119 lines
7.9 KiB
Arduino
119 lines
7.9 KiB
Arduino
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/*********************************************************************************
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* MIT License
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*
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* Copyright (c) 2020-2022 Gregg E. Berman
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*
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* https://github.com/HomeSpan/HomeSpan
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in all
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* copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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* SOFTWARE.
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*
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********************************************************************************/
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////////////////////////////////////////////////////////////
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// //
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// HomeSpan: A HomeKit implementation for the ESP32 //
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// ------------------------------------------------ //
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// //
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// Example 12: Service Loops (and Event Notifications) //
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// * implementing a Temperature Sensor //
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// * implementing an Air Quality Sensor //
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// //
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////////////////////////////////////////////////////////////
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#include "HomeSpan.h"
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#include "DEV_Sensors.h"
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void setup() {
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// So far we've seen that HomeSpan allows you to create derived Services with their own constructors and update() methods. For many applications, this
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// will be all that is needed. However, for many other types of applications you may need to take action or perform some background operations without
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// any prompting or requests from HomeKit.
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// To perform background operations and actions, every Service implements a loop() method. The default loop() method is to do nothing, which has been
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// fine for all our prior examples. But if you need to perform some continuous background action, all you need to do is implement a loop() method for
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// your derived Service. At the end of each HomeSpan polling cycle, the loop() method is called for each Service that implements its own code.
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// In this fashion, the loop() method is similar to the main loop() method in the Arduino IDE itself - except it can be customized for each Service.
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// In this Example 12 we explore the use of loop() methods to implement two new accessories - a Temperature Sensor and an Air Quality Sensor. Of course
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// we won't actually have these physical devices attached to the ESP32 for the purpose of this example, but we will simulate "reading" their properties.
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// This is one of the main purposes of implementing a loop() method. It allows you to read a sensor or perform some sort of repetitive, Service-specific
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// action.
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// Once you read (or simulate reading) a sensor's values in a loop() method, you need to somehow communicate this back to HomeKit so the new values can be
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// reflected in the HomeKit Controller. This may be strictly for information purposes (such as a temperature sensor) or could be used by HomeKit itself
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// to trigger other devices (as might occur if implementing a Door Sensor).
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// Fortunately, HomeSpan makes communicating the values of Characteristics back to HomeKit easy. In prior examples we saw how getVal() and getNewVal()
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// are used to read current and updated Characteristic values requested by HomeKit. To perform the reverse, we simply use a method called setVal().
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// Setting the value of a Characteristic with this function does two things. First, it causes HomeSpan to send an Event Notification message back to HomeKit
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// letting HomeKit know the new value of the Characteristic. Since messages create network traffic, HomeSpan keeps track of all setVal() changes across
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// all Services and creates one a single Event Notification message reporting all the changes togther at the end of each polling cycle.
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// The second thing that HomeSpan does when you change the value of a Characteristic with setVal() is to reset an internal timer for that Characteristic that
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// keeps track of how long it's been since the last modification, whether from a previous setVal() instruction, or by HomeKit itself via a call to update().
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// You can query the time since the last modificaton using the method timeVal() which returns the elapsed time in milliseconds. By calling this function from
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// within loop() you can determine when it's time for a new sensor read, or when to perform some other action.
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// NOTE: It it NOT recommended to continuously change Characteristic values using setVal() as this will generate a lot of network traffic since HomeSpan
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// sends Event Notifications bck to all registered HomeKit Controllers. It's fine to perform internal calculations, generate signals on different pins,
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// and perform any other internal actions you may need as frequently as you require. But limit the use of setVal() to a reasonable frequency, such as maybe
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// one per minute for a temperature sensor. Do not use setVal() unless the value of the Characteristic changes, but do use it to immediately inform HomeKit of
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// something time-sensitive, such as a door opening, or a smoke alarm triggering.
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// As usual, all of the logic for this example are encapsulated in new standalone derived Services. You'll find fully-commented definitions for the DEV_TempSensor() and
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// the DEV_AirQualitySensor() Services instantiated below, in the DEV_Sensors.h file. As noted, this example is for instructional purposes only -- we do not actually
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// connect a Temperature Sensor or Air Quality Sensor to our ESP32 device. As such, we did not define the Services to take any arguments to specify pin numbers or any
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// other information needed to implement an actual sensor. Instead, in order to see how real a device would work, we simulate periodic changes by modifying Characteristic
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// values using setVal() with either a sequence of repeating values, or random values. See DEV_Sensors.h for complete details.
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// Once you understand these examples, you should be able to use implement your own loop() method and utilize setVal() along with timeVal() for any combination of
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// HomeKit Services with Characteristics that require your device to send periodic update messages to HomeKit Controllers, ranging from Smoke Alarms to Door Sensors.
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Serial.begin(115200);
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homeSpan.begin(Category::Bridges,"HomeSpan Bridge");
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new SpanAccessory();
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new Service::AccessoryInformation();
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new Characteristic::Identify();
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new SpanAccessory();
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new Service::AccessoryInformation();
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new Characteristic::Identify();
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new Characteristic::Name("Temp Sensor");
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new DEV_TempSensor(); // Create a Temperature Sensor (see DEV_Sensors.h for definition)
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new SpanAccessory();
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new Service::AccessoryInformation();
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new Characteristic::Identify();
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new Characteristic::Name("Air Quality");
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new DEV_AirQualitySensor(); // Create an Air Quality Sensor (see DEV_Sensors.h for definition)
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} // end of setup()
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//////////////////////////////////////
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void loop(){
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homeSpan.poll();
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} // end of loop()
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//////////////////////////////////////
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