Each and every IIO device, typically a hardware chip, has a device folder under /sys/bus/iio/devices/iio:deviceX. Where X is the IIO index of the device. Under every of these directory folders reside a set of files, depending on the characteristics and features of the hardware device in question. These files are consistently generalized and documented in the IIO ABI documentation. In order to determine which IIO deviceX corresponds to which hardware device, the user can read the name file /sys/bus/iio/devices/iio:deviceX/name. In case the sequence in which the iio device drivers are loaded/registered is constant, the numbering is constant and may be known in advance.

The Industrial I/O subsystem provides support for passing hardware generated events up to userspace.

In IIO events are not used for passing normal readings from the sensing devices to userspace, but rather for out of band information. Normal data reaches userspace through a low overhead character device - typically via either software or hardware buffer. The stream format is pseudo fixed, so is described and controlled via sysfs rather than adding headers to the data describing what is in it.

Pretty much all IIO events correspond to thresholds on some value derived from one or more raw readings from the sensor. They are provided by the underlying hardware.

Examples include:

• Straight crossing a voltage threshold
• Moving average crosses a threshold
• Motion detectors (lots of ways of doing this).
• Thresholds on sum squared or rms values.
• Rate of change thresholds.
• Lots more variants…

Events have timestamps.

The Interface:

• Single user at a time.

• Simple chrdev per device (aggregation across devices doesn't really make sense for IIO as you tend to really care which sensor caused the event rather than just that it happened.)

The format is:

/**
 * struct iio_event_data - The actual event being pushed to userspace
 * @id:		event identifier
 * @timestamp:	best estimate of time of event occurrence (often from
 *		the interrupt handler)
 */
struct iio_event_data {
	u64	id;
	s64	timestamp;
};

/sys/bus/iio/devices/iio:deviceX/events
Configuration of which hardware generated events are passed up to user-space.

• Threshold Events:

Z[_name]_thresh[_rising|falling]_en
Event generated when channel passes a threshold in the specified (_rising|_falling) direction. If the direction is not specified, then either the device will report an event which ever direction a single threshold value is called in (e.g. [Z][_name]__thresh_value) or [Z][_name]__thresh_rising_value and [Z][_name]__thresh_falling_value may take different values, but the device can only enable both thresholds or neither. Note the driver will assume the last p events requested are to be enabled where p is however many it supports (which may vary depending on the exact set requested. So if you want to be sure you have set what you think you have, check the contents of these attributes after everything is configured. Drivers may have to buffer any parameters so that they are consistent when a given event type is enabled a future point (and not those for whatever event was previously enabled).

Z[_name]_thresh[_rising|falling]_value
Specifies the value of threshold that the device is comparing against for the events enabled by Z[_name]_thresh[_rising|falling]_en. If separate attributes exist for the two directions, but direction is not specified for this attribute, then a single threshold value applies to both directions. The raw or input element of the name indicates whether the value is in raw device units or in processed units (as _raw and _input do on sysfs direct channel read attributes).

• Rate of Change Events:

[Z][_name]_roc[_rising|falling]_en
Event generated when channel passes a threshold on the rate of change (1st differential) in the specified (_rising|_falling) direction. If the direction is not specified, then either the device will report an event which ever direction a single threshold value is called in (e.g. [Z][_name]__roc_value) or [Z][_name]__roc_rising_value and [Z][_name]__roc_falling_value may take different values, but the device can only enable both rate of change thresholds or neither. Note the driver will assume the last p events requested are to be enabled where p is however many it supports (which may vary depending on the exact set requested. So if you want to be sure you have set what you think you have, check the contents of these attributes after everything is configured. Drivers may have to buffer any parameters so that they are consistent when a given event type is enabled a future point (and not those for whatever event was previously enabled).

[Z][_name]_roc[_rising|falling]_value
Specifies the value of rate of change threshold that the device is comparing against for the events enabled by [Z][_name]_roc[_rising|falling]_en. If separate attributes exist for the two directions, but direction is not specified for this attribute, then a single threshold value applies to both directions. The raw or input element of the name indicates whether the value is in raw device units or in processed units (as _raw and _input do on sysfs direct channel read attributes).

• Magnitude Events:

Z[_name]_mag[_rising|falling]_en
Similar to in_accel_x_thresh[_rising|_falling]_en, but here the magnitude of the channel is compared to the threshold, not its signed value.

Z[_name]_mag[_rising|falling]_value
The value to which the magnitude of the channel is compared. If number or direction is not specified, applies to all channels of this type.

• Temporal Conditions:

[Z][_name][_thresh|_roc][_rising|falling]_period
Period of time (in seconds) for which the condition must be met before an event is generated. If direction is not specified then this period applies to both directions.

• IIO mailing list: linux [dash] iio [at] vger [dot] kernel [dot] org
• IIO Linux Kernel Documentation sysfs-bus-iio-*
• IIO Documentation
• IIO test and visualization application
• libiio - IIO system library
• libiio - Internals
• Pointers and good books
• IIO High Speed
• Video from FOSDEM of how IIO is used in SDR applications
• libiio API introduction presentation video