/
endpoint.ino
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/
endpoint.ino
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#include "instrument/Voltage.h"
#include "instrument/BME280.h"
#include "util/EventUtil.h"
#include "util/LedUtil.h"
#include "util/JsonObject.h"
#include "endpoint/MeshRemoteResetReceiver.h"
#include "endpoint/MeshAckReceiver.h"
#include "util/ExternalAntenna.h"
#include "util/CloudUtil.h"
#include "util/SleepUtil.h"
#include "application/LightChangeTrigger.h"
SYSTEM_THREAD(ENABLED);
ExternalAntenna ant(true); // specify if you use the external antenna or not
MeshRemoteResetReceiver remoteResetReceiver;
MeshAckReceiver statusAckReceiver;
Voltage batt = BatteryVoltage::create();
Voltage light(A1, 1.0);
BME280 climate;
LightChangeTrigger lightChangeTrigger(light);
JsonObject<EventUtil::EVENT_DATA_LEN> statusJson;
static void updateStatusJson() {
statusJson.
clear().
a("batt", batt.getJson()).
a("light", light.getJson()).
a("climate", climate.getJson()).
a("keepAwake", statusAckReceiver.isKeepAwake() ? "1" : "0");
}
void setup() {
LedUtil::setBrightness(50);
ant.begin();
waitUntil(Mesh.ready);
ant.sendStatus();
remoteResetReceiver.begin();
statusAckReceiver.begin("status/ack");
batt.begin();
light.begin();
climate.begin();
delay(100);
lightChangeTrigger.begin();
}
void loop() {
updateStatusJson();
EventUtil::publish("status", statusJson.c_str());
CloudUtil::publish("hello", "still on?");
if (lightChangeTrigger.isEnabled()) {
for (int i = 0; i < 60; i++) {
lightChangeTrigger.process();
delay(1000);
}
} else {
if (statusAckReceiver.isKeepAwake() ||
BatteryVoltage::isPowerSupplied(batt.getVoltage())) {
delay(60000);
} else {
delay(2000); // wait for ack
SleepUtil::sleep(55);
}
}
}