esphome/components/esp32_presense/esp32_presense.cpp

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#include "esp32_presense.h"
namespace esphome
{
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namespace esp32_presense
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{
unsigned int totalSeen = 0;
unsigned int totalFpSeen = 0;
unsigned int totalFpQueried = 0;
unsigned int totalFpReported = 0;
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TimerHandle_t reconnectTimer;
TaskHandle_t scanTaskHandle;
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unsigned long updateStartedMillis = 0;
unsigned long lastTeleMillis = 0;
int reconnectTries = 0;
int teleFails = 0;
int reportFailed = 0;
bool online = false; // Have we successfully sent status=online
bool sentDiscovery = false; // Have we successfully sent discovery
UBaseType_t bleStack = 0;
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DynamicJsonDocument doc(1024);
std::string _id, roomsTopic;
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bool discovery, publishTele, publishRooms, publishDevices;
class MyAdvertisedDeviceCallbacks : public BLEAdvertisedDeviceCallbacks {
void onResult(BLEAdvertisedDevice *advertisedDevice) {
bleStack = uxTaskGetStackHighWaterMark(nullptr);
BleFingerprintCollection::Seen(advertisedDevice);
}
};
void scanTask(void *parameter) {
NimBLEDevice::init("ESPresense");
// Enrollment::Setup();
NimBLEDevice::setMTU(23);
auto pBLEScan = NimBLEDevice::getScan();
pBLEScan->setInterval(BLE_SCAN_INTERVAL);
pBLEScan->setWindow(BLE_SCAN_WINDOW);
pBLEScan->setAdvertisedDeviceCallbacks(new MyAdvertisedDeviceCallbacks(), true);
pBLEScan->setActiveScan(false);
pBLEScan->setDuplicateFilter(false);
pBLEScan->setMaxResults(0);
if (!pBLEScan->start(0, nullptr, false))
ESP_LOGE(TAG, "Error starting continuous ble scan");
while (true) {
for (auto &f : BleFingerprintCollection::fingerprints)
if (f->query())
totalFpQueried++;
// Enrollment::Loop();
if (!pBLEScan->isScanning()) {
if (!pBLEScan->start(0, nullptr, true))
ESP_LOGE(TAG, "Error re-starting continuous ble scan");
delay(3000); // If we stopped scanning, don't query for 3 seconds in order for us to catch any missed broadcasts
} else {
delay(100);
}
}
}
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void ESP32Presense::set_room(std::string room) {
_id = slugify(room);
roomsTopic = std::string(CHANNEL) + std::string("/rooms/") + _id;
}
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void ESP32Presense::set_max_distance(float maxDistance) {
BleFingerprintCollection::maxDistance = maxDistance;
}
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void ESP32Presense::setup()
{
BleFingerprintCollection::Setup();
xTaskCreatePinnedToCore(scanTask, "scanTask", SCAN_TASK_STACK_SIZE, nullptr, 1, &scanTaskHandle, CONFIG_BT_NIMBLE_PINNED_TO_CORE);
}
void ESP32Presense::loop()
{
reportLoop();
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}
bool ESP32Presense::reportBuffer(BleFingerprint *f) {
auto report = f->getReport();
std::string topic = Sprintf(CHANNEL "/devices/%s/%s/%s", f->getId().c_str(), _id.c_str(), report.getId().c_str());
return this->publish(topic, report.getPayload());
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}
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void ESP32Presense::reportLoop()
{
auto copy = BleFingerprintCollection::GetCopy();
unsigned int count = 0;
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for (auto &i : copy)
if (i->shouldCount())
count++;
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yield();
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sendTelemetry(totalSeen, totalFpSeen, totalFpQueried, totalFpReported, count);
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yield();
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auto reported = 0;
for (auto &f : copy) {
auto seen = f->getSeenCount();
if (seen) {
totalSeen += seen;
totalFpSeen++;
}
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ESP_LOGD(TAG, "F %s", f->getAddress());
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if (f->hasReport()) {
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ESP_LOGD(TAG, "hasReport");
if (reportBuffer(f)) {
ESP_LOGD(TAG, "reportBuffer");
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f->clearReport();
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}
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}
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if (this->reportDevice(f)) {
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ESP_LOGD(TAG, "reportDevice");
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totalFpReported++;
reported++;
}
}
}
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bool ESP32Presense::reportDevice(BleFingerprint *f) {
doc.clear();
JsonObject obj = doc.to<JsonObject>();
if (!f->report(&obj))
return false;
std::string buffer;
serializeJson(doc, buffer);
std::string devicesTopic = Sprintf(CHANNEL "/devices/%s/%s", f->getId().c_str(), _id.c_str());
bool p1 = false, p2 = false;
for (int i = 0; i < 10; i++) {
if (!p1 && (!publishRooms || this->publish(roomsTopic.c_str(), buffer.c_str())))
p1 = true;
if (!p2 && (!publishDevices || this->publish(devicesTopic.c_str(), buffer.c_str())))
p2 = true;
if (p1 && p2)
return true;
delay(20);
}
reportFailed++;
return false;
}
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bool ESP32Presense::sendTelemetry(
unsigned int totalSeen,
unsigned int totalFpSeen,
unsigned int totalFpQueried,
unsigned int totalFpReported,
unsigned int count
) {
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this->publish(roomsTopic + "/status", "online");
this->publish(roomsTopic + "/max_distance", BleFingerprintCollection::maxDistance);
this->publish(roomsTopic + "/absorption", BleFingerprintCollection::absorption);
this->publish(roomsTopic + "/tx_ref_rssi", BleFingerprintCollection::txRefRssi);
this->publish(roomsTopic + "/rx_adj_rssi", BleFingerprintCollection::rxAdjRssi);
this->publish(roomsTopic + "/query", BleFingerprintCollection::query);
this->publish(roomsTopic + "/include", BleFingerprintCollection::include);
this->publish(roomsTopic + "/exclude", BleFingerprintCollection::exclude);
this->publish(roomsTopic + "/known_macs", BleFingerprintCollection::knownMacs);
this->publish(roomsTopic + "/known_irks", BleFingerprintCollection::knownIrks);
this->publish(roomsTopic + "/count_ids", BleFingerprintCollection::countIds);
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return true;
}
/*
void ESP32NimbleMQTTRoom::on_result(nimble_distance_custom::NimbleDistanceCustomResult& result)
{
auto address = result.address.toString();
this->publish_json(
this->base_topic_ + "/devices/" + address + "/" + this->room_,
[=](ArduinoJson::JsonObject root) -> void {
root["id"] = address;
root["distance"] = result.distance;
}
);
};
*/
} // namespace esp32_nimble_tracker
} // namespace esphome