esp32_ethernet_milight_hub/lib/Settings/Settings.cpp

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14 KiB
C++

#include <Settings.h>
#include <ArduinoJson.h>
#include <FS.h>
#include <IntParsing.h>
#include <algorithm>
#include <JsonHelpers.h>
#ifdef ESP32
#include <SPIFFS.h>
#endif
#define PORT_POSITION(s) ( s.indexOf(':') )
GatewayConfig::GatewayConfig(uint16_t deviceId, uint16_t port, uint8_t protocolVersion)
: deviceId(deviceId)
, port(port)
, protocolVersion(protocolVersion)
{ }
bool Settings::isAuthenticationEnabled() const {
return adminUsername.length() > 0 && adminPassword.length() > 0;
}
const String& Settings::getUsername() const {
return adminUsername;
}
const String& Settings::getPassword() const {
return adminPassword;
}
bool Settings::isAutoRestartEnabled() {
return _autoRestartPeriod > 0;
}
size_t Settings::getAutoRestartPeriod() {
if (_autoRestartPeriod == 0) {
return 0;
}
return std::max(_autoRestartPeriod, static_cast<size_t>(MINIMUM_RESTART_PERIOD));
}
void Settings::updateDeviceIds(JsonArray arr) {
this->deviceIds.clear();
for (size_t i = 0; i < arr.size(); ++i) {
this->deviceIds.push_back(arr[i]);
}
}
void Settings::updateGatewayConfigs(JsonArray arr) {
gatewayConfigs.clear();
for (size_t i = 0; i < arr.size(); i++) {
JsonArray params = arr[i];
if (params.size() == 3) {
std::shared_ptr<GatewayConfig> ptr = std::make_shared<GatewayConfig>(parseInt<uint16_t>(params[0]), params[1], params[2]);
gatewayConfigs.push_back(std::move(ptr));
} else {
Serial.print(F("Settings - skipped parsing gateway ports settings for element #"));
Serial.println(i);
}
}
}
void Settings::patch(JsonObject parsedSettings) {
if (parsedSettings.isNull()) {
Serial.println(F("Skipping patching loaded settings. Parsed settings was null."));
return;
}
this->setIfPresent(parsedSettings, "admin_username", adminUsername);
this->setIfPresent(parsedSettings, "admin_password", adminPassword);
this->setIfPresent(parsedSettings, "ce_pin", cePin);
this->setIfPresent(parsedSettings, "csn_pin", csnPin);
this->setIfPresent(parsedSettings, "reset_pin", resetPin);
this->setIfPresent(parsedSettings, "led_pin", ledPin);
this->setIfPresent(parsedSettings, "packet_repeats", packetRepeats);
this->setIfPresent(parsedSettings, "http_repeat_factor", httpRepeatFactor);
this->setIfPresent(parsedSettings, "auto_restart_period", _autoRestartPeriod);
this->setIfPresent(parsedSettings, "mqtt_server", _mqttServer);
this->setIfPresent(parsedSettings, "mqtt_username", mqttUsername);
this->setIfPresent(parsedSettings, "mqtt_password", mqttPassword);
this->setIfPresent(parsedSettings, "mqtt_topic_pattern", mqttTopicPattern);
this->setIfPresent(parsedSettings, "mqtt_update_topic_pattern", mqttUpdateTopicPattern);
this->setIfPresent(parsedSettings, "mqtt_state_topic_pattern", mqttStateTopicPattern);
this->setIfPresent(parsedSettings, "mqtt_client_status_topic", mqttClientStatusTopic);
this->setIfPresent(parsedSettings, "simple_mqtt_client_status", simpleMqttClientStatus);
this->setIfPresent(parsedSettings, "discovery_port", discoveryPort);
this->setIfPresent(parsedSettings, "listen_repeats", listenRepeats);
this->setIfPresent(parsedSettings, "state_flush_interval", stateFlushInterval);
this->setIfPresent(parsedSettings, "mqtt_state_rate_limit", mqttStateRateLimit);
this->setIfPresent(parsedSettings, "mqtt_debounce_delay", mqttDebounceDelay);
this->setIfPresent(parsedSettings, "mqtt_retain", mqttRetain);
this->setIfPresent(parsedSettings, "packet_repeat_throttle_threshold", packetRepeatThrottleThreshold);
this->setIfPresent(parsedSettings, "packet_repeat_throttle_sensitivity", packetRepeatThrottleSensitivity);
this->setIfPresent(parsedSettings, "packet_repeat_minimum", packetRepeatMinimum);
this->setIfPresent(parsedSettings, "enable_automatic_mode_switching", enableAutomaticModeSwitching);
this->setIfPresent(parsedSettings, "led_mode_packet_count", ledModePacketCount);
this->setIfPresent(parsedSettings, "hostname", hostname);
this->setIfPresent(parsedSettings, "ethernet_enable", ethernet_enable);
this->setIfPresent(parsedSettings, "ethernet_static_ip", ethernetStaticIP);
this->setIfPresent(parsedSettings, "ethernet_static_ip_gateway", ethernetStaticIPGateway);
this->setIfPresent(parsedSettings, "ethernet_static_ip_netmask", ethernetStaticIPNetmask);
this->setIfPresent(parsedSettings, "wifi_static_ip", wifiStaticIP);
this->setIfPresent(parsedSettings, "wifi_static_ip_gateway", wifiStaticIPGateway);
this->setIfPresent(parsedSettings, "wifi_static_ip_netmask", wifiStaticIPNetmask);
this->setIfPresent(parsedSettings, "packet_repeats_per_loop", packetRepeatsPerLoop);
this->setIfPresent(parsedSettings, "home_assistant_discovery_prefix", homeAssistantDiscoveryPrefix);
this->setIfPresent(parsedSettings, "default_transition_period", defaultTransitionPeriod);
if (parsedSettings.containsKey("wifi_mode")) {
this->wifiMode = wifiModeFromString(parsedSettings["wifi_mode"]);
}
if (parsedSettings.containsKey("rf24_channels")) {
JsonArray arr = parsedSettings["rf24_channels"];
rf24Channels = JsonHelpers::jsonArrToVector<RF24Channel, String>(arr, RF24ChannelHelpers::valueFromName);
}
if (parsedSettings.containsKey("rf24_listen_channel")) {
this->rf24ListenChannel = RF24ChannelHelpers::valueFromName(parsedSettings["rf24_listen_channel"]);
}
if (parsedSettings.containsKey("rf24_power_level")) {
this->rf24PowerLevel = RF24PowerLevelHelpers::valueFromName(parsedSettings["rf24_power_level"]);
}
if (parsedSettings.containsKey("led_mode_wifi_config")) {
this->ledModeWifiConfig = LEDStatus::stringToLEDMode(parsedSettings["led_mode_wifi_config"]);
}
if (parsedSettings.containsKey("led_mode_wifi_failed")) {
this->ledModeWifiFailed = LEDStatus::stringToLEDMode(parsedSettings["led_mode_wifi_failed"]);
}
if (parsedSettings.containsKey("led_mode_operating")) {
this->ledModeOperating = LEDStatus::stringToLEDMode(parsedSettings["led_mode_operating"]);
}
if (parsedSettings.containsKey("led_mode_packet")) {
this->ledModePacket = LEDStatus::stringToLEDMode(parsedSettings["led_mode_packet"]);
}
if (parsedSettings.containsKey("radio_interface_type")) {
this->radioInterfaceType = Settings::typeFromString(parsedSettings["radio_interface_type"]);
}
if (parsedSettings.containsKey("device_ids")) {
JsonArray arr = parsedSettings["device_ids"];
updateDeviceIds(arr);
}
if (parsedSettings.containsKey("gateway_configs")) {
JsonArray arr = parsedSettings["gateway_configs"];
updateGatewayConfigs(arr);
}
if (parsedSettings.containsKey("group_state_fields")) {
JsonArray arr = parsedSettings["group_state_fields"];
groupStateFields = JsonHelpers::jsonArrToVector<GroupStateField, const char*>(arr, GroupStateFieldHelpers::getFieldByName);
}
if (parsedSettings.containsKey("group_id_aliases")) {
parseGroupIdAliases(parsedSettings);
}
}
std::map<String, BulbId>::const_iterator Settings::findAlias(MiLightRemoteType deviceType, uint16_t deviceId, uint8_t groupId) {
BulbId searchId{ deviceId, groupId, deviceType };
for (auto it = groupIdAliases.begin(); it != groupIdAliases.end(); ++it) {
if (searchId == it->second) {
return it;
}
}
return groupIdAliases.end();
}
void Settings::parseGroupIdAliases(JsonObject json) {
JsonObject aliases = json["group_id_aliases"];
// Save group IDs that were deleted so that they can be processed by discovery
// if necessary
for (auto it = groupIdAliases.begin(); it != groupIdAliases.end(); ++it) {
deletedGroupIdAliases[it->second.getCompactId()] = it->second;
}
groupIdAliases.clear();
for (JsonPair kv : aliases) {
JsonArray bulbIdProps = kv.value();
BulbId bulbId = {
bulbIdProps[1].as<uint16_t>(),
bulbIdProps[2].as<uint8_t>(),
MiLightRemoteTypeHelpers::remoteTypeFromString(bulbIdProps[0].as<String>())
};
groupIdAliases[kv.key().c_str()] = bulbId;
// If added this round, do not mark as deleted.
deletedGroupIdAliases.erase(bulbId.getCompactId());
}
}
void Settings::dumpGroupIdAliases(JsonObject json) {
JsonObject aliases = json.createNestedObject("group_id_aliases");
for (std::map<String, BulbId>::iterator itr = groupIdAliases.begin(); itr != groupIdAliases.end(); ++itr) {
JsonArray bulbProps = aliases.createNestedArray(itr->first);
BulbId bulbId = itr->second;
bulbProps.add(MiLightRemoteTypeHelpers::remoteTypeToString(bulbId.deviceType));
bulbProps.add(bulbId.deviceId);
bulbProps.add(bulbId.groupId);
}
}
void Settings::load(Settings& settings) {
if (SPIFFS.exists(SETTINGS_FILE)) {
// Clear in-memory settings
settings = Settings();
File f = SPIFFS.open(SETTINGS_FILE, "r");
DynamicJsonDocument json(MILIGHT_HUB_SETTINGS_BUFFER_SIZE);
auto error = deserializeJson(json, f);
f.close();
if (! error) {
JsonObject parsedSettings = json.as<JsonObject>();
settings.patch(parsedSettings);
} else {
Serial.print(F("Error parsing saved settings file: "));
Serial.println(error.c_str());
}
} else {
settings.save();
}
}
String Settings::toJson(const bool prettyPrint) {
String buffer = "";
StringStream s(buffer);
serialize(s, prettyPrint);
return buffer;
}
void Settings::save() {
File f = SPIFFS.open(SETTINGS_FILE, "w");
if (!f) {
Serial.println(F("Opening settings file failed"));
} else {
serialize(f);
f.close();
}
}
void Settings::serialize(Print& stream, const bool prettyPrint) {
DynamicJsonDocument root(MILIGHT_HUB_SETTINGS_BUFFER_SIZE);
root["admin_username"] = this->adminUsername;
root["admin_password"] = this->adminPassword;
root["ce_pin"] = this->cePin;
root["csn_pin"] = this->csnPin;
root["reset_pin"] = this->resetPin;
root["led_pin"] = this->ledPin;
root["radio_interface_type"] = typeToString(this->radioInterfaceType);
root["packet_repeats"] = this->packetRepeats;
root["http_repeat_factor"] = this->httpRepeatFactor;
root["auto_restart_period"] = this->_autoRestartPeriod;
root["mqtt_server"] = this->_mqttServer;
root["mqtt_username"] = this->mqttUsername;
root["mqtt_password"] = this->mqttPassword;
root["mqtt_topic_pattern"] = this->mqttTopicPattern;
root["mqtt_update_topic_pattern"] = this->mqttUpdateTopicPattern;
root["mqtt_state_topic_pattern"] = this->mqttStateTopicPattern;
root["mqtt_client_status_topic"] = this->mqttClientStatusTopic;
root["simple_mqtt_client_status"] = this->simpleMqttClientStatus;
root["discovery_port"] = this->discoveryPort;
root["listen_repeats"] = this->listenRepeats;
root["state_flush_interval"] = this->stateFlushInterval;
root["mqtt_state_rate_limit"] = this->mqttStateRateLimit;
root["mqtt_debounce_delay"] = this->mqttDebounceDelay;
root["mqtt_retain"] = this->mqttRetain;
root["packet_repeat_throttle_sensitivity"] = this->packetRepeatThrottleSensitivity;
root["packet_repeat_throttle_threshold"] = this->packetRepeatThrottleThreshold;
root["packet_repeat_minimum"] = this->packetRepeatMinimum;
root["enable_automatic_mode_switching"] = this->enableAutomaticModeSwitching;
root["led_mode_wifi_config"] = LEDStatus::LEDModeToString(this->ledModeWifiConfig);
root["led_mode_wifi_failed"] = LEDStatus::LEDModeToString(this->ledModeWifiFailed);
root["led_mode_operating"] = LEDStatus::LEDModeToString(this->ledModeOperating);
root["led_mode_packet"] = LEDStatus::LEDModeToString(this->ledModePacket);
root["led_mode_packet_count"] = this->ledModePacketCount;
root["hostname"] = this->hostname;
root["rf24_power_level"] = RF24PowerLevelHelpers::nameFromValue(this->rf24PowerLevel);
root["rf24_listen_channel"] = RF24ChannelHelpers::nameFromValue(rf24ListenChannel);
root["ethernet_enable"] = this->ethernet_enable;
root["ethernet_static_ip"] = this->ethernetStaticIP;
root["ethernet_static_ip_gateway"] = this->ethernetStaticIPGateway;
root["ethernet_static_ip_netmask"] = this->ethernetStaticIPNetmask;
root["wifi_static_ip"] = this->wifiStaticIP;
root["wifi_static_ip_gateway"] = this->wifiStaticIPGateway;
root["wifi_static_ip_netmask"] = this->wifiStaticIPNetmask;
root["packet_repeats_per_loop"] = this->packetRepeatsPerLoop;
root["home_assistant_discovery_prefix"] = this->homeAssistantDiscoveryPrefix;
root["wifi_mode"] = wifiModeToString(this->wifiMode);
root["default_transition_period"] = this->defaultTransitionPeriod;
JsonArray channelArr = root.createNestedArray("rf24_channels");
JsonHelpers::vectorToJsonArr<RF24Channel, String>(channelArr, rf24Channels, RF24ChannelHelpers::nameFromValue);
JsonArray deviceIdsArr = root.createNestedArray("device_ids");
JsonHelpers::copyFrom<uint16_t>(deviceIdsArr, this->deviceIds);
JsonArray gatewayConfigsArr = root.createNestedArray("gateway_configs");
for (size_t i = 0; i < this->gatewayConfigs.size(); i++) {
JsonArray elmt = gatewayConfigsArr.createNestedArray();
elmt.add(this->gatewayConfigs[i]->deviceId);
elmt.add(this->gatewayConfigs[i]->port);
elmt.add(this->gatewayConfigs[i]->protocolVersion);
}
JsonArray groupStateFieldArr = root.createNestedArray("group_state_fields");
JsonHelpers::vectorToJsonArr<GroupStateField, const char*>(groupStateFieldArr, groupStateFields, GroupStateFieldHelpers::getFieldName);
dumpGroupIdAliases(root.as<JsonObject>());
if (prettyPrint) {
serializeJsonPretty(root, stream);
} else {
serializeJson(root, stream);
}
}
String Settings::mqttServer() {
int pos = PORT_POSITION(_mqttServer);
if (pos == -1) {
return _mqttServer;
} else {
return _mqttServer.substring(0, pos);
}
}
uint16_t Settings::mqttPort() {
int pos = PORT_POSITION(_mqttServer);
if (pos == -1) {
return DEFAULT_MQTT_PORT;
} else {
return atoi(_mqttServer.c_str() + pos + 1);
}
}
RadioInterfaceType Settings::typeFromString(const String& s) {
if (s.equalsIgnoreCase("lt8900")) {
return LT8900;
} else {
return nRF24;
}
}
String Settings::typeToString(RadioInterfaceType type) {
switch (type) {
case LT8900:
return "LT8900";
case nRF24:
default:
return "nRF24";
}
}
WifiMode Settings::wifiModeFromString(const String& mode) {
if (mode.equalsIgnoreCase("b")) {
return WifiMode::B;
} else if (mode.equalsIgnoreCase("g")) {
return WifiMode::G;
} else {
return WifiMode::N;
}
}
String Settings::wifiModeToString(WifiMode mode) {
switch (mode) {
case WifiMode::B:
return "b";
case WifiMode::G:
return "g";
case WifiMode::N:
default:
return "n";
}
}