TOMOYO Linux Cross Reference
Linux/include/linux/platform_data/cros_ec_sensorhub.h

   /* SPDX-License-Identifier: GPL-2.0 */
   /*
    * Chrome OS EC MEMS Sensor Hub driver.
    *
    * Copyright 2019 Google LLC
    */
   
   #ifndef __LINUX_PLATFORM_DATA_CROS_EC_SENSORHUB_H
   #define __LINUX_PLATFORM_DATA_CROS_EC_SENSORHUB_H
  
  #include <linux/ktime.h>
  #include <linux/mutex.h>
  #include <linux/notifier.h>
  #include <linux/platform_data/cros_ec_commands.h>
  
  struct iio_dev;
  
  /**
   * struct cros_ec_sensor_platform - ChromeOS EC sensor platform information.
   * @sensor_num: Id of the sensor, as reported by the EC.
   */
  struct cros_ec_sensor_platform {
          u8 sensor_num;
  };
  
  /**
   * typedef cros_ec_sensorhub_push_data_cb_t - Callback function to send datum
   *                                            to specific sensors.
   *
   * @indio_dev: The IIO device that will process the sample.
   * @data: Vector array of the ring sample.
   * @timestamp: Timestamp in host timespace when the sample was acquired by
   *             the EC.
   */
  typedef int (*cros_ec_sensorhub_push_data_cb_t)(struct iio_dev *indio_dev,
                                                  s16 *data,
                                                  s64 timestamp);
  
  struct cros_ec_sensorhub_sensor_push_data {
          struct iio_dev *indio_dev;
          cros_ec_sensorhub_push_data_cb_t push_data_cb;
  };
  
  enum {
          CROS_EC_SENSOR_LAST_TS,
          CROS_EC_SENSOR_NEW_TS,
          CROS_EC_SENSOR_ALL_TS
  };
  
  struct cros_ec_sensors_ring_sample {
          u8  sensor_id;
          u8  flag;
          s16 vector[3];
          s64 timestamp;
  } __packed;
  
  /* State used for cros_ec_ring_fix_overflow */
  struct cros_ec_sensors_ec_overflow_state {
          s64 offset;
          s64 last;
  };
  
  /* Length of the filter, how long to remember entries for */
  #define CROS_EC_SENSORHUB_TS_HISTORY_SIZE 64
  
  /**
   * struct cros_ec_sensors_ts_filter_state - Timestamp filetr state.
   *
   * @x_offset: x is EC interrupt time. x_offset its last value.
   * @y_offset: y is the difference between AP and EC time, y_offset its last
   *            value.
   * @x_history: The past history of x, relative to x_offset.
   * @y_history: The past history of y, relative to y_offset.
   * @m_history: rate between y and x.
   * @history_len: Amount of valid historic data in the arrays.
   * @temp_buf: Temporary buffer used when updating the filter.
   * @median_m: median value of m_history
   * @median_error: final error to apply to AP interrupt timestamp to get the
   *                "true timestamp" the event occurred.
   */
  struct cros_ec_sensors_ts_filter_state {
          s64 x_offset, y_offset;
          s64 x_history[CROS_EC_SENSORHUB_TS_HISTORY_SIZE];
          s64 y_history[CROS_EC_SENSORHUB_TS_HISTORY_SIZE];
          s64 m_history[CROS_EC_SENSORHUB_TS_HISTORY_SIZE];
          int history_len;
  
          s64 temp_buf[CROS_EC_SENSORHUB_TS_HISTORY_SIZE];
  
          s64 median_m;
          s64 median_error;
  };
  
  /* struct cros_ec_sensors_ts_batch_state - State of batch of a single sensor.
   *
   * Use to store information to batch data using median fileter information.
   *
   * @penul_ts: last but one batch timestamp (penultimate timestamp).
   *            Used for timestamp spreading calculations
  *            when a batch shows up.
  * @penul_len: last but one batch length.
  * @last_ts: Last batch timestam.
  * @last_len: Last batch length.
  * @newest_sensor_event: Last sensor timestamp.
  */
 struct cros_ec_sensors_ts_batch_state {
         s64 penul_ts;
         int penul_len;
         s64 last_ts;
         int last_len;
         s64 newest_sensor_event;
 };
 
 /*
  * struct cros_ec_sensorhub - Sensor Hub device data.
  *
  * @dev: Device object, mostly used for logging.
  * @ec: Embedded Controller where the hub is located.
  * @sensor_num: Number of MEMS sensors present in the EC.
  * @msg: Structure to send FIFO requests.
  * @params: Pointer to parameters in msg.
  * @resp: Pointer to responses in msg.
  * @cmd_lock : Lock for sending msg.
  * @notifier: Notifier to kick the FIFO interrupt.
  * @ring: Preprocessed ring to store events.
  * @fifo_timestamp: Array for event timestamp and spreading.
  * @fifo_info: Copy of FIFO information coming from the EC.
  * @fifo_size: Size of the ring.
  * @batch_state: Per sensor information of the last batches received.
  * @overflow_a: For handling timestamp overflow for a time (sensor events)
  * @overflow_b: For handling timestamp overflow for b time (ec interrupts)
  * @filter: Medium fileter structure.
  * @tight_timestamps: Set to truen when EC support tight timestamping:
  *                    The timestamps reported from the EC have low jitter.
  *                    Timestamps also come before every sample. Set either
  *                    by feature bits coming from the EC or userspace.
  * @future_timestamp_count: Statistics used to compute shaved time.
  *                          This occurs when timestamp interpolation from EC
  *                          time to AP time accidentally puts timestamps in
  *                          the future. These timestamps are clamped to
  *                          `now` and these count/total_ns maintain the
  *                          statistics for how much time was removed in a
  *                          given period.
  * @future_timestamp_total_ns: Total amount of time shaved.
  * @push_data: Array of callback to send datums to iio sensor object.
  */
 struct cros_ec_sensorhub {
         struct device *dev;
         struct cros_ec_dev *ec;
         int sensor_num;
 
         struct cros_ec_command *msg;
         struct ec_params_motion_sense *params;
         struct ec_response_motion_sense *resp;
         struct mutex cmd_lock;  /* Lock for protecting msg structure. */
 
         struct notifier_block notifier;
 
         struct cros_ec_sensors_ring_sample *ring;
 
         ktime_t fifo_timestamp[CROS_EC_SENSOR_ALL_TS];
         struct ec_response_motion_sense_fifo_info *fifo_info;
         int fifo_size;
 
         struct cros_ec_sensors_ts_batch_state *batch_state;
 
         struct cros_ec_sensors_ec_overflow_state overflow_a;
         struct cros_ec_sensors_ec_overflow_state overflow_b;
 
         struct cros_ec_sensors_ts_filter_state filter;
 
         int tight_timestamps;
 
         s32 future_timestamp_count;
         s64 future_timestamp_total_ns;
 
         struct cros_ec_sensorhub_sensor_push_data *push_data;
 };
 
 int cros_ec_sensorhub_register_push_data(struct cros_ec_sensorhub *sensorhub,
                                          u8 sensor_num,
                                          struct iio_dev *indio_dev,
                                          cros_ec_sensorhub_push_data_cb_t cb);
 
 void cros_ec_sensorhub_unregister_push_data(struct cros_ec_sensorhub *sensorhub,
                                             u8 sensor_num);
 
 int cros_ec_sensorhub_ring_allocate(struct cros_ec_sensorhub *sensorhub);
 int cros_ec_sensorhub_ring_add(struct cros_ec_sensorhub *sensorhub);
 void cros_ec_sensorhub_ring_remove(void *arg);
 int cros_ec_sensorhub_ring_fifo_enable(struct cros_ec_sensorhub *sensorhub,
                                        bool on);
 
 #endif   /* __LINUX_PLATFORM_DATA_CROS_EC_SENSORHUB_H */
 

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