sensors/1.0/ISensors.hal - platform/hardware/interfaces - Git at Google

 /*
  * Copyright (C) 2016 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.
  */

 package android.hardware.sensors@1.0;

 interface ISensors {
     /**
      * Enumerate all available (static) sensors.
      */
     getSensorsList() generates (vec<SensorInfo> list);

     /**
      * Place the module in a specific mode. The following modes are defined
      *
      *  SENSOR_HAL_NORMAL_MODE - Normal operation. Default state of the module.
      *
      *  SENSOR_HAL_DATA_INJECTION_MODE - Loopback mode.
      *    Data is injected for the supported sensors by the sensor service in
      *    this mode.
      *
      * @return OK on success
      *         BAD_VALUE if requested mode is not supported
      *         PERMISSION_DENIED if operation is not allowed
      */
     setOperationMode(OperationMode mode) generates (Result result);

     /**
      * Activate/de-activate one sensor.
      *
      * After sensor de-activation, existing sensor events that have not
      * been picked up by poll() must be abandoned immediately so that
      * subsequent activation will not get stale sensor events (events
      * that are generated prior to the latter activation).
      *
      * @param  sensorHandle is the handle of the sensor to change.
      * @param  enabled set to true to enable, or false to disable the sensor.
      *
      * @return result OK on success, BAD_VALUE if sensorHandle is invalid.
      */
     activate(int32_t sensorHandle, bool enabled) generates (Result result);

     /**
      * Generate a vector of sensor events containing at most "maxCount"
      * entries.
      *
      * Additionally a vector of SensorInfos is returned for any dynamic sensors
      * connected as notified by returned events of type DYNAMIC_SENSOR_META.
      *
      * If there is no sensor event when this function is being called, block
      * until there are sensor events available.
      *
      * @param  maxCount max number of samples can be returned, must be > 0.
      *         Actual number of events returned in data must be <= maxCount
      *         and > 0.
      * @return result OK on success or BAD_VALUE if maxCount <= 0.
      * @return data vector of Event contains sensor events.
      * @return dynamicSensorsAdded vector of SensorInfo contains dynamic sensor
      *         added. Each element corresponds to a dynamic sensor meta events
      *         in data.
      */
     poll(int32_t maxCount)
         generates (
                 Result result,
                 vec<Event> data,
                 vec<SensorInfo> dynamicSensorsAdded);

     /**
      * 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
      *
      * @param  sensorHandle handle of sensor to be changed.
      * @param  samplingPeriodNs specifies sensor sample period in nanoseconds.
      * @param  maxReportLatencyNs allowed delay time before an event is sampled
      *         to time of report.
      * @return result OK on success, BAD_VALUE if any parameters are invalid.
      */
     batch(int32_t sensorHandle,
           int64_t samplingPeriodNs,
           int64_t maxReportLatencyNs) generates (Result result);

     /**
      * Trigger a flush of internal FIFO.
      *
      * Flush adds a FLUSH_COMPLETE metadata event 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), return
      * SUCCESS and add a trivial 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 BAD_VALUE and not generate any
      * flush complete metadata.  If the sensor is not active at the time flush()
      * is called, flush() return BAD_VALUE.
      *
      * @param   sensorHandle handle of sensor to be flushed.
      * @return  result OK on success and BAD_VALUE if sensorHandle is invalid.
      */
     flush(int32_t sensorHandle) generates (Result result);

     /**
      * Inject a single sensor event or push operation environment parameters to
      * device.
      *
      * When device is in NORMAL mode, this function is called to push operation
      * environment data to device. In this operation, Event is always of
      * SensorType::AdditionalInfo type. See operation evironment parameters
      * section in AdditionalInfoType.
      *
      * When device is in DATA_INJECTION mode, this function is also used for
      * injecting sensor events.
      *
      * Regardless of OperationMode, injected SensorType::ADDITIONAL_INFO
      * type events should not be routed back to poll() function.
      *
      * @see AdditionalInfoType
      * @see OperationMode
      * @param   event sensor event to be injected
      * @return  result OK on success; PERMISSION_DENIED if operation is not
      *          allowed; INVALID_OPERATION, if this functionality is
      *          unsupported; BAD_VALUE if sensor event cannot be injected.
      */
     injectSensorData(Event event) generates (Result result);

     /**
      * Register direct report channel.
      *
      * Register a direct channel with supplied shared memory information. Upon
      * return, the sensor hardware is responsible for resetting the memory
      * content to initial value (depending on memory format settings).
      *
      * @param   mem shared memory info data structure.
      * @return  result OK on success; BAD_VALUE if shared memory information is
      *          not consistent; NO_MEMORY if shared memory cannot be used by
      *          sensor system; INVALID_OPERATION if functionality is not
      *          supported.
      * @return  channelHandle a positive integer used for referencing registered
      *          direct channel (>0) in configureDirectReport and
      *          unregisterDirectChannel if result is OK, -1 otherwise.
      */
     registerDirectChannel(SharedMemInfo mem)
             generates (Result result, int32_t channelHandle);

     /**
      * Unregister direct report channel.
      *
      * Unregister a direct channel previously registered using
      * registerDirectChannel, and remove all active sensor report configured in
      * still active sensor report configured in the direct channel.
      *
      * @param   channelHandle handle of direct channel to be unregistered.
      * @return  result OK if direct report is supported; INVALID_OPERATION
      *          otherwise.
      */
     unregisterDirectChannel(int32_t channelHandle) generates (Result result);

     /**
      * Configure direct sensor event report in direct channel.
      *
      * This function start, modify rate or stop direct report of a sensor in a
      * certain direct channel.
      *
      * @param   sensorHandle handle of sensor to be configured. When combined
      *          with STOP rate, sensorHandle can be -1 to denote all active
      *          sensors in the direct channel specified by channel Handle.
      * @param   channelHandle handle of direct channel to be configured.
      * @param   rate rate level, see RateLevel enum.
      *
      * @return  result OK on success; BAD_VALUE if parameter is invalid (such as
      *          rate level is not supported by sensor, channelHandle does not
      *          exist, etc); INVALID_OPERATION if functionality is not
      *          supported.
      * @return  reportToken positive integer to identify multiple sensors of
      *          the same type in a single direct channel. Ignored if rate is
      *          STOP. See SharedMemFormat.
      */
     configDirectReport(
             int32_t sensorHandle, int32_t channelHandle, RateLevel rate)
             generates (Result result, int32_t reportToken);
 };
	/*
	* Copyright (C) 2016 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.
	*/

	package android.hardware.sensors@1.0;

	interface ISensors {
	/**
	* Enumerate all available (static) sensors.
	*/
	getSensorsList() generates (vec<SensorInfo> list);

	/**
	* Place the module in a specific mode. The following modes are defined
	*
	* SENSOR_HAL_NORMAL_MODE - Normal operation. Default state of the module.
	*
	* SENSOR_HAL_DATA_INJECTION_MODE - Loopback mode.
	* Data is injected for the supported sensors by the sensor service in
	* this mode.
	*
	* @return OK on success
	* BAD_VALUE if requested mode is not supported
	* PERMISSION_DENIED if operation is not allowed
	*/
	setOperationMode(OperationMode mode) generates (Result result);

	/**
	* Activate/de-activate one sensor.
	*
	* After sensor de-activation, existing sensor events that have not
	* been picked up by poll() must be abandoned immediately so that
	* subsequent activation will not get stale sensor events (events
	* that are generated prior to the latter activation).
	*
	* @param sensorHandle is the handle of the sensor to change.
	* @param enabled set to true to enable, or false to disable the sensor.
	*
	* @return result OK on success, BAD_VALUE if sensorHandle is invalid.
	*/
	activate(int32_t sensorHandle, bool enabled) generates (Result result);

	/**
	* Generate a vector of sensor events containing at most "maxCount"
	* entries.
	*
	* Additionally a vector of SensorInfos is returned for any dynamic sensors
	* connected as notified by returned events of type DYNAMIC_SENSOR_META.
	*
	* If there is no sensor event when this function is being called, block
	* until there are sensor events available.
	*
	* @param maxCount max number of samples can be returned, must be > 0.
	* Actual number of events returned in data must be <= maxCount
	* and > 0.
	* @return result OK on success or BAD_VALUE if maxCount <= 0.
	* @return data vector of Event contains sensor events.
	* @return dynamicSensorsAdded vector of SensorInfo contains dynamic sensor
	* added. Each element corresponds to a dynamic sensor meta events
	* in data.
	*/
	poll(int32_t maxCount)
	generates (
	Result result,
	vec<Event> data,
	vec<SensorInfo> dynamicSensorsAdded);

	/**
	* 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
	*
	* @param sensorHandle handle of sensor to be changed.
	* @param samplingPeriodNs specifies sensor sample period in nanoseconds.
	* @param maxReportLatencyNs allowed delay time before an event is sampled
	* to time of report.
	* @return result OK on success, BAD_VALUE if any parameters are invalid.
	*/
	batch(int32_t sensorHandle,
	int64_t samplingPeriodNs,
	int64_t maxReportLatencyNs) generates (Result result);

	/**
	* Trigger a flush of internal FIFO.
	*
	* Flush adds a FLUSH_COMPLETE metadata event 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), return
	* SUCCESS and add a trivial 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 BAD_VALUE and not generate any
	* flush complete metadata. If the sensor is not active at the time flush()
	* is called, flush() return BAD_VALUE.
	*
	* @param sensorHandle handle of sensor to be flushed.
	* @return result OK on success and BAD_VALUE if sensorHandle is invalid.
	*/
	flush(int32_t sensorHandle) generates (Result result);

	/**
	* Inject a single sensor event or push operation environment parameters to
	* device.
	*
	* When device is in NORMAL mode, this function is called to push operation
	* environment data to device. In this operation, Event is always of
	* SensorType::AdditionalInfo type. See operation evironment parameters
	* section in AdditionalInfoType.
	*
	* When device is in DATA_INJECTION mode, this function is also used for
	* injecting sensor events.
	*
	* Regardless of OperationMode, injected SensorType::ADDITIONAL_INFO
	* type events should not be routed back to poll() function.
	*
	* @see AdditionalInfoType
	* @see OperationMode
	* @param event sensor event to be injected
	* @return result OK on success; PERMISSION_DENIED if operation is not
	* allowed; INVALID_OPERATION, if this functionality is
	* unsupported; BAD_VALUE if sensor event cannot be injected.
	*/
	injectSensorData(Event event) generates (Result result);

	/**
	* Register direct report channel.
	*
	* Register a direct channel with supplied shared memory information. Upon
	* return, the sensor hardware is responsible for resetting the memory
	* content to initial value (depending on memory format settings).
	*
	* @param mem shared memory info data structure.
	* @return result OK on success; BAD_VALUE if shared memory information is
	* not consistent; NO_MEMORY if shared memory cannot be used by
	* sensor system; INVALID_OPERATION if functionality is not
	* supported.
	* @return channelHandle a positive integer used for referencing registered
	* direct channel (>0) in configureDirectReport and
	* unregisterDirectChannel if result is OK, -1 otherwise.
	*/
	registerDirectChannel(SharedMemInfo mem)
	generates (Result result, int32_t channelHandle);

	/**
	* Unregister direct report channel.
	*
	* Unregister a direct channel previously registered using
	* registerDirectChannel, and remove all active sensor report configured in
	* still active sensor report configured in the direct channel.
	*
	* @param channelHandle handle of direct channel to be unregistered.
	* @return result OK if direct report is supported; INVALID_OPERATION
	* otherwise.
	*/
	unregisterDirectChannel(int32_t channelHandle) generates (Result result);

	/**
	* Configure direct sensor event report in direct channel.
	*
	* This function start, modify rate or stop direct report of a sensor in a
	* certain direct channel.
	*
	* @param sensorHandle handle of sensor to be configured. When combined
	* with STOP rate, sensorHandle can be -1 to denote all active
	* sensors in the direct channel specified by channel Handle.
	* @param channelHandle handle of direct channel to be configured.
	* @param rate rate level, see RateLevel enum.
	*
	* @return result OK on success; BAD_VALUE if parameter is invalid (such as
	* rate level is not supported by sensor, channelHandle does not
	* exist, etc); INVALID_OPERATION if functionality is not
	* supported.
	* @return reportToken positive integer to identify multiple sensors of
	* the same type in a single direct channel. Ignored if rate is
	* STOP. See SharedMemFormat.
	*/
	configDirectReport(
	int32_t sensorHandle, int32_t channelHandle, RateLevel rate)
	generates (Result result, int32_t reportToken);
	};