settings: clean-up helper classes & functions

Move inline classes into a separate file. Make serialize() into a basic function, support numeric conversions with base option Refactor numeric conversions and add some more helper functions for the build flags.
3 years ago · ec220b7dd1
--- a/code/espurna/button.cpp
+++ b/code/espurna/button.cpp
@ -48,8 +48,7 @@ debounce_event::types::Mode convert(const String& value) {
    }
 }

 template<>
 String serialize(const debounce_event::types::Mode& value) {
 String serialize(debounce_event::types::Mode value) {
    String result;
    switch (value) {
        case debounce_event::types::Mode::Switch:
@ -76,8 +75,7 @@ debounce_event::types::PinValue convert(const String& value) {
    }
 }

 template<>
 String serialize(const debounce_event::types::PinValue& value) {
 String serialize(debounce_event::types::PinValue value) {
    String result;
    switch (value) {
        case debounce_event::types::PinValue::Low:
@ -106,8 +104,7 @@ debounce_event::types::PinMode convert(const String& value) {
    }
 }

 template<>
 String serialize(const debounce_event::types::PinMode& mode) {
 String serialize(debounce_event::types::PinMode mode) {
    String result;
    switch (mode) {
        case debounce_event::types::PinMode::InputPullup:
--- a/code/espurna/debug.cpp
+++ b/code/espurna/debug.cpp
@ -315,8 +315,7 @@ void debugSetup() {
 namespace settings {
 namespace internal {

 template<>
 String serialize(const DebugLogMode& value) {
 String serialize(DebugLogMode value) {
    String result;
    switch (value) {
        case DebugLogMode::Disabled:
--- a/code/espurna/relay.cpp
+++ b/code/espurna/relay.cpp
@ -12,6 +12,7 @@ Copyright (C) 2016-2019 by Xose Pérez <xose dot perez at gmail dot com>

 #include <Ticker.h>
 #include <ArduinoJson.h>

 #include <bitset>
 #include <cstring>
 #include <functional>
@ -30,30 +31,8 @@ Copyright (C) 2016-2019 by Xose Pérez <xose dot perez at gmail dot com>
 #include "libs/BasePin.h"
 #include "relay_config.h"

 // Relay statuses are kept in a mutable bitmask struct
 // TODO: u32toString should be convert(...) ?

 namespace {

 String u32toString(uint32_t value, int base) {
    String result;
    result.reserve(32 + 2);

    if (base == 2) {
        result += "0b";
    } else if (base == 8) {
        result += "0o";
    } else if (base == 16) {
        result += "0x";
    }

    char buffer[33] = {0};
    ultoa(value, buffer, base);
    result += buffer;

    return result;
 }

 using RelayMask = std::bitset<RelaysMax>;

 struct RelayMaskHelper {
@ -72,7 +51,7 @@ struct RelayMaskHelper {
    }

    String toString() const {
        return u32toString(toUnsigned(), 2);
        return settings::internal::serialize(toUnsigned(), 2);
    }

    const RelayMask& mask() const {
@ -95,8 +74,6 @@ private:
    RelayMask _mask { 0ul };
 };

 } // namespace

 template <typename T>
 T _relayPayloadToTristate(const char* payload) {
    auto len = strlen(payload);
@ -146,6 +123,8 @@ const char* _relayLockToPayload(RelayLock lock) {
    return _relayTristateToPayload(lock);
 }

 } // namespace

 namespace settings {
 namespace internal {

@ -219,8 +198,7 @@ RelayMaskHelper convert(const String& value) {
    return RelayMaskHelper(convert<unsigned long>(value));
 }

 template <>
 String serialize(const RelayMaskHelper& mask) {
 String serialize(RelayMaskHelper mask) {
    return mask.toString();
 }

@ -274,15 +252,15 @@ public:
 };

 std::vector<relay_t> _relays;
 bool _relayRecursive = false;
 size_t _relayDummy = 0;
 bool _relayRecursive { false };
 size_t _relayDummy { 0ul };

 unsigned long _relay_flood_window = (1000 * RELAY_FLOOD_WINDOW);
 unsigned long _relay_flood_changes = RELAY_FLOOD_CHANGES;
 unsigned long _relay_flood_window { _relayFloodWindowMs() };
 unsigned long _relay_flood_changes { _relayFloodChanges() };

 unsigned long _relay_delay_interlock;
 unsigned char _relay_sync_mode = RELAY_SYNC_ANY;
 bool _relay_sync_locked = false;
 int _relay_sync_mode { RELAY_SYNC_ANY };
 bool _relay_sync_locked { false };

 Ticker _relay_save_timer;
 Ticker _relay_sync_timer;
@ -637,10 +615,10 @@ void _relayHandleStatus(unsigned char id, PayloadStatus status) {
    }
 }

 bool _relayHandlePayload(unsigned char relayID, const char* payload) {
 bool _relayHandlePayload(unsigned char id, const char* payload) {
    auto status = relayParsePayload(payload);
    if (status != PayloadStatus::Unknown) {
        _relayHandleStatus(relayID, status);
        _relayHandleStatus(id, status);
        return true;
    }

@ -648,8 +626,8 @@ bool _relayHandlePayload(unsigned char relayID, const char* payload) {
    return false;
 }

 bool _relayHandlePayload(unsigned char relayID, const String& payload) {
    return _relayHandlePayload(relayID, payload.c_str());
 bool _relayHandlePayload(unsigned char id, const String& payload) {
    return _relayHandlePayload(id, payload.c_str());
 }

 bool _relayHandlePulsePayload(unsigned char id, const char* payload) {
@ -837,7 +815,7 @@ void relayPulse(unsigned char id) {
        relay.pulseTicker->once_ms(ms, relayToggle, id);
        // Reconfigure after dynamic pulse
        relay.pulse = getSetting({"relayPulse", id}, _relayPulseMode(id));
        relay.pulse_ms = static_cast<unsigned long>(1000.0 * getSetting({"relayTime", id}, _relayPulseTime(id)));
        relay.pulse_ms = static_cast<unsigned long>(1000.0f * getSetting({"relayTime", id}, _relayPulseTime(id)));
    }

 }
@ -926,11 +904,11 @@ bool relayStatus(unsigned char id, bool status, bool report, bool group_report)
 }

 bool relayStatus(unsigned char id, bool status) {
    #if MQTT_SUPPORT
        return relayStatus(id, status, mqttForward(), true);
    #else
        return relayStatus(id, status, false, true);
    #endif
 #if MQTT_SUPPORT
    return relayStatus(id, status, mqttForward(), true);
 #else
    return relayStatus(id, status, false, true);
 #endif
 }

 bool relayStatus(unsigned char id) {
@ -1031,16 +1009,17 @@ void relaySave() {
 }

 void relayToggle(unsigned char id, bool report, bool group_report) {
    if (id >= _relays.size()) return;
    relayStatus(id, !relayStatus(id), report, group_report);
    if (id < _relays.size()) {
        relayStatus(id, !relayStatus(id), report, group_report);
    }
 }

 void relayToggle(unsigned char id) {
    #if MQTT_SUPPORT
        relayToggle(id, mqttForward(), true);
    #else
        relayToggle(id, false, true);
    #endif
 #if MQTT_SUPPORT
    relayToggle(id, mqttForward(), true);
 #else
    relayToggle(id, false, true);
 #endif
 }

 size_t relayCount() {
@ -1153,14 +1132,15 @@ void _relayBootAll() {

    bool once { true };
    static RelayMask done;
    for (unsigned char id = 0; id < relayCount(); ++id) {
    auto relays = relayCount();
    for (decltype(relays) id = 0; id < relays; ++id) {
        if (done[id]) {
            continue;
        }

        if (once) {
            DEBUG_MSG_P(PSTR("[RELAY] Number of relays: %u, boot mask: %s\n"),
                _relays.size(), mask.toString().c_str());
                relays, mask.toString().c_str());
            once = false;
        }

@ -1172,25 +1152,26 @@ void _relayBootAll() {
 }

 void _relayConfigure() {
    for (unsigned char i = 0, relays = _relays.size() ; (i < relays); ++i) {
        _relays[i].pulse = getSetting({"relayPulse", i}, _relayPulseMode(i));
        _relays[i].pulse_ms = static_cast<unsigned long>(1000.0 * getSetting({"relayTime", i}, _relayPulseTime(i)));
    auto relays = _relays.size();
    for (decltype(relays) id = 0; id < relays; ++id) {
        _relays[id].pulse = getSetting({"relayPulse", id}, _relayPulseMode(id));
        _relays[id].pulse_ms = static_cast<unsigned long>(1000.0f * getSetting({"relayTime", i}, _relayPulseTime(i)));

        _relays[i].delay_on = getSetting({"relayDelayOn", i}, _relayDelayOn(i));
        _relays[i].delay_off = getSetting({"relayDelayOff", i}, _relayDelayOff(i));
        _relays[id].delay_on = getSetting({"relayDelayOn", id}, _relayDelayOn(id));
        _relays[id].delay_off = getSetting({"relayDelayOff", id}, _relayDelayOff(id));
    }

    _relay_flood_window = (1000 * getSetting("relayFloodTime", RELAY_FLOOD_WINDOW));
    _relay_flood_changes = getSetting("relayFloodChanges", RELAY_FLOOD_CHANGES);
    _relay_flood_window = (1000.0f * getSetting("relayFloodTime", _relayFloodWindow()));
    _relay_flood_changes = getSetting("relayFloodChanges", _relayFloodChanges());

    _relay_delay_interlock = getSetting("relayIlkDelay", RELAY_DELAY_INTERLOCK);
    _relay_sync_mode = getSetting("relaySync", RELAY_SYNC);
    _relay_delay_interlock = getSetting("relayIlkDelay", _relayInterlockDelay());
    _relay_sync_mode = getSetting("relaySync", _relaySyncMode());

    #if MQTT_SUPPORT || API_SUPPORT
        settingsProcessConfig({
            {_relay_rpc_payload_on,     "relayPayloadOn",     RELAY_MQTT_ON},
            {_relay_rpc_payload_off,    "relayPayloadOff",    RELAY_MQTT_OFF},
            {_relay_rpc_payload_toggle, "relayPayloadToggle", RELAY_MQTT_TOGGLE},
            {_relay_rpc_payload_on,     "relayPayloadOn",     _relayMqttPayloadOn()},
            {_relay_rpc_payload_off,    "relayPayloadOff",    _relayMqttPayloadOff()},
            {_relay_rpc_payload_toggle, "relayPayloadToggle", _relayMqttPayloadToggle()},
        });
    #endif // MQTT_SUPPORT
 }
@ -1213,9 +1194,10 @@ void _relayWebSocketUpdate(JsonObject& root) {
    JsonArray& lock = state.createNestedArray("lock");

    // Note: we use byte instead of bool to ever so slightly compress json output
    for (unsigned char i=0; i<relayCount(); i++) {
        status.add<uint8_t>(_relays[i].target_status);
        lock.add(static_cast<uint8_t>(_relays[i].lock));
    auto relays = relayCount();
    for (decltype(relays) id = 0; id < relays; ++id) {
        status.add(_relays[id].target_status ? 1 : 0);
        lock.add(static_cast<uint8_t>(_relays[id].lock));
    }
 }

@ -1284,8 +1266,8 @@ void _relayWebSocketOnVisible(JsonObject& root) {

    if (relayCount() > 1) {
        root["multirelayVisible"] = 1;
        root["relaySync"] = getSetting("relaySync", RELAY_SYNC);
        root["relayIlkDelay"] = getSetting("relayIlkDelay", RELAY_DELAY_INTERLOCK);
        root["relaySync"] = static_cast<uint8_t>(getSetting("relaySync", _relaySyncMode()));
        root["relayIlkDelay"] = getSetting("relayIlkDelay", _relayInterlockDelay());
    }

    root["relayVisible"] = 1;
@ -1860,7 +1842,8 @@ void _relayProcess(bool mode) {

    bool changed = false;

    for (unsigned char id = 0; id < _relays.size(); id++) {
    auto relays = _relays.size();
    for (decltype(relays) id = 0; id < relays; ++id) {

        bool target = _relays[id].target_status;

@ -1902,9 +1885,17 @@ void _relayProcess(bool mode) {
    }

    // Whenever we are using sync modes and any relay had changed the state, check if we can unlock
    const bool needs_unlock = ((_relay_sync_mode == RELAY_SYNC_NONE_OR_ONE) || (_relay_sync_mode == RELAY_SYNC_ONE));
    if (_relay_sync_locked && needs_unlock && changed) {
        _relaySyncUnlock();
    switch (_relay_sync_mode) {
    case RELAY_SYNC_ONE:
    case RELAY_SYNC_NONE_OR_ONE
        if (_relay_sync_locked && changed) {
            _relaySyncUnlock();
        }
        break;
    case RELAY_SYNC_ANY:
    case RELAY_SYNC_SAME:
    case RELAY_SYNC_FIRST:
        break;
    }
 }

--- a/code/espurna/relay_config.h
+++ b/code/espurna/relay_config.h
@ -8,7 +8,29 @@ RELAY MODULE

 #include "espurna.h"

 constexpr double _relayPulseTime(unsigned char index) {
 constexpr int _relaySyncMode() {
    return RELAY_SYNC;
 }

 constexpr float _relayFloodWindow() {
    return RELAY_FLOOD_WINDOW;
 }

 static_assert(_relayFloodWindow() >= 0.0f, "");

 constexpr unsigned long _relayFloodWindowMs() {
    return static_cast<unsigned long>(_relayFloodWindow() * 1000.0f);
 }

 constexpr unsigned long _relayFloodChanges() {
    return RELAY_FLOOD_CHANGES;
 }

 constexpr unsigned long _relayInterlockDelay() {
    return RELAY_DELAY_INTERLOCK;
 }

 constexpr float _relayPulseTime(unsigned char index) {
    return (
        (index == 0) ? RELAY1_PULSE_TIME :
        (index == 1) ? RELAY2_PULSE_TIME :
@ -21,6 +43,15 @@ constexpr double _relayPulseTime(unsigned char index) {
    );
 }

 static_assert(_relayPulseTime(0) >= 0.0f, "");
 static_assert(_relayPulseTime(1) >= 0.0f, "");
 static_assert(_relayPulseTime(2) >= 0.0f, "");
 static_assert(_relayPulseTime(3) >= 0.0f, "");
 static_assert(_relayPulseTime(4) >= 0.0f, "");
 static_assert(_relayPulseTime(5) >= 0.0f, "");
 static_assert(_relayPulseTime(6) >= 0.0f, "");
 static_assert(_relayPulseTime(7) >= 0.0f, "");

 constexpr RelayPulse _relayPulseMode(unsigned char index) {
    return (
        (index == 0) ? RELAY1_PULSE_MODE :
@ -43,7 +74,7 @@ constexpr unsigned long _relayDelayOn(unsigned char index) {
        (index == 4) ? RELAY5_DELAY_ON :
        (index == 5) ? RELAY6_DELAY_ON :
        (index == 6) ? RELAY7_DELAY_ON :
        (index == 7) ? RELAY8_DELAY_ON : 0
        (index == 7) ? RELAY8_DELAY_ON : 0ul
    );
 }

@ -56,7 +87,7 @@ constexpr unsigned long _relayDelayOff(unsigned char index) {
        (index == 4) ? RELAY5_DELAY_OFF :
        (index == 5) ? RELAY6_DELAY_OFF :
        (index == 6) ? RELAY7_DELAY_OFF :
        (index == 7) ? RELAY8_DELAY_OFF : 0
        (index == 7) ? RELAY8_DELAY_OFF : 0ul
    );
 }

@ -121,7 +152,7 @@ constexpr int _relayBootMode(unsigned char index) {
        (index == 4) ? RELAY5_BOOT_MODE :
        (index == 5) ? RELAY6_BOOT_MODE :
        (index == 6) ? RELAY7_BOOT_MODE :
        (index == 7) ? RELAY8_BOOT_MODE : GPIO_NONE
        (index == 7) ? RELAY8_BOOT_MODE : RELAY_BOOT_OFF
    );
 }

@ -151,7 +182,19 @@ constexpr RelayMqttTopicMode _relayMqttTopicMode(unsigned char index) {
    );
 }

 constexpr const char* _relayMqttTopicSub(unsigned char index) {
 constexpr const char* const _relayMqttPayloadOn() {
    return RELAY_MQTT_ON;
 }

 constexpr const char* const _relayMqttPayloadOff() {
    return RELAY_MQTT_OFF;
 }

 constexpr const char* const _relayMqttPayloadToggle() {
    return RELAY_MQTT_TOGGLE;
 }

 constexpr const char* const _relayMqttTopicSub(unsigned char index) {
    return (
        (index == 0) ? (RELAY1_MQTT_TOPIC_SUB) :
        (index == 1) ? (RELAY2_MQTT_TOPIC_SUB) :
@ -164,7 +207,7 @@ constexpr const char* _relayMqttTopicSub(unsigned char index) {
    );
 }

 constexpr const char* _relayMqttTopicPub(unsigned char index) {
 constexpr const char* const _relayMqttTopicPub(unsigned char index) {
    return (
        (index == 0) ? (RELAY1_MQTT_TOPIC_PUB) :
        (index == 1) ? (RELAY2_MQTT_TOPIC_PUB) :
--- a/code/espurna/rfbridge.cpp
+++ b/code/espurna/rfbridge.cpp
@ -1088,7 +1088,6 @@ void _rfbInitCommands() {

 #if RELAY_SUPPORT
    terminalRegisterCommand(F("RFB.LEARN"), [](const terminal::CommandContext& ctx) {

        if (ctx.argc != 3) {
            terminalError(ctx, F("RFB.LEARN <ID> <STATUS>"));
            return;
@ -1229,13 +1228,14 @@ void _rfbSettingsMigrate(int version) {

    String buffer;

    for (unsigned char index = 0; index < relayCount(); ++index) {
        SettingsKey on_key {F("rfbON"), index};
    auto relays = relayCount();
    for (decltype(relays) id = 0; id < relays; ++id) {
        SettingsKey on_key {F("rfbON"), id};
        if (migrate_code(buffer, getSetting(on_key))) {
            setSetting(on_key, buffer);
        }

        SettingsKey off_key {F("rfbOFF"), index};
        SettingsKey off_key {F("rfbOFF"), id};
        if (migrate_code(buffer, getSetting(off_key))) {
            setSetting(off_key, buffer);
        }
--- a/code/espurna/sensor.cpp
+++ b/code/espurna/sensor.cpp
@ -2365,21 +2365,25 @@ namespace internal {

 template <>
 sensor::Unit convert(const String& string) {
    const int value = string.toInt();
    if ((value > static_cast<int>(sensor::Unit::Min_)) && (value < static_cast<int>(sensor::Unit::Max_))) {
        return static_cast<sensor::Unit>(value);
    auto len = value.length();
    if (len && isNumber(value)) {
        constexpr int Min { static_cast<int>(sensor::Unit::Min_) };
        constexpr int Max { static_cast<int>(sensor::Unit::Max_) };
        auto num = convert<int>(value);
        if ((Min < num) && (num < Max)) {
            return static_cast<sensor::Unit>(num);
        }
    }

    return sensor::Unit::None;
 }

 template <>
 String serialize(const sensor::Unit& unit) {
    return String(static_cast<int>(unit));
 String serialize(sensor::Unit unit) {
    return serialize(static_cast<int>(unit));
 }

 } // ns settings::internal
 } // ns settings
 } // namespace internal
 } // namespace settings

 void _sensorConfigure() {

@ -2654,36 +2658,32 @@ String magnitudeTopicIndex(unsigned char index) {

 // -----------------------------------------------------------------------------

 void _sensorBackwards() {

 void _sensorBackwards(int version) {
    // Some keys from older versions were longer
    moveSetting("powerUnits", "pwrUnits");
    moveSetting("energyUnits", "eneUnits");
    if (version < 3) {
        moveSetting("powerUnits", "pwrUnits");
        moveSetting("energyUnits", "eneUnits");
    }

    // Energy is now indexed (based on magnitude.index_global)
    moveSetting("eneTotal", "eneTotal0");

 	// Update PZEM004T energy total across multiple devices
    moveSettings("pzEneTotal", "eneTotal");
 	// Also update PZEM004T energy total across multiple devices
    if (version < 5) {
        moveSetting("eneTotal", "eneTotal0");
        moveSettings("pzEneTotal", "eneTotal");
    }

    // Unit ID is no longer shared, drop when equal to Min_ or None
    const char *keys[3] = {
        "pwrUnits", "eneUnits", "tmpUnits"
    };

    for (auto* key : keys) {
        const auto units = getSetting(key);
        if (units.length() && (units.equals("0") || units.equals("1"))) {
            delSetting(key);
        }
    if (version < 5) {
        delSetting("pwrUnits");
        delSetting("eneUnits");
        delSetting("tmpUnits");
    }

 }

 void sensorSetup() {

    // Settings backwards compatibility
    _sensorBackwards();
    _sensorBackwards(migrateVersion());

    // Load configured sensors and set up all of magnitudes
    _sensorLoad();
--- a/code/espurna/settings.cpp
+++ b/code/espurna/settings.cpp
@ -73,6 +73,16 @@ double convert(const String& value) {
    return atof(value.c_str());
 }

 template <>
 signed char convert(const String& value) {
    return value.toInt();
 }

 template <>
 short convert(const String& value) {
    return value.toInt();
 }

 template <>
 int convert(const String& value) {
    return value.toInt();
@ -105,28 +115,57 @@ bool convert(const String& value) {
 }

 template <>
 unsigned long convert(const String& value) {
 uint32_t convert(const String& value) {
    if (!value.length()) {
        return 0;
    }

    int base = 10;
    if (value.length() > 2) {
        if (value.startsWith("0b")) {
            base = 2;
        } else if (value.startsWith("0o")) {
            base = 8;
        } else if (value.startsWith("0x")) {
            base = 16;
        auto* ptr = value.c_str();
        if (*ptr == '0') {
            switch (*(ptr + 1)) {
            case 'b':
                base = 2;
                break;
            case 'o':
                base = 8;
                break;
            case 'x':
                base = 16;
                break;
            }
        }
    }

    return u32fromString((base == 10) ? value : value.substring(2), base);
 }

 String serialize(uint32_t value, int base) {
    constexpr size_t Size { 4 * sizeof(decltype(value)) };
    constexpr size_t Length { Size - 1 };

    String result;
    result.reserve(Length);

    if (base == 2) {
        result += "0b";
    } else if (base == 8) {
        result += "0o";
    } else if (base == 16) {
        result += "0x";
    }

    char buffer[Size] = {0};
    ultoa(value, buffer, base);
    result += buffer;

    return result;
 }

 template <>
 unsigned int convert(const String& value) {
    return convert<unsigned long>(value);
 unsigned long convert(const String& value) {
    return convert<unsigned int>(value);
 }

 template <>
@ -142,68 +181,11 @@ unsigned char convert(const String& value) {
 } // namespace settings::internal
 } // namespace settings

 // -----------------------------------------------------------------------------
 // Key-value API
 // -----------------------------------------------------------------------------

 /*
 struct SettingsKeys {

    struct iterator {
        iterator(size_t total) :
            total(total)
        {}

        iterator& operator++() {
            if (total && (current_index < (total - 1))) {
                ++current_index
                current_value = settingsKeyName(current_index);
                return *this;
            }
            return end();
        }

        iterator operator++(int) {
            iterator val = *this;
            ++(*this);
            return val;
        }

        operator String() {
            return (current_index < total) ? current_value : empty_value;
        }

        bool operator ==(iterator& const other) const {
            return (total == other.total) && (current_index == other.current_index);
        }

        bool operator !=(iterator& const other) const {
            return !(*this == other);
        }

        using difference_type = size_t;
        using value_type = size_t;
        using pointer = const size_t*;
        using reference = const size_t&;
        using iterator_category = std::forward_iterator_tag;

        const size_t total;

        String empty_value;
        String current_value;
        size_t current_index = 0;
    };

    iterator begin() {
        return iterator {total};
    }

    iterator end() {
        return iterator {0};
    }

 };
 */

 // Note: we prefer things sorted via this function, not kv_store.keys() directly
 // TODO: UI needs this to avoid showing keys in storage order
 std::vector<String> settingsKeys() {
    auto keys = settings::kv_store.keys();
    std::sort(keys.begin(), keys.end(), [](const String& rhs, const String& lhs) -> bool {
@ -229,10 +211,6 @@ String settingsQueryDefaults(const String& key) {
    return String();
 }

 // -----------------------------------------------------------------------------
 // Key-value API
 // -----------------------------------------------------------------------------

 settings_move_key_t _moveKeys(const String& from, const String& to, unsigned char index) {
    return settings_move_key_t {{from, index}, {to, index}};
 }
@ -291,7 +269,7 @@ template
 double getSetting(const SettingsKey& key, double defaultValue);

 String getSetting(const String& key) {
    return settings::kv_store.get(key).value;
    return std::move(settings::kv_store.get(key)).get();
 }

 String getSetting(const __FlashStringHelper* key) {
@ -316,21 +294,21 @@ String getSetting(const SettingsKey& key, const __FlashStringHelper* defaultValu
 }

 String getSetting(const SettingsKey& key, const String& defaultValue) {
    auto result = settings::kv_store.get(key.toString());
    if (!result) {
        result.value = defaultValue;
    auto result = settings::kv_store.get(key.value());
    if (result) {
        return std::move(result).get();
    }

    return result.value;
    return defaultValue;
 }

 String getSetting(const SettingsKey& key, String&& defaultValue) {
    auto result = settings::kv_store.get(key.toString());
    if (!result) {
        result.value = std::move(defaultValue);
    auto result = settings::kv_store.get(key.value());
    if (result) {
        return std::move(result).get();
    }

    return result.value;
    return std::move(defaultValue);
 }

 bool delSetting(const String& key) {
@ -338,7 +316,7 @@ bool delSetting(const String& key) {
 }

 bool delSetting(const SettingsKey& key) {
    return delSetting(key.toString());
    return delSetting(key.value());
 }

 bool delSetting(const char* key) {
@ -354,7 +332,7 @@ bool hasSetting(const String& key) {
 }

 bool hasSetting(const SettingsKey& key) {
    return hasSetting(key.toString());
    return hasSetting(key.value());
 }

 bool hasSetting(const char* key) {
@ -459,8 +437,9 @@ void settingsProcessConfig(const settings_cfg_list_t& config, settings_filter_t
 // Initialization
 // -----------------------------------------------------------------------------

 void settingsSetup() {
 #if TERMINAL_SUPPORT

 void _settingsInitCommands() {
    terminalRegisterCommand(F("CONFIG"), [](const terminal::CommandContext& ctx) {
        // TODO: enough of a buffer?
        DynamicJsonBuffer jsonBuffer(1024);
@ -559,5 +538,12 @@ void settingsSetup() {
        terminalOK(ctx);
    });
 #endif
 }

 #endif

 void settingsSetup() {
 #if TERMINAL_SUPPORT
    _settingsInitCommands();
 #endif
 }
--- a/code/espurna/settings.h
+++ b/code/espurna/settings.h
@ -3,6 +3,7 @@
 SETTINGS MODULE

 Copyright (C) 2016-2019 by Xose Pérez <xose dot perez at gmail dot com>
 Copyright (C) 2020-2021 by Maxim Prokhorov <prokhorov dot max at outlook dot com>

 */

@ -18,7 +19,10 @@ Copyright (C) 2016-2019 by Xose Pérez <xose dot perez at gmail dot com>
 #include <ArduinoJson.h>

 #include "storage_eeprom.h"

 #include "settings_helpers.h"
 #include "settings_embedis.h"
 #include "terminal.h"

 // --------------------------------------------------------------------------

@ -53,67 +57,9 @@ extern kvs_type kv_store;

 // --------------------------------------------------------------------------

 class SettingsKey {
 public:
    SettingsKey(const char* key) :
        _key(key)
    {}

    SettingsKey(const String& key) :
        _key(key)
    {}

    SettingsKey(String&& key) :
        _key(std::move(key))
    {}

    SettingsKey(const String& prefix, unsigned char index) {
        _key.reserve(prefix.length());
        _key += prefix;
        _key += index;
    }

    SettingsKey(String&& prefix, unsigned char index) :
        _key(std::move(prefix))
    {
        _key += index;
    }

    SettingsKey(const char* prefix, unsigned char index) :
        _key(prefix)
    {
        _key += index;
    }

    bool operator==(const char* other) const {
        return _key == other;
    }

    bool operator==(const String& other) const {
        return _key == other;
    }

    const String& toString() const {
        return _key;
    }

    explicit operator String() const & {
        return _key;
    }

    explicit operator String() && {
        return std::move(_key);
    }

 private:
    String _key;
 };

 using settings_move_key_t = std::pair<SettingsKey, SettingsKey>;
 using settings_filter_t = std::function<String(String& value)>;

 // --------------------------------------------------------------------------

 struct settings_cfg_t {
    String& setting;
    const char* key;
@ -138,19 +84,21 @@ using enable_if_not_arduino_string = std::enable_if<!is_arduino_string<T>::value

 // --------------------------------------------------------------------------

 uint32_t u32fromString(const String& string, int base);

 template <typename T>
 T convert(const String& value);

 // --------------------------------------------------------------------------

 template <>
 float convert(const String& value);

 template <>
 double convert(const String& value);

 template <>
 signed char convert(const String& value);

 template <>
 short convert(const String& value);

 template <>
 int convert(const String& value);

@ -172,8 +120,51 @@ unsigned short convert(const String& value);
 template <>
 unsigned char convert(const String& value);

 template<typename T>
 String serialize(const T& value);
 inline String serialize(uint8_t value, int base = 10) {
    return String(value, base);
 }

 inline String serialize(uint16_t value, int base = 10) {
    return String(value, base);
 }

 String serialize(uint32_t value, int base = 10);

 inline String serialize(unsigned long value, int base = 10) {
    static_assert(sizeof(unsigned long) == sizeof(uint32_t), "");
    static_assert(sizeof(unsigned int) == sizeof(unsigned long), "");
    return serialize(static_cast<unsigned int>(value), base);
 }

 inline String serialize(int16_t value, int base = 10) {
    return String(value, base);
 }

 inline String serialize(int8_t value, int base = 10) {
    return serialize(static_cast<int16_t>(value), base);
 }

 inline String serialize(long value, int base = 10) {
    return String(value, base);
 }

 inline String serialize(int value, int base = 10) {
    static_assert(sizeof(long) == sizeof(int32_t), "");
    static_assert(sizeof(int) == sizeof(long), "");
    return serialize(static_cast<long>(value), base);
 }

 inline String serialize(float value) {
    return String(value, 3);
 }

 inline String serialize(double value) {
    return String(value, 3);
 }

 inline String serialize(bool value) {
    return value ? "true" : "false";
 }

 } // namespace internal
 } // namespace settings
@ -202,11 +193,11 @@ T getSetting(const SettingsKey& key, T defaultValue) __attribute__((noinline));

 template <typename T, typename = typename settings::internal::enable_if_not_arduino_string<T>::type>
 T getSetting(const SettingsKey& key, T defaultValue) {
    auto result = settings::kv_store.get(key.toString());
    if (!result) {
        return defaultValue;
    auto result = settings::kv_store.get(key.value());
    if (result) {
        return settings::internal::convert<T>(result.ref());
    }
    return settings::internal::convert<T>(result.value);
    return defaultValue;
 }

 String getSetting(const char* key);
@ -222,7 +213,7 @@ String getSetting(const SettingsKey& key, String&& defaultValue);

 template<typename T, typename = typename settings::internal::enable_if_arduino_string<T>::type>
 bool setSetting(const SettingsKey& key, T&& value) {
    return settings::kv_store.set(key.toString(), value);
    return settings::kv_store.set(key.value(), value);
 }

 template<typename T, typename = typename settings::internal::enable_if_not_arduino_string<T>::type>
--- a/code/espurna/settings_embedis.h
+++ b/code/espurna/settings_embedis.h
@ -17,20 +17,12 @@ Reimplementation of the Embedis storage format:
 #include <memory>
 #include <vector>

 #include "settings_helpers.h"
 #include "libs/TypeChecks.h"

 namespace settings {
 namespace embedis {

 // 'optional' type for byte range
 struct ValueResult {
    operator bool() {
        return result;
    }
    bool result { false };
    String value;
 };

 // Sum total is calculated from:
 // - 4 bytes to store length of 2 values (stored as big-endian)
 // - N bytes of values themselves
@ -260,7 +252,7 @@ class KeyValueStore {

    // Internal storage consists of sequences of <byte-range><length>
    struct KeyValueResult {
        operator bool() {
        explicit operator bool() {
            return (key) && (value) && (key.length > 0);
        }

@ -498,9 +490,10 @@ class KeyValueStore {
            auto key_result = kv.key.read();
            if (key_result == key) {
                if (read_value) {
                    out.value = kv.value.read();
                    out = std::move(kv.value.read();
                } else {
                    out = String();
                }
                out.result = true;
                break;
            }
        } while (_state != State::End);
--- a/code/espurna/settings_helpers.h
+++ b/code/espurna/settings_helpers.h
@ -0,0 +1,186 @@
 /*

 Part of the SETTINGS module

 Copyright (C) 2016-2019 by Xose Pérez <xose dot perez at gmail dot com>
 Copyright (C) 2020-2021 by Maxim Prokhorov <prokhorov dot max at outlook dot com>

 */

 #pragma once

 #include <Arduino.h>

 #include <utility>

 // --------------------------------------------------------------------------

 class SettingsKey {
 public:
    SettingsKey(const char* key) :
        _key(key)
    {}

    SettingsKey(const String& key) :
        _key(key)
    {}

    SettingsKey(String&& key) :
        _key(std::move(key))
    {}

    SettingsKey(const String& prefix, size_t index) {
        _key.reserve(prefix.length() + 4);
        _key += prefix;
        _key += index;
    }

    SettingsKey(String&& prefix, size_t index) :
        _key(std::move(prefix))
    {
        _key += index;
    }

    SettingsKey(const char* prefix, size_t index) :
        _key(prefix)
    {
        _key += index;
    }

    const char* c_str() const {
        return _key.c_str();
    }

    size_t length() const {
        return _key.length();
    }

    bool operator==(const char* other) const {
        return _key == other;
    }

    bool operator==(const String& other) const {
        return _key == other;
    }

    const String& value() const {
        return _key;
    }

    explicit operator String() const & {
        return _key;
    }

    explicit operator String() && {
        return std::move(_key);
    }

 private:
    String _key;
 };

 // --------------------------------------------------------------------------

 namespace settings {
 namespace internal {

 struct BasicSetting {
    using Get = String(*)();

    BasicSetting() = delete;
    constexpr BasicSetting(const char* const key, Get get) :
        _key(key),
        _get(get)
    {}

    constexpr const char* const key() const {
        return _key;
    }

    String get() const {
        return _get();
    }

 private:
    const char* const _key;
    Get _get;
 };

 struct IndexedSetting {
    using Get = String(*)(size_t);

    IndexedSetting() = delete;
    constexpr IndexedSetting(const char* const prefix, Get get) :
        _prefix(prefix),
        _get(get)
    {}

    constexpr const char* const prefix() const {
        return _prefix;
    }

    String get(size_t index) const {
        return _get(index);
    }

 private:
    const char* const _prefix;
    Get _get;
 };

 } // namespace internal

 // 'optional' type for byte range
 struct ValueResult {
    ValueResult() = default;
    ValueResult(const ValueResult&) = default;
    ValueResult(ValueResult&&) = default;

    explicit ValueResult(const String& value) :
        _result(true),
        _value(value)
    {}

    explicit ValueResult(String&& value) :
        _result(true),
        _value(std::move(value))
    {}

    template <typename T>
    ValueResult& operator=(T&& value) {
        if (!_result) {
            _result = true;
            _value = std::forward<T>(value);
        }

        return *this;
    }

    explicit operator bool() const {
        return _result;
    }

    String get() && {
        auto moved = std::move(_value);
        _result = false;
        return moved;
    }

    const String& ref() const {
        return _value;
    }

    const char* c_str() const {
        return _value.c_str();
    }

    size_t length() const {
        return _value.length();
    }

 private:
    bool _result { false };
    String _value;
 };

 } // namespace settings
--- a/code/test/unit/settings/main.cpp
+++ b/code/test/unit/settings/main.cpp
@ -133,8 +133,8 @@ template <typename T>
 void check_kv(T& instance, const String& key, const String& value) {
    auto result = instance.kvs.get(key);
    TEST_ASSERT_MESSAGE(static_cast<bool>(result), key.c_str());
    TEST_ASSERT(result.value.length());
    TEST_ASSERT_EQUAL_STRING(value.c_str(), result.value.c_str());
    TEST_ASSERT(result.length());
    TEST_ASSERT_EQUAL_STRING(value.c_str(), result.c_str());
 };

 void test_sizes() {
@ -274,7 +274,7 @@ void test_small_gaps() {
    auto check_empty = [&instance](const String& key) {
        auto result = instance.kvs.get(key);
        TEST_ASSERT(static_cast<bool>(result));
        TEST_ASSERT_FALSE(result.value.length());
        TEST_ASSERT_FALSE(result.length());
    };

    check_empty("empty_again");
@ -285,8 +285,8 @@ void test_small_gaps() {
    auto check_value = [&instance](const String& key, const String& value) {
        auto result = instance.kvs.get(key);
        TEST_ASSERT(static_cast<bool>(result));
        TEST_ASSERT(result.value.length());
        TEST_ASSERT_EQUAL_STRING(value.c_str(), result.value.c_str());
        TEST_ASSERT(result.length());
        TEST_ASSERT_EQUAL_STRING(value.c_str(), result.c_str());
    };

    check_value("finally", "avalue");
@ -354,7 +354,7 @@ void test_basic() {
    for (auto& kv : kvs) {
        auto result = instance.kvs.get(kv.first);
        TEST_ASSERT(static_cast<bool>(result));
        TEST_ASSERT_EQUAL_STRING(kv.second.c_str(), result.value.c_str());
        TEST_ASSERT_EQUAL_STRING(kv.second.c_str(), result.c_str());
    }

 }
@ -403,7 +403,7 @@ void test_storage() {
        TEST_ASSERT_EQUAL(0, slice.available());
        auto result = slice.get("key1");
        TEST_ASSERT(static_cast<bool>(result));
        TEST_ASSERT_EQUAL_STRING("value1", result.value.c_str());
        TEST_ASSERT_EQUAL_STRING("value1", result.c_str());
    }

    // ensure that right offset also works
@ -414,7 +414,7 @@ void test_storage() {
        TEST_ASSERT_EQUAL((Size - kvsize - kvsize), slice.available());
        auto result = slice.get("key2");
        TEST_ASSERT(static_cast<bool>(result));
        TEST_ASSERT_EQUAL_STRING("value2", result.value.c_str());
        TEST_ASSERT_EQUAL_STRING("value2", result.c_str());
    }

    // ensure offset does not introduce offset bugs
@ -431,8 +431,8 @@ void test_storage() {
        auto key1 = slice.get("key1");
        TEST_ASSERT(static_cast<bool>(key1));

        String updated(key1.value);
        for (size_t index = 0; index < key1.value.length(); ++index) {
        String updated(key1.ref());
        for (size_t index = 0; index < key1.length(); ++index) {
            updated[index] = 'A';
        }

@ -443,11 +443,11 @@ void test_storage() {

        auto check_key1 = slice.get("key1");
        TEST_ASSERT(static_cast<bool>(check_key1));
        TEST_ASSERT_EQUAL_STRING(updated.c_str(), check_key1.value.c_str());
        TEST_ASSERT_EQUAL_STRING(updated.c_str(), check_key1.c_str());

        auto check_key2 = slice.get("key2");
        TEST_ASSERT(static_cast<bool>(check_key2));
        TEST_ASSERT_EQUAL_STRING(updated.c_str(), check_key2.value.c_str());
        TEST_ASSERT_EQUAL_STRING(updated.c_str(), check_key2.c_str());

        TEST_ASSERT_EQUAL(available - offset, slice.available());
    }