diff options
Diffstat (limited to 'driver/accelgyro_lsm6dso.c')
-rw-r--r-- | driver/accelgyro_lsm6dso.c | 501 |
1 files changed, 501 insertions, 0 deletions
diff --git a/driver/accelgyro_lsm6dso.c b/driver/accelgyro_lsm6dso.c new file mode 100644 index 0000000000..d50e24aa17 --- /dev/null +++ b/driver/accelgyro_lsm6dso.c @@ -0,0 +1,501 @@ +/* Copyright 2019 The Chromium OS Authors. All rights reserved. + * Use of this source code is governed by a BSD-style license that can be + * found in the LICENSE file. + */ + +/** + * LSM6DSO Accel and Gyro module for Chrome EC + * 3D digital accelerometer & 3D digital gyroscope + * + * For any details on driver implementation please + * Refer to AN5192 Application Note on www.st.com + */ + +#include "driver/accelgyro_lsm6dso.h" +#include "hooks.h" +#include "hwtimer.h" +#include "math_util.h" +#include "task.h" +#include "timer.h" + +#define CPRINTS(format, args...) cprints(CC_ACCEL, format, ## args) + +#ifdef CONFIG_ACCEL_FIFO +static volatile uint32_t last_interrupt_timestamp; +#endif /* CONFIG_ACCEL_FIFO */ + +/* + * When ODR change, the sensor filters need settling time; + * Add a counter to discard a well known number of data with + * incorrect values. + */ +static uint32_t samples_to_discard[LSM6DSO_FIFO_DEV_NUM]; + +/** + * @return output data base register for sensor + */ +static inline int get_xyz_reg(enum motionsensor_type type) +{ + return LSM6DSO_ACCEL_OUT_X_L_ADDR - + (LSM6DSO_ACCEL_OUT_X_L_ADDR - LSM6DSO_GYRO_OUT_X_L_ADDR) * type; +} + +#ifdef CONFIG_ACCEL_INTERRUPTS +/** + * Configure interrupt int 1 to fire handler for: + * + * FIFO threshold on watermark (1 sample) + * + * @s: Motion sensor pointer + */ +static int config_interrupt(const struct motion_sensor_t *s) +{ + int ret = EC_SUCCESS; + +#ifdef CONFIG_ACCEL_FIFO + int int1_ctrl_val; + + ret = st_raw_read8(s->port, s->addr, LSM6DSO_INT1_CTRL, + &int1_ctrl_val); + if (ret != EC_SUCCESS) + return ret; + + /* + * Configure FIFO threshold to 1 sample: interrupt on watermark + * will be generated every time a new data sample will be stored + * in FIFO. The interrupr on watermark is cleared only when the + * number or samples still present in FIFO exceeds the configured + * threshold. + */ + ret = st_raw_write8(s->port, s->addr, LSM6DSO_FIFO_CTRL1_ADDR, 1); + if (ret != EC_SUCCESS) + return ret; + + int1_ctrl_val |= LSM6DSO_INT_FIFO_TH | LSM6DSO_INT_FIFO_OVR | + LSM6DSO_INT_FIFO_FULL; + + ret = st_raw_write8(s->port, s->addr, LSM6DSO_INT1_CTRL, + int1_ctrl_val); +#endif /* CONFIG_ACCEL_FIFO */ + + return ret; +} + +#ifdef CONFIG_ACCEL_FIFO +/** + * fifo_disable - set fifo mode to LSM6DSO_FIFO_MODE_BYPASS_VAL + * @s: Motion sensor pointer: must be MOTIONSENSE_TYPE_ACCEL. + */ +static int fifo_disable(const struct motion_sensor_t *s) +{ + return st_raw_write8(s->port, s->addr, LSM6DSO_FIFO_CTRL4_ADDR, + LSM6DSO_FIFO_MODE_BYPASS_VAL); +} + +/** + * set_fifo_params - Configure internal FIFO parameters + * + * Configure FIFO decimator to have every time the right pattern + * with acc/gyro + */ +static int fifo_enable(const struct motion_sensor_t *s) +{ + return st_raw_write8(s->port, s->addr, LSM6DSO_FIFO_CTRL4_ADDR, + LSM6DSO_FIFO_MODE_CONTINUOUS_VAL); +} + +/** + * push_fifo_data - Scan data pattern and push upside + */ +static void push_fifo_data(struct motion_sensor_t *main_s, uint8_t *fifo, + uint32_t saved_ts) +{ + struct ec_response_motion_sensor_data vect; + struct motion_sensor_t *sensor; + uint8_t tag; + int id; + int *axis; + uint8_t *ptr; + uint8_t ag_maps[] = { + MOTIONSENSE_TYPE_GYRO, + MOTIONSENSE_TYPE_ACCEL, + }; + + /* + * FIFO pattern is as follow (i.e. Acc/Gyro @ same ODR) + * ________ ____________ _______ ____________ + * | TAG_XL | Acc[x,y,z] | TAG_G | Gyr[x,y,z] | + * |________|____________|_______|____________| + * |<-------- 1 -------->|<-------- 2 ------->| (FIFO Threshold) + * + * First byte is tag, next data. + * Data pattern len is fixed for each sample. + * FIFO threshold is related to sample data (7 byte). + */ + ptr = fifo + LSM6DSO_TAG_SIZE; + tag = (*fifo >> 3) - LSM6DSO_GYRO_TAG; + id = ag_maps[tag]; + + /* Discard samples every ODR changes. */ + if (samples_to_discard[id] > 0) { + samples_to_discard[id]--; + return; + } + + sensor = main_s + id; + axis = sensor->raw_xyz; + + /* Apply precision, sensitivity and rotation. */ + st_normalize(sensor, axis, ptr); + vect.data[X] = axis[X]; + vect.data[Y] = axis[Y]; + vect.data[Z] = axis[Z]; + + vect.flags = 0; + vect.sensor_num = sensor - motion_sensors; + motion_sense_fifo_add_data(&vect, sensor, 3, saved_ts); +} + +static inline int load_fifo(struct motion_sensor_t *s, + const struct lsm6dso_fstatus *fsts, + uint32_t saved_ts) +{ + uint8_t fifo[FIFO_READ_LEN], *ptr; + int i, err, read_len = 0, word_len, fifo_len; + uint16_t fifo_depth; + + fifo_depth = fsts->len & LSM6DSO_FIFO_DIFF_MASK; + fifo_len = fifo_depth * LSM6DSO_FIFO_SAMPLE_SIZE; + while (read_len < fifo_len) { + word_len = GENERIC_MIN(fifo_len - read_len, sizeof(fifo)); + err = st_raw_read_n_noinc(s->port, s->addr, + LSM6DSO_FIFO_DATA_ADDR_TAG, + fifo, word_len); + if (err != EC_SUCCESS) + return err; + + for (i = 0; i < word_len; i += LSM6DSO_FIFO_SAMPLE_SIZE) { + ptr = &fifo[i]; + push_fifo_data(LSM6DSO_MAIN_SENSOR(s), ptr, saved_ts); + } + read_len += word_len; + } + + return read_len; +} + +/** + * accelgyro_config_fifo - update mode and ODR for FIFO decimator + */ +static int accelgyro_config_fifo(const struct motion_sensor_t *s) +{ + int err; + struct stprivate_data *data = LSM6DSO_GET_DATA(s); + uint8_t reg_val; + uint8_t fifo_odr_mask; + + /* Changing in ODR must stop FIFO. */ + err = fifo_disable(s); + if (err != EC_SUCCESS) + return err; + + /* + * If ODR changes restore to default discard samples number + * the counter related to this sensor. + */ + samples_to_discard[s->type] = LSM6DSO_DISCARD_SAMPLES; + + fifo_odr_mask = LSM6DSO_FIFO_ODR_TO_REG(s); + reg_val = LSM6DSO_ODR_TO_REG(data->base.odr); + err = st_write_data_with_mask(s, LSM6DSO_FIFO_CTRL3_ADDR, + fifo_odr_mask, reg_val); + if (err != EC_SUCCESS) + return err; + + return fifo_enable(s); +} +#endif /* CONFIG_ACCEL_FIFO */ + +/** + * lsm6dso_interrupt - interrupt from int1 pin of sensor + */ +void lsm6dso_interrupt(enum gpio_signal signal) +{ +#ifdef CONFIG_ACCEL_FIFO + last_interrupt_timestamp = __hw_clock_source_read(); +#endif /* CONFIG_ACCEL_FIFO */ + + task_set_event(TASK_ID_MOTIONSENSE, + CONFIG_ACCEL_LSM6DSO_INT_EVENT, 0); +} + +/** + * irq_handler - bottom half of the interrupt task sheduled by consumer + */ +static int irq_handler(struct motion_sensor_t *s, uint32_t *event) +{ + int ret = EC_SUCCESS; + struct lsm6dso_fstatus fsts; + + if (((s->type != MOTIONSENSE_TYPE_ACCEL) && + (s->type != MOTIONSENSE_TYPE_GYRO)) || + (!(*event & CONFIG_ACCEL_LSM6DSO_INT_EVENT))) + return EC_ERROR_NOT_HANDLED; + +#ifdef CONFIG_ACCEL_FIFO + /* Read how many data patterns on FIFO to read. */ + ret = st_raw_read_n_noinc(s->port, s->addr, + LSM6DSO_FIFO_STS1_ADDR, + (uint8_t *)&fsts, sizeof(fsts)); + if (ret != EC_SUCCESS) + return ret; + + if (fsts.len & (LSM6DSO_FIFO_DATA_OVR | LSM6DSO_FIFO_FULL)) { + CPRINTS("%s FIFO Overrun: %04x\n", s->name, fsts.len); + } + + if (fsts.len & LSM6DSO_FIFO_DIFF_MASK) + ret = load_fifo(s, &fsts, last_interrupt_timestamp); +#endif /* CONFIG_ACCEL_FIFO */ + + return ret; +} +#endif /* CONFIG_ACCEL_INTERRUPTS */ + +/** + * set_range - set full scale range + * @s: Motion sensor pointer + * @range: Range + * @rnd: Round up/down flag + * Note: Range is sensitivity/gain for speed purpose + */ +static int set_range(const struct motion_sensor_t *s, int range, int rnd) +{ + int err; + uint8_t ctrl_reg, reg_val; + struct stprivate_data *data = LSM6DSO_GET_DATA(s); + int newrange = range; + + ctrl_reg = LSM6DSO_RANGE_REG(s->type); + if (s->type == MOTIONSENSE_TYPE_ACCEL) { + /* Adjust and check rounded value for Acc. */ + if (rnd && (newrange < LSM6DSO_ACCEL_NORMALIZE_FS(newrange))) + newrange *= 2; + + if (newrange > LSM6DSO_ACCEL_FS_MAX_VAL) + newrange = LSM6DSO_ACCEL_FS_MAX_VAL; + + reg_val = lsm6dso_accel_fs_reg(newrange); + } else { + /* Adjust and check rounded value for Gyro. */ + reg_val = LSM6DSO_GYRO_FS_REG(range); + if (rnd && (range > LSM6DSO_GYRO_NORMALIZE_FS(reg_val))) + reg_val++; + + if (reg_val > LSM6DSO_GYRO_FS_MAX_REG_VAL) + reg_val = LSM6DSO_GYRO_FS_MAX_REG_VAL; + + newrange = LSM6DSO_GYRO_NORMALIZE_FS(reg_val); + } + + mutex_lock(s->mutex); + err = st_write_data_with_mask(s, ctrl_reg, LSM6DSO_RANGE_MASK, + reg_val); + if (err == EC_SUCCESS) + data->base.range = newrange; + + mutex_unlock(s->mutex); + + return EC_SUCCESS; +} + +/** + * get_range - get full scale range + * @s: Motion sensor pointer + */ +static int get_range(const struct motion_sensor_t *s) +{ + struct stprivate_data *data = LSM6DSO_GET_DATA(s); + + return data->base.range; +} + +/** + * set_data_rate set sensor data rate + * @s: Motion sensor pointer + * @range: Rate (mHz) + * @rnd: Round up/down flag + */ +static int set_data_rate(const struct motion_sensor_t *s, int rate, int rnd) +{ + int ret, normalized_rate = 0; + struct stprivate_data *data = LSM6DSO_GET_DATA(s); + uint8_t ctrl_reg, reg_val = 0; + + ctrl_reg = LSM6DSO_ODR_REG(s->type); + if (rate > 0) { + reg_val = LSM6DSO_ODR_TO_REG(rate); + normalized_rate = LSM6DSO_REG_TO_ODR(reg_val); + + if (rnd && (normalized_rate < rate)) { + reg_val++; + normalized_rate = LSM6DSO_REG_TO_ODR(reg_val); + } + + if (normalized_rate < LSM6DSO_ODR_MIN_VAL || + normalized_rate > MIN(LSM6DSO_ODR_MAX_VAL, + CONFIG_EC_MAX_SENSOR_FREQ_MILLIHZ)) + return EC_RES_INVALID_PARAM; + } + + mutex_lock(s->mutex); + ret = st_write_data_with_mask(s, ctrl_reg, LSM6DSO_ODR_MASK, reg_val); + if (ret == EC_SUCCESS) { + data->base.odr = normalized_rate; +#ifdef CONFIG_ACCEL_FIFO + accelgyro_config_fifo(s); +#endif /* CONFIG_ACCEL_FIFO */ + } + + mutex_unlock(s->mutex); + + return ret; +} + +static int is_data_ready(const struct motion_sensor_t *s, int *ready) +{ + int ret, tmp; + + ret = st_raw_read8(s->port, s->addr, LSM6DSO_STATUS_REG, &tmp); + if (ret != EC_SUCCESS) { + CPRINTS("%s type:0x%X RS Error", s->name, s->type); + + return ret; + } + + if (MOTIONSENSE_TYPE_ACCEL == s->type) + *ready = (LSM6DSO_STS_XLDA_UP == (tmp & LSM6DSO_STS_XLDA_MASK)); + else + *ready = (LSM6DSO_STS_GDA_UP == (tmp & LSM6DSO_STS_GDA_MASK)); + + return EC_SUCCESS; +} + +/* + * Is not very efficient to collect the data in read: better have an interrupt + * and collect in FIFO, even if it has one item: we don't have to check if the + * sensor is ready (minimize I2C access). + */ +static int read(const struct motion_sensor_t *s, intv3_t v) +{ + uint8_t raw[OUT_XYZ_SIZE]; + uint8_t xyz_reg; + int ret, tmp = 0; + + ret = is_data_ready(s, &tmp); + if (ret != EC_SUCCESS) + return ret; + + /* + * If sensor data is not ready, return the previous read data. + * Note: return success so that motion senor task can read again + * to get the latest updated sensor data quickly. + */ + if (!tmp) { + if (v != s->raw_xyz) + memcpy(v, s->raw_xyz, sizeof(s->raw_xyz)); + + return EC_SUCCESS; + } + + xyz_reg = get_xyz_reg(s->type); + + /* Read data bytes starting at xyz_reg. */ + ret = st_raw_read_n_noinc(s->port, s->addr, xyz_reg, raw, + OUT_XYZ_SIZE); + if (ret != EC_SUCCESS) + return ret; + + /* Apply precision, sensitivity and rotation vector. */ + st_normalize(s, v, raw); + + return EC_SUCCESS; +} + +static int init(const struct motion_sensor_t *s) +{ + int ret = 0, tmp; + struct stprivate_data *data = LSM6DSO_GET_DATA(s); + + ret = st_raw_read8(s->port, s->addr, LSM6DSO_WHO_AM_I_REG, &tmp); + if (ret != EC_SUCCESS) + return EC_ERROR_UNKNOWN; + + if (tmp != LSM6DSO_WHO_AM_I) + return EC_ERROR_ACCESS_DENIED; + + /* + * This sensor can be powered through an EC reboot, so the state of the + * sensor is unknown here so reset it + * LSM6DSO supports both Acc & Gyro features + * Board will see two virtual sensor devices: Acc & Gyro + * Requirement: Acc need be init before Gyro + */ + if (s->type == MOTIONSENSE_TYPE_ACCEL) { + mutex_lock(s->mutex); + + /* Software reset. */ + ret = st_raw_write8(s->port, s->addr, LSM6DSO_CTRL3_ADDR, + LSM6DSO_SW_RESET); + if (ret != EC_SUCCESS) + goto err_unlock; + + /* + * Output data not updated until have been read. + * Prefer interrupt to be active low. + */ + ret = st_raw_write8(s->port, s->addr, LSM6DSO_CTRL3_ADDR, + LSM6DSO_BDU | LSM6DSO_IF_INC); + if (ret != EC_SUCCESS) + goto err_unlock; + +#ifdef CONFIG_ACCEL_FIFO + ret = fifo_disable(s); + if (ret != EC_SUCCESS) + goto err_unlock; +#endif /* CONFIG_ACCEL_FIFO */ + +#ifdef CONFIG_ACCEL_INTERRUPTS + ret = config_interrupt(s); + if (ret != EC_SUCCESS) + goto err_unlock; +#endif /* CONFIG_ACCEL_INTERRUPTS */ + + mutex_unlock(s->mutex); + } + + /* Set default resolution common to Acc and Gyro. */ + data->resol = LSM6DSO_RESOLUTION; + return sensor_init_done(s); + +err_unlock: + mutex_unlock(s->mutex); + CPRINTS("%s: MS Init type:0x%X Error\n", s->name, s->type); + + return ret; +} + +const struct accelgyro_drv lsm6dso_drv = { + .init = init, + .read = read, + .set_range = set_range, + .get_range = get_range, + .get_resolution = st_get_resolution, + .set_data_rate = set_data_rate, + .get_data_rate = st_get_data_rate, + .set_offset = st_set_offset, + .get_offset = st_get_offset, +#ifdef CONFIG_ACCEL_INTERRUPTS + .irq_handler = irq_handler, +#endif /* CONFIG_ACCEL_INTERRUPTS */ +}; 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