/* THINGSPEAK MODULE Copyright (C) 2019 by Xose PĂ©rez */ #if THINGSPEAK_SUPPORT #if THINGSPEAK_USE_ASYNC #include #else #include #endif #define THINGSPEAK_DATA_BUFFER_SIZE 256 const char THINGSPEAK_REQUEST_TEMPLATE[] PROGMEM = "POST %s HTTP/1.1\r\n" "Host: %s\r\n" "User-Agent: ESPurna\r\n" "Connection: close\r\n" "Content-Type: application/x-www-form-urlencoded\r\n" "Content-Length: %d\r\n\r\n"; bool _tspk_enabled = false; bool _tspk_clear = false; char * _tspk_queue[THINGSPEAK_FIELDS] = {NULL}; String _tspk_data; bool _tspk_flush = false; unsigned long _tspk_last_flush = 0; unsigned char _tspk_tries = THINGSPEAK_TRIES; #if THINGSPEAK_USE_ASYNC AsyncClient * _tspk_client; bool _tspk_connecting = false; bool _tspk_connected = false; #endif // ----------------------------------------------------------------------------- #if BROKER_SUPPORT void _tspkBrokerCallback(const unsigned char type, const char * topic, unsigned char id, const char * payload) { // Process status messages if (BROKER_MSG_TYPE_STATUS == type) { tspkEnqueueRelay(id, (char *) payload); tspkFlush(); } // Porcess sensor messages if (BROKER_MSG_TYPE_SENSOR == type) { //tspkEnqueueMeasurement(id, (char *) payload); //tspkFlush(); } } #endif // BROKER_SUPPORT #if WEB_SUPPORT bool _tspkWebSocketOnKeyCheck(const char * key, JsonVariant& value) { return (strncmp(key, "tspk", 4) == 0); } void _tspkWebSocketOnVisible(JsonObject& root) { root["tspkVisible"] = static_cast(haveRelaysOrSensors()); } void _tspkWebSocketOnConnected(JsonObject& root) { root["tspkEnabled"] = getSetting("tspkEnabled", THINGSPEAK_ENABLED).toInt() == 1; root["tspkKey"] = getSetting("tspkKey", THINGSPEAK_APIKEY); root["tspkClear"] = getSetting("tspkClear", THINGSPEAK_CLEAR_CACHE).toInt() == 1; JsonArray& relays = root.createNestedArray("tspkRelays"); for (byte i=0; ionDisconnect([](void * s, AsyncClient * client) { DEBUG_MSG_P(PSTR("[THINGSPEAK] Disconnected\n")); _tspk_data = ""; _tspk_client_ts = 0; _tspk_last_flush = millis(); _tspk_connected = false; _tspk_connecting = false; _tspk_client_state = tspk_state_t::NONE; }, nullptr); _tspk_client->onTimeout([](void * s, AsyncClient * client, uint32_t time) { DEBUG_MSG_P(PSTR("[THINGSPEAK] Network timeout after %ums\n"), time); client->close(true); }, nullptr); _tspk_client->onPoll([](void * s, AsyncClient * client) { uint32_t ts = millis() - _tspk_client_ts; if (ts > THINGSPEAK_CLIENT_TIMEOUT) { DEBUG_MSG_P(PSTR("[THINGSPEAK] No response after %ums\n"), ts); client->close(true); } }, nullptr); _tspk_client->onData([](void * arg, AsyncClient * client, void * response, size_t len) { char * p = nullptr; do { p = nullptr; switch (_tspk_client_state) { case tspk_state_t::NONE: { p = strnstr(reinterpret_cast(response), "HTTP/1.1 200 OK", len); if (!p) { client->close(true); return; } _tspk_client_state = tspk_state_t::HEADERS; continue; } case tspk_state_t::HEADERS: { p = strnstr(reinterpret_cast(response), "\r\n\r\n", len); if (!p) return; _tspk_client_state = tspk_state_t::BODY; } case tspk_state_t::BODY: { if (!p) { p = strnstr(reinterpret_cast(response), "\r\n\r\n", len); if (!p) return; } unsigned int code = (p) ? atoi(&p[4]) : 0; DEBUG_MSG_P(PSTR("[THINGSPEAK] Response value: %u\n"), code); if ((0 == code) && _tspk_tries) { _tspk_flush = true; DEBUG_MSG_P(PSTR("[THINGSPEAK] Re-enqueuing %u more time(s)\n"), _tspk_tries); } else { _tspkClearQueue(); } client->close(true); _tspk_client_state = tspk_state_t::NONE; } } } while (_tspk_client_state != tspk_state_t::NONE); }, nullptr); _tspk_client->onConnect([](void * arg, AsyncClient * client) { _tspk_connected = true; _tspk_connecting = false; DEBUG_MSG_P(PSTR("[THINGSPEAK] Connected to %s:%u\n"), THINGSPEAK_HOST, THINGSPEAK_PORT); #if THINGSPEAK_USE_SSL uint8_t fp[20] = {0}; sslFingerPrintArray(THINGSPEAK_FINGERPRINT, fp); SSL * ssl = _tspk_client->getSSL(); if (ssl_match_fingerprint(ssl, fp) != SSL_OK) { DEBUG_MSG_P(PSTR("[THINGSPEAK] Warning: certificate doesn't match\n")); } #endif DEBUG_MSG_P(PSTR("[THINGSPEAK] POST %s?%s\n"), THINGSPEAK_URL, _tspk_data.c_str()); char headers[strlen_P(THINGSPEAK_REQUEST_TEMPLATE) + strlen(THINGSPEAK_URL) + strlen(THINGSPEAK_HOST) + 1]; snprintf_P(headers, sizeof(headers), THINGSPEAK_REQUEST_TEMPLATE, THINGSPEAK_URL, THINGSPEAK_HOST, _tspk_data.length() ); client->write(headers); client->write(_tspk_data.c_str()); }, nullptr); } void _tspkPost() { if (_tspk_connected || _tspk_connecting) return; _tspk_client_ts = millis(); #if SECURE_CLIENT == SECURE_CLIENT_AXTLS bool connected = _tspk_client->connect(THINGSPEAK_HOST, THINGSPEAK_PORT, THINGSPEAK_USE_SSL); #else bool connected = _tspk_client->connect(THINGSPEAK_HOST, THINGSPEAK_PORT); #endif _tspk_connecting = connected; if (!connected) { DEBUG_MSG_P(PSTR("[THINGSPEAK] Connection failed\n")); _tspk_client->close(true); } } #else // THINGSPEAK_USE_ASYNC void _tspkPost() { #if THINGSPEAK_USE_SSL WiFiClientSecure _tspk_client; #else WiFiClient _tspk_client; #endif if (_tspk_client.connect(THINGSPEAK_HOST, THINGSPEAK_PORT)) { DEBUG_MSG_P(PSTR("[THINGSPEAK] Connected to %s:%u\n"), THINGSPEAK_HOST, THINGSPEAK_PORT); if (!_tspk_client.verify(THINGSPEAK_FINGERPRINT, THINGSPEAK_HOST)) { DEBUG_MSG_P(PSTR("[THINGSPEAK] Warning: certificate doesn't match\n")); } DEBUG_MSG_P(PSTR("[THINGSPEAK] POST %s?%s\n"), THINGSPEAK_URL, _tspk_data.c_str()); char headers[strlen_P(THINGSPEAK_REQUEST_TEMPLATE) + strlen(THINGSPEAK_URL) + strlen(THINGSPEAK_HOST) + 1]; snprintf_P(headers, sizeof(headers), THINGSPEAK_REQUEST_TEMPLATE, THINGSPEAK_URL, THINGSPEAK_HOST, _tspk_data.length() ); _tspk_client.print(headers); _tspk_client.print(_tspk_data); nice_delay(100); String response = _tspk_client.readString(); int pos = response.indexOf("\r\n\r\n"); unsigned int code = (pos > 0) ? response.substring(pos + 4).toInt() : 0; DEBUG_MSG_P(PSTR("[THINGSPEAK] Response value: %u\n"), code); _tspk_client.stop(); _tspk_last_flush = millis(); if ((0 == code) && _tspk_tries) { _tspk_flush = true; DEBUG_MSG_P(PSTR("[THINGSPEAK] Re-enqueuing %u more time(s)\n"), _tspk_tries); } else { _tspkClearQueue(); } return; } DEBUG_MSG_P(PSTR("[THINGSPEAK] Connection failed\n")); } #endif // THINGSPEAK_USE_ASYNC void _tspkEnqueue(unsigned char index, const char * payload) { DEBUG_MSG_P(PSTR("[THINGSPEAK] Enqueuing field #%u with value %s\n"), index, payload); --index; if (_tspk_queue[index] != NULL) free(_tspk_queue[index]); _tspk_queue[index] = strdup(payload); } void _tspkClearQueue() { _tspk_tries = THINGSPEAK_TRIES; if (_tspk_clear) { for (unsigned char id=0; id 0) _tspk_data.concat("&"); char buf[32] = {0}; snprintf_P(buf, sizeof(buf), PSTR("field%u=%s"), (id + 1), _tspk_queue[id]); _tspk_data.concat(buf); } } // POST data if any if (_tspk_data.length()) { _tspk_data.concat("&api_key="); _tspk_data.concat(getSetting("tspkKey", THINGSPEAK_APIKEY)); --_tspk_tries; _tspkPost(); } } // ----------------------------------------------------------------------------- bool tspkEnqueueRelay(unsigned char index, char * payload) { if (!_tspk_enabled) return true; unsigned char id = getSetting("tspkRelay", index, 0).toInt(); if (id > 0) { _tspkEnqueue(id, payload); return true; } return false; } bool tspkEnqueueMeasurement(unsigned char index, const char * payload) { if (!_tspk_enabled) return true; unsigned char id = getSetting("tspkMagnitude", index, 0).toInt(); if (id > 0) { _tspkEnqueue(id, payload); return true; } return false; } void tspkFlush() { _tspk_flush = true; } bool tspkEnabled() { return _tspk_enabled; } void tspkSetup() { _tspkConfigure(); #if WEB_SUPPORT wsRegister() .onVisible(_tspkWebSocketOnVisible) .onConnected(_tspkWebSocketOnConnected) .onKeyCheck(_tspkWebSocketOnKeyCheck); #endif #if BROKER_SUPPORT brokerRegister(_tspkBrokerCallback); #endif DEBUG_MSG_P(PSTR("[THINGSPEAK] Async %s, SSL %s\n"), THINGSPEAK_USE_ASYNC ? "ENABLED" : "DISABLED", THINGSPEAK_USE_SSL ? "ENABLED" : "DISABLED" ); // Main callbacks espurnaRegisterLoop(tspkLoop); espurnaRegisterReload(_tspkConfigure); } void tspkLoop() { if (!_tspk_enabled) return; if (!wifiConnected() || (WiFi.getMode() != WIFI_STA)) return; _tspkFlush(); } #endif