PumpenSteuerung/lib/framework/WiFiSettingsService.h

111 lines
3.5 KiB
C++

#ifndef WiFiSettingsService_h
#define WiFiSettingsService_h
#include <StatefulService.h>
#include <FSPersistence.h>
#include <HttpEndpoint.h>
#include <JsonUtils.h>
#define WIFI_SETTINGS_FILE "/config/wifiSettings.json"
#define WIFI_SETTINGS_SERVICE_PATH "/rest/wifiSettings"
#define WIFI_RECONNECTION_DELAY 1000 * 30
#ifndef FACTORY_WIFI_SSID
#define FACTORY_WIFI_SSID ""
#endif
#ifndef FACTORY_WIFI_PASSWORD
#define FACTORY_WIFI_PASSWORD ""
#endif
#ifndef FACTORY_WIFI_HOSTNAME
#define FACTORY_WIFI_HOSTNAME ESPUtils::defaultDeviceValue("esp-react-")
#endif
class WiFiSettings {
public:
// core wifi configuration
String ssid;
String password;
String hostname;
bool staticIPConfig;
// optional configuration for static IP address
IPAddress localIP;
IPAddress gatewayIP;
IPAddress subnetMask;
IPAddress dnsIP1;
IPAddress dnsIP2;
static void read(WiFiSettings& settings, JsonObject& root) {
// connection settings
root["ssid"] = settings.ssid;
root["password"] = settings.password;
root["hostname"] = settings.hostname;
root["static_ip_config"] = settings.staticIPConfig;
// extended settings
JsonUtils::writeIP(root, "local_ip", settings.localIP);
JsonUtils::writeIP(root, "gateway_ip", settings.gatewayIP);
JsonUtils::writeIP(root, "subnet_mask", settings.subnetMask);
JsonUtils::writeIP(root, "dns_ip_1", settings.dnsIP1);
JsonUtils::writeIP(root, "dns_ip_2", settings.dnsIP2);
}
static StateUpdateResult update(JsonObject& root, WiFiSettings& settings) {
settings.ssid = root["ssid"] | FACTORY_WIFI_SSID;
settings.password = root["password"] | FACTORY_WIFI_PASSWORD;
settings.hostname = root["hostname"] | FACTORY_WIFI_HOSTNAME;
settings.staticIPConfig = root["static_ip_config"] | false;
// extended settings
JsonUtils::readIP(root, "local_ip", settings.localIP);
JsonUtils::readIP(root, "gateway_ip", settings.gatewayIP);
JsonUtils::readIP(root, "subnet_mask", settings.subnetMask);
JsonUtils::readIP(root, "dns_ip_1", settings.dnsIP1);
JsonUtils::readIP(root, "dns_ip_2", settings.dnsIP2);
// Swap around the dns servers if 2 is populated but 1 is not
if (settings.dnsIP1 == INADDR_NONE && settings.dnsIP2 != INADDR_NONE) {
settings.dnsIP1 = settings.dnsIP2;
settings.dnsIP2 = INADDR_NONE;
}
// Turning off static ip config if we don't meet the minimum requirements
// of ipAddress, gateway and subnet. This may change to static ip only
// as sensible defaults can be assumed for gateway and subnet
if (settings.staticIPConfig &&
(settings.localIP == INADDR_NONE || settings.gatewayIP == INADDR_NONE || settings.subnetMask == INADDR_NONE)) {
settings.staticIPConfig = false;
}
return StateUpdateResult::CHANGED;
}
};
class WiFiSettingsService : public StatefulService<WiFiSettings> {
public:
WiFiSettingsService(AsyncWebServer* server, FS* fs, SecurityManager* securityManager);
void begin();
void loop();
private:
HttpEndpoint<WiFiSettings> _httpEndpoint;
FSPersistence<WiFiSettings> _fsPersistence;
unsigned long _lastConnectionAttempt;
#ifdef ESP32
bool _stopping;
void onStationModeDisconnected(WiFiEvent_t event, WiFiEventInfo_t info);
void onStationModeStop(WiFiEvent_t event, WiFiEventInfo_t info);
#elif defined(ESP8266)
WiFiEventHandler _onStationModeDisconnectedHandler;
void onStationModeDisconnected(const WiFiEventStationModeDisconnected& event);
#endif
void reconfigureWiFiConnection();
void manageSTA();
};
#endif // end WiFiSettingsService_h