARN_MASK 0x3
62 #define USB_IWARN_SD BIT(6)
63 #define USB_FAST_LOOP BIT(7)
65 #define REG_ALARM 0x5
66 #define ALARM_LDO1 BIT(0)
67 #define ALARM_DCDC1 BIT(1)
68 #define ALARM_DCDC2 BIT(2)
69 #define ALARM_DCDC3 BIT(3)
70 #define ALARM_LDO2 BIT(4)
71 #define ALARM_USB_WARN BIT(5)
72 #define ALARM_USB_ALARM BIT(6)
73 #define ALARM_LCD BIT(9)
74 #define ALARM_TEMP_WARM BIT(10)
75 #define ALARM_TEMP_HOT BIT(11)
76 #define ALARM_NRST BIT(14)
77 #define ALARM_POWERUP BIT(15)
79 #define REG_INT_ENABLE 0x6
80 #define INT_LDO1 BIT(0)
81 #define INT_DCDC1 BIT(1)
82 #define INT_DCDC2 BIT(2)
83 #define INT_DCDC3 BIT(3)
84 #define INT_LDO2 BIT(4)
85 #define INT_USB_WARN BIT(5)
86 #define INT_USB_ALARM BIT(6)
87 #define INT_LCD BIT(9)
88 #define INT_TEMP_WARM BIT(10)
89 #define INT_TEMP_HOT BIT(11)
90 #define INT_GLOBAL_EN BIT(15)
92 #define REG_INT_STATUS 0x7
93 #define STATUS_LDO1 BIT(0)
94 #define STATUS_DCDC1 BIT(1)
95 #define STATUS_DCDC2 BIT(2)
96 #define STATUS_DCDC3 BIT(3)
97 #define STATUS_LDO2 BIT(4)
98 #define STATUS_USB_WARN BIT(5)
99 #define STATUS_USB_ALARM BIT(6)
100 #define STATUS_LCD BIT(9)
101 #define STATUS_TEMP_WARM BIT(10)
102 #define STATUS_TEMP_HOT BIT(11)
104 #define REG_SOFTWARE_RESET 0xb
105 #define REG_WRITE_ENABLE 0xd
106 #define REG_REV_ID 0xf
108 #define N_DCDC 3
109 #define N_LDO 2
110 #define N_SWITCH 2
111 #define N_REGULATORS (N_DCDC + N_LDO + N_SWITCH)
113 #define CMD_READ(reg) ((reg) << 6)
114 #define CMD_WRITE(reg) (BIT(5) | (reg) << 6)
115 #define STAT_CLK BIT(3)
116 #define STAT_WRITE BIT(2)
117 #define STAT_INVALID BIT(1)
118 #define STAT_WP BIT(0)
120 struct field {
121 int reg;
122 int shift;
123 int mask;
126 struct supply_info {
127 const char *name;
128 int n_voltages;
129 const unsigned int *voltages;
130 int n_ilimsels;
131 const unsigned int *ilimsels;
132 struct field enable, voltage, ilimsel;
135 struct tps6524x {
136 struct device *dev;
137 struct spi_device *spi;
138 struct mutex lock;
139 struct regulator_desc desc[N_REGULATORS];
140 struct regulator_dev *rdev[N_REGULATORS];
143 static int __read_reg(struct tps6524x *hw, int reg)
145 int error = 0;
146 u16 cmd = CMD_READ(reg), in;
147 u8 status;
148 struct spi_message m;
149 struct spi_transfer t[3];
151 spi_message_init(&m);
152 memset(t, 0, sizeof(t));
154 t[0].tx_buf = &cmd;
155 t[0].len = 2;
156 t[0].bits_per_word = 12;
157 spi_message_add_tail(&t[0], &m);
159 t[1].rx_buf = &in;
160 t[1].len = 2;
161 t[1].bits_per_word = 16;
162 spi_message_add_tail(&t[1], &m);
164 t[2].rx_buf = &status;
165 t[2].len = 1;
166 t[2].bits_per_word = 4;
167 spi_message_add_tail(&t[2], &m);
169 error = spi_sync(hw->spi, &m);
170 if (error < 0)
171 return error;
173 dev_dbg(hw->dev, "read reg %d, data %x, status %x\n",
174 reg, in, status);
176 if (!(status & STAT_CLK) || (status & STAT_WRITE))
177 return -EIO;
179 if (status & STAT_INVALID)
180 return -EINVAL;
182 return in;
185 static int read_reg(struct tps6524x *hw, int reg)
187 int ret;
189 mutex_lock(&hw->lock);
190 ret = __read_reg(hw, reg);
191 mutex_unlock(&hw->lock);
193 return ret;
196 static int __write_reg(struct tps6524x *hw, int reg, int val)
198 int error = 0;
199 u16 cmd = CMD_WRITE(reg), out = val;
200 u8 status;
201 struct spi_message m;
202 struct spi_transfer t[3];
204 spi_message_init(&m);
205 memset(t, 0, sizeof(t));
207 t[0].tx_buf = &cmd;
208 t[0].len = 2;
209 t[0].bits_per_word = 12;
210 spi_message_add_tail(&t[0], &m);
212 t[1].tx_buf = &out;
213 t[1].len = 2;
214 t[1].bits_per_word = 16;
215 spi_message_add_tail(&t[1], &m);
217 t[2].rx_buf = &status;
218 t[2].len = 1;
219 t[2].bits_per_word = 4;
220 spi_message_add_tail(&t[2], &m);
222 error = spi_sync(hw->spi, &m);
223 if (error < 0)
224 return error;
226 dev_dbg(hw->dev, "wrote reg %d, data %x, status %x\n",
227 reg, out, status);
229 if (!(status & STAT_CLK) || !(status & STAT_WRITE))
230 return -EIO;
232 if (status & (STAT_INVALID | STAT_WP))
233 return -EINVAL;
235 return error;
238 static int __rmw_reg(struct tps6524x *hw, int reg, int mask, int val)
240 int ret;
242 ret = __read_reg(hw, reg);
243 if (ret < 0)
244 return ret;
246 ret &= ~mask;
247 ret |= val;
249 ret = __write_reg(hw, reg, ret);
251 return (ret < 0) ? ret : 0;
254 static int rmw_protect(struct tps6524x *hw, int reg, int mask, int val)
256 int ret;
258 mutex_lock(&hw->lock);
260 ret = __write_reg(hw, REG_WRITE_ENABLE, 1);
261 if (ret) {
262 dev_err(hw->dev, "failed to set write enable\n");
263 goto error;
266 ret = __rmw_reg(hw, reg, mask, val);
267 if (ret)
268 dev_err(hw->dev, "failed to rmw register %d\n", reg);
270 ret = __write_reg(hw, REG_WRITE_ENABLE, 0);
271 if (ret) {
272 dev_err(hw->dev, "failed to clear write enable\n");
273 goto error;
276 error:
277 mutex_unlock(&hw->lock);
279 return ret;
282 static int read_field(struct tps6524x *hw, const struct field *field)
284 int tmp;
286 tmp = read_reg(hw, field->reg);
287 if (tmp < 0)
288 return tmp;
290 return (tmp >> field->shift) & field->mask;
293 static int write_field(struct tps6524x *hw, const struct field *field,
294 int val)
296 if (val & ~field->mask)
297 return -EOVERFLOW;
299 return rmw_protect(hw, field->reg,
300 field->mask << field->shift,
301 val << field->shift);
304 static const unsigned int dcdc1_voltages[] = {
305 800000, 825000, 850000, 875000,
306 900000, 925000, 950000, 975000,
307 1000000, 1025000, 1050000, 1075000,
308 1100000, 1125000, 1150000, 1175000,
309 1200000, 1225000, 1250000, 1275000,
310 1300000, 1325000, 1350000, 1375000,
311 1400000, 1425000, 1450000, 1475000,
312 1500000, 1525000, 1550000, 1575000,
315 static const unsigned int dcdc2_voltages[] = {
316 1400000, 1450000, 1500000, 1550000,
317 1600000, 1650000, 1700000, 1750000,
318 1800000, 1850000, 1900000, 1950000,
319 2000000, 2050000, 2100000, 2150000,
320 2200000, 2250000, 2300000, 2350000,
321 2400000, 2450000, 2500000, 2550000,
322 2600000, 2650000, 2700000, 2750000,
323 2800000, 2850000, 2900000, 2950000,
326 static const unsigned int dcdc3_voltages[] = {
327 2400000, 2450000, 2500000, 2550000, 2600000,
328 2650000, 2700000, 2750000, 2800000, 2850000,
329 2900000, 2950000, 3000000, 3050000, 3100000,
330 3150000, 3200000, 3250000, 3300000, 3350000,
331 3400000, 3450000, 3500000, 3550000, 3600000,
334 static const unsigned int ldo1_voltages[] = {
335 4300000, 4350000, 4400000, 4450000,
336 4500000, 4550000, 4600000, 4650000,
337 4700000, 4750000, 4800000, 4850000,
338 4900000, 4950000, 5000000, 5050000,
341 static const unsigned int ldo2_voltages[] = {
342 1100000, 1150000, 1200000, 1250000,
343 1300000, 1700000, 1750000, 1800000,
344 1850000, 1900000, 3150000, 3200000,
345 3250000, 3300000, 3350000, 3400000,
348 static const unsigned int fixed_5000000_voltage[] = {
349 5000000
352 static const unsigned int ldo_ilimsel[] = {
353 400000, 1500000
356 static const unsigned int usb_ilimsel[] = {
357 200000, 400000, 800000, 1000000
360 static const unsigned int fixed_2400000_ilimsel[] = {
361 2400000
364 static const unsigned int fixed_1200000_ilimsel[] = {
365 1200000
368 static const unsigned int fixed_400000_ilimsel[] = {
369 400000
372 #define __MK_FIELD(_reg, _mask, _shift) \
373 { .reg = (_reg), .mask = (_mask), .shift = (_shift), }
375 static const struct supply_info supply_info[N_REGULATORS] = {
377 .name = "DCDC1",
378 .n_voltages = ARRAY_SIZE(dcdc1_voltages),
379 .voltages = dcdc1_voltages,
380 .n_ilimsels = ARRAY_SIZE(fixed_2400000_ilimsel),
381 .ilimsels = fixed_2400000_ilimsel,
382 .enable = __MK_FIELD(REG_DCDC_EN, DCDCDCDC_EN_MASK,
383 DCDCDCDC1_EN_SHIFT),
384 .voltage = __MK_FIELD(REG_DCDC_SET, DCDC_VDCDC_MASK,
385 DCDC_VDCDC1_SHIFT),
388 .name = "DCDC2",
389 .n_voltages = ARRAY_SIZE(dcdc2_voltages),
390 .voltages = dcdc2_voltages,
391 .n_ilimsels = ARRAY_SIZE(fixed_1200000_ilimsel),
392 .ilimsels = fixed_1200000_ilimsel,
393 .enable = __MK_FIELD(REG_DCDC_EN, DCDCDCDC_EN_MASK,
394 DCDCDCDC2_EN_SHIFT),
395 .voltage = __MK_FIELD(REG_DCDC_SET, DCDC_VDCDC_MASK,
396 DCDC_VDCDC2_SHIFT),
399 .name = "DCDC3",
400 .n_voltages = ARRAY_SIZE(dcdc3_voltages),
401 .voltages = dcdc3_voltages,
402 .n_ilimsels = ARRAY_SIZE(fixed_1200000_ilimsel),
403 .ilimsels = fixed_1200000_ilimsel,
404 .enable = __MK_FIELD(REG_DCDC_EN, DCDCDCDC_EN_MASK,
405 DCDCDCDC3_EN_SHIFT),
406 .voltage = __MK_FIELD(REG_DCDC_SET, DCDC_VDCDC_MASK,
407 DCDC_VDCDC3_SHIFT),
410 .name = "LDO1",
411 .n_voltages = ARRAY_SIZE(ldo1_voltages),
412 .voltages = ldo1_voltages,
413 .n_ilimsels = ARRAY_SIZE(ldo_ilimsel),
414 .ilimsels = ldo_ilimsel,
415 .enable = __MK_FIELD(REG_BLOCK_EN, BLOCK_MASK,
416 BLOCK_LDO1_SHIFT),
417 .voltage = __MK_FIELD(REG_LDO_SET, LDO_VSEL_MASK,
418 LDO1_VSEL_SHIFT),
419 .ilimsel = __MK_FIELD(REG_LDO_SET, LDO_ILIM_MASK,
420 LDO1_ILIM_SHIFT),
423 .name = "LDO2",
424 .n_voltages = ARRAY_SIZE(ldo2_voltages),
425 .voltages = ldo2_voltages,
426 .n_ilimsels = ARRAY_SIZE(ldo_ilimsel),
427 .ilimsels = ldo_ilimsel,
428 .enable = __MK_FIELD(REG_BLOCK_EN, BLOCK_MASK,
429 BLOCK_LDO2_SHIFT),
430 .voltage = __MK_FIELD(REG_LDO_SET, LDO_VSEL_MASK,
431 LDO2_VSEL_SHIFT),
432 .ilimsel = __MK_FIELD(REG_LDO_SET, LDO_ILIM_MASK,
433 LDO2_ILIM_SHIFT),
436 .name = "USB",
437 .n_voltages = ARRAY_SIZE(fixed_5000000_voltage),
438 .voltages = fixed_5000000_voltage,
439 .n_ilimsels = ARRAY_SIZE(usb_ilimsel),
440 .ilimsels = usb_ilimsel,
441 .enable = __MK_FIELD(REG_BLOCK_EN, BLOCK_MASK,
442 BLOCK_USB_SHIFT),
443 .ilimsel = __MK_FIELD(REG_USB, USB_ILIM_MASK,
444 USB_ILIM_SHIFT),
447 .name = "LCD",
448 .n_voltages = ARRAY_SIZE(fixed_5000000_voltage),
449 .voltages = fixed_5000000_voltage,
450 .n_ilimsels = ARRAY_SIZE(fixed_400000_ilimsel),
451 .ilimsels = fixed_400000_ilimsel,
452 .enable = __MK_FIELD(REG_BLOCK_EN, BLOCK_MASK,
453 BLOCK_LCD_SHIFT),
457 static int set_voltage_sel(struct regulator_dev *rdev, unsigned selector)
459 const struct supply_info *info;
460 struct tps6524x *hw;
462 hw = rdev_get_drvdata(rdev);
463 info = &supply_info[rdev_get_id(rdev)];
465 if (rdev->desc->n_voltages == 1)
466 return -EINVAL;
468 return write_field(hw, &info->voltage, selector);
471 static int get_voltage_sel(struct regulator_dev *rdev)
473 const struct supply_info *info;
474 struct tps6524x *hw;
475 int ret;
477 hw = rdev_get_drvdata(rdev);
478 info = &supply_info[rdev_get_id(rdev)];
480 if (rdev->desc->n_voltages == 1)
481 return 0;
483 ret = read_field(hw, &info->voltage);
484 if (ret < 0)
485 return ret;
486 if (WARN_ON(ret >= info->n_voltages))
487 return -EIO;
489 return ret;
492 static int set_current_limit(struct regulator_dev *rdev, int min_uA,
493 int max_uA)
495 const struct supply_info *info;
496 struct tps6524x *hw;
497 int i;
499 hw = rdev_get_drvdata(rdev);
500 info = &supply_info[rdev_get_id(rdev)];
502 if (info->n_ilimsels == 1)
503 return -EINVAL;
505 for (i = info->n_ilimsels - 1; i >= 0; i--) {
506 if (min_uA <= info->ilimsels[i] &&
507 max_uA >= info->ilimsels[i])
508 return write_field(hw, &info->ilimsel, i);
511 return -EINVAL;
514 static int get_current_limit(struct regulator_dev *rdev)
516 const struct supply_info *info;
517 struct tps6524x *hw;
518 int ret;
520 hw = rdev_get_drvdata(rdev);
521 info = &supply_info[rdev_get_id(rdev)];
523 if (info->n_ilimsels == 1)
524 return info->ilimsels[0];
526 ret = read_field(hw, &info->ilimsel);
527 if (ret < 0)
528 return ret;
529 if (WARN_ON(ret >= info->n_ilimsels))
530 return -EIO;
532 return info->ilimsels[ret];
535 static int enable_supply(struct regulator_dev *rdev)
537 const struct supply_info *info;
538 struct tps6524x *hw;
540 hw = rdev_get_drvdata(rdev);
541 info = &supply_info[rdev_get_id(rdev)];
543 return write_field(hw, &info->enable, 1);
546 static int disable_supply(struct regulator_dev *rdev)
548 const struct supply_info *info;
549 struct tps6524x *hw;
551 hw = rdev_get_drvdata(rdev);
552 info = &supply_info[rdev_get_id(rdev)];
554 return write_field(hw, &info->enable, 0);
557 static int is_supply_enabled(struct regulator_dev *rdev)
559 const struct supply_info *info;
560 struct tps6524x *hw;
562 hw = rdev_get_drvdata(rdev);
563 info = &supply_info[rdev_get_id(rdev)];
565 return read_field(hw, &info->enable);
568 static struct regulator_ops regulator_ops = {
569 .is_enabled = is_supply_enabled,
570 .enable = enable_supply,
571 .disable = disable_supply,
572 .get_voltage_sel = get_voltage_sel,
573 .set_voltage_sel = set_voltage_sel,
574 .list_voltage = regulator_list_voltage_table,
575 .map_voltage = regulator_map_voltage_ascend,
576 .set_current_limit = set_current_limit,
577 .get_current_limit = get_current_limit,
580 static int pmic_probe(struct spi_device *spi)
582 struct tps6524x *hw;
583 struct device *dev = &spi->dev;
584 const struct supply_info *info = supply_info;
585 struct regulator_init_data *init_data;
586 struct regulator_config config = { };
587 int i;
589 init_data = dev_get_platdata(dev);
590 if (!init_data) {
591 dev_err(dev, "could not find regulator platform data\n");
592 return -EINVAL;
595 hw = devm_kzalloc(&spi->dev, sizeof(struct tps6524x), GFP_KERNEL);
596 if (!hw)
597 return -ENOMEM;
599 spi_set_drvdata(spi, hw);
601 memset(hw, 0, sizeof(struct tps6524x));
602 hw->dev = dev;
603 hw->spi = spi_dev_get(spi);
604 mutex_init(&hw->lock);
606 for (i = 0; i < N_REGULATORS; i++, info++, init_data++) {
607 hw->desc[i].name = info->name;
608 hw->desc[i].id = i;
609 hw->desc[i].n_voltages = info->n_voltages;
610 hw->desc[i].volt_table = info->voltages;
611 hw->desc[i].ops = &regulator_ops;
612 hw->desc[i].type = REGULATOR_VOLTAGE;
613 hw->desc[i].owner = THIS_MODULE;
615 config.dev = dev;
616 config.init_data = init_data;
617 config.driver_data = hw;
619 hw->rdev[i] = devm_regulator_register(dev, &hw->desc[i],
620 &config);
621 if (IS_ERR(hw->rdev[i]))
622 return PTR_ERR(hw->rdev[i]);
625 return 0;
628 static struct spi_driver pmic_driver = {
629 .probe = pmic_probe,
630 .driver = {
631 .name = "tps6524x",
635 module_spi_driver(pmic_driver);
637 MODULE_DESCRIPTION("TPS6524X PMIC Driver");
638 MODULE_AUTHOR("Cyril Chemparathy");
639 MODULE_LICENSE("GPL");
640 MODULE_ALIAS("spi:tps6524x");