esphome/components/esp32_presense/BleFingerprintCollection.cpp

#include "BleFingerprintCollection.h"

#include "esphome/core/application.h"
#include "esphome/core/defines.h"
#include "esphome/core/util.h"
#include "esphome/core/log.h"
#include "esphome/components/network/util.h"

#include "esp_system.h"

#include <sstream>

namespace BleFingerprintCollection {
// Public (externed)
std::string include{}, exclude{}, query{}, knownMacs{}, knownIrks{}, countIds{};
float skipDistance = 0.0f, maxDistance = 0.0f, absorption = 3.5f, countEnter = 2, countExit = 4;
int8_t rxRefRssi = -65, rxAdjRssi = 0, txRefRssi = -59;
int forgetMs = 0, skipMs = 0, countMs = 10000, requeryMs = 300000;
std::vector<DeviceConfig> deviceConfigs;
std::vector<uint8_t *> irks;
std::vector<BleFingerprint *> fingerprints;
TCallbackBool onSeen = nullptr;
TCallbackFingerprint onAdd = nullptr;
TCallbackFingerprint onDel = nullptr;
TCallbackFingerprint onClose = nullptr;
TCallbackFingerprint onLeft = nullptr;
TCallbackFingerprint onCountAdd = nullptr;
TCallbackFingerprint onCountDel = nullptr;

// Private
const TickType_t MAX_WAIT = portTICK_PERIOD_MS * 100;

unsigned long lastCleanup = 0;
SemaphoreHandle_t fingerprintMutex;
SemaphoreHandle_t deviceConfigMutex;

void Setup() {
    fingerprintMutex = xSemaphoreCreateMutex();
    deviceConfigMutex = xSemaphoreCreateMutex();
}

void Count(BleFingerprint *f, bool counting) {
    if (counting) {
        if (onCountAdd) onCountAdd(f);
    } else {
        if (onCountDel) onCountDel(f);
    }
}

void Close(BleFingerprint *f, bool close) {
    if (close) {
        if (onClose) onClose(f);
    } else {
        if (onLeft) onLeft(f);
    }
}

void Seen(BLEAdvertisedDevice *advertisedDevice) {
    BLEAdvertisedDevice copy = *advertisedDevice;

    if (onSeen) onSeen(true);
    BleFingerprint *f = GetFingerprint(&copy);
    if (f->seen(&copy) && onAdd)
        onAdd(f);
    if (onSeen) onSeen(false);
}

bool addOrReplace(DeviceConfig config) {
    if (xSemaphoreTake(deviceConfigMutex, MAX_WAIT) != pdTRUE)
        ESP_LOGE(TAG, "Couldn't take deviceConfigMutex in addOrReplace!");

    for (auto &it : deviceConfigs) {
        if (it.id == config.id) {
            it = config;
            xSemaphoreGive(deviceConfigMutex);
            return false;
        }
    }
    deviceConfigs.push_back(config);
    xSemaphoreGive(deviceConfigMutex);
    return true;
}

bool Config(std::string &id, std::string &json) {
    DynamicJsonDocument doc(1024);
    deserializeJson(doc, json);

    DeviceConfig config = {};
    config.id = id;
    if (doc.containsKey("id")) {
        auto alias = doc["id"].as<std::string>();
        if (alias != id) config.alias = alias;
    }
    if (doc.containsKey("rssi@1m"))
        config.calRssi = doc["rssi@1m"].as<int8_t>();
    if (doc.containsKey("name"))
        config.name = doc["name"].as<std::string>();
    auto isNew = addOrReplace(config);

    if (isNew) {
        auto p = id.find("irk:");
        if (p == 0) {
            auto irk_hex = id.substr(4);
            auto *irk = new uint8_t[16];
            if (!hextostr(irk_hex, irk, 16))
                return false;
            irks.push_back(irk);
        }
    }

    for (auto &it : fingerprints) {
        auto it_id = it->getId();
        if (it_id == id || it_id == config.alias) {
            it->setName(config.name);
            it->setId(config.alias.length() > 0 ? config.alias : config.id, ID_TYPE_ALIAS, config.name);
            if (config.calRssi != NO_RSSI)
                it->set1mRssi(config.calRssi);
        } else
            it->fingerprintAddress();
    }

    return true;
}

void ConnectToWifi() {
    std::istringstream iss(knownIrks.c_str());
    std::string irk_hex;
    while (iss >> irk_hex) {
        auto *irk = new uint8_t[16];
        if (!hextostr(irk_hex.c_str(), irk, 16))
            continue;
        irks.push_back(irk);
    }
}

bool Command(std::string &command, std::string &pay) {
    if (command == "skip_ms") {
        BleFingerprintCollection::skipMs = std::stoi(pay);
        spurt("/skip_ms", pay);
    } else if (command == "skip_distance") {
        BleFingerprintCollection::skipDistance = std::stof(pay);
        spurt("/skip_dist", pay);
    } else if (command == "max_distance") {
        maxDistance = std::stof(pay);
        spurt("/max_dist", pay);
    } else if (command == "absorption") {
        absorption = std::stof(pay);
        spurt("/absorption", pay);
    } else if (command == "rx_adj_rssi") {
        rxAdjRssi = (int8_t)std::stoi(pay);
        spurt("/rx_adj_rssi", pay);
    } else if (command == "ref_rssi") {
        rxRefRssi = (int8_t)std::stoi(pay);
        spurt("/ref_rssi", pay);
    } else if (command == "tx_ref_rssi") {
        txRefRssi = (int8_t)std::stoi(pay);
        spurt("/tx_ref_rssi", pay);
    } else if (command == "query") {
        query = pay;
        spurt("/query", pay);
    } else if (command == "include") {
        include = pay;
        spurt("/include", pay);
    } else if (command == "exclude") {
        exclude = pay;
        spurt("/exclude", pay);
    } else if (command == "known_macs") {
        knownMacs = pay;
        spurt("/known_macs", pay);
    } else if (command == "known_irks") {
        knownIrks = pay;
        spurt("/known_irks", pay);
    } else if (command == "count_ids") {
        countIds = pay;
        spurt("/count_ids", pay);
    } else
        return false;
    return true;
}

void CleanupOldFingerprints() {
    auto now = millis();
    if (now - lastCleanup < 5000) return;
    lastCleanup = now;
    auto it = fingerprints.begin();
    bool any = false;
    while (it != fingerprints.end()) {
        auto age = (*it)->getMsSinceLastSeen();
        if (age > forgetMs) {
            if (onDel) onDel((*it));
            delete *it;
            it = fingerprints.erase(it);
        } else {
            any = true;
            ++it;
        }
    }
    if (!any) {
        auto uptime = (unsigned long)(esp_timer_get_time() / 1000000ULL);
        if (uptime > ALLOW_BLE_CONTROLLER_RESTART_AFTER_SECS) {
            ESP_LOGE(TAG, "Bluetooth controller seems stuck, restarting");
            esp_restart();
        }
    }
}

BleFingerprint *getFingerprintInternal(BLEAdvertisedDevice *advertisedDevice) {
    auto mac = advertisedDevice->getAddress();

    auto it = std::find_if(fingerprints.rbegin(), fingerprints.rend(), [mac](BleFingerprint *f) { return f->getAddress() == mac; });
    if (it != fingerprints.rend())
        return *it;

    auto created = new BleFingerprint(advertisedDevice, ONE_EURO_FCMIN, ONE_EURO_BETA, ONE_EURO_DCUTOFF);
    auto it2 = std::find_if(fingerprints.begin(), fingerprints.end(), [created](BleFingerprint *f) { return f->getId() == created->getId(); });
    if (it2 != fingerprints.end()) {
        auto found = *it2;
        // Serial.printf("Detected mac switch for fingerprint id %s\r\n", found->getId().c_str());
        created->setInitial(*found);
        if (found->getIdType() > ID_TYPE_UNIQUE)
            found->expire();
    }

    fingerprints.push_back(created);
    return created;
}

BleFingerprint *GetFingerprint(BLEAdvertisedDevice *advertisedDevice) {
    if (xSemaphoreTake(fingerprintMutex, MAX_WAIT) != pdTRUE)
        ESP_LOGE(TAG, "Couldn't take semaphore!");
    auto f = getFingerprintInternal(advertisedDevice);
    xSemaphoreGive(fingerprintMutex);
    return f;
}

const std::vector<BleFingerprint *> GetCopy() {
    if (xSemaphoreTake(fingerprintMutex, MAX_WAIT) != pdTRUE)
        ESP_LOGE(TAG, "Couldn't take fingerprintMutex!");
    CleanupOldFingerprints();
    std::vector<BleFingerprint *> copy(fingerprints);
    xSemaphoreGive(fingerprintMutex);
    return std::move(copy);
}

bool FindDeviceConfig(const std::string &id, DeviceConfig &config) {
    if (xSemaphoreTake(deviceConfigMutex, MAX_WAIT) == pdTRUE) {
        auto it = std::find_if(deviceConfigs.begin(), deviceConfigs.end(), [id](DeviceConfig dc) { return dc.id == id; });
        if (it != deviceConfigs.end()) {
            config = *it;
            xSemaphoreGive(deviceConfigMutex);
            return true;
        }
        xSemaphoreGive(deviceConfigMutex);
        return false;
    }
    ESP_LOGE(TAG, "Couldn't take deviceConfigMutex!");
    return false;
}

}  // namespace BleFingerprintCollection
wip 2023-12-07 23:51:43 +03:00			`#include "BleFingerprintCollection.h"`

			`#include "esphome/core/application.h"`
			`#include "esphome/core/defines.h"`
			`#include "esphome/core/util.h"`
			`#include "esphome/core/log.h"`
			`#include "esphome/components/network/util.h"`

			`#include "esp_system.h"`

			`#include <sstream>`

			`namespace BleFingerprintCollection {`
			`// Public (externed)`
			`std::string include{}, exclude{}, query{}, knownMacs{}, knownIrks{}, countIds{};`
			`float skipDistance = 0.0f, maxDistance = 0.0f, absorption = 3.5f, countEnter = 2, countExit = 4;`
			`int8_t rxRefRssi = -65, rxAdjRssi = 0, txRefRssi = -59;`
			`int forgetMs = 0, skipMs = 0, countMs = 10000, requeryMs = 300000;`
			`std::vector<DeviceConfig> deviceConfigs;`
			`std::vector<uint8_t *> irks;`
			`std::vector<BleFingerprint *> fingerprints;`
			`TCallbackBool onSeen = nullptr;`
			`TCallbackFingerprint onAdd = nullptr;`
			`TCallbackFingerprint onDel = nullptr;`
			`TCallbackFingerprint onClose = nullptr;`
			`TCallbackFingerprint onLeft = nullptr;`
			`TCallbackFingerprint onCountAdd = nullptr;`
			`TCallbackFingerprint onCountDel = nullptr;`

			`// Private`
			`const TickType_t MAX_WAIT = portTICK_PERIOD_MS * 100;`

			`unsigned long lastCleanup = 0;`
			`SemaphoreHandle_t fingerprintMutex;`
			`SemaphoreHandle_t deviceConfigMutex;`

			`void Setup() {`
			`fingerprintMutex = xSemaphoreCreateMutex();`
			`deviceConfigMutex = xSemaphoreCreateMutex();`
			`}`

			`void Count(BleFingerprint *f, bool counting) {`
			`if (counting) {`
			`if (onCountAdd) onCountAdd(f);`
			`} else {`
			`if (onCountDel) onCountDel(f);`
			`}`
			`}`

			`void Close(BleFingerprint *f, bool close) {`
			`if (close) {`
			`if (onClose) onClose(f);`
			`} else {`
			`if (onLeft) onLeft(f);`
			`}`
			`}`

			`void Seen(BLEAdvertisedDevice *advertisedDevice) {`
			`BLEAdvertisedDevice copy = *advertisedDevice;`

			`if (onSeen) onSeen(true);`
			`BleFingerprint *f = GetFingerprint(&copy);`
			`if (f->seen(&copy) && onAdd)`
			`onAdd(f);`
			`if (onSeen) onSeen(false);`
			`}`

			`bool addOrReplace(DeviceConfig config) {`
			`if (xSemaphoreTake(deviceConfigMutex, MAX_WAIT) != pdTRUE)`
wip 2023-12-10 09:39:19 +03:00			`ESP_LOGE(TAG, "Couldn't take deviceConfigMutex in addOrReplace!");`
wip 2023-12-07 23:51:43 +03:00
			`for (auto &it : deviceConfigs) {`
			`if (it.id == config.id) {`
			`it = config;`
			`xSemaphoreGive(deviceConfigMutex);`
			`return false;`
			`}`
			`}`
			`deviceConfigs.push_back(config);`
			`xSemaphoreGive(deviceConfigMutex);`
			`return true;`
			`}`

			`bool Config(std::string &id, std::string &json) {`
			`DynamicJsonDocument doc(1024);`
			`deserializeJson(doc, json);`

			`DeviceConfig config = {};`
			`config.id = id;`
			`if (doc.containsKey("id")) {`
			`auto alias = doc["id"].as<std::string>();`
			`if (alias != id) config.alias = alias;`
			`}`
			`if (doc.containsKey("rssi@1m"))`
			`config.calRssi = doc["rssi@1m"].as<int8_t>();`
			`if (doc.containsKey("name"))`
			`config.name = doc["name"].as<std::string>();`
			`auto isNew = addOrReplace(config);`

			`if (isNew) {`
			`auto p = id.find("irk:");`
			`if (p == 0) {`
			`auto irk_hex = id.substr(4);`
			`auto *irk = new uint8_t[16];`
			`if (!hextostr(irk_hex, irk, 16))`
			`return false;`
			`irks.push_back(irk);`
			`}`
			`}`

			`for (auto &it : fingerprints) {`
			`auto it_id = it->getId();`
			`if (it_id == id \|\| it_id == config.alias) {`
			`it->setName(config.name);`
			`it->setId(config.alias.length() > 0 ? config.alias : config.id, ID_TYPE_ALIAS, config.name);`
			`if (config.calRssi != NO_RSSI)`
			`it->set1mRssi(config.calRssi);`
			`} else`
			`it->fingerprintAddress();`
			`}`

			`return true;`
			`}`

			`void ConnectToWifi() {`
			`std::istringstream iss(knownIrks.c_str());`
			`std::string irk_hex;`
			`while (iss >> irk_hex) {`
			`auto *irk = new uint8_t[16];`
			`if (!hextostr(irk_hex.c_str(), irk, 16))`
			`continue;`
			`irks.push_back(irk);`
			`}`
			`}`

			`bool Command(std::string &command, std::string &pay) {`
			`if (command == "skip_ms") {`
			`BleFingerprintCollection::skipMs = std::stoi(pay);`
			`spurt("/skip_ms", pay);`
			`} else if (command == "skip_distance") {`
			`BleFingerprintCollection::skipDistance = std::stof(pay);`
			`spurt("/skip_dist", pay);`
			`} else if (command == "max_distance") {`
			`maxDistance = std::stof(pay);`
			`spurt("/max_dist", pay);`
			`} else if (command == "absorption") {`
			`absorption = std::stof(pay);`
			`spurt("/absorption", pay);`
			`} else if (command == "rx_adj_rssi") {`
			`rxAdjRssi = (int8_t)std::stoi(pay);`
			`spurt("/rx_adj_rssi", pay);`
			`} else if (command == "ref_rssi") {`
			`rxRefRssi = (int8_t)std::stoi(pay);`
			`spurt("/ref_rssi", pay);`
			`} else if (command == "tx_ref_rssi") {`
			`txRefRssi = (int8_t)std::stoi(pay);`
			`spurt("/tx_ref_rssi", pay);`
			`} else if (command == "query") {`
			`query = pay;`
			`spurt("/query", pay);`
			`} else if (command == "include") {`
			`include = pay;`
			`spurt("/include", pay);`
			`} else if (command == "exclude") {`
			`exclude = pay;`
			`spurt("/exclude", pay);`
			`} else if (command == "known_macs") {`
			`knownMacs = pay;`
			`spurt("/known_macs", pay);`
			`} else if (command == "known_irks") {`
			`knownIrks = pay;`
			`spurt("/known_irks", pay);`
			`} else if (command == "count_ids") {`
			`countIds = pay;`
			`spurt("/count_ids", pay);`
			`} else`
			`return false;`
			`return true;`
			`}`

			`void CleanupOldFingerprints() {`
			`auto now = millis();`
			`if (now - lastCleanup < 5000) return;`
			`lastCleanup = now;`
			`auto it = fingerprints.begin();`
			`bool any = false;`
			`while (it != fingerprints.end()) {`
			`auto age = (*it)->getMsSinceLastSeen();`
			`if (age > forgetMs) {`
			`if (onDel) onDel((*it));`
			`delete *it;`
			`it = fingerprints.erase(it);`
			`} else {`
			`any = true;`
			`++it;`
			`}`
			`}`
			`if (!any) {`
			`auto uptime = (unsigned long)(esp_timer_get_time() / 1000000ULL);`
			`if (uptime > ALLOW_BLE_CONTROLLER_RESTART_AFTER_SECS) {`
wip 2023-12-10 09:39:19 +03:00			`ESP_LOGE(TAG, "Bluetooth controller seems stuck, restarting");`
wip 2023-12-07 23:51:43 +03:00			`esp_restart();`
			`}`
			`}`
			`}`

			`BleFingerprint getFingerprintInternal(BLEAdvertisedDevice advertisedDevice) {`
			`auto mac = advertisedDevice->getAddress();`

			`auto it = std::find_if(fingerprints.rbegin(), fingerprints.rend(), [mac](BleFingerprint *f) { return f->getAddress() == mac; });`
			`if (it != fingerprints.rend())`
			`return *it;`

			`auto created = new BleFingerprint(advertisedDevice, ONE_EURO_FCMIN, ONE_EURO_BETA, ONE_EURO_DCUTOFF);`
			`auto it2 = std::find_if(fingerprints.begin(), fingerprints.end(), [created](BleFingerprint *f) { return f->getId() == created->getId(); });`
			`if (it2 != fingerprints.end()) {`
			`auto found = *it2;`
			`// Serial.printf("Detected mac switch for fingerprint id %s\r\n", found->getId().c_str());`
			`created->setInitial(*found);`
			`if (found->getIdType() > ID_TYPE_UNIQUE)`
			`found->expire();`
			`}`

			`fingerprints.push_back(created);`
			`return created;`
			`}`

			`BleFingerprint GetFingerprint(BLEAdvertisedDevice advertisedDevice) {`
			`if (xSemaphoreTake(fingerprintMutex, MAX_WAIT) != pdTRUE)`
wip 2023-12-10 09:39:19 +03:00			`ESP_LOGE(TAG, "Couldn't take semaphore!");`
wip 2023-12-07 23:51:43 +03:00			`auto f = getFingerprintInternal(advertisedDevice);`
			`xSemaphoreGive(fingerprintMutex);`
			`return f;`
			`}`

			`const std::vector<BleFingerprint *> GetCopy() {`
			`if (xSemaphoreTake(fingerprintMutex, MAX_WAIT) != pdTRUE)`
wip 2023-12-10 09:39:19 +03:00			`ESP_LOGE(TAG, "Couldn't take fingerprintMutex!");`
wip 2023-12-07 23:51:43 +03:00			`CleanupOldFingerprints();`
			`std::vector<BleFingerprint *> copy(fingerprints);`
			`xSemaphoreGive(fingerprintMutex);`
			`return std::move(copy);`
			`}`

			`bool FindDeviceConfig(const std::string &id, DeviceConfig &config) {`
			`if (xSemaphoreTake(deviceConfigMutex, MAX_WAIT) == pdTRUE) {`
			`auto it = std::find_if(deviceConfigs.begin(), deviceConfigs.end(), [id](DeviceConfig dc) { return dc.id == id; });`
			`if (it != deviceConfigs.end()) {`
			`config = *it;`
			`xSemaphoreGive(deviceConfigMutex);`
			`return true;`
			`}`
			`xSemaphoreGive(deviceConfigMutex);`
			`return false;`
			`}`
wip 2023-12-10 09:39:19 +03:00			`ESP_LOGE(TAG, "Couldn't take deviceConfigMutex!");`
wip 2023-12-07 23:51:43 +03:00			`return false;`
			`}`

			`} // namespace BleFingerprintCollection`