/* NTP MODULE Based on esp8266 / esp32 configTime and C date and time functions: - https://github.com/esp8266/Arduino/blob/master/libraries/esp8266/examples/NTP-TZ-DST/NTP-TZ-DST.ino - https://www.nongnu.org/lwip/2_1_x/group__sntp.html - man 3 ctime Copyright (C) 2019 by Maxim Prokhorov */ #include "ntp.h" #if NTP_SUPPORT && !NTP_LEGACY_SUPPORT #include #include #include #include #include #include static_assert( (SNTP_SERVER_DNS == 1), "lwip must be configured with SNTP_SERVER_DNS" ); #include "config/buildtime.h" #include "ntp_timelib.h" #include "ws.h" // Arduino/esp8266 lwip2 custom functions that can be redefined // Must return time in milliseconds, legacy settings are in seconds. String _ntp_server; uint32_t _ntp_startup_delay = (NTP_START_DELAY * 1000); uint32_t _ntp_update_delay = (NTP_UPDATE_INTERVAL * 1000); uint32_t sntp_startup_delay_MS_rfc_not_less_than_60000() { return _ntp_startup_delay; } uint32_t sntp_update_delay_MS_rfc_not_less_than_15000() { return _ntp_update_delay; } // We also must shim TimeLib functions until everything else is ported. // We can't sometimes avoid TimeLib as dependancy though, which would be really bad static bool _ntp_synced = false; static time_t _ntp_last = 0; static time_t _ntp_ts = 0; static tm _ntp_tm_local; static tm _ntp_tm_utc; void _ntpTmCache(time_t ts) { if (_ntp_ts != ts) { _ntp_ts = ts; localtime_r(&_ntp_ts, &_ntp_tm_local); gmtime_r(&_ntp_ts, &_ntp_tm_utc); } } int hour(time_t ts) { _ntpTmCache(ts); return _ntp_tm_local.tm_hour; } int minute(time_t ts) { _ntpTmCache(ts); return _ntp_tm_local.tm_min; } int second(time_t ts) { _ntpTmCache(ts); return _ntp_tm_local.tm_sec; } int day(time_t ts) { _ntpTmCache(ts); return _ntp_tm_local.tm_mday; } // `tm.tm_wday` range is 0..6, TimeLib is 1..7 int weekday(time_t ts) { _ntpTmCache(ts); return _ntp_tm_local.tm_wday + 1; } // `tm.tm_mon` range is 0..11, TimeLib range is 1..12 int month(time_t ts) { _ntpTmCache(ts); return _ntp_tm_local.tm_mon + 1; } int year(time_t ts) { _ntpTmCache(ts); return _ntp_tm_local.tm_year + 1900; } int utc_hour(time_t ts) { _ntpTmCache(ts); return _ntp_tm_utc.tm_hour; } int utc_minute(time_t ts) { _ntpTmCache(ts); return _ntp_tm_utc.tm_min; } int utc_second(time_t ts) { _ntpTmCache(ts); return _ntp_tm_utc.tm_sec; } int utc_day(time_t ts) { _ntpTmCache(ts); return _ntp_tm_utc.tm_mday; } int utc_weekday(time_t ts) { _ntpTmCache(ts); return _ntp_tm_utc.tm_wday + 1; } int utc_month(time_t ts) { _ntpTmCache(ts); return _ntp_tm_utc.tm_mon + 1; } int utc_year(time_t ts) { _ntpTmCache(ts); return _ntp_tm_utc.tm_year + 1900; } time_t now() { return time(nullptr); } // ----------------------------------------------------------------------------- #if WEB_SUPPORT bool _ntpWebSocketOnKeyCheck(const char * key, JsonVariant& value) { return (strncmp(key, "ntp", 3) == 0); } void _ntpWebSocketOnVisible(JsonObject& root) { root["ntpVisible"] = 1; } void _ntpWebSocketOnData(JsonObject& root) { root["ntpStatus"] = ntpSynced(); } void _ntpWebSocketOnConnected(JsonObject& root) { root["ntpServer"] = getSetting("ntpServer", F(NTP_SERVER)); root["ntpTZ"] = getSetting("ntpTZ", NTP_TIMEZONE); } #endif String _ntpGetServer() { String server; server = sntp_getservername(0); if (!server.length()) { auto ip = IPAddress(sntp_getserver(0)); if (ip) { server = ip.toString(); } } return server; } NtpInfo ntpInfo() { NtpInfo result; auto ts = now(); result.now = ts; tm sync_tm; gmtime_r(&_ntp_last, &sync_tm); result.sync = ntpDateTime(&sync_tm); tm utc_tm; gmtime_r(&ts, &utc_tm); result.utc = ntpDateTime(&utc_tm); const char* cfg_tz = getenv("TZ"); if ((cfg_tz != nullptr) && (strcmp(cfg_tz, "UTC0") != 0)) { tm local_tm; localtime_r(&ts, &local_tm); result.local = ntpDateTime(&local_tm); result.tz = cfg_tz; } return result; } void _ntpReport() { if (!ntpSynced()) { DEBUG_MSG_P(PSTR("[NTP] Not synced\n")); return; } auto info = ntpInfo(); DEBUG_MSG_P(PSTR("[NTP] Server : %s\n"), _ntp_server.c_str()); DEBUG_MSG_P(PSTR("[NTP] Sync Time : %s (UTC)\n"), info.sync.c_str()); DEBUG_MSG_P(PSTR("[NTP] UTC Time : %s\n"), info.utc.c_str()); if (info.tz.length()) { DEBUG_MSG_P(PSTR("[NTP] Local Time : %s (%s)\n"), info.local.c_str(), info.tz.c_str()); } } void _ntpConfigure() { // Ignore or accept the DHCP SNTP option // When enabled, it is possible that lwip will replace the NTP server pointer from under us sntp_servermode_dhcp(getSetting("ntpDhcp", 1 == NTP_DHCP_SERVER)); // Note: TZ_... provided by the Core are already wrapped with PSTR(...) // but, String() already handles every char pointer as a flash-string auto cfg_tz = getSetting("ntpTZ", NTP_TIMEZONE); const char* active_tz = getenv("TZ"); bool changed = cfg_tz != active_tz; if (changed) { if (cfg_tz.length()) { setenv("TZ", cfg_tz.c_str(), 1); } else { unsetenv("TZ"); } tzset(); } const auto cfg_server = getSetting("ntpServer", F(NTP_SERVER)); const auto active_server = _ntpGetServer(); changed = (cfg_server != active_server) || changed; // We skip configTime() API since we already set the TZ just above // (and most of the time we expect NTP server to proxy to multiple servers instead of defining more than one here) if (changed) { sntp_stop(); _ntp_server = cfg_server; sntp_setservername(0, _ntp_server.c_str()); sntp_init(); DEBUG_MSG_P(PSTR("[NTP] Server: %s, TZ: %s\n"), cfg_server.c_str(), cfg_tz.length() ? cfg_tz.c_str() : "UTC0"); } } // ----------------------------------------------------------------------------- bool ntpSynced() { return _ntp_synced; } String ntpDateTime(tm* timestruct) { char buffer[32]; snprintf_P(buffer, sizeof(buffer), PSTR("%04d-%02d-%02d %02d:%02d:%02d"), timestruct->tm_year + 1900, timestruct->tm_mon + 1, timestruct->tm_mday, timestruct->tm_hour, timestruct->tm_min, timestruct->tm_sec ); return String(buffer); } String ntpDateTime(time_t ts) { tm timestruct; localtime_r(&ts, ×truct); return ntpDateTime(×truct); } String ntpDateTime() { if (ntpSynced()) { return ntpDateTime(now()); } return String(); } // ----------------------------------------------------------------------------- using NtpTickCallbacks = std::forward_list; NtpTickCallbacks _ntp_tick_callbacks; static Ticker _ntp_tick; void _ntpTickSchedule(int offset); void _ntpTickCallback() { if (!ntpSynced()) { _ntpTickSchedule(60); return; } const auto ts = now(); tm local_tm; localtime_r(&ts, &local_tm); int now_hour = local_tm.tm_hour; int now_minute = local_tm.tm_min; static int last_hour = -1; static int last_minute = -1; // notify subscribers about each tick interval (note that both can happen simultaneously) if (last_hour != now_hour) { last_hour = now_hour; for (auto& callback : _ntp_tick_callbacks) { callback(NtpTick::EveryHour); } } if (last_minute != now_minute) { last_minute = now_minute; for (auto& callback : _ntp_tick_callbacks) { callback(NtpTick::EveryMinute); } } // try to autocorrect each invocation _ntpTickSchedule(60 - local_tm.tm_sec); } // XXX: NONOS SDK docs for some reason mention 100 micros as minimum time. Schedule next second in case this is 0 void _ntpTickSchedule(int offset) { static bool scheduled { false }; if (!scheduled) { scheduled = true; _ntp_tick.once_scheduled(offset ? offset : 1, []() { scheduled = false; _ntpTickCallback(); }); } } void _ntpSetTimeOfDayCallback() { _ntp_synced = true; _ntp_last = time(nullptr); static bool once = true; if (once) { schedule_function(_ntpTickCallback); once = false; } #if WEB_SUPPORT wsPost(_ntpWebSocketOnData); #endif schedule_function(_ntpReport); } void _ntpSetTimestamp(time_t ts) { timeval tv { ts, 0 }; timezone tz { 0, 0 }; settimeofday(&tv, &tz); } // ----------------------------------------------------------------------------- void _ntpConvertLegacyOffsets() { bool save { true }; bool found { false }; bool europe { true }; bool dst { true }; int offset { 60 }; settings::kv_store.foreach([&](settings::kvs_type::KeyValueResult&& kv) { const auto key = kv.key.read(); if (key == F("ntpTZ")) { save = false; } else if (key == F("ntpOffset")) { offset = settings::internal::convert(kv.value.read()); found = true; } else if (key == F("ntpDST")) { dst = settings::internal::convert(kv.value.read()); found = true; } else if (key == F("ntpRegion")) { europe = (0 == settings::internal::convert(kv.value.read())); found = true; } }); if (save && found) { // XXX: only expect offsets in hours String custom { europe ? F("CET") : F("CST") }; custom.reserve(32); if (offset > 0) { custom += '-'; } custom += abs(offset) / 60; if (dst) { custom += europe ? F("CEST") : F("EDT"); if (europe) { custom += F(",M3.5.0,M10.5.0/3"); } else { custom += F(",M3.2.0,M11.1.0"); } } setSetting("ntpTZ", custom); } delSetting("ntpOffset"); delSetting("ntpDST"); delSetting("ntpRegion"); } void ntpOnTick(NtpTickCallback callback) { _ntp_tick_callbacks.push_front(callback); } void ntpSetup() { // Randomized in time to avoid clogging the server with simultaneous requests from multiple devices // (for example, when multiple devices start up at the same time) const uint32_t startup_delay = getSetting("ntpStartDelay", NTP_START_DELAY); const uint32_t update_delay = getSetting("ntpUpdateIntvl", NTP_UPDATE_INTERVAL); _ntp_startup_delay = secureRandom(startup_delay, startup_delay * 2); _ntp_update_delay = secureRandom(update_delay, update_delay * 2); DEBUG_MSG_P(PSTR("[NTP] Startup delay: %u (s), Update delay: %u (s)\n"), _ntp_startup_delay, _ntp_update_delay); _ntp_startup_delay = _ntp_startup_delay * 1000; _ntp_update_delay = _ntp_update_delay * 1000; // start up with some reasonable timestamp already available _ntpSetTimestamp(__UNIX_TIMESTAMP__); // will be called every time after ntp syncs AND loop() finishes settimeofday_cb(_ntpSetTimeOfDayCallback); // generic configuration, always handled espurnaRegisterReload(_ntpConfigure); _ntpConvertLegacyOffsets(); _ntpConfigure(); // make sure our logic does know about the actual server // in case dhcp sends out ntp settings static WiFiEventHandler on_sta = WiFi.onStationModeGotIP([](WiFiEventStationModeGotIP) { if (!sntp_enabled()) { return; } auto server = _ntpGetServer(); if (!server.length()) { DEBUG_MSG_P(PSTR("[NTP] Updating `ntpDhcp` to ignore the DHCP values\n")); setSetting("ntpDhcp", "0"); sntp_servermode_dhcp(0); schedule_function(_ntpConfigure); return; } if (!_ntp_server.length() || (server != _ntp_server)) { DEBUG_MSG_P(PSTR("[NTP] Updating `ntpServer` setting from DHCP: %s\n"), server.c_str()); _ntp_server = server; setSetting("ntpServer", server); } }); // optional functionality #if WEB_SUPPORT wsRegister() .onVisible(_ntpWebSocketOnVisible) .onConnected(_ntpWebSocketOnConnected) .onData(_ntpWebSocketOnData) .onKeyCheck(_ntpWebSocketOnKeyCheck); #endif #if TERMINAL_SUPPORT terminalRegisterCommand(F("NTP"), [](const terminal::CommandContext&) { _ntpReport(); terminalOK(); }); terminalRegisterCommand(F("NTP.SETTIME"), [](const terminal::CommandContext& ctx) { if (ctx.argc != 2) return; _ntp_synced = true; _ntpSetTimestamp(ctx.argv[1].toInt()); terminalOK(); }); // TODO: // terminalRegisterCommand(F("NTP.SYNC"), [](const terminal::CommandContext&) { ... } // #endif } #endif // NTP_SUPPORT && !NTP_LEGACY_SUPPORT