ahoy/tools/esp8266/wifi.cpp

//-----------------------------------------------------------------------------
// 2022 Ahoy, https://www.mikrocontroller.net/topic/525778
// Creative Commons - http://creativecommons.org/licenses/by-nc-sa/3.0/de/
//-----------------------------------------------------------------------------

#include "wifi.h"


// NTP CONFIG
#define NTP_PACKET_SIZE     48
#define TIMEZONE            1 // Central European time +1


//-----------------------------------------------------------------------------
wifi::wifi(app *main, sysConfig_t *sysCfg, config_t *config) {
    mMain    = main;
    mSysCfg  = sysCfg;
    mConfig  = config;

    mDns = new DNSServer();
    mUdp = new WiFiUDP();

    mWifiStationTimeout = 10;
    wifiWasEstablished  = false;
    mNextTryTs          = 0;
    mApLastTick         = 0;
    mApActive           = false;
}


//-----------------------------------------------------------------------------
void wifi::setup(uint32_t timeout, bool settingValid) {
    mWifiStationTimeout = timeout;
    #ifndef AP_ONLY
        if(false == mApActive)
            mApActive = setupStation(mWifiStationTimeout);
    #endif

    if(!settingValid) {
        DPRINTLN(DBG_WARN, F("your settings are not valid! check [IP]/setup"));
        mApActive = true;
        mApLastTick = millis();
        mNextTryTs = (millis() + (WIFI_AP_ACTIVE_TIME * 1000));
        setupAp(WIFI_AP_SSID, WIFI_AP_PWD);
    }
    else {
        DPRINTLN(DBG_INFO, F("\n\n----------------------------------------"));
        DPRINTLN(DBG_INFO, F("Welcome to AHOY!"));
        DPRINT(DBG_INFO, F("\npoint your browser to http://"));
        if(mApActive)
            DBGPRINTLN(F("192.168.1.1"));
        else
            DBGPRINTLN(WiFi.localIP());
        DPRINTLN(DBG_INFO, F("to configure your device"));
        DPRINTLN(DBG_INFO, F("----------------------------------------\n"));
    }
}


//-----------------------------------------------------------------------------
bool wifi::loop(void) {
    if(mApActive) {
        mDns->processNextRequest();
#ifndef AP_ONLY
        if(mMain->checkTicker(&mNextTryTs, (WIFI_AP_ACTIVE_TIME * 1000))) {
            mApActive = setupStation(mWifiStationTimeout);
            if(mApActive) {
                if(strlen(WIFI_AP_PWD) < 8)
                    DPRINTLN(DBG_ERROR, F("password must be at least 8 characters long"));
                mApLastTick = millis();
                mNextTryTs = (millis() + (WIFI_AP_ACTIVE_TIME * 1000));
                setupAp(WIFI_AP_SSID, WIFI_AP_PWD);
            }
        }
        else {
            if(millis() - mApLastTick > 10000) {
                uint8_t cnt = WiFi.softAPgetStationNum();
                if(cnt > 0) {
                    DPRINTLN(DBG_INFO, String(cnt) + F(" client connected, resetting AP timeout"));
                    mNextTryTs = (millis() + (WIFI_AP_ACTIVE_TIME * 1000));
                }
                mApLastTick = millis();
                DPRINTLN(DBG_INFO, F("AP will be closed in ") + String((mNextTryTs - mApLastTick) / 1000) + F(" seconds"));
            }
        }
#endif
    }

    if((WiFi.status() != WL_CONNECTED) && wifiWasEstablished) {
        if(!mApActive) {
            DPRINTLN(DBG_INFO, "[WiFi]: Connection Lost");
            mApActive = setupStation(mWifiStationTimeout);
        }
    }

    return mApActive;
}


//-----------------------------------------------------------------------------
void wifi::setupAp(const char *ssid, const char *pwd) {
    DPRINTLN(DBG_VERBOSE, F("app::setupAp"));
    IPAddress apIp(192, 168, 1, 1);

    DPRINTLN(DBG_INFO, F("\n---------\nAP MODE\nSSID: ")
        + String(ssid) + F("\nPWD: ")
        + String(pwd) + F("\nActive for: ")
        + String(WIFI_AP_ACTIVE_TIME) + F(" seconds")
        + F("\n---------\n"));
    DPRINTLN(DBG_DEBUG, String(mNextTryTs));

    WiFi.mode(WIFI_AP);
    WiFi.softAPConfig(apIp, apIp, IPAddress(255, 255, 255, 0));
    WiFi.softAP(ssid, pwd);

    mDns->start(53, "*", apIp);
}


//-----------------------------------------------------------------------------
bool wifi::setupStation(uint32_t timeout) {
    DPRINTLN(DBG_VERBOSE, F("app::setupStation"));
    int32_t cnt;
    bool startAp = false;

    if(timeout >= 3)
        cnt = (timeout - 3) / 2 * 10;
    else {
        timeout = 1;
        cnt = 1;
    }

    WiFi.mode(WIFI_STA);
    WiFi.begin(mSysCfg->stationSsid, mSysCfg->stationPwd);
    if(String(mSysCfg->deviceName) != "")
        WiFi.hostname(mSysCfg->deviceName);

    delay(2000);
    DPRINTLN(DBG_INFO, F("connect to network '") + String(mSysCfg->stationSsid) + F("' ..."));
    while (WiFi.status() != WL_CONNECTED) {
        delay(100);
        if(cnt % 40 == 0)
            Serial.println(".");
        else
            Serial.print(".");

        if(timeout > 0) { // limit == 0 -> no limit
            if(--cnt <= 0) {
                if(WiFi.status() != WL_CONNECTED) {
                    startAp = true;
                    WiFi.disconnect();
                }
                delay(100);
                break;
            }
        }
    }
    Serial.println(".");

    if(false == startAp)
        wifiWasEstablished = true;

    delay(1000);
    return startAp;
}


//-----------------------------------------------------------------------------
bool wifi::getApActive(void) {
    return mApActive;
}

//-----------------------------------------------------------------------------
time_t wifi::getNtpTime(void) {
    //DPRINTLN(DBG_VERBOSE, F("wifi::getNtpTime"));
    time_t date = 0;
    IPAddress timeServer;
    uint8_t buf[NTP_PACKET_SIZE];
    uint8_t retry = 0;

    WiFi.hostByName(mConfig->ntpAddr, timeServer);
    mUdp->begin(mConfig->ntpPort);


    sendNTPpacket(timeServer);

    while(retry++ < 5) {
        int wait = 150;
        while(--wait) {
            if(NTP_PACKET_SIZE <= mUdp->parsePacket()) {
                uint64_t secsSince1900;
                mUdp->read(buf, NTP_PACKET_SIZE);
                secsSince1900  = (buf[40] << 24);
                secsSince1900 |= (buf[41] << 16);
                secsSince1900 |= (buf[42] <<  8);
                secsSince1900 |= (buf[43]      );

                date = secsSince1900 - 2208988800UL; // UTC time
                date += (TIMEZONE + offsetDayLightSaving(date)) * 3600;
                break;
            }
            else
                delay(10);
        }
    }

    return date;
}


//-----------------------------------------------------------------------------
void wifi::sendNTPpacket(IPAddress& address) {
    //DPRINTLN(DBG_VERBOSE, F("wifi::sendNTPpacket"));
    uint8_t buf[NTP_PACKET_SIZE] = {0};

    buf[0] = B11100011; // LI, Version, Mode
    buf[1] = 0;         // Stratum
    buf[2] = 6;         // Max Interval between messages in seconds
    buf[3] = 0xEC;      // Clock Precision
    // bytes 4 - 11 are for Root Delay and Dispersion and were set to 0 by memset
    buf[12] = 49;       // four-byte reference ID identifying
    buf[13] = 0x4E;
    buf[14] = 49;
    buf[15] = 52;

    mUdp->beginPacket(address, 123); // NTP request, port 123
    mUdp->write(buf, NTP_PACKET_SIZE);
    mUdp->endPacket();
}


//-----------------------------------------------------------------------------
// calculates the daylight saving time for middle Europe. Input: Unixtime in UTC
// from: https://forum.arduino.cc/index.php?topic=172044.msg1278536#msg1278536
time_t wifi::offsetDayLightSaving (uint32_t local_t) {
    //DPRINTLN(DBG_VERBOSE, F("wifi::offsetDayLightSaving"));
    int m = month (local_t);
    if(m < 3 || m > 10) return 0; // no DSL in Jan, Feb, Nov, Dez
    if(m > 3 && m < 10) return 1; // DSL in Apr, May, Jun, Jul, Aug, Sep
    int y = year (local_t);
    int h = hour (local_t);
    int hToday = (h + 24 * day(local_t));
    if((m == 3  && hToday >= (1 + TIMEZONE + 24 * (31 - (5 * y /4 + 4) % 7)))
        || (m == 10 && hToday <  (1 + TIMEZONE + 24 * (31 - (5 * y /4 + 1) % 7))) )
        return 1;
    else
        return 0;
}
* moved wifi related stuff to extra class 2 years ago			`//-----------------------------------------------------------------------------`
			`// 2022 Ahoy, https://www.mikrocontroller.net/topic/525778`
			`// Creative Commons - http://creativecommons.org/licenses/by-nc-sa/3.0/de/`
			`//-----------------------------------------------------------------------------`

			`#include "wifi.h"`


			`// NTP CONFIG`
			`#define NTP_PACKET_SIZE 48`
			`#define TIMEZONE 1 // Central European time +1`


			`//-----------------------------------------------------------------------------`
			`wifi::wifi(app main, sysConfig_t sysCfg, config_t *config) {`
			`mMain = main;`
			`mSysCfg = sysCfg;`
			`mConfig = config;`

			`mDns = new DNSServer();`
			`mUdp = new WiFiUDP();`

			`mWifiStationTimeout = 10;`
			`wifiWasEstablished = false;`
			`mNextTryTs = 0;`
			`mApLastTick = 0;`
			`mApActive = false;`
			`}`


			`//-----------------------------------------------------------------------------`
			`void wifi::setup(uint32_t timeout, bool settingValid) {`
			`mWifiStationTimeout = timeout;`
			`#ifndef AP_ONLY`
			`if(false == mApActive)`
			`mApActive = setupStation(mWifiStationTimeout);`
			`#endif`

			`if(!settingValid) {`
			`DPRINTLN(DBG_WARN, F("your settings are not valid! check [IP]/setup"));`
			`mApActive = true;`
			`mApLastTick = millis();`
			`mNextTryTs = (millis() + (WIFI_AP_ACTIVE_TIME * 1000));`
			`setupAp(WIFI_AP_SSID, WIFI_AP_PWD);`
			`}`
			`else {`
			`DPRINTLN(DBG_INFO, F("\n\n----------------------------------------"));`
			`DPRINTLN(DBG_INFO, F("Welcome to AHOY!"));`
			`DPRINT(DBG_INFO, F("\npoint your browser to http://"));`
			`if(mApActive)`
			`DBGPRINTLN(F("192.168.1.1"));`
			`else`
			`DBGPRINTLN(WiFi.localIP());`
			`DPRINTLN(DBG_INFO, F("to configure your device"));`
			`DPRINTLN(DBG_INFO, F("----------------------------------------\n"));`
			`}`
			`}`


			`//-----------------------------------------------------------------------------`
			`bool wifi::loop(void) {`
			`if(mApActive) {`
			`mDns->processNextRequest();`
			`#ifndef AP_ONLY`
			`if(mMain->checkTicker(&mNextTryTs, (WIFI_AP_ACTIVE_TIME * 1000))) {`
			`mApActive = setupStation(mWifiStationTimeout);`
			`if(mApActive) {`
			`if(strlen(WIFI_AP_PWD) < 8)`
			`DPRINTLN(DBG_ERROR, F("password must be at least 8 characters long"));`
			`mApLastTick = millis();`
			`mNextTryTs = (millis() + (WIFI_AP_ACTIVE_TIME * 1000));`
			`setupAp(WIFI_AP_SSID, WIFI_AP_PWD);`
			`}`
			`}`
			`else {`
			`if(millis() - mApLastTick > 10000) {`
			`uint8_t cnt = WiFi.softAPgetStationNum();`
			`if(cnt > 0) {`
			`DPRINTLN(DBG_INFO, String(cnt) + F(" client connected, resetting AP timeout"));`
			`mNextTryTs = (millis() + (WIFI_AP_ACTIVE_TIME * 1000));`
			`}`
			`mApLastTick = millis();`
			`DPRINTLN(DBG_INFO, F("AP will be closed in ") + String((mNextTryTs - mApLastTick) / 1000) + F(" seconds"));`
			`}`
			`}`
			`#endif`
			`}`

			`if((WiFi.status() != WL_CONNECTED) && wifiWasEstablished) {`
			`if(!mApActive) {`
			`DPRINTLN(DBG_INFO, "[WiFi]: Connection Lost");`
			`mApActive = setupStation(mWifiStationTimeout);`
			`}`
			`}`

			`return mApActive;`
			`}`


			`//-----------------------------------------------------------------------------`
			`void wifi::setupAp(const char ssid, const char pwd) {`
			`DPRINTLN(DBG_VERBOSE, F("app::setupAp"));`
			`IPAddress apIp(192, 168, 1, 1);`

			`DPRINTLN(DBG_INFO, F("\n---------\nAP MODE\nSSID: ")`
			`+ String(ssid) + F("\nPWD: ")`
			`+ String(pwd) + F("\nActive for: ")`
			`+ String(WIFI_AP_ACTIVE_TIME) + F(" seconds")`
			`+ F("\n---------\n"));`
			`DPRINTLN(DBG_DEBUG, String(mNextTryTs));`

			`WiFi.mode(WIFI_AP);`
			`WiFi.softAPConfig(apIp, apIp, IPAddress(255, 255, 255, 0));`
			`WiFi.softAP(ssid, pwd);`

			`mDns->start(53, "*", apIp);`
			`}`


			`//-----------------------------------------------------------------------------`
			`bool wifi::setupStation(uint32_t timeout) {`
			`DPRINTLN(DBG_VERBOSE, F("app::setupStation"));`
			`int32_t cnt;`
			`bool startAp = false;`

			`if(timeout >= 3)`
			`cnt = (timeout - 3) / 2 * 10;`
			`else {`
			`timeout = 1;`
			`cnt = 1;`
			`}`

			`WiFi.mode(WIFI_STA);`
			`WiFi.begin(mSysCfg->stationSsid, mSysCfg->stationPwd);`
			`if(String(mSysCfg->deviceName) != "")`
			`WiFi.hostname(mSysCfg->deviceName);`

			`delay(2000);`
			`DPRINTLN(DBG_INFO, F("connect to network '") + String(mSysCfg->stationSsid) + F("' ..."));`
			`while (WiFi.status() != WL_CONNECTED) {`
			`delay(100);`
			`if(cnt % 40 == 0)`
			`Serial.println(".");`
			`else`
			`Serial.print(".");`

			`if(timeout > 0) { // limit == 0 -> no limit`
			`if(--cnt <= 0) {`
			`if(WiFi.status() != WL_CONNECTED) {`
			`startAp = true;`
			`WiFi.disconnect();`
			`}`
			`delay(100);`
			`break;`
			`}`
			`}`
			`}`
			`Serial.println(".");`

			`if(false == startAp)`
			`wifiWasEstablished = true;`

			`delay(1000);`
			`return startAp;`
			`}`


			`//-----------------------------------------------------------------------------`
			`bool wifi::getApActive(void) {`
			`return mApActive;`
			`}`

			`//-----------------------------------------------------------------------------`
			`time_t wifi::getNtpTime(void) {`
			`//DPRINTLN(DBG_VERBOSE, F("wifi::getNtpTime"));`
			`time_t date = 0;`
			`IPAddress timeServer;`
			`uint8_t buf[NTP_PACKET_SIZE];`
			`uint8_t retry = 0;`

			`WiFi.hostByName(mConfig->ntpAddr, timeServer);`
			`mUdp->begin(mConfig->ntpPort);`


			`sendNTPpacket(timeServer);`

			`while(retry++ < 5) {`
			`int wait = 150;`
			`while(--wait) {`
			`if(NTP_PACKET_SIZE <= mUdp->parsePacket()) {`
			`uint64_t secsSince1900;`
			`mUdp->read(buf, NTP_PACKET_SIZE);`
			`secsSince1900 = (buf[40] << 24);`
			`secsSince1900 \|= (buf[41] << 16);`
			`secsSince1900 \|= (buf[42] << 8);`
			`secsSince1900 \|= (buf[43] );`

			`date = secsSince1900 - 2208988800UL; // UTC time`
			`date += (TIMEZONE + offsetDayLightSaving(date)) * 3600;`
			`break;`
			`}`
			`else`
			`delay(10);`
			`}`
			`}`

			`return date;`
			`}`


			`//-----------------------------------------------------------------------------`
			`void wifi::sendNTPpacket(IPAddress& address) {`
			`//DPRINTLN(DBG_VERBOSE, F("wifi::sendNTPpacket"));`
			`uint8_t buf[NTP_PACKET_SIZE] = {0};`

			`buf[0] = B11100011; // LI, Version, Mode`
			`buf[1] = 0; // Stratum`
			`buf[2] = 6; // Max Interval between messages in seconds`
			`buf[3] = 0xEC; // Clock Precision`
			`// bytes 4 - 11 are for Root Delay and Dispersion and were set to 0 by memset`
			`buf[12] = 49; // four-byte reference ID identifying`
			`buf[13] = 0x4E;`
			`buf[14] = 49;`
			`buf[15] = 52;`

			`mUdp->beginPacket(address, 123); // NTP request, port 123`
			`mUdp->write(buf, NTP_PACKET_SIZE);`
			`mUdp->endPacket();`
			`}`


			`//-----------------------------------------------------------------------------`
			`// calculates the daylight saving time for middle Europe. Input: Unixtime in UTC`
			`// from: https://forum.arduino.cc/index.php?topic=172044.msg1278536#msg1278536`
			`time_t wifi::offsetDayLightSaving (uint32_t local_t) {`
			`//DPRINTLN(DBG_VERBOSE, F("wifi::offsetDayLightSaving"));`
			`int m = month (local_t);`
			`if(m < 3 \|\| m > 10) return 0; // no DSL in Jan, Feb, Nov, Dez`
			`if(m > 3 && m < 10) return 1; // DSL in Apr, May, Jun, Jul, Aug, Sep`
			`int y = year (local_t);`
			`int h = hour (local_t);`
			`int hToday = (h + 24 * day(local_t));`
			`if((m == 3 && hToday >= (1 + TIMEZONE + 24 * (31 - (5 * y /4 + 4) % 7)))`
			`\|\| (m == 10 && hToday < (1 + TIMEZONE + 24 * (31 - (5 * y /4 + 1) % 7))) )`
			`return 1;`
			`else`
			`return 0;`
			`}`