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/*
* Copyright (C) 2012 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef ANDROID_SENSORS_INTERFACE_H
#define ANDROID_SENSORS_INTERFACE_H
#include <stdint.h>
#include <sys/cdefs.h>
#include <sys/types.h>
#include <hardware/hardware.h>
#include <cutils/native_handle.h>
#include "sensors-base.h"
__BEGIN_DECLS
/*****************************************************************************/
#define SENSORS_HEADER_VERSION 1
#define SENSORS_MODULE_API_VERSION_0_1 HARDWARE_MODULE_API_VERSION(0, 1)
#define SENSORS_DEVICE_API_VERSION_0_1 HARDWARE_DEVICE_API_VERSION_2(0, 1, SENSORS_HEADER_VERSION)
#define SENSORS_DEVICE_API_VERSION_1_0 HARDWARE_DEVICE_API_VERSION_2(1, 0, SENSORS_HEADER_VERSION)
#define SENSORS_DEVICE_API_VERSION_1_1 HARDWARE_DEVICE_API_VERSION_2(1, 1, SENSORS_HEADER_VERSION)
#define SENSORS_DEVICE_API_VERSION_1_2 HARDWARE_DEVICE_API_VERSION_2(1, 2, SENSORS_HEADER_VERSION)
#define SENSORS_DEVICE_API_VERSION_1_3 HARDWARE_DEVICE_API_VERSION_2(1, 3, SENSORS_HEADER_VERSION)
#define SENSORS_DEVICE_API_VERSION_1_4 HARDWARE_DEVICE_API_VERSION_2(1, 4, SENSORS_HEADER_VERSION)
/**
* Please see the Sensors section of source.android.com for an
* introduction to and detailed descriptions of Android sensor types:
* http://source.android.com/devices/sensors/index.html
*/
/**
* The id of this module
*/
#define SENSORS_HARDWARE_MODULE_ID "sensors"
/**
* Name of the sensors device to open
*/
#define SENSORS_HARDWARE_POLL "poll"
/**
* Sensor handle is greater than 0 and less than INT32_MAX.
*
* **** Deprecated ****
* Defined values below are kept for code compatibility. Note sensor handle can be as large as
* INT32_MAX.
*/
#define SENSORS_HANDLE_BASE 0
#define SENSORS_HANDLE_BITS 31
#define SENSORS_HANDLE_COUNT (1ull<<SENSORS_HANDLE_BITS)
/*
* **** Deprecated *****
* flags for (*batch)()
* Availability: SENSORS_DEVICE_API_VERSION_1_0
* see (*batch)() documentation for details.
* Deprecated as of SENSORS_DEVICE_API_VERSION_1_3.
* WAKE_UP_* sensors replace WAKE_UPON_FIFO_FULL concept.
*/
enum {
SENSORS_BATCH_DRY_RUN = 0x00000001,
SENSORS_BATCH_WAKE_UPON_FIFO_FULL = 0x00000002
};
/*
* what field for meta_data_event_t
*/
enum {
/* a previous flush operation has completed */
// META_DATA_FLUSH_COMPLETE = 1,
META_DATA_VERSION /* always last, leave auto-assigned */
};
/*
* The permission to use for body sensors (like heart rate monitors).
* See sensor types for more details on what sensors should require this
* permission.
*/
#define SENSOR_PERMISSION_BODY_SENSORS "android.permission.BODY_SENSORS"
/*
* sensor flags legacy names
*
* please use SENSOR_FLAG_* directly for new implementation.
* @see sensor_t
*/
#define SENSOR_FLAG_MASK(nbit, shift) (((1<<(nbit))-1)<<(shift))
#define SENSOR_FLAG_MASK_1(shift) SENSOR_FLAG_MASK(1, shift)
/*
* Mask and shift for reporting mode sensor flags defined above.
*/
#define REPORTING_MODE_SHIFT SENSOR_FLAG_SHIFT_REPORTING_MODE
#define REPORTING_MODE_NBIT (3)
#define REPORTING_MODE_MASK SENSOR_FLAG_MASK_REPORTING_MODE
/*
* Mask and shift for data_injection mode sensor flags defined above.
*/
#define DATA_INJECTION_SHIFT SENSOR_FLAG_SHIFT_DATA_INJECTION
#define DATA_INJECTION_MASK SENSOR_FLAG_DATA_INJECTION
/*
* Mask and shift for dynamic sensor flag.
*/
#define DYNAMIC_SENSOR_SHIFT SENSOR_FLAG_SHIFT_DYNAMIC_SENSOR
#define DYNAMIC_SENSOR_MASK SENSOR_FLAG_DYNAMIC_SENSOR
/*
* Mask and shift for sensor additional information support.
*/
#define ADDITIONAL_INFO_SHIFT SENSOR_FLAG_SHIFT_ADDITIONAL_INFO
#define ADDITIONAL_INFO_MASK SENSOR_FLAG_ADDITIONAL_INFO
/*
* Legacy alias of SENSOR_TYPE_MAGNETIC_FIELD.
*
* Previously, the type of a sensor measuring local magnetic field is named
* SENSOR_TYPE_GEOMAGNETIC_FIELD and SENSOR_TYPE_MAGNETIC_FIELD is its alias.
* SENSOR_TYPE_MAGNETIC_FIELD is redefined as primary name to avoid confusion.
* SENSOR_TYPE_GEOMAGNETIC_FIELD is the alias and is deprecating. New implementation must not use
* SENSOR_TYPE_GEOMAGNETIC_FIELD.
*/
#define SENSOR_TYPE_GEOMAGNETIC_FIELD SENSOR_TYPE_MAGNETIC_FIELD
/*
* Sensor string types for Android defined sensor types.
*
* For Android defined sensor types, string type will be override in sensor service and thus no
* longer needed to be added to sensor_t data structure.
*
* These definitions are going to be removed soon.
*/
#define SENSOR_STRING_TYPE_ACCELEROMETER "android.sensor.accelerometer"
#define SENSOR_STRING_TYPE_MAGNETIC_FIELD "android.sensor.magnetic_field"
#define SENSOR_STRING_TYPE_ORIENTATION "android.sensor.orientation"
#define SENSOR_STRING_TYPE_GYROSCOPE "android.sensor.gyroscope"
#define SENSOR_STRING_TYPE_LIGHT "android.sensor.light"
#define SENSOR_STRING_TYPE_PRESSURE "android.sensor.pressure"
#define SENSOR_STRING_TYPE_TEMPERATURE "android.sensor.temperature"
#define SENSOR_STRING_TYPE_PROXIMITY "android.sensor.proximity"
#define SENSOR_STRING_TYPE_GRAVITY "android.sensor.gravity"
#define SENSOR_STRING_TYPE_LINEAR_ACCELERATION "android.sensor.linear_acceleration"
#define SENSOR_STRING_TYPE_ROTATION_VECTOR "android.sensor.rotation_vector"
#define SENSOR_STRING_TYPE_RELATIVE_HUMIDITY "android.sensor.relative_humidity"
#define SENSOR_STRING_TYPE_AMBIENT_TEMPERATURE "android.sensor.ambient_temperature"
#define SENSOR_STRING_TYPE_MAGNETIC_FIELD_UNCALIBRATED "android.sensor.magnetic_field_uncalibrated"
#define SENSOR_STRING_TYPE_GAME_ROTATION_VECTOR "android.sensor.game_rotation_vector"
#define SENSOR_STRING_TYPE_GYROSCOPE_UNCALIBRATED "android.sensor.gyroscope_uncalibrated"
#define SENSOR_STRING_TYPE_SIGNIFICANT_MOTION "android.sensor.significant_motion"
#define SENSOR_STRING_TYPE_STEP_DETECTOR "android.sensor.step_detector"
#define SENSOR_STRING_TYPE_STEP_COUNTER "android.sensor.step_counter"
#define SENSOR_STRING_TYPE_GEOMAGNETIC_ROTATION_VECTOR "android.sensor.geomagnetic_rotation_vector"
#define SENSOR_STRING_TYPE_HEART_RATE "android.sensor.heart_rate"
#define SENSOR_STRING_TYPE_TILT_DETECTOR "android.sensor.tilt_detector"
#define SENSOR_STRING_TYPE_WAKE_GESTURE "android.sensor.wake_gesture"
#define SENSOR_STRING_TYPE_GLANCE_GESTURE "android.sensor.glance_gesture"
#define SENSOR_STRING_TYPE_PICK_UP_GESTURE "android.sensor.pick_up_gesture"
#define SENSOR_STRING_TYPE_WRIST_TILT_GESTURE "android.sensor.wrist_tilt_gesture"
#define SENSOR_STRING_TYPE_DEVICE_ORIENTATION "android.sensor.device_orientation"
#define SENSOR_STRING_TYPE_POSE_6DOF "android.sensor.pose_6dof"
#define SENSOR_STRING_TYPE_STATIONARY_DETECT "android.sensor.stationary_detect"
#define SENSOR_STRING_TYPE_MOTION_DETECT "android.sensor.motion_detect"
#define SENSOR_STRING_TYPE_HEART_BEAT "android.sensor.heart_beat"
#define SENSOR_STRING_TYPE_DYNAMIC_SENSOR_META "android.sensor.dynamic_sensor_meta"
#define SENSOR_STRING_TYPE_ADDITIONAL_INFO "android.sensor.additional_info"
#define SENSOR_STRING_TYPE_LOW_LATENCY_OFFBODY_DETECT "android.sensor.low_latency_offbody_detect"
#define SENSOR_STRING_TYPE_ACCELEROMETER_UNCALIBRATED "android.sensor.accelerometer_uncalibrated"
#define SENSOR_STRING_TYPE_HINGE_ANGLE "android.sensor.hinge_angle"
#define SENSOR_STRING_TYPE_HEAD_TRACKER "android.sensor.head_tracker"
#define SENSOR_STRING_TYPE_ACCELEROMETER_LIMITED_AXES "android.sensor.accelerometer_limited_axes"
#define SENSOR_STRING_TYPE_GYROSCOPE_LIMITED_AXES "android.sensor.gyroscope_limited_axes"
#define SENSOR_STRING_TYPE_ACCELEROMETER_LIMITED_AXES_UNCALIBRATED "android.sensor.accelerometer_limited_axes_uncalibrated"
#define SENSOR_STRING_TYPE_GYROSCOPE_LIMITED_AXES_UNCALIBRATED "android.sensor.gyroscope_limited_axes_uncalibrated"
#define SENSOR_STRING_TYPE_HEADING "android.sensor.heading"
/**
* Values returned by the accelerometer in various locations in the universe.
* all values are in SI units (m/s^2)
*/
#define GRAVITY_SUN (275.0f)
#define GRAVITY_EARTH (9.80665f)
/** Maximum magnetic field on Earth's surface */
#define MAGNETIC_FIELD_EARTH_MAX (60.0f)
/** Minimum magnetic field on Earth's surface */
#define MAGNETIC_FIELD_EARTH_MIN (30.0f)
struct sensor_t;
/**
* sensor event data
*/
typedef struct {
union {
float v[3];
struct {
float x;
float y;
float z;
};
struct {
float azimuth;
float pitch;
float roll;
};
};
int8_t status;
uint8_t reserved[3];
} sensors_vec_t;
/**
* uncalibrated accelerometer, gyroscope and magnetometer event data
*/
typedef struct {
union {
float uncalib[3];
struct {
float x_uncalib;
float y_uncalib;
float z_uncalib;
};
};
union {
float bias[3];
struct {
float x_bias;
float y_bias;
float z_bias;
};
};
} uncalibrated_event_t;
/**
* Meta data event data
*/
typedef struct meta_data_event {
int32_t what;
int32_t sensor;
} meta_data_event_t;
/**
* Dynamic sensor meta event. See the description of SENSOR_TYPE_DYNAMIC_SENSOR_META type for
* details.
*/
typedef struct dynamic_sensor_meta_event {
int32_t connected;
int32_t handle;
const struct sensor_t * sensor; // should be NULL if connected == false
uint8_t uuid[16]; // UUID of a dynamic sensor (using RFC 4122 byte order)
// For UUID 12345678-90AB-CDEF-1122-334455667788 the uuid field
// should be initialized as:
// {0x12, 0x34, 0x56, 0x78, 0x90, 0xAB, 0xCD, 0xEF, 0x11, ...}
} dynamic_sensor_meta_event_t;
/**
* Heart rate event data
*/
typedef struct {
// Heart rate in beats per minute.
// Set to 0 when status is SENSOR_STATUS_UNRELIABLE or ..._NO_CONTACT
float bpm;
// Status of the sensor for this reading. Set to one SENSOR_STATUS_...
// Note that this value should only be set for sensors that explicitly define
// the meaning of this field. This field is not piped through the framework
// for other sensors.
int8_t status;
} heart_rate_event_t;
typedef struct {
int32_t type; // type of payload data, see additional_info_type_t
int32_t serial; // sequence number of this frame for this type
union {
// for each frame, a single data type, either int32_t or float, should be used.
int32_t data_int32[14];
float data_float[14];
};
} additional_info_event_t;
typedef struct {
float rx;
float ry;
float rz;
float vx;
float vy;
float vz;
int32_t discontinuity_count;
} head_tracker_event_t;
/**
* limited axes imu event data
*/
typedef struct {
union {
float calib[3];
struct {
float x;
float y;
float z;
};
};
union {
float supported[3];
struct {
float x_supported;
float y_supported;
float z_supported;
};
};
} limited_axes_imu_event_t;
/**
* limited axes uncalibrated imu event data
*/
typedef struct {
union {
float uncalib[3];
struct {
float x_uncalib;
float y_uncalib;
float z_uncalib;
};
};
union {
float bias[3];
struct {
float x_bias;
float y_bias;
float z_bias;
};
};
union {
float supported[3];
struct {
float x_supported;
float y_supported;
float z_supported;
};
};
} limited_axes_imu_uncalibrated_event_t;
/**
* Heading event data
*/
typedef struct {
float heading;
float accuracy;
} heading_event_t;
// LINT.IfChange
/**
* Union of the various types of sensor data
* that can be returned.
* This type needs to remain identical to ASensorEvent.
*/
typedef struct sensors_event_t {
/* must be sizeof(struct sensors_event_t) */
int32_t version;
/* sensor identifier */
int32_t sensor;
/* sensor type */
int32_t type;
/* reserved */
int32_t reserved0;
/* time is in nanosecond */
int64_t timestamp;
union {
union {
float data[16];
/* acceleration values are in meter per second per second (m/s^2) */
sensors_vec_t acceleration;
/* magnetic vector values are in micro-Tesla (uT) */
sensors_vec_t magnetic;
/* orientation values are in degrees */
sensors_vec_t orientation;
/* gyroscope values are in rad/s */
sensors_vec_t gyro;
/* temperature is in degrees centigrade (Celsius) */
float temperature;
/* distance in centimeters */
float distance;
/* light in SI lux units */
float light;
/* pressure in hectopascal (hPa) */
float pressure;
/* relative humidity in percent */
float relative_humidity;
/* uncalibrated gyroscope values are in rad/s */
uncalibrated_event_t uncalibrated_gyro;
/* uncalibrated magnetometer values are in micro-Teslas */
uncalibrated_event_t uncalibrated_magnetic;
/* uncalibrated accelerometer values are in meter per second per second (m/s^2) */
uncalibrated_event_t uncalibrated_accelerometer;
/* heart rate data containing value in bpm and status */
heart_rate_event_t heart_rate;
/* this is a special event. see SENSOR_TYPE_META_DATA above.
* sensors_meta_data_event_t events are all reported with a type of
* SENSOR_TYPE_META_DATA. The handle is ignored and must be zero.
*/
meta_data_event_t meta_data;
/* dynamic sensor meta event. See SENSOR_TYPE_DYNAMIC_SENSOR_META type for details */
dynamic_sensor_meta_event_t dynamic_sensor_meta;
/*
* special additional sensor information frame, see
* SENSOR_TYPE_ADDITIONAL_INFO for details.
*/
additional_info_event_t additional_info;
/* vector describing head orientation (added for legacy code support only) */
head_tracker_event_t head_tracker;
/*
* limited axes imu event, See
* SENSOR_TYPE_GYROSCOPE_LIMITED_AXES and
* SENSOR_TYPE_ACCELEROMETER_LIMITED_AXES for details.
*/
limited_axes_imu_event_t limited_axes_imu;
/*
* limited axes imu uncalibrated event, See
* SENSOR_TYPE_GYROSCOPE_LIMITED_AXES_UNCALIBRATED and
* SENSOR_TYPE_ACCELEROMETER_LIMITED_AXES_UNCALIBRATED for details.
*/
limited_axes_imu_uncalibrated_event_t limited_axes_imu_uncalibrated;
/* heading data containing value in degrees and its accuracy */
heading_event_t heading;
};
union {
uint64_t data[8];
/* step-counter */
uint64_t step_counter;
} u64;
};
/* Reserved flags for internal use. Set to zero. */
uint32_t flags;
uint32_t reserved1[3];
} sensors_event_t;
// LINT.ThenChange(frameworks/native/include/android/sensor.h)
/* see SENSOR_TYPE_META_DATA */
typedef sensors_event_t sensors_meta_data_event_t;
/**
* Every hardware module must have a data structure named HAL_MODULE_INFO_SYM
* and the fields of this data structure must begin with hw_module_t
* followed by module specific information.
*/
struct sensors_module_t {
struct hw_module_t common;
/**
* Enumerate all available sensors. The list is returned in "list".
* return number of sensors in the list
*/
int (*get_sensors_list)(struct sensors_module_t* module,
struct sensor_t const** list);
/**
* Place the module in a specific mode. The following modes are defined
*
* 0 - Normal operation. Default state of the module.
* 1 - Loopback mode. Data is injected for the supported
* sensors by the sensor service in this mode.
* return 0 on success
* -EINVAL if requested mode is not supported
* -EPERM if operation is not allowed
*/
int (*set_operation_mode)(unsigned int mode);
};
struct sensor_t {
/* Name of this sensor.
* All sensors of the same "type" must have a different "name".
*/
const char* name;
/* vendor of the hardware part */
const char* vendor;
/* version of the hardware part + driver. The value of this field
* must increase when the driver is updated in a way that changes the
* output of this sensor. This is important for fused sensors when the
* fusion algorithm is updated.
*/
int version;
/* handle that identifies this sensors. This handle is used to reference
* this sensor throughout the HAL API.
*/
int handle;
/* this sensor's type. */
int type;
/* maximum range of this sensor's value in SI units */
float maxRange;
/* smallest difference between two values reported by this sensor */
float resolution;
/* rough estimate of this sensor's power consumption in mA */
float power;
/* this value depends on the reporting mode:
*
* continuous: minimum sample period allowed in microseconds
* on-change : 0
* one-shot :-1
* special : 0, unless otherwise noted
*/
int32_t minDelay;
/* number of events reserved for this sensor in the batch mode FIFO.
* If there is a dedicated FIFO for this sensor, then this is the
* size of this FIFO. If the FIFO is shared with other sensors,
* this is the size reserved for that sensor and it can be zero.
*/
uint32_t fifoReservedEventCount;
/* maximum number of events of this sensor that could be batched.
* This is especially relevant when the FIFO is shared between
* several sensors; this value is then set to the size of that FIFO.
*/
uint32_t fifoMaxEventCount;
/* type of this sensor as a string.
*
* If type is OEM specific or sensor manufacturer specific type
* (>=SENSOR_TYPE_DEVICE_PRIVATE_BASE), this string must be defined with reserved domain of
* vendor/OEM as a prefix, e.g. com.google.glass.onheaddetector
*
* For sensors of Android defined types, Android framework will override this value. It is ok to
* leave it pointing to an empty string.
*/
const char* stringType;
/* permission required to see this sensor, register to it and receive data.
* Set to "" if no permission is required. Some sensor types like the
* heart rate monitor have a mandatory require_permission.
* For sensors that always require a specific permission, like the heart
* rate monitor, the android framework might overwrite this string
* automatically.
*/
const char* requiredPermission;
/* This value is defined only for continuous mode and on-change sensors. It is the delay between
* two sensor events corresponding to the lowest frequency that this sensor supports. When lower
* frequencies are requested through batch()/setDelay() the events will be generated at this
* frequency instead. It can be used by the framework or applications to estimate when the batch
* FIFO may be full.
*
* NOTE: 1) period_ns is in nanoseconds where as maxDelay/minDelay are in microseconds.
* continuous, on-change: maximum sampling period allowed in microseconds.
* one-shot, special : 0
* 2) maxDelay should always fit within a 32 bit signed integer. It is declared as 64 bit
* on 64 bit architectures only for binary compatibility reasons.
* Availability: SENSORS_DEVICE_API_VERSION_1_3
*/
#ifdef __LP64__
int64_t maxDelay;
#else
int32_t maxDelay;
#endif
/* Flags for sensor. See SENSOR_FLAG_* above. Only the least significant 32 bits are used here.
* It is declared as 64 bit on 64 bit architectures only for binary compatibility reasons.
* Availability: SENSORS_DEVICE_API_VERSION_1_3
*/
#ifdef __LP64__
uint64_t flags;
#else
uint32_t flags;
#endif
/* reserved fields, must be zero */
void* reserved[2];
};
/**
* Shared memory information for a direct channel
*/
struct sensors_direct_mem_t {
int type; // enum SENSOR_DIRECT_MEM_...
int format; // enum SENSOR_DIRECT_FMT_...
size_t size; // size of the memory region, in bytes
const struct native_handle *handle; // shared memory handle, which is interpreted differently
// depending on type
};
/**
* Direct channel report configuration
*/
struct sensors_direct_cfg_t {
int rate_level; // enum SENSOR_DIRECT_RATE_...
};
/*
* sensors_poll_device_t is used with SENSORS_DEVICE_API_VERSION_0_1
* and is present for backward binary and source compatibility.
* See the Sensors HAL interface section for complete descriptions of the
* following functions:
* http://source.android.com/devices/sensors/index.html#hal
*/
struct sensors_poll_device_t {
struct hw_device_t common;
int (*activate)(struct sensors_poll_device_t *dev,
int sensor_handle, int enabled);
int (*setDelay)(struct sensors_poll_device_t *dev,
int sensor_handle, int64_t sampling_period_ns);
int (*poll)(struct sensors_poll_device_t *dev,
sensors_event_t* data, int count);
};
/*
* struct sensors_poll_device_1 is used in HAL versions >= SENSORS_DEVICE_API_VERSION_1_0
*/
typedef struct sensors_poll_device_1 {
union {
/* sensors_poll_device_1 is compatible with sensors_poll_device_t,
* and can be down-cast to it
*/
struct sensors_poll_device_t v0;
struct {
struct hw_device_t common;
/* Activate/de-activate one sensor.
*
* sensor_handle is the handle of the sensor to change.
* enabled set to 1 to enable, or 0 to disable the sensor.
*
* Before sensor activation, existing sensor events that have not
* been picked up by poll() should be abandoned so that application
* upon new activation request will not get stale events.
* (events that are generated during latter activation or during
* data injection mode after sensor deactivation)
*
* Return 0 on success, negative errno code otherwise.
*/
int (*activate)(struct sensors_poll_device_t *dev,
int sensor_handle, int enabled);
/**
* Set the events's period in nanoseconds for a given sensor.
* If sampling_period_ns > max_delay it will be truncated to
* max_delay and if sampling_period_ns < min_delay it will be
* replaced by min_delay.
*/
int (*setDelay)(struct sensors_poll_device_t *dev,
int sensor_handle, int64_t sampling_period_ns);
/**
* Write an array of sensor_event_t to data. The size of the
* available buffer is specified by count. Returns number of
* valid sensor_event_t.
*
* This function should block if there is no sensor event
* available when being called. Thus, return value should always be
* positive.
*/
int (*poll)(struct sensors_poll_device_t *dev,
sensors_event_t* data, int count);
};
};
/*
* Sets a sensor’s parameters, including sampling frequency and maximum
* report latency. This function can be called while the sensor is
* activated, in which case it must not cause any sensor measurements to
* be lost: transitioning from one sampling rate to the other cannot cause
* lost events, nor can transitioning from a high maximum report latency to
* a low maximum report latency.
* See the Batching sensor results page for details:
* http://source.android.com/devices/sensors/batching.html
*/
int (*batch)(struct sensors_poll_device_1* dev,
int sensor_handle, int flags, int64_t sampling_period_ns,
int64_t max_report_latency_ns);
/*
* Flush adds a META_DATA_FLUSH_COMPLETE event (sensors_event_meta_data_t)
* to the end of the "batch mode" FIFO for the specified sensor and flushes
* the FIFO.
* If the FIFO is empty or if the sensor doesn't support batching (FIFO size zero),
* it should return SUCCESS along with a trivial META_DATA_FLUSH_COMPLETE event added to the
* event stream. This applies to all sensors other than one-shot sensors.
* If the sensor is a one-shot sensor, flush must return -EINVAL and not generate
* any flush complete metadata.
* If the sensor is not active at the time flush() is called, flush() should return
* -EINVAL.
*/
int (*flush)(struct sensors_poll_device_1* dev, int sensor_handle);
/*
* Inject a single sensor sample to be to this device.
* data points to the sensor event to be injected
* return 0 on success
* -EPERM if operation is not allowed
* -EINVAL if sensor event cannot be injected
*/
int (*inject_sensor_data)(struct sensors_poll_device_1 *dev, const sensors_event_t *data);
/*
* Register/unregister direct report channel.
*
* A HAL declares support for direct report by setting non-NULL values for both
* register_direct_channel and config_direct_report.
*
* This function has two operation modes:
*
* Register: mem != NULL, register a channel using supplied shared memory information. By the
* time this function returns, sensors must finish initializing shared memory content
* (format dependent, see SENSOR_DIRECT_FMT_*).
* Parameters:
* mem points to a valid struct sensors_direct_mem_t.
* channel_handle is ignored.
* Return value:
* A handle of channel (>0, <INT32_MAX) when success, which later can be referred in
* unregister or config_direct_report call, or error code (<0) when failed
* Unregister: mem == NULL, unregister a previously registered channel.
* Parameters:
* mem set to NULL
* channel_handle contains handle of channel to be unregistered
* Return value:
* 0, even if the channel_handle is invalid, in which case it will be a no-op.
*/
int (*register_direct_channel)(struct sensors_poll_device_1 *dev,
const struct sensors_direct_mem_t* mem, int channel_handle);
/*
* Configure direct sensor event report in direct channel.
*
* Start, modify rate or stop direct report of a sensor in a certain direct channel. A special
* case is setting sensor handle -1 to stop means to stop all active sensor report on the
* channel specified.
*
* A HAL declares support for direct report by setting non-NULL values for both
* register_direct_channel and config_direct_report.
*
* Parameters:
* sensor_handle sensor to be configured. The sensor has to support direct report
* mode by setting flags of sensor_t. Also, direct report mode is only
* defined for continuous reporting mode sensors.
* channel_handle channel handle to be configured.
* config direct report parameters, see sensor_direct_cfg_t.
* Return value:
* - when sensor is started or sensor rate level is changed: return positive identifier of
* sensor in specified channel if successful, otherwise return negative error code.
* - when sensor is stopped: return 0 for success or negative error code for failure.
*/
int (*config_direct_report)(struct sensors_poll_device_1 *dev,
int sensor_handle, int channel_handle, const struct sensors_direct_cfg_t *config);
/*
* Reserved for future use, must be zero.
*/
void (*reserved_procs[5])(void);
} sensors_poll_device_1_t;
/** convenience API for opening and closing a device */
static inline int sensors_open(const struct hw_module_t* module,
struct sensors_poll_device_t** device) {
return module->methods->open(module,
SENSORS_HARDWARE_POLL, TO_HW_DEVICE_T_OPEN(device));
}
static inline int sensors_close(struct sensors_poll_device_t* device) {
return device->common.close(&device->common);
}
static inline int sensors_open_1(const struct hw_module_t* module,
sensors_poll_device_1_t** device) {
return module->methods->open(module,
SENSORS_HARDWARE_POLL, TO_HW_DEVICE_T_OPEN(device));
}
static inline int sensors_close_1(sensors_poll_device_1_t* device) {
return device->common.close(&device->common);
}
__END_DECLS
#endif // ANDROID_SENSORS_INTERFACE_H