41964bc3ab
Limit AOSP usage of historical HAL implementation interface to avoid mistakes. Bug: 37280010 Test: build Change-Id: Ia9ad20fb8c693c4efb3a10c8ead9a5a8132ada77
243 lines
12 KiB
C
243 lines
12 KiB
C
/*
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* Copyright (C) 2014 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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/*
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* Activity Recognition HAL. The goal is to provide low power, low latency, always-on activity
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* recognition implemented in hardware (i.e. these activity recognition algorithms/classifers
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* should NOT be run on the AP). By low power we mean that this may be activated 24/7 without
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* impacting the battery drain speed (goal in order of 1mW including the power for sensors).
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* This HAL does not specify the input sources that are used towards detecting these activities.
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* It has one monitor interface which can be used to batch activities for always-on
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* activity_recognition and if the latency is zero, the same interface can be used for low latency
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* detection.
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*/
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#ifndef ANDROID_ACTIVITY_RECOGNITION_INTERFACE_H
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#define ANDROID_ACTIVITY_RECOGNITION_INTERFACE_H
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#include <hardware/hardware.h>
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__BEGIN_DECLS
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#define ACTIVITY_RECOGNITION_HEADER_VERSION 1
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#define ACTIVITY_RECOGNITION_API_VERSION_0_1 HARDWARE_DEVICE_API_VERSION_2(0, 1, ACTIVITY_RECOGNITION_HEADER_VERSION)
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#define ACTIVITY_RECOGNITION_HARDWARE_MODULE_ID "activity_recognition"
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#define ACTIVITY_RECOGNITION_HARDWARE_INTERFACE "activity_recognition_hw_if"
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/*
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* Define types for various activities. Multiple activities may be active at the same time and
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* sometimes none of these activities may be active.
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*
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* Each activity has a corresponding type. Only activities that are defined here should use
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* android.activity_recognition.* prefix. OEM defined activities should not use this prefix.
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* Activity type of OEM-defined activities should start with the reverse domain name of the entity
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* defining the activity.
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*
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* When android introduces a new activity type that can potentially replace an OEM-defined activity
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* type, the OEM must use the official activity type on versions of the HAL that support this new
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* official activity type.
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*
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* Example (made up): Suppose Google's Glass team wants to detect nodding activity.
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* - Such an activity is not officially supported in android L
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* - Glass devices launching on L can implement a custom activity with
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* type = "com.google.glass.nodding"
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* - In M android release, if android decides to define ACITIVITY_TYPE_NODDING, those types
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* should replace the Glass-team-specific types in all future launches.
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* - When launching glass on the M release, Google should now use the official activity type
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* - This way, other applications can use this activity.
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*/
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#define ACTIVITY_TYPE_IN_VEHICLE "android.activity_recognition.in_vehicle"
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#define ACTIVITY_TYPE_ON_BICYCLE "android.activity_recognition.on_bicycle"
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#define ACTIVITY_TYPE_WALKING "android.activity_recognition.walking"
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#define ACTIVITY_TYPE_RUNNING "android.activity_recognition.running"
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#define ACTIVITY_TYPE_STILL "android.activity_recognition.still"
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#define ACTIVITY_TYPE_TILTING "android.activity_recognition.tilting"
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/* Values for activity_event.event_types. */
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enum {
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/*
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* A flush_complete event which indicates that a flush() has been successfully completed. This
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* does not correspond to any activity/event. An event of this type should be added to the end
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* of a batch FIFO and it indicates that all the events in the batch FIFO have been successfully
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* reported to the framework. An event of this type should be generated only if flush() has been
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* explicitly called and if the FIFO is empty at the time flush() is called it should trivially
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* return a flush_complete_event to indicate that the FIFO is empty.
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*
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* A flush complete event should have the following parameters set.
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* activity_event_t.event_type = ACTIVITY_EVENT_FLUSH_COMPLETE
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* activity_event_t.activity = 0
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* activity_event_t.timestamp = 0
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* activity_event_t.reserved = 0
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* See (*flush)() for more details.
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*/
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ACTIVITY_EVENT_FLUSH_COMPLETE = 0,
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/* Signifies entering an activity. */
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ACTIVITY_EVENT_ENTER = 1,
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/* Signifies exiting an activity. */
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ACTIVITY_EVENT_EXIT = 2
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};
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/*
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* Each event is a separate activity with event_type indicating whether this activity has started
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* or ended. Eg event: (event_type="enter", activity="ON_FOOT", timestamp)
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*/
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typedef struct activity_event {
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/* One of the ACTIVITY_EVENT_* constants defined above. */
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uint32_t event_type;
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/*
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* Index of the activity in the list returned by get_supported_activities_list. If this event
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* is a flush complete event, this should be set to zero.
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*/
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uint32_t activity;
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/* Time at which the transition/event has occurred in nanoseconds using elapsedRealTimeNano. */
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int64_t timestamp;
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/* Set to zero. */
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int32_t reserved[4];
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} activity_event_t;
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typedef struct activity_recognition_module {
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/**
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* Common methods of the activity recognition module. This *must* be the first member of
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* activity_recognition_module as users of this structure will cast a hw_module_t to
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* activity_recognition_module pointer in contexts where it's known the hw_module_t
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* references an activity_recognition_module.
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*/
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hw_module_t common;
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/*
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* List of all activities supported by this module including OEM defined activities. Each
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* activity is represented using a string defined above. Each string should be null terminated.
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* The index of the activity in this array is used as a "handle" for enabling/disabling and
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* event delivery.
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* Return value is the size of this list.
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*/
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int (*get_supported_activities_list)(struct activity_recognition_module* module,
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char const* const* *activity_list);
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} activity_recognition_module_t;
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struct activity_recognition_device;
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typedef struct activity_recognition_callback_procs {
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// Callback for activity_data. This is guaranteed to not invoke any HAL methods.
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// Memory allocated for the events can be reused after this method returns.
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// events - Array of activity_event_t s that are reported.
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// count - size of the array.
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void (*activity_callback)(const struct activity_recognition_callback_procs* procs,
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const activity_event_t* events, int count);
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} activity_recognition_callback_procs_t;
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typedef struct activity_recognition_device {
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/**
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* Common methods of the activity recognition device. This *must* be the first member of
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* activity_recognition_device as users of this structure will cast a hw_device_t to
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* activity_recognition_device pointer in contexts where it's known the hw_device_t
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* references an activity_recognition_device.
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*/
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hw_device_t common;
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/*
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* Sets the callback to invoke when there are events to report. This call overwrites the
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* previously registered callback (if any).
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*/
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void (*register_activity_callback)(const struct activity_recognition_device* dev,
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const activity_recognition_callback_procs_t* callback);
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/*
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* Activates monitoring of activity transitions. Activities need not be reported as soon as they
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* are detected. The detected activities are stored in a FIFO and reported in batches when the
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* "max_batch_report_latency" expires or when the batch FIFO is full. The implementation should
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* allow the AP to go into suspend mode while the activities are detected and stored in the
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* batch FIFO. Whenever events need to be reported (like when the FIFO is full or when the
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* max_batch_report_latency has expired for an activity, event pair), it should wake_up the AP
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* so that no events are lost. Activities are stored as transitions and they are allowed to
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* overlap with each other. Each (activity, event_type) pair can be activated or deactivated
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* independently of the other. The HAL implementation needs to keep track of which pairs are
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* currently active and needs to detect only those pairs.
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*
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* At the first detection after this function gets called, the hardware should know whether the
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* user is in the activity.
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* - If event_type is ACTIVITY_EVENT_ENTER and the user is in the activity, then an
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* (ACTIVITY_EVENT_ENTER, activity) event should be added to the FIFO.
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* - If event_type is ACTIVITY_EVENT_EXIT and the user is not in the activity, then an
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* (ACTIVITY_EVENT_EXIT, activity) event should be added to the FIFO.
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* For example, suppose get_supported_activities_list contains on_bicyle and running, and the
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* user is biking. Consider the following four calls that could happen in any order.
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* - When enable_activity_event(on_bicycle, ACTIVITY_EVENT_ENTER) is called,
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* (ACTIVITY_EVENT_ENTER, on_bicycle) should be added to the FIFO.
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* - When enable_activity_event(on_bicycle, ACTIVITY_EVENT_EXIT) is called, nothing should be
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* added to the FIFO.
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* - When enable_activity_event(running, ACTIVITY_EVENT_ENTER) is called, nothing should be
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* added to the FIFO.
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* - When enable_activity_event(running, ACTIVITY_EVENT_EXIT) is called,
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* (ACTIVITY_EVENT_EXIT, running) should be added to the FIFO.
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*
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* activity_handle - Index of the specific activity that needs to be detected in the list
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* returned by get_supported_activities_list.
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* event_type - Specific transition of the activity that needs to be detected. It should be
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* either ACTIVITY_EVENT_ENTER or ACTIVITY_EVENT_EXIT.
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* max_batch_report_latency_ns - a transition can be delayed by at most
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* “max_batch_report_latency” nanoseconds.
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* Return 0 on success, negative errno code otherwise.
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*/
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int (*enable_activity_event)(const struct activity_recognition_device* dev,
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uint32_t activity_handle, uint32_t event_type, int64_t max_batch_report_latency_ns);
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/*
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* Disables detection of a specific (activity, event_type) pair. All the (activity, event_type)
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* events in the FIFO are discarded.
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*/
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int (*disable_activity_event)(const struct activity_recognition_device* dev,
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uint32_t activity_handle, uint32_t event_type);
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/*
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* Flush all the batch FIFOs. Report all the activities that were stored in the FIFO so far as
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* if max_batch_report_latency had expired. This shouldn't change the latency in any way. Add
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* a flush_complete_event to indicate the end of the FIFO after all events are delivered.
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* activity_callback should be called before this function returns successfully.
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* See ACTIVITY_EVENT_FLUSH_COMPLETE for more details.
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* Return 0 on success, negative errno code otherwise.
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*/
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int (*flush)(const struct activity_recognition_device* dev);
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// Must be set to NULL.
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void (*reserved_procs[16 - 4])(void);
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} activity_recognition_device_t;
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static inline int activity_recognition_open(const hw_module_t* module,
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activity_recognition_device_t** device) {
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return module->methods->open(module,
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ACTIVITY_RECOGNITION_HARDWARE_INTERFACE, (hw_device_t**)device);
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}
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static inline int activity_recognition_close(activity_recognition_device_t* device) {
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return device->common.close(&device->common);
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}
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__END_DECLS
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#endif // ANDROID_ACTIVITY_RECOGNITION_INTERFACE_H
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