1*713337d9SAndreas Klinger // SPDX-License-Identifier: GPL-2.0-or-later 2*713337d9SAndreas Klinger /* 3*713337d9SAndreas Klinger * MPRLS0025PA - Honeywell MicroPressure pressure sensor series driver 4*713337d9SAndreas Klinger * 5*713337d9SAndreas Klinger * Copyright (c) Andreas Klinger <ak@it-klinger.de> 6*713337d9SAndreas Klinger * 7*713337d9SAndreas Klinger * Data sheet: 8*713337d9SAndreas Klinger * https://prod-edam.honeywell.com/content/dam/honeywell-edam/sps/siot/en-us/ 9*713337d9SAndreas Klinger * products/sensors/pressure-sensors/board-mount-pressure-sensors/ 10*713337d9SAndreas Klinger * micropressure-mpr-series/documents/ 11*713337d9SAndreas Klinger * sps-siot-mpr-series-datasheet-32332628-ciid-172626.pdf 12*713337d9SAndreas Klinger * 13*713337d9SAndreas Klinger * 7-bit I2C default slave address: 0x18 14*713337d9SAndreas Klinger */ 15*713337d9SAndreas Klinger 16*713337d9SAndreas Klinger #include <linux/delay.h> 17*713337d9SAndreas Klinger #include <linux/device.h> 18*713337d9SAndreas Klinger #include <linux/i2c.h> 19*713337d9SAndreas Klinger #include <linux/math64.h> 20*713337d9SAndreas Klinger #include <linux/mod_devicetable.h> 21*713337d9SAndreas Klinger #include <linux/module.h> 22*713337d9SAndreas Klinger #include <linux/property.h> 23*713337d9SAndreas Klinger #include <linux/units.h> 24*713337d9SAndreas Klinger 25*713337d9SAndreas Klinger #include <linux/gpio/consumer.h> 26*713337d9SAndreas Klinger 27*713337d9SAndreas Klinger #include <linux/iio/buffer.h> 28*713337d9SAndreas Klinger #include <linux/iio/iio.h> 29*713337d9SAndreas Klinger #include <linux/iio/trigger_consumer.h> 30*713337d9SAndreas Klinger #include <linux/iio/triggered_buffer.h> 31*713337d9SAndreas Klinger 32*713337d9SAndreas Klinger #include <linux/regulator/consumer.h> 33*713337d9SAndreas Klinger 34*713337d9SAndreas Klinger #include <asm/unaligned.h> 35*713337d9SAndreas Klinger 36*713337d9SAndreas Klinger /* bits in i2c status byte */ 37*713337d9SAndreas Klinger #define MPR_I2C_POWER BIT(6) /* device is powered */ 38*713337d9SAndreas Klinger #define MPR_I2C_BUSY BIT(5) /* device is busy */ 39*713337d9SAndreas Klinger #define MPR_I2C_MEMORY BIT(2) /* integrity test passed */ 40*713337d9SAndreas Klinger #define MPR_I2C_MATH BIT(0) /* internal math saturation */ 41*713337d9SAndreas Klinger 42*713337d9SAndreas Klinger /* 43*713337d9SAndreas Klinger * support _RAW sysfs interface: 44*713337d9SAndreas Klinger * 45*713337d9SAndreas Klinger * Calculation formula from the datasheet: 46*713337d9SAndreas Klinger * pressure = (press_cnt - outputmin) * scale + pmin 47*713337d9SAndreas Klinger * with: 48*713337d9SAndreas Klinger * * pressure - measured pressure in Pascal 49*713337d9SAndreas Klinger * * press_cnt - raw value read from sensor 50*713337d9SAndreas Klinger * * pmin - minimum pressure range value of sensor (data->pmin) 51*713337d9SAndreas Klinger * * pmax - maximum pressure range value of sensor (data->pmax) 52*713337d9SAndreas Klinger * * outputmin - minimum numerical range raw value delivered by sensor 53*713337d9SAndreas Klinger * (mpr_func_spec.output_min) 54*713337d9SAndreas Klinger * * outputmax - maximum numerical range raw value delivered by sensor 55*713337d9SAndreas Klinger * (mpr_func_spec.output_max) 56*713337d9SAndreas Klinger * * scale - (pmax - pmin) / (outputmax - outputmin) 57*713337d9SAndreas Klinger * 58*713337d9SAndreas Klinger * formula of the userspace: 59*713337d9SAndreas Klinger * pressure = (raw + offset) * scale 60*713337d9SAndreas Klinger * 61*713337d9SAndreas Klinger * Values given to the userspace in sysfs interface: 62*713337d9SAndreas Klinger * * raw - press_cnt 63*713337d9SAndreas Klinger * * offset - (-1 * outputmin) - pmin / scale 64*713337d9SAndreas Klinger * note: With all sensors from the datasheet pmin = 0 65*713337d9SAndreas Klinger * which reduces the offset to (-1 * outputmin) 66*713337d9SAndreas Klinger */ 67*713337d9SAndreas Klinger 68*713337d9SAndreas Klinger /* 69*713337d9SAndreas Klinger * transfer function A: 10% to 90% of 2^24 70*713337d9SAndreas Klinger * transfer function B: 2.5% to 22.5% of 2^24 71*713337d9SAndreas Klinger * transfer function C: 20% to 80% of 2^24 72*713337d9SAndreas Klinger */ 73*713337d9SAndreas Klinger enum mpr_func_id { 74*713337d9SAndreas Klinger MPR_FUNCTION_A, 75*713337d9SAndreas Klinger MPR_FUNCTION_B, 76*713337d9SAndreas Klinger MPR_FUNCTION_C, 77*713337d9SAndreas Klinger }; 78*713337d9SAndreas Klinger 79*713337d9SAndreas Klinger struct mpr_func_spec { 80*713337d9SAndreas Klinger u32 output_min; 81*713337d9SAndreas Klinger u32 output_max; 82*713337d9SAndreas Klinger }; 83*713337d9SAndreas Klinger 84*713337d9SAndreas Klinger static const struct mpr_func_spec mpr_func_spec[] = { 85*713337d9SAndreas Klinger [MPR_FUNCTION_A] = {.output_min = 1677722, .output_max = 15099494}, 86*713337d9SAndreas Klinger [MPR_FUNCTION_B] = {.output_min = 419430, .output_max = 3774874}, 87*713337d9SAndreas Klinger [MPR_FUNCTION_C] = {.output_min = 3355443, .output_max = 13421773}, 88*713337d9SAndreas Klinger }; 89*713337d9SAndreas Klinger 90*713337d9SAndreas Klinger struct mpr_chan { 91*713337d9SAndreas Klinger s32 pres; /* pressure value */ 92*713337d9SAndreas Klinger s64 ts; /* timestamp */ 93*713337d9SAndreas Klinger }; 94*713337d9SAndreas Klinger 95*713337d9SAndreas Klinger struct mpr_data { 96*713337d9SAndreas Klinger struct i2c_client *client; 97*713337d9SAndreas Klinger struct mutex lock; /* 98*713337d9SAndreas Klinger * access to device during read 99*713337d9SAndreas Klinger */ 100*713337d9SAndreas Klinger u32 pmin; /* minimal pressure in pascal */ 101*713337d9SAndreas Klinger u32 pmax; /* maximal pressure in pascal */ 102*713337d9SAndreas Klinger enum mpr_func_id function; /* transfer function */ 103*713337d9SAndreas Klinger u32 outmin; /* 104*713337d9SAndreas Klinger * minimal numerical range raw 105*713337d9SAndreas Klinger * value from sensor 106*713337d9SAndreas Klinger */ 107*713337d9SAndreas Klinger u32 outmax; /* 108*713337d9SAndreas Klinger * maximal numerical range raw 109*713337d9SAndreas Klinger * value from sensor 110*713337d9SAndreas Klinger */ 111*713337d9SAndreas Klinger int scale; /* int part of scale */ 112*713337d9SAndreas Klinger int scale2; /* nano part of scale */ 113*713337d9SAndreas Klinger int offset; /* int part of offset */ 114*713337d9SAndreas Klinger int offset2; /* nano part of offset */ 115*713337d9SAndreas Klinger struct gpio_desc *gpiod_reset; /* reset */ 116*713337d9SAndreas Klinger int irq; /* 117*713337d9SAndreas Klinger * end of conversion irq; 118*713337d9SAndreas Klinger * used to distinguish between 119*713337d9SAndreas Klinger * irq mode and reading in a 120*713337d9SAndreas Klinger * loop until data is ready 121*713337d9SAndreas Klinger */ 122*713337d9SAndreas Klinger struct completion completion; /* handshake from irq to read */ 123*713337d9SAndreas Klinger struct mpr_chan chan; /* 124*713337d9SAndreas Klinger * channel values for buffered 125*713337d9SAndreas Klinger * mode 126*713337d9SAndreas Klinger */ 127*713337d9SAndreas Klinger }; 128*713337d9SAndreas Klinger 129*713337d9SAndreas Klinger static const struct iio_chan_spec mpr_channels[] = { 130*713337d9SAndreas Klinger { 131*713337d9SAndreas Klinger .type = IIO_PRESSURE, 132*713337d9SAndreas Klinger .info_mask_separate = BIT(IIO_CHAN_INFO_RAW) | 133*713337d9SAndreas Klinger BIT(IIO_CHAN_INFO_SCALE) | 134*713337d9SAndreas Klinger BIT(IIO_CHAN_INFO_OFFSET), 135*713337d9SAndreas Klinger .scan_index = 0, 136*713337d9SAndreas Klinger .scan_type = { 137*713337d9SAndreas Klinger .sign = 's', 138*713337d9SAndreas Klinger .realbits = 32, 139*713337d9SAndreas Klinger .storagebits = 32, 140*713337d9SAndreas Klinger .endianness = IIO_CPU, 141*713337d9SAndreas Klinger }, 142*713337d9SAndreas Klinger }, 143*713337d9SAndreas Klinger IIO_CHAN_SOFT_TIMESTAMP(1), 144*713337d9SAndreas Klinger }; 145*713337d9SAndreas Klinger 146*713337d9SAndreas Klinger static void mpr_reset(struct mpr_data *data) 147*713337d9SAndreas Klinger { 148*713337d9SAndreas Klinger if (data->gpiod_reset) { 149*713337d9SAndreas Klinger gpiod_set_value(data->gpiod_reset, 0); 150*713337d9SAndreas Klinger udelay(10); 151*713337d9SAndreas Klinger gpiod_set_value(data->gpiod_reset, 1); 152*713337d9SAndreas Klinger } 153*713337d9SAndreas Klinger } 154*713337d9SAndreas Klinger 155*713337d9SAndreas Klinger /** 156*713337d9SAndreas Klinger * mpr_read_pressure() - Read pressure value from sensor via I2C 157*713337d9SAndreas Klinger * @data: Pointer to private data struct. 158*713337d9SAndreas Klinger * @press: Output value read from sensor. 159*713337d9SAndreas Klinger * 160*713337d9SAndreas Klinger * Reading from the sensor by sending and receiving I2C telegrams. 161*713337d9SAndreas Klinger * 162*713337d9SAndreas Klinger * If there is an end of conversion (EOC) interrupt registered the function 163*713337d9SAndreas Klinger * waits for a maximum of one second for the interrupt. 164*713337d9SAndreas Klinger * 165*713337d9SAndreas Klinger * Context: The function can sleep and data->lock should be held when calling it 166*713337d9SAndreas Klinger * Return: 167*713337d9SAndreas Klinger * * 0 - OK, the pressure value could be read 168*713337d9SAndreas Klinger * * -ETIMEDOUT - Timeout while waiting for the EOC interrupt or busy flag is 169*713337d9SAndreas Klinger * still set after nloops attempts of reading 170*713337d9SAndreas Klinger */ 171*713337d9SAndreas Klinger static int mpr_read_pressure(struct mpr_data *data, s32 *press) 172*713337d9SAndreas Klinger { 173*713337d9SAndreas Klinger struct device *dev = &data->client->dev; 174*713337d9SAndreas Klinger int ret, i; 175*713337d9SAndreas Klinger u8 wdata[] = {0xAA, 0x00, 0x00}; 176*713337d9SAndreas Klinger s32 status; 177*713337d9SAndreas Klinger int nloops = 10; 178*713337d9SAndreas Klinger u8 buf[4]; 179*713337d9SAndreas Klinger 180*713337d9SAndreas Klinger reinit_completion(&data->completion); 181*713337d9SAndreas Klinger 182*713337d9SAndreas Klinger ret = i2c_master_send(data->client, wdata, sizeof(wdata)); 183*713337d9SAndreas Klinger if (ret < 0) { 184*713337d9SAndreas Klinger dev_err(dev, "error while writing ret: %d\n", ret); 185*713337d9SAndreas Klinger return ret; 186*713337d9SAndreas Klinger } 187*713337d9SAndreas Klinger if (ret != sizeof(wdata)) { 188*713337d9SAndreas Klinger dev_err(dev, "received size doesn't fit - ret: %d / %u\n", ret, 189*713337d9SAndreas Klinger (u32)sizeof(wdata)); 190*713337d9SAndreas Klinger return -EIO; 191*713337d9SAndreas Klinger } 192*713337d9SAndreas Klinger 193*713337d9SAndreas Klinger if (data->irq > 0) { 194*713337d9SAndreas Klinger ret = wait_for_completion_timeout(&data->completion, HZ); 195*713337d9SAndreas Klinger if (!ret) { 196*713337d9SAndreas Klinger dev_err(dev, "timeout while waiting for eoc irq\n"); 197*713337d9SAndreas Klinger return -ETIMEDOUT; 198*713337d9SAndreas Klinger } 199*713337d9SAndreas Klinger } else { 200*713337d9SAndreas Klinger /* wait until status indicates data is ready */ 201*713337d9SAndreas Klinger for (i = 0; i < nloops; i++) { 202*713337d9SAndreas Klinger /* 203*713337d9SAndreas Klinger * datasheet only says to wait at least 5 ms for the 204*713337d9SAndreas Klinger * data but leave the maximum response time open 205*713337d9SAndreas Klinger * --> let's try it nloops (10) times which seems to be 206*713337d9SAndreas Klinger * quite long 207*713337d9SAndreas Klinger */ 208*713337d9SAndreas Klinger usleep_range(5000, 10000); 209*713337d9SAndreas Klinger status = i2c_smbus_read_byte(data->client); 210*713337d9SAndreas Klinger if (status < 0) { 211*713337d9SAndreas Klinger dev_err(dev, 212*713337d9SAndreas Klinger "error while reading, status: %d\n", 213*713337d9SAndreas Klinger status); 214*713337d9SAndreas Klinger return status; 215*713337d9SAndreas Klinger } 216*713337d9SAndreas Klinger if (!(status & MPR_I2C_BUSY)) 217*713337d9SAndreas Klinger break; 218*713337d9SAndreas Klinger } 219*713337d9SAndreas Klinger if (i == nloops) { 220*713337d9SAndreas Klinger dev_err(dev, "timeout while reading\n"); 221*713337d9SAndreas Klinger return -ETIMEDOUT; 222*713337d9SAndreas Klinger } 223*713337d9SAndreas Klinger } 224*713337d9SAndreas Klinger 225*713337d9SAndreas Klinger ret = i2c_master_recv(data->client, buf, sizeof(buf)); 226*713337d9SAndreas Klinger if (ret < 0) { 227*713337d9SAndreas Klinger dev_err(dev, "error in i2c_master_recv ret: %d\n", ret); 228*713337d9SAndreas Klinger return ret; 229*713337d9SAndreas Klinger } 230*713337d9SAndreas Klinger if (ret != sizeof(buf)) { 231*713337d9SAndreas Klinger dev_err(dev, "received size doesn't fit - ret: %d / %u\n", ret, 232*713337d9SAndreas Klinger (u32)sizeof(buf)); 233*713337d9SAndreas Klinger return -EIO; 234*713337d9SAndreas Klinger } 235*713337d9SAndreas Klinger 236*713337d9SAndreas Klinger if (buf[0] & MPR_I2C_BUSY) { 237*713337d9SAndreas Klinger /* 238*713337d9SAndreas Klinger * it should never be the case that status still indicates 239*713337d9SAndreas Klinger * business 240*713337d9SAndreas Klinger */ 241*713337d9SAndreas Klinger dev_err(dev, "data still not ready: %08x\n", buf[0]); 242*713337d9SAndreas Klinger return -ETIMEDOUT; 243*713337d9SAndreas Klinger } 244*713337d9SAndreas Klinger 245*713337d9SAndreas Klinger *press = get_unaligned_be24(&buf[1]); 246*713337d9SAndreas Klinger 247*713337d9SAndreas Klinger dev_dbg(dev, "received: %*ph cnt: %d\n", ret, buf, *press); 248*713337d9SAndreas Klinger 249*713337d9SAndreas Klinger return 0; 250*713337d9SAndreas Klinger } 251*713337d9SAndreas Klinger 252*713337d9SAndreas Klinger static irqreturn_t mpr_eoc_handler(int irq, void *p) 253*713337d9SAndreas Klinger { 254*713337d9SAndreas Klinger struct mpr_data *data = p; 255*713337d9SAndreas Klinger 256*713337d9SAndreas Klinger complete(&data->completion); 257*713337d9SAndreas Klinger 258*713337d9SAndreas Klinger return IRQ_HANDLED; 259*713337d9SAndreas Klinger } 260*713337d9SAndreas Klinger 261*713337d9SAndreas Klinger static irqreturn_t mpr_trigger_handler(int irq, void *p) 262*713337d9SAndreas Klinger { 263*713337d9SAndreas Klinger int ret; 264*713337d9SAndreas Klinger struct iio_poll_func *pf = p; 265*713337d9SAndreas Klinger struct iio_dev *indio_dev = pf->indio_dev; 266*713337d9SAndreas Klinger struct mpr_data *data = iio_priv(indio_dev); 267*713337d9SAndreas Klinger 268*713337d9SAndreas Klinger mutex_lock(&data->lock); 269*713337d9SAndreas Klinger ret = mpr_read_pressure(data, &data->chan.pres); 270*713337d9SAndreas Klinger if (ret < 0) 271*713337d9SAndreas Klinger goto err; 272*713337d9SAndreas Klinger 273*713337d9SAndreas Klinger iio_push_to_buffers_with_timestamp(indio_dev, &data->chan, 274*713337d9SAndreas Klinger iio_get_time_ns(indio_dev)); 275*713337d9SAndreas Klinger 276*713337d9SAndreas Klinger err: 277*713337d9SAndreas Klinger mutex_unlock(&data->lock); 278*713337d9SAndreas Klinger iio_trigger_notify_done(indio_dev->trig); 279*713337d9SAndreas Klinger 280*713337d9SAndreas Klinger return IRQ_HANDLED; 281*713337d9SAndreas Klinger } 282*713337d9SAndreas Klinger 283*713337d9SAndreas Klinger static int mpr_read_raw(struct iio_dev *indio_dev, 284*713337d9SAndreas Klinger struct iio_chan_spec const *chan, int *val, int *val2, long mask) 285*713337d9SAndreas Klinger { 286*713337d9SAndreas Klinger int ret; 287*713337d9SAndreas Klinger s32 pressure; 288*713337d9SAndreas Klinger struct mpr_data *data = iio_priv(indio_dev); 289*713337d9SAndreas Klinger 290*713337d9SAndreas Klinger if (chan->type != IIO_PRESSURE) 291*713337d9SAndreas Klinger return -EINVAL; 292*713337d9SAndreas Klinger 293*713337d9SAndreas Klinger switch (mask) { 294*713337d9SAndreas Klinger case IIO_CHAN_INFO_RAW: 295*713337d9SAndreas Klinger mutex_lock(&data->lock); 296*713337d9SAndreas Klinger ret = mpr_read_pressure(data, &pressure); 297*713337d9SAndreas Klinger mutex_unlock(&data->lock); 298*713337d9SAndreas Klinger if (ret < 0) 299*713337d9SAndreas Klinger return ret; 300*713337d9SAndreas Klinger *val = pressure; 301*713337d9SAndreas Klinger return IIO_VAL_INT; 302*713337d9SAndreas Klinger case IIO_CHAN_INFO_SCALE: 303*713337d9SAndreas Klinger *val = data->scale; 304*713337d9SAndreas Klinger *val2 = data->scale2; 305*713337d9SAndreas Klinger return IIO_VAL_INT_PLUS_NANO; 306*713337d9SAndreas Klinger case IIO_CHAN_INFO_OFFSET: 307*713337d9SAndreas Klinger *val = data->offset; 308*713337d9SAndreas Klinger *val2 = data->offset2; 309*713337d9SAndreas Klinger return IIO_VAL_INT_PLUS_NANO; 310*713337d9SAndreas Klinger default: 311*713337d9SAndreas Klinger return -EINVAL; 312*713337d9SAndreas Klinger } 313*713337d9SAndreas Klinger } 314*713337d9SAndreas Klinger 315*713337d9SAndreas Klinger static const struct iio_info mpr_info = { 316*713337d9SAndreas Klinger .read_raw = &mpr_read_raw, 317*713337d9SAndreas Klinger }; 318*713337d9SAndreas Klinger 319*713337d9SAndreas Klinger static int mpr_probe(struct i2c_client *client) 320*713337d9SAndreas Klinger { 321*713337d9SAndreas Klinger int ret; 322*713337d9SAndreas Klinger struct mpr_data *data; 323*713337d9SAndreas Klinger struct iio_dev *indio_dev; 324*713337d9SAndreas Klinger struct device *dev = &client->dev; 325*713337d9SAndreas Klinger s64 scale, offset; 326*713337d9SAndreas Klinger 327*713337d9SAndreas Klinger if (!i2c_check_functionality(client->adapter, I2C_FUNC_SMBUS_READ_BYTE)) 328*713337d9SAndreas Klinger return dev_err_probe(dev, -EOPNOTSUPP, 329*713337d9SAndreas Klinger "I2C functionality not supported\n"); 330*713337d9SAndreas Klinger 331*713337d9SAndreas Klinger indio_dev = devm_iio_device_alloc(dev, sizeof(*data)); 332*713337d9SAndreas Klinger if (!indio_dev) 333*713337d9SAndreas Klinger return dev_err_probe(dev, -ENOMEM, "couldn't get iio_dev\n"); 334*713337d9SAndreas Klinger 335*713337d9SAndreas Klinger data = iio_priv(indio_dev); 336*713337d9SAndreas Klinger data->client = client; 337*713337d9SAndreas Klinger data->irq = client->irq; 338*713337d9SAndreas Klinger 339*713337d9SAndreas Klinger mutex_init(&data->lock); 340*713337d9SAndreas Klinger init_completion(&data->completion); 341*713337d9SAndreas Klinger 342*713337d9SAndreas Klinger indio_dev->name = "mprls0025pa"; 343*713337d9SAndreas Klinger indio_dev->info = &mpr_info; 344*713337d9SAndreas Klinger indio_dev->channels = mpr_channels; 345*713337d9SAndreas Klinger indio_dev->num_channels = ARRAY_SIZE(mpr_channels); 346*713337d9SAndreas Klinger indio_dev->modes = INDIO_DIRECT_MODE; 347*713337d9SAndreas Klinger 348*713337d9SAndreas Klinger ret = devm_regulator_get_enable(dev, "vdd"); 349*713337d9SAndreas Klinger if (ret) 350*713337d9SAndreas Klinger return dev_err_probe(dev, ret, 351*713337d9SAndreas Klinger "can't get and enable vdd supply\n"); 352*713337d9SAndreas Klinger 353*713337d9SAndreas Klinger if (dev_fwnode(dev)) { 354*713337d9SAndreas Klinger ret = device_property_read_u32(dev, "honeywell,pmin-pascal", 355*713337d9SAndreas Klinger &data->pmin); 356*713337d9SAndreas Klinger if (ret) 357*713337d9SAndreas Klinger return dev_err_probe(dev, ret, 358*713337d9SAndreas Klinger "honeywell,pmin-pascal could not be read\n"); 359*713337d9SAndreas Klinger ret = device_property_read_u32(dev, "honeywell,pmax-pascal", 360*713337d9SAndreas Klinger &data->pmax); 361*713337d9SAndreas Klinger if (ret) 362*713337d9SAndreas Klinger return dev_err_probe(dev, ret, 363*713337d9SAndreas Klinger "honeywell,pmax-pascal could not be read\n"); 364*713337d9SAndreas Klinger ret = device_property_read_u32(dev, 365*713337d9SAndreas Klinger "honeywell,transfer-function", &data->function); 366*713337d9SAndreas Klinger if (ret) 367*713337d9SAndreas Klinger return dev_err_probe(dev, ret, 368*713337d9SAndreas Klinger "honeywell,transfer-function could not be read\n"); 369*713337d9SAndreas Klinger if (data->function > MPR_FUNCTION_C) 370*713337d9SAndreas Klinger return dev_err_probe(dev, -EINVAL, 371*713337d9SAndreas Klinger "honeywell,transfer-function %d invalid\n", 372*713337d9SAndreas Klinger data->function); 373*713337d9SAndreas Klinger } else { 374*713337d9SAndreas Klinger /* when loaded as i2c device we need to use default values */ 375*713337d9SAndreas Klinger dev_notice(dev, "firmware node not found; using defaults\n"); 376*713337d9SAndreas Klinger data->pmin = 0; 377*713337d9SAndreas Klinger data->pmax = 172369; /* 25 psi */ 378*713337d9SAndreas Klinger data->function = MPR_FUNCTION_A; 379*713337d9SAndreas Klinger } 380*713337d9SAndreas Klinger 381*713337d9SAndreas Klinger data->outmin = mpr_func_spec[data->function].output_min; 382*713337d9SAndreas Klinger data->outmax = mpr_func_spec[data->function].output_max; 383*713337d9SAndreas Klinger 384*713337d9SAndreas Klinger /* use 64 bit calculation for preserving a reasonable precision */ 385*713337d9SAndreas Klinger scale = div_s64(((s64)(data->pmax - data->pmin)) * NANO, 386*713337d9SAndreas Klinger data->outmax - data->outmin); 387*713337d9SAndreas Klinger data->scale = div_s64_rem(scale, NANO, &data->scale2); 388*713337d9SAndreas Klinger /* 389*713337d9SAndreas Klinger * multiply with NANO before dividing by scale and later divide by NANO 390*713337d9SAndreas Klinger * again. 391*713337d9SAndreas Klinger */ 392*713337d9SAndreas Klinger offset = ((-1LL) * (s64)data->outmin) * NANO - 393*713337d9SAndreas Klinger div_s64(div_s64((s64)data->pmin * NANO, scale), NANO); 394*713337d9SAndreas Klinger data->offset = div_s64_rem(offset, NANO, &data->offset2); 395*713337d9SAndreas Klinger 396*713337d9SAndreas Klinger if (data->irq > 0) { 397*713337d9SAndreas Klinger ret = devm_request_irq(dev, data->irq, mpr_eoc_handler, 398*713337d9SAndreas Klinger IRQF_TRIGGER_RISING, client->name, data); 399*713337d9SAndreas Klinger if (ret) 400*713337d9SAndreas Klinger return dev_err_probe(dev, ret, 401*713337d9SAndreas Klinger "request irq %d failed\n", data->irq); 402*713337d9SAndreas Klinger } 403*713337d9SAndreas Klinger 404*713337d9SAndreas Klinger data->gpiod_reset = devm_gpiod_get_optional(dev, "reset", 405*713337d9SAndreas Klinger GPIOD_OUT_HIGH); 406*713337d9SAndreas Klinger if (IS_ERR(data->gpiod_reset)) 407*713337d9SAndreas Klinger return dev_err_probe(dev, PTR_ERR(data->gpiod_reset), 408*713337d9SAndreas Klinger "request reset-gpio failed\n"); 409*713337d9SAndreas Klinger 410*713337d9SAndreas Klinger mpr_reset(data); 411*713337d9SAndreas Klinger 412*713337d9SAndreas Klinger ret = devm_iio_triggered_buffer_setup(dev, indio_dev, NULL, 413*713337d9SAndreas Klinger mpr_trigger_handler, NULL); 414*713337d9SAndreas Klinger if (ret) 415*713337d9SAndreas Klinger return dev_err_probe(dev, ret, 416*713337d9SAndreas Klinger "iio triggered buffer setup failed\n"); 417*713337d9SAndreas Klinger 418*713337d9SAndreas Klinger ret = devm_iio_device_register(dev, indio_dev); 419*713337d9SAndreas Klinger if (ret) 420*713337d9SAndreas Klinger return dev_err_probe(dev, ret, 421*713337d9SAndreas Klinger "unable to register iio device\n"); 422*713337d9SAndreas Klinger 423*713337d9SAndreas Klinger return 0; 424*713337d9SAndreas Klinger } 425*713337d9SAndreas Klinger 426*713337d9SAndreas Klinger static const struct of_device_id mpr_matches[] = { 427*713337d9SAndreas Klinger { .compatible = "honeywell,mprls0025pa" }, 428*713337d9SAndreas Klinger { } 429*713337d9SAndreas Klinger }; 430*713337d9SAndreas Klinger MODULE_DEVICE_TABLE(of, mpr_matches); 431*713337d9SAndreas Klinger 432*713337d9SAndreas Klinger static const struct i2c_device_id mpr_id[] = { 433*713337d9SAndreas Klinger { "mprls0025pa" }, 434*713337d9SAndreas Klinger { } 435*713337d9SAndreas Klinger }; 436*713337d9SAndreas Klinger MODULE_DEVICE_TABLE(i2c, mpr_id); 437*713337d9SAndreas Klinger 438*713337d9SAndreas Klinger static struct i2c_driver mpr_driver = { 439*713337d9SAndreas Klinger .probe = mpr_probe, 440*713337d9SAndreas Klinger .id_table = mpr_id, 441*713337d9SAndreas Klinger .driver = { 442*713337d9SAndreas Klinger .name = "mprls0025pa", 443*713337d9SAndreas Klinger .of_match_table = mpr_matches, 444*713337d9SAndreas Klinger }, 445*713337d9SAndreas Klinger }; 446*713337d9SAndreas Klinger module_i2c_driver(mpr_driver); 447*713337d9SAndreas Klinger 448*713337d9SAndreas Klinger MODULE_AUTHOR("Andreas Klinger <ak@it-klinger.de>"); 449*713337d9SAndreas Klinger MODULE_DESCRIPTION("Honeywell MPRLS0025PA I2C driver"); 450*713337d9SAndreas Klinger MODULE_LICENSE("GPL"); 451