12#ifndef ZEPHYR_INCLUDE_DRIVERS_SENSOR_H_
13#define ZEPHYR_INCLUDE_DRIVERS_SENSOR_H_
437 "sensor_chan_spec size should be equal or less than the size of a machine word");
515 uint16_t max_count,
void *data_out);
561#define SENSOR_DECODE_CONTEXT_INIT(decoder_, buffer_, channel_type_, channel_index_) \
563 .decoder = (decoder_), \
564 .buffer = (buffer_), \
565 .channel = {.chan_type = (channel_type_), .chan_idx = (channel_index_)}, \
611#define SENSOR_STREAM_TRIGGER_PREP(_trigger, _opt) \
613 .trigger = (_trigger), .opt = (_opt), \
646#define SENSOR_DT_READ_IODEV(name, dt_node, ...) \
647 static struct sensor_chan_spec _CONCAT(__channel_array_, name)[] = {__VA_ARGS__}; \
648 static struct sensor_read_config _CONCAT(__sensor_read_config_, name) = { \
649 .sensor = DEVICE_DT_GET(dt_node), \
650 .is_streaming = false, \
651 .channels = _CONCAT(__channel_array_, name), \
652 .count = ARRAY_SIZE(_CONCAT(__channel_array_, name)), \
653 .max = ARRAY_SIZE(_CONCAT(__channel_array_, name)), \
655 RTIO_IODEV_DEFINE(name, &__sensor_iodev_api, _CONCAT(&__sensor_read_config_, name))
676#define SENSOR_DT_STREAM_IODEV(name, dt_node, ...) \
677 static struct sensor_stream_trigger _CONCAT(__trigger_array_, name)[] = {__VA_ARGS__}; \
678 static struct sensor_read_config _CONCAT(__sensor_read_config_, name) = { \
679 .sensor = DEVICE_DT_GET(dt_node), \
680 .is_streaming = true, \
681 .triggers = _CONCAT(__trigger_array_, name), \
682 .count = ARRAY_SIZE(_CONCAT(__trigger_array_, name)), \
683 .max = ARRAY_SIZE(_CONCAT(__trigger_array_, name)), \
685 RTIO_IODEV_DEFINE(name, &__sensor_iodev_api, &_CONCAT(__sensor_read_config_, name))
723static inline int z_impl_sensor_attr_set(
const struct device *dev,
735 return api->
attr_set(dev, chan, attr, val);
755static inline int z_impl_sensor_attr_get(
const struct device *dev,
767 return api->
attr_get(dev, chan, attr, val);
826static inline int z_impl_sensor_sample_fetch(
const struct device *dev)
858static inline int z_impl_sensor_sample_fetch_chan(
const struct device *dev,
892static inline int z_impl_sensor_channel_get(
const struct device *dev,
902#if defined(CONFIG_SENSOR_ASYNC_API) || defined(__DOXYGEN__)
935#define SENSOR_CHANNEL_3_AXIS(chan) \
936 ((chan) == SENSOR_CHAN_ACCEL_XYZ || (chan) == SENSOR_CHAN_GYRO_XYZ || \
937 (chan) == SENSOR_CHAN_MAGN_XYZ)
950static inline int z_impl_sensor_get_decoder(
const struct device *dev,
955 __ASSERT_NO_MSG(api != NULL);
958 *decoder = &__sensor_default_decoder;
985 size_t num_channels);
987static inline int z_impl_sensor_reconfigure_read_iodev(
struct rtio_iodev *iodev,
988 const struct device *sensor,
1000 cfg->
count = num_channels;
1018 if (handle != NULL) {
1091#define SENSOR_G 9806650LL
1096#define SENSOR_PI 3141592LL
1110 if (micro_ms2 > 0) {
1141 return (micro_ms2 * 1000000LL) /
SENSOR_G;
1167 if (micro_rad_s > 0) {
1201 return (micro_rad_s * 180LL * 100000LL) /
SENSOR_PI;
1224 return (
double)val->
val1 + (double)val->
val2 / 1000000;
1235 return (
float)val->
val1 + (float)val->
val2 / 1000000;
1247 if (inp < INT32_MIN || inp >
INT32_MAX) {
1251 double val2 = (inp - (
int32_t)inp) * 1000000.0;
1253 if (val2 < INT32_MIN || val2 >
INT32_MAX) {
1272 float val2 = (inp - (
int32_t)inp) * 1000000.0f;
1274 if (val2 < INT32_MIN || val2 > (
float)(
INT32_MAX - 1)) {
1284#ifdef CONFIG_SENSOR_INFO
1287 const struct device *dev;
1290 const char *friendly_name;
1293#define SENSOR_INFO_INITIALIZER(_dev, _vendor, _model, _friendly_name) \
1296 .vendor = _vendor, \
1298 .friendly_name = _friendly_name, \
1301#define SENSOR_INFO_DEFINE(name, ...) \
1302 static const STRUCT_SECTION_ITERABLE(sensor_info, name) = \
1303 SENSOR_INFO_INITIALIZER(__VA_ARGS__)
1305#define SENSOR_INFO_DT_NAME(node_id) \
1306 _CONCAT(__sensor_info, DEVICE_DT_NAME_GET(node_id))
1308#define SENSOR_INFO_DT_DEFINE(node_id) \
1309 SENSOR_INFO_DEFINE(SENSOR_INFO_DT_NAME(node_id), \
1310 DEVICE_DT_GET(node_id), \
1311 DT_NODE_VENDOR_OR(node_id, NULL), \
1312 DT_NODE_MODEL_OR(node_id, NULL), \
1313 DT_PROP_OR(node_id, friendly_name, NULL)) \
1317#define SENSOR_INFO_DEFINE(name, ...)
1318#define SENSOR_INFO_DT_DEFINE(node_id)
1349#define SENSOR_DEVICE_DT_DEFINE(node_id, init_fn, pm_device, \
1350 data_ptr, cfg_ptr, level, prio, \
1352 DEVICE_DT_DEFINE(node_id, init_fn, pm_device, \
1353 data_ptr, cfg_ptr, level, prio, \
1354 api_ptr, __VA_ARGS__); \
1356 SENSOR_INFO_DT_DEFINE(node_id);
1367#define SENSOR_DEVICE_DT_INST_DEFINE(inst, ...) \
1368 SENSOR_DEVICE_DT_DEFINE(DT_DRV_INST(inst), __VA_ARGS__)
1441#define SENSOR_DECODER_NAME() UTIL_CAT(DT_DRV_COMPAT, __decoder_api)
1450#define SENSOR_DECODER_DT_GET(node_id) \
1451 &UTIL_CAT(DT_STRING_TOKEN_BY_IDX(node_id, compatible, 0), __decoder_api)
1468#define SENSOR_DECODER_API_DT_DEFINE() \
1469 COND_CODE_1(DT_HAS_COMPAT_STATUS_OKAY(DT_DRV_COMPAT), (), (static)) \
1470 const STRUCT_SECTION_ITERABLE(sensor_decoder_api, SENSOR_DECODER_NAME())
1472#define Z_MAYBE_SENSOR_DECODER_DECLARE_INTERNAL_IDX(node_id, prop, idx) \
1473 extern const struct sensor_decoder_api UTIL_CAT( \
1474 DT_STRING_TOKEN_BY_IDX(node_id, prop, idx), __decoder_api);
1476#define Z_MAYBE_SENSOR_DECODER_DECLARE_INTERNAL(node_id) \
1477 COND_CODE_1(DT_NODE_HAS_PROP(node_id, compatible), \
1478 (DT_FOREACH_PROP_ELEM(node_id, compatible, \
1479 Z_MAYBE_SENSOR_DECODER_DECLARE_INTERNAL_IDX)), \
1488#include <syscalls/sensor.h>
irp nz macro MOVR cc d
Definition: asm-macro-32-bit-gnu.h:11
#define DT_FOREACH_STATUS_OKAY_NODE(fn)
Invokes fn for every status okay node in the tree.
Definition: devicetree.h:2693
#define RTIO_PRIO_NORM
Normal priority.
Definition: rtio.h:70
static void rtio_sqe_prep_read_with_pool(struct rtio_sqe *sqe, const struct rtio_iodev *iodev, int8_t prio, void *userdata)
Prepare a read op submission with context's mempool.
Definition: rtio.h:520
static int rtio_sqe_copy_in(struct rtio *r, const struct rtio_sqe *sqes, size_t sqe_count)
Copy an array of SQEs into the queue.
Definition: rtio.h:1369
int rtio_sqe_copy_in_get_handles(struct rtio *r, const struct rtio_sqe *sqes, struct rtio_sqe **handle, size_t sqe_count)
Copy an array of SQEs into the queue and get resulting handles back.
static struct rtio_sqe * rtio_sqe_acquire(struct rtio *r)
Acquire a single submission queue event if available.
Definition: rtio.h:905
static void rtio_sqe_prep_read_multishot(struct rtio_sqe *sqe, const struct rtio_iodev *iodev, int8_t prio, void *userdata)
Definition: rtio.h:528
int rtio_submit(struct rtio *r, uint32_t wait_count)
Submit I/O requests to the underlying executor.
#define SENSOR_G
The value of gravitational constant in micro m/s^2.
Definition: sensor.h:1091
static int sensor_decode(struct sensor_decode_context *ctx, void *out, uint16_t max_count)
Decode N frames using a sensor_decode_context.
Definition: sensor.h:577
static int32_t sensor_rad_to_degrees(const struct sensor_value *rad)
Helper function for converting radians to degrees.
Definition: sensor.h:1163
sensor_trigger_type
Sensor trigger types.
Definition: sensor.h:217
sensor_attribute
Sensor attribute types.
Definition: sensor.h:294
int(* sensor_attr_set_t)(const struct device *dev, enum sensor_channel chan, enum sensor_attribute attr, const struct sensor_value *val)
Callback API upon setting a sensor's attributes.
Definition: sensor.h:378
int sensor_get_decoder(const struct device *dev, const struct sensor_decoder_api **decoder)
Get the sensor's decoder API.
int(* sensor_sample_fetch_t)(const struct device *dev, enum sensor_channel chan)
Callback API for fetching data from a sensor.
Definition: sensor.h:409
static void sensor_ug_to_ms2(int32_t ug, struct sensor_value *ms2)
Helper function to convert acceleration from micro Gs to m/s^2.
Definition: sensor.h:1150
static double sensor_value_to_double(const struct sensor_value *val)
Helper function for converting struct sensor_value to double.
Definition: sensor.h:1222
static float sensor_value_to_float(const struct sensor_value *val)
Helper function for converting struct sensor_value to float.
Definition: sensor.h:1233
int sensor_natively_supported_channel_size_info(struct sensor_chan_spec channel, size_t *base_size, size_t *frame_size)
static int sensor_read(struct rtio_iodev *iodev, struct rtio *ctx, void *userdata)
Read data from a sensor.
Definition: sensor.h:1040
static void sensor_degrees_to_rad(int32_t d, struct sensor_value *rad)
Helper function for converting degrees to radians.
Definition: sensor.h:1180
static int32_t sensor_ms2_to_ug(const struct sensor_value *ms2)
Helper function to convert acceleration from m/s^2 to micro Gs.
Definition: sensor.h:1137
int(* sensor_attr_get_t)(const struct device *dev, enum sensor_channel chan, enum sensor_attribute attr, struct sensor_value *val)
Callback API upon getting a sensor's attributes.
Definition: sensor.h:389
static int sensor_value_from_float(struct sensor_value *val, float inp)
Helper function for converting float to struct sensor_value.
Definition: sensor.h:1270
void(* sensor_trigger_handler_t)(const struct device *dev, const struct sensor_trigger *trigger)
Callback API upon firing of a trigger.
Definition: sensor.h:369
static void sensor_g_to_ms2(int32_t g, struct sensor_value *ms2)
Helper function to convert acceleration from Gs to m/s^2.
Definition: sensor.h:1123
static int64_t sensor_value_to_milli(const struct sensor_value *val)
Helper function for converting struct sensor_value to integer milli units.
Definition: sensor.h:1376
#define SENSOR_PI
The value of constant PI in micros.
Definition: sensor.h:1096
static int sensor_trigger_set(const struct device *dev, const struct sensor_trigger *trig, sensor_trigger_handler_t handler)
Activate a sensor's trigger and set the trigger handler.
Definition: sensor.h:792
sensor_stream_data_opt
Options for what to do with the associated data when a trigger is consumed.
Definition: sensor.h:597
static int sensor_value_from_milli(struct sensor_value *val, int64_t milli)
Helper function for converting integer milli units to struct sensor_value.
Definition: sensor.h:1399
void(* sensor_processing_callback_t)(int result, uint8_t *buf, uint32_t buf_len, void *userdata)
Callback function used with the helper processing function.
Definition: sensor.h:1070
static int64_t sensor_value_to_micro(const struct sensor_value *val)
Helper function for converting struct sensor_value to integer micro units.
Definition: sensor.h:1387
int sensor_channel_get(const struct device *dev, enum sensor_channel chan, struct sensor_value *val)
Get a reading from a sensor device.
int sensor_sample_fetch(const struct device *dev)
Fetch a sample from the sensor and store it in an internal driver buffer.
sensor_channel
Sensor channels.
Definition: sensor.h:61
int(* sensor_get_decoder_t)(const struct device *dev, const struct sensor_decoder_api **api)
Get the decoder associate with the given device.
Definition: sensor.h:591
static void sensor_10udegrees_to_rad(int32_t d, struct sensor_value *rad)
Helper function for converting 10 micro degrees to radians.
Definition: sensor.h:1210
int(* sensor_channel_get_t)(const struct device *dev, enum sensor_channel chan, struct sensor_value *val)
Callback API for getting a reading from a sensor.
Definition: sensor.h:417
static int32_t sensor_ms2_to_g(const struct sensor_value *ms2)
Helper function to convert acceleration from m/s^2 to Gs.
Definition: sensor.h:1106
int sensor_reconfigure_read_iodev(struct rtio_iodev *iodev, const struct device *sensor, const struct sensor_chan_spec *channels, size_t num_channels)
Reconfigure a reading iodev.
int(* sensor_submit_t)(const struct device *sensor, struct rtio_iodev_sqe *sqe)
Definition: sensor.h:688
void sensor_processing_with_callback(struct rtio *ctx, sensor_processing_callback_t cb)
Helper function for common processing of sensor data.
int(* sensor_trigger_set_t)(const struct device *dev, const struct sensor_trigger *trig, sensor_trigger_handler_t handler)
Callback API for setting a sensor's trigger and handler.
Definition: sensor.h:400
static int sensor_value_from_micro(struct sensor_value *val, int64_t micro)
Helper function for converting integer micro units to struct sensor_value.
Definition: sensor.h:1419
int sensor_sample_fetch_chan(const struct device *dev, enum sensor_channel type)
Fetch a sample from the sensor and store it in an internal driver buffer.
static int sensor_stream(struct rtio_iodev *iodev, struct rtio *ctx, void *userdata, struct rtio_sqe **handle)
Definition: sensor.h:1004
static int32_t sensor_rad_to_10udegrees(const struct sensor_value *rad)
Helper function for converting radians to 10 micro degrees.
Definition: sensor.h:1197
static bool sensor_chan_spec_eq(struct sensor_chan_spec chan_spec0, struct sensor_chan_spec chan_spec1)
Check if channel specs are equivalent.
Definition: sensor.h:448
int sensor_attr_get(const struct device *dev, enum sensor_channel chan, enum sensor_attribute attr, struct sensor_value *val)
Get an attribute for a sensor.
static int sensor_value_from_double(struct sensor_value *val, double inp)
Helper function for converting double to struct sensor_value.
Definition: sensor.h:1245
int sensor_attr_set(const struct device *dev, enum sensor_channel chan, enum sensor_attribute attr, const struct sensor_value *val)
Set an attribute for a sensor.
@ SENSOR_TRIG_DELTA
Trigger fires when the selected channel varies significantly.
Definition: sensor.h:233
@ SENSOR_TRIG_NEAR_FAR
Trigger fires when a near/far event is detected.
Definition: sensor.h:235
@ SENSOR_TRIG_FREEFALL
Trigger fires when a free fall is detected.
Definition: sensor.h:251
@ SENSOR_TRIG_PRIV_START
This and higher values are sensor specific.
Definition: sensor.h:273
@ SENSOR_TRIG_FIFO_FULL
Trigger fires when the FIFO becomes full.
Definition: sensor.h:263
@ SENSOR_TRIG_MOTION
Trigger fires when motion is detected.
Definition: sensor.h:254
@ SENSOR_TRIG_STATIONARY
Trigger fires when no motion has been detected for a while.
Definition: sensor.h:257
@ SENSOR_TRIG_COMMON_COUNT
Number of all common sensor triggers.
Definition: sensor.h:267
@ SENSOR_TRIG_THRESHOLD
Trigger fires when channel reading transitions configured thresholds.
Definition: sensor.h:242
@ SENSOR_TRIG_MAX
Maximum value describing a sensor trigger type.
Definition: sensor.h:278
@ SENSOR_TRIG_DOUBLE_TAP
Trigger fires when a double tap is detected.
Definition: sensor.h:248
@ SENSOR_TRIG_TIMER
Timer-based trigger, useful when the sensor does not have an interrupt line.
Definition: sensor.h:222
@ SENSOR_TRIG_FIFO_WATERMARK
Trigger fires when the FIFO watermark has been reached.
Definition: sensor.h:260
@ SENSOR_TRIG_TAP
Trigger fires when a single tap is detected.
Definition: sensor.h:245
@ SENSOR_TRIG_DATA_READY
Trigger fires whenever new data is ready.
Definition: sensor.h:224
@ SENSOR_ATTR_HYSTERESIS
Definition: sensor.h:312
@ SENSOR_ATTR_FEATURE_MASK
Enable/disable sensor features.
Definition: sensor.h:332
@ SENSOR_ATTR_CALIB_TARGET
Calibration target.
Definition: sensor.h:326
@ SENSOR_ATTR_OFFSET
The sensor value returned will be altered by the amount indicated by offset: final_value = sensor_val...
Definition: sensor.h:321
@ SENSOR_ATTR_BATCH_DURATION
Hardware batch duration in ticks.
Definition: sensor.h:343
@ SENSOR_ATTR_OVERSAMPLING
Oversampling factor.
Definition: sensor.h:314
@ SENSOR_ATTR_FF_DUR
Free-fall duration represented in milliseconds.
Definition: sensor.h:340
@ SENSOR_ATTR_UPPER_THRESH
Upper threshold for trigger.
Definition: sensor.h:303
@ SENSOR_ATTR_CONFIGURATION
Configure the operating modes of a sensor.
Definition: sensor.h:328
@ SENSOR_ATTR_CALIBRATION
Set a calibration value needed by a sensor.
Definition: sensor.h:330
@ SENSOR_ATTR_COMMON_COUNT
Number of all common sensor attributes.
Definition: sensor.h:348
@ SENSOR_ATTR_ALERT
Alert threshold or alert enable/disable.
Definition: sensor.h:334
@ SENSOR_ATTR_SLOPE_TH
Threshold for any-motion (slope) trigger.
Definition: sensor.h:305
@ SENSOR_ATTR_SAMPLING_FREQUENCY
Sensor sampling frequency, i.e.
Definition: sensor.h:299
@ SENSOR_ATTR_FULL_SCALE
Sensor range, in SI units.
Definition: sensor.h:316
@ SENSOR_ATTR_LOWER_THRESH
Lower threshold for trigger.
Definition: sensor.h:301
@ SENSOR_ATTR_SLOPE_DUR
Duration for which the slope values needs to be outside the threshold for the trigger to fire.
Definition: sensor.h:310
@ SENSOR_ATTR_MAX
Maximum value describing a sensor attribute type.
Definition: sensor.h:359
@ SENSOR_ATTR_PRIV_START
This and higher values are sensor specific.
Definition: sensor.h:354
@ SENSOR_STREAM_DATA_INCLUDE
Include whatever data is associated with the trigger.
Definition: sensor.h:599
@ SENSOR_STREAM_DATA_NOP
Do nothing with the associated trigger data, it may be consumed later.
Definition: sensor.h:601
@ SENSOR_STREAM_DATA_DROP
Flush/clear whatever data is associated with the trigger.
Definition: sensor.h:603
@ SENSOR_CHAN_GAUGE_STATE_OF_HEALTH
State of health measurement in %.
Definition: sensor.h:180
@ SENSOR_CHAN_PM_1_0
1.0 micro-meters Particulate Matter, in ug/m^3
Definition: sensor.h:113
@ SENSOR_CHAN_DIE_TEMP
Device die temperature in degrees Celsius.
Definition: sensor.h:87
@ SENSOR_CHAN_PRESS
Pressure in kilopascal.
Definition: sensor.h:91
@ SENSOR_CHAN_GAUGE_TIME_TO_FULL
Time to full in minutes.
Definition: sensor.h:184
@ SENSOR_CHAN_ACCEL_XYZ
Acceleration on the X, Y and Z axes.
Definition: sensor.h:69
@ SENSOR_CHAN_MAGN_X
Magnetic field on the X axis, in Gauss.
Definition: sensor.h:79
@ SENSOR_CHAN_O2
O2 level, in parts per million (ppm)
Definition: sensor.h:124
@ SENSOR_CHAN_CURRENT
Current, in amps.
Definition: sensor.h:137
@ SENSOR_CHAN_GYRO_XYZ
Angular velocity around the X, Y and Z axes.
Definition: sensor.h:77
@ SENSOR_CHAN_VSHUNT
Current Shunt Voltage in milli-volts.
Definition: sensor.h:134
@ SENSOR_CHAN_GREEN
Illuminance in green spectrum, in lux.
Definition: sensor.h:106
@ SENSOR_CHAN_MAGN_Z
Magnetic field on the Z axis, in Gauss.
Definition: sensor.h:83
@ SENSOR_CHAN_MAGN_Y
Magnetic field on the Y axis, in Gauss.
Definition: sensor.h:81
@ SENSOR_CHAN_GAUGE_DESIRED_VOLTAGE
Desired voltage of cell in V (nominal voltage)
Definition: sensor.h:190
@ SENSOR_CHAN_POWER
Power in watts.
Definition: sensor.h:139
@ SENSOR_CHAN_PM_2_5
2.5 micro-meters Particulate Matter, in ug/m^3
Definition: sensor.h:115
@ SENSOR_CHAN_RESISTANCE
Resistance , in Ohm.
Definition: sensor.h:142
@ SENSOR_CHAN_GAUGE_AVG_CURRENT
Average current, in amps.
Definition: sensor.h:160
@ SENSOR_CHAN_GYRO_Y
Angular velocity around the Y axis, in radians/s.
Definition: sensor.h:73
@ SENSOR_CHAN_GAUGE_DESIRED_CHARGING_CURRENT
Desired charging current in mA.
Definition: sensor.h:192
@ SENSOR_CHAN_GAUGE_FULL_CHARGE_CAPACITY
Full Charge Capacity in mAh.
Definition: sensor.h:170
@ SENSOR_CHAN_ROTATION
Angular rotation, in degrees.
Definition: sensor.h:145
@ SENSOR_CHAN_AMBIENT_TEMP
Ambient temperature in degrees Celsius.
Definition: sensor.h:89
@ SENSOR_CHAN_MAGN_XYZ
Magnetic field on the X, Y and Z axes.
Definition: sensor.h:85
@ SENSOR_CHAN_GAUGE_STDBY_CURRENT
Standby current, in amps.
Definition: sensor.h:162
@ SENSOR_CHAN_GAUGE_MAX_LOAD_CURRENT
Max load current, in amps.
Definition: sensor.h:164
@ SENSOR_CHAN_ACCEL_Y
Acceleration on the Y axis, in m/s^2.
Definition: sensor.h:65
@ SENSOR_CHAN_RPM
Revolutions per minute, in RPM.
Definition: sensor.h:155
@ SENSOR_CHAN_GAUGE_FULL_AVAIL_CAPACITY
Full Available Capacity in mAh.
Definition: sensor.h:176
@ SENSOR_CHAN_VOLTAGE
Voltage, in volts.
Definition: sensor.h:131
@ SENSOR_CHAN_BLUE
Illuminance in blue spectrum, in lux.
Definition: sensor.h:108
@ SENSOR_CHAN_LIGHT
Illuminance in visible spectrum, in lux.
Definition: sensor.h:100
@ SENSOR_CHAN_GAUGE_DESIGN_VOLTAGE
Design voltage of cell in V (max voltage)
Definition: sensor.h:188
@ SENSOR_CHAN_ACCEL_Z
Acceleration on the Z axis, in m/s^2.
Definition: sensor.h:67
@ SENSOR_CHAN_CO2
CO2 level, in parts per million (ppm)
Definition: sensor.h:122
@ SENSOR_CHAN_GAUGE_STATE_OF_CHARGE
State of charge measurement in %.
Definition: sensor.h:168
@ SENSOR_CHAN_GAUGE_CYCLE_COUNT
Cycle count (total number of charge/discharge cycles)
Definition: sensor.h:186
@ SENSOR_CHAN_GAUGE_TEMP
Gauge temperature
Definition: sensor.h:166
@ SENSOR_CHAN_POS_DY
Position change on the Y axis, in points.
Definition: sensor.h:150
@ SENSOR_CHAN_GYRO_Z
Angular velocity around the Z axis, in radians/s.
Definition: sensor.h:75
@ SENSOR_CHAN_POS_DX
Position change on the X axis, in points.
Definition: sensor.h:148
@ SENSOR_CHAN_GAUGE_AVG_POWER
Average power in mW.
Definition: sensor.h:178
@ SENSOR_CHAN_GAUGE_TIME_TO_EMPTY
Time to empty in minutes.
Definition: sensor.h:182
@ SENSOR_CHAN_PM_10
10 micro-meters Particulate Matter, in ug/m^3
Definition: sensor.h:117
@ SENSOR_CHAN_GAUGE_REMAINING_CHARGE_CAPACITY
Remaining Charge Capacity in mAh.
Definition: sensor.h:172
@ SENSOR_CHAN_ALL
All channels.
Definition: sensor.h:195
@ SENSOR_CHAN_GAUGE_VOLTAGE
Voltage, in volts.
Definition: sensor.h:158
@ SENSOR_CHAN_PROX
Proximity.
Definition: sensor.h:96
@ SENSOR_CHAN_COMMON_COUNT
Number of all common sensor channels.
Definition: sensor.h:200
@ SENSOR_CHAN_PRIV_START
This and higher values are sensor specific.
Definition: sensor.h:206
@ SENSOR_CHAN_GYRO_X
Angular velocity around the X axis, in radians/s.
Definition: sensor.h:71
@ SENSOR_CHAN_GAS_RES
Gas sensor resistance in ohms.
Definition: sensor.h:128
@ SENSOR_CHAN_HUMIDITY
Humidity, in percent.
Definition: sensor.h:98
@ SENSOR_CHAN_DISTANCE
Distance.
Definition: sensor.h:119
@ SENSOR_CHAN_IR
Illuminance in infra-red spectrum, in lux.
Definition: sensor.h:102
@ SENSOR_CHAN_MAX
Maximum value describing a sensor channel type.
Definition: sensor.h:211
@ SENSOR_CHAN_POS_DZ
Position change on the Z axis, in points.
Definition: sensor.h:152
@ SENSOR_CHAN_RED
Illuminance in red spectrum, in lux.
Definition: sensor.h:104
@ SENSOR_CHAN_ALTITUDE
Altitude, in meters.
Definition: sensor.h:110
@ SENSOR_CHAN_GAUGE_NOM_AVAIL_CAPACITY
Nominal Available Capacity in mAh.
Definition: sensor.h:174
@ SENSOR_CHAN_ACCEL_X
Acceleration on the X axis, in m/s^2.
Definition: sensor.h:63
@ SENSOR_CHAN_VOC
VOC level, in parts per billion (ppb)
Definition: sensor.h:126
#define IS_ENABLED(config_macro)
Check for macro definition in compiler-visible expressions.
Definition: util_macro.h:124
#define ENOSYS
Function not implemented.
Definition: errno.h:83
#define ENOMEM
Not enough core.
Definition: errno.h:51
#define ERANGE
Result too large.
Definition: errno.h:73
Size of off_t must be equal or less than size of size_t
Definition: retained_mem.h:28
Real-Time IO device API for moving bytes with low effort.
#define bool
Definition: stdbool.h:13
__UINT32_TYPE__ uint32_t
Definition: stdint.h:90
__INT32_TYPE__ int32_t
Definition: stdint.h:74
#define INT32_MAX
Definition: stdint.h:18
__UINT64_TYPE__ uint64_t
Definition: stdint.h:91
__UINT8_TYPE__ uint8_t
Definition: stdint.h:88
__UINTPTR_TYPE__ uintptr_t
Definition: stdint.h:105
__UINT16_TYPE__ uint16_t
Definition: stdint.h:89
#define INT32_MIN
Definition: stdint.h:24
#define INT16_MAX
Definition: stdint.h:17
__INT64_TYPE__ int64_t
Definition: stdint.h:75
__INT8_TYPE__ int8_t
Definition: stdint.h:72
void * memcpy(void *ZRESTRICT d, const void *ZRESTRICT s, size_t n)
Runtime device structure (in ROM) per driver instance.
Definition: device.h:399
const void * api
Address of the API structure exposed by the device instance.
Definition: device.h:405
API that an RTIO IO device should implement.
Definition: rtio.h:433
Compute the mempool block index for a given pointer.
Definition: rtio.h:423
struct rtio_sqe sqe
Definition: rtio.h:424
An IO device with a function table for submitting requests.
Definition: rtio.h:448
void * data
Definition: rtio.h:456
A submission queue event.
Definition: rtio.h:232
void * userdata
User provided data which is returned upon operation completion.
Definition: rtio.h:252
uint8_t * buf
Buffer to use.
Definition: rtio.h:259
uint32_t buf_len
Length of buffer.
Definition: rtio.h:258
const struct rtio_iodev * iodev
Device to operation on.
Definition: rtio.h:243
An RTIO context containing what can be viewed as a pair of queues.
Definition: rtio.h:327
Sensor Channel Specification.
Definition: sensor.h:429
uint16_t chan_idx
A sensor channel index.
Definition: sensor.h:431
uint16_t chan_type
A sensor channel type.
Definition: sensor.h:430
Used for iterating over the data frames via the sensor_decoder_api.
Definition: sensor.h:551
const struct sensor_decoder_api * decoder
Definition: sensor.h:552
struct sensor_chan_spec channel
Definition: sensor.h:554
const uint8_t * buffer
Definition: sensor.h:553
uint32_t fit
Definition: sensor.h:555
Decodes a single raw data buffer.
Definition: sensor.h:461
int(* get_size_info)(struct sensor_chan_spec channel, size_t *base_size, size_t *frame_size)
Get the size required to decode a given channel.
Definition: sensor.h:486
int(* get_frame_count)(const uint8_t *buffer, struct sensor_chan_spec channel, uint16_t *frame_count)
Get the number of frames in the current buffer.
Definition: sensor.h:471
int(* decode)(const uint8_t *buffer, struct sensor_chan_spec channel, uint32_t *fit, uint16_t max_count, void *data_out)
Decode up to max_count samples from the buffer.
Definition: sensor.h:514
bool(* has_trigger)(const uint8_t *buffer, enum sensor_trigger_type trigger)
Check if the given trigger type is present.
Definition: sensor.h:524
sensor_get_decoder_t get_decoder
Definition: sensor.h:702
sensor_attr_set_t attr_set
Definition: sensor.h:697
sensor_attr_get_t attr_get
Definition: sensor.h:698
sensor_trigger_set_t trigger_set
Definition: sensor.h:699
sensor_sample_fetch_t sample_fetch
Definition: sensor.h:700
sensor_channel_get_t channel_get
Definition: sensor.h:701
sensor_submit_t submit
Definition: sensor.h:703
struct sensor_chan_spec *const channels
Definition: sensor.h:624
size_t count
Definition: sensor.h:627
struct sensor_stream_trigger *const triggers
Definition: sensor.h:625
const bool is_streaming
Definition: sensor.h:622
const struct device * sensor
Definition: sensor.h:621
const size_t max
Definition: sensor.h:628
enum sensor_stream_data_opt opt
Definition: sensor.h:608
enum sensor_trigger_type trigger
Definition: sensor.h:607
Sensor trigger spec.
Definition: sensor.h:284
enum sensor_trigger_type type
Trigger type.
Definition: sensor.h:286
enum sensor_channel chan
Channel the trigger is set on.
Definition: sensor.h:288
Representation of a sensor readout value.
Definition: sensor.h:51
int32_t val2
Fractional part of the value (in one-millionth parts).
Definition: sensor.h:55
int32_t val1
Integer part of the value.
Definition: sensor.h:53
#define INT64_C(x)
Definition: xcc.h:90