/* ST Microelectronics LSM6DSO 6-axis IMU sensor driver * * Copyright (c) 2019 STMicroelectronics * * SPDX-License-Identifier: Apache-2.0 * * Datasheet: * https://www.st.com/resource/en/datasheet/lsm6dso.pdf */ #define DT_DRV_COMPAT st_lsm6dso #include #include #include #include #include "lsm6dso.h" LOG_MODULE_DECLARE(LSM6DSO, CONFIG_SENSOR_LOG_LEVEL); #if defined(CONFIG_LSM6DSO_ENABLE_TEMP) /** * lsm6dso_enable_t_int - TEMP enable selected int pin to generate interrupt */ static int lsm6dso_enable_t_int(const struct device *dev, int enable) { const struct lsm6dso_config *cfg = dev->config; stmdev_ctx_t *ctx = (stmdev_ctx_t *)&cfg->ctx; lsm6dso_int2_ctrl_t int2_ctrl; if (enable) { int16_t buf; /* dummy read: re-trigger interrupt */ lsm6dso_temperature_raw_get(ctx, &buf); } /* set interrupt (TEMP DRDY interrupt is only on INT2) */ if (cfg->int_pin == 1) { return -EIO; } lsm6dso_read_reg(ctx, LSM6DSO_INT2_CTRL, (uint8_t *)&int2_ctrl, 1); int2_ctrl.int2_drdy_temp = enable; return lsm6dso_write_reg(ctx, LSM6DSO_INT2_CTRL, (uint8_t *)&int2_ctrl, 1); } #endif /** * lsm6dso_enable_xl_int - XL enable selected int pin to generate interrupt */ static int lsm6dso_enable_xl_int(const struct device *dev, int enable) { const struct lsm6dso_config *cfg = dev->config; stmdev_ctx_t *ctx = (stmdev_ctx_t *)&cfg->ctx; if (enable) { int16_t buf[3]; /* dummy read: re-trigger interrupt */ lsm6dso_acceleration_raw_get(ctx, buf); } /* set interrupt */ if (cfg->int_pin == 1) { lsm6dso_int1_ctrl_t int1_ctrl; lsm6dso_read_reg(ctx, LSM6DSO_INT1_CTRL, (uint8_t *)&int1_ctrl, 1); int1_ctrl.int1_drdy_xl = enable; return lsm6dso_write_reg(ctx, LSM6DSO_INT1_CTRL, (uint8_t *)&int1_ctrl, 1); } else { lsm6dso_int2_ctrl_t int2_ctrl; lsm6dso_read_reg(ctx, LSM6DSO_INT2_CTRL, (uint8_t *)&int2_ctrl, 1); int2_ctrl.int2_drdy_xl = enable; return lsm6dso_write_reg(ctx, LSM6DSO_INT2_CTRL, (uint8_t *)&int2_ctrl, 1); } } /** * lsm6dso_enable_g_int - Gyro enable selected int pin to generate interrupt */ static int lsm6dso_enable_g_int(const struct device *dev, int enable) { const struct lsm6dso_config *cfg = dev->config; stmdev_ctx_t *ctx = (stmdev_ctx_t *)&cfg->ctx; if (enable) { int16_t buf[3]; /* dummy read: re-trigger interrupt */ lsm6dso_angular_rate_raw_get(ctx, buf); } /* set interrupt */ if (cfg->int_pin == 1) { lsm6dso_int1_ctrl_t int1_ctrl; lsm6dso_read_reg(ctx, LSM6DSO_INT1_CTRL, (uint8_t *)&int1_ctrl, 1); int1_ctrl.int1_drdy_g = enable; return lsm6dso_write_reg(ctx, LSM6DSO_INT1_CTRL, (uint8_t *)&int1_ctrl, 1); } else { lsm6dso_int2_ctrl_t int2_ctrl; lsm6dso_read_reg(ctx, LSM6DSO_INT2_CTRL, (uint8_t *)&int2_ctrl, 1); int2_ctrl.int2_drdy_g = enable; return lsm6dso_write_reg(ctx, LSM6DSO_INT2_CTRL, (uint8_t *)&int2_ctrl, 1); } } /** * lsm6dso_trigger_set - link external trigger to event data ready */ int lsm6dso_trigger_set(const struct device *dev, const struct sensor_trigger *trig, sensor_trigger_handler_t handler) { const struct lsm6dso_config *cfg = dev->config; struct lsm6dso_data *lsm6dso = dev->data; if (!cfg->trig_enabled) { LOG_ERR("trigger_set op not supported"); return -ENOTSUP; } if (trig->chan == SENSOR_CHAN_ACCEL_XYZ) { lsm6dso->handler_drdy_acc = handler; lsm6dso->trig_drdy_acc = trig; if (handler) { return lsm6dso_enable_xl_int(dev, LSM6DSO_EN_BIT); } else { return lsm6dso_enable_xl_int(dev, LSM6DSO_DIS_BIT); } } else if (trig->chan == SENSOR_CHAN_GYRO_XYZ) { lsm6dso->handler_drdy_gyr = handler; lsm6dso->trig_drdy_gyr = trig; if (handler) { return lsm6dso_enable_g_int(dev, LSM6DSO_EN_BIT); } else { return lsm6dso_enable_g_int(dev, LSM6DSO_DIS_BIT); } } #if defined(CONFIG_LSM6DSO_ENABLE_TEMP) else if (trig->chan == SENSOR_CHAN_DIE_TEMP) { lsm6dso->handler_drdy_temp = handler; lsm6dso->trig_drdy_temp = trig; if (handler) { return lsm6dso_enable_t_int(dev, LSM6DSO_EN_BIT); } else { return lsm6dso_enable_t_int(dev, LSM6DSO_DIS_BIT); } } #endif return -ENOTSUP; } /** * lsm6dso_handle_interrupt - handle the drdy event * read data and call handler if registered any */ static void lsm6dso_handle_interrupt(const struct device *dev) { struct lsm6dso_data *lsm6dso = dev->data; const struct lsm6dso_config *cfg = dev->config; stmdev_ctx_t *ctx = (stmdev_ctx_t *)&cfg->ctx; lsm6dso_status_reg_t status; while (1) { if (lsm6dso_status_reg_get(ctx, &status) < 0) { LOG_DBG("failed reading status reg"); return; } if ((status.xlda == 0) && (status.gda == 0) #if defined(CONFIG_LSM6DSO_ENABLE_TEMP) && (status.tda == 0) #endif ) { break; } if ((status.xlda) && (lsm6dso->handler_drdy_acc != NULL)) { lsm6dso->handler_drdy_acc(dev, lsm6dso->trig_drdy_acc); } if ((status.gda) && (lsm6dso->handler_drdy_gyr != NULL)) { lsm6dso->handler_drdy_gyr(dev, lsm6dso->trig_drdy_gyr); } #if defined(CONFIG_LSM6DSO_ENABLE_TEMP) if ((status.tda) && (lsm6dso->handler_drdy_temp != NULL)) { lsm6dso->handler_drdy_temp(dev, lsm6dso->trig_drdy_temp); } #endif } gpio_pin_interrupt_configure_dt(&cfg->gpio_drdy, GPIO_INT_EDGE_TO_ACTIVE); } static void lsm6dso_gpio_callback(const struct device *dev, struct gpio_callback *cb, uint32_t pins) { struct lsm6dso_data *lsm6dso = CONTAINER_OF(cb, struct lsm6dso_data, gpio_cb); const struct lsm6dso_config *cfg = lsm6dso->dev->config; ARG_UNUSED(pins); gpio_pin_interrupt_configure_dt(&cfg->gpio_drdy, GPIO_INT_DISABLE); #if defined(CONFIG_LSM6DSO_TRIGGER_OWN_THREAD) k_sem_give(&lsm6dso->gpio_sem); #elif defined(CONFIG_LSM6DSO_TRIGGER_GLOBAL_THREAD) k_work_submit(&lsm6dso->work); #endif /* CONFIG_LSM6DSO_TRIGGER_OWN_THREAD */ } #ifdef CONFIG_LSM6DSO_TRIGGER_OWN_THREAD static void lsm6dso_thread(void *p1, void *p2, void *p3) { ARG_UNUSED(p2); ARG_UNUSED(p3); struct lsm6dso_data *lsm6dso = p1; while (1) { k_sem_take(&lsm6dso->gpio_sem, K_FOREVER); lsm6dso_handle_interrupt(lsm6dso->dev); } } #endif /* CONFIG_LSM6DSO_TRIGGER_OWN_THREAD */ #ifdef CONFIG_LSM6DSO_TRIGGER_GLOBAL_THREAD static void lsm6dso_work_cb(struct k_work *work) { struct lsm6dso_data *lsm6dso = CONTAINER_OF(work, struct lsm6dso_data, work); lsm6dso_handle_interrupt(lsm6dso->dev); } #endif /* CONFIG_LSM6DSO_TRIGGER_GLOBAL_THREAD */ int lsm6dso_init_interrupt(const struct device *dev) { struct lsm6dso_data *lsm6dso = dev->data; const struct lsm6dso_config *cfg = dev->config; stmdev_ctx_t *ctx = (stmdev_ctx_t *)&cfg->ctx; int ret; /* setup data ready gpio interrupt (INT1 or INT2) */ if (!gpio_is_ready_dt(&cfg->gpio_drdy)) { LOG_ERR("Cannot get pointer to drdy_gpio device"); return -EINVAL; } #if defined(CONFIG_LSM6DSO_TRIGGER_OWN_THREAD) k_sem_init(&lsm6dso->gpio_sem, 0, K_SEM_MAX_LIMIT); k_thread_create(&lsm6dso->thread, lsm6dso->thread_stack, CONFIG_LSM6DSO_THREAD_STACK_SIZE, lsm6dso_thread, lsm6dso, NULL, NULL, K_PRIO_COOP(CONFIG_LSM6DSO_THREAD_PRIORITY), 0, K_NO_WAIT); k_thread_name_set(&lsm6dso->thread, "lsm6dso"); #elif defined(CONFIG_LSM6DSO_TRIGGER_GLOBAL_THREAD) lsm6dso->work.handler = lsm6dso_work_cb; #endif /* CONFIG_LSM6DSO_TRIGGER_OWN_THREAD */ ret = gpio_pin_configure_dt(&cfg->gpio_drdy, GPIO_INPUT); if (ret < 0) { LOG_DBG("Could not configure gpio"); return ret; } gpio_init_callback(&lsm6dso->gpio_cb, lsm6dso_gpio_callback, BIT(cfg->gpio_drdy.pin)); if (gpio_add_callback(cfg->gpio_drdy.port, &lsm6dso->gpio_cb) < 0) { LOG_DBG("Could not set gpio callback"); return -EIO; } /* set data ready mode on int1/int2 */ LOG_DBG("drdy_pulsed is %d", (int)cfg->drdy_pulsed); lsm6dso_dataready_pulsed_t mode = cfg->drdy_pulsed ? LSM6DSO_DRDY_PULSED : LSM6DSO_DRDY_LATCHED; ret = lsm6dso_data_ready_mode_set(ctx, mode); if (ret < 0) { LOG_ERR("drdy_pulsed config error %d", (int)cfg->drdy_pulsed); return ret; } return gpio_pin_interrupt_configure_dt(&cfg->gpio_drdy, GPIO_INT_EDGE_TO_ACTIVE); }