// The MIT License (MIT) // // Copyright (c) 2015 Adafruit Industries // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE // SOFTWARE. #include "Adafruit_MQTT.h" #if defined(ARDUINO_SAMD_ZERO) || defined(ARDUINO_SAMD_MKR1000) || \ defined(ARDUINO_SAMD_MKR1010) || defined(ARDUINO_ARCH_SAMD) static char *dtostrf(double val, signed char width, unsigned char prec, char *sout) { char fmt[20]; sprintf(fmt, "%%%d.%df", width, prec); sprintf(sout, fmt, val); return sout; } #endif #if defined(ESP8266) int strncasecmp(const char *str1, const char *str2, int len) { int d = 0; while (len--) { int c1 = tolower(*str1++); int c2 = tolower(*str2++); if (((d = c1 - c2) != 0) || (c2 == '\0')) { return d; } } return 0; } #endif void printBuffer(uint8_t *buffer, uint16_t len) { DEBUG_PRINTER.print('\t'); for (uint16_t i = 0; i < len; i++) { if (isprint(buffer[i])) DEBUG_PRINTER.write(buffer[i]); else DEBUG_PRINTER.print(" "); DEBUG_PRINTER.print(F(" [0x")); if (buffer[i] < 0x10) DEBUG_PRINTER.print("0"); DEBUG_PRINTER.print(buffer[i], HEX); DEBUG_PRINTER.print("], "); if (i % 8 == 7) { DEBUG_PRINTER.print("\n\t"); } } DEBUG_PRINTER.println(); } /* Not used now, but might be useful in the future static uint8_t *stringprint(uint8_t *p, char *s) { uint16_t len = strlen(s); p[0] = len >> 8; p++; p[0] = len & 0xFF; p++; memmove(p, s, len); return p+len; } */ static uint8_t *stringprint(uint8_t *p, const char *s, uint16_t maxlen = 0) { // If maxlen is specified (has a non-zero value) then use it as the maximum // length of the source string to write to the buffer. Otherwise write // the entire source string. uint16_t len = strlen(s); if (maxlen > 0 && len > maxlen) { len = maxlen; } /* for (uint8_t i=0; i> 8; p++; p[0] = len & 0xFF; p++; strncpy((char *)p, s, len); return p + len; } // Adafruit_MQTT Definition //////////////////////////////////////////////////// Adafruit_MQTT::Adafruit_MQTT(const char *server, uint16_t port, const char *cid, const char *user, const char *pass) { servername = server; portnum = port; clientid = cid; username = user; password = pass; // reset subscriptions for (uint8_t i = 0; i < MAXSUBSCRIPTIONS; i++) { subscriptions[i] = 0; } will_topic = 0; will_payload = 0; will_qos = 0; will_retain = 0; packet_id_counter = 0; } Adafruit_MQTT::Adafruit_MQTT(const char *server, uint16_t port, const char *user, const char *pass) { servername = server; portnum = port; clientid = ""; username = user; password = pass; // reset subscriptions for (uint8_t i = 0; i < MAXSUBSCRIPTIONS; i++) { subscriptions[i] = 0; } will_topic = 0; will_payload = 0; will_qos = 0; will_retain = 0; packet_id_counter = 0; } int8_t Adafruit_MQTT::connect() { // Connect to the server. if (!connectServer()) return -1; // Construct and send connect packet. uint8_t len = connectPacket(buffer); if (!sendPacket(buffer, len)) return -1; // Read connect response packet and verify it len = readFullPacket(buffer, MAXBUFFERSIZE, CONNECT_TIMEOUT_MS); if (len != 4) { return -1; } if ((buffer[0] != (MQTT_CTRL_CONNECTACK << 4)) || (buffer[1] != 2)) { return -1; } if (buffer[3] != 0) return buffer[3]; // Setup subscriptions once connected. for (uint8_t i = 0; i < MAXSUBSCRIPTIONS; i++) { // Ignore subscriptions that aren't defined. if (subscriptions[i] == 0) continue; boolean success = false; for (uint8_t retry = 0; (retry < 3) && !success; retry++) { // retry until we get a suback // Construct and send subscription packet. uint8_t len = subscribePacket(buffer, subscriptions[i]->topic, subscriptions[i]->qos); if (!sendPacket(buffer, len)) return -1; if (MQTT_PROTOCOL_LEVEL < 3) // older versions didn't suback break; // Check for SUBACK if using MQTT 3.1.1 or higher // TODO: The Server is permitted to start sending PUBLISH packets matching // the Subscription before the Server sends the SUBACK Packet. (will // really need to use callbacks - ada) if (processPacketsUntil(buffer, MQTT_CTRL_SUBACK, SUBACK_TIMEOUT_MS)) { success = true; break; } } if (!success) return -2; // failed to sub for some reason } return 0; } int8_t Adafruit_MQTT::connect(const char *user, const char *pass) { username = user; password = pass; return connect(); } uint16_t Adafruit_MQTT::processPacketsUntil(uint8_t *buffer, uint8_t waitforpackettype, uint16_t timeout) { uint16_t len; while (true) { len = readFullPacket(buffer, MAXBUFFERSIZE, timeout); if (len == 0) { break; } uint8_t packetType = (buffer[0] >> 4); if (packetType == waitforpackettype) { return len; } else { if (packetType == MQTT_CTRL_PUBLISH) { handleSubscriptionPacket(len); } else { ERROR_PRINTLN(F("Dropped a packet")); } } } return 0; } uint16_t Adafruit_MQTT::readFullPacket(uint8_t *buffer, uint16_t maxsize, uint16_t timeout) { // will read a packet and Do The Right Thing with length uint8_t *pbuff = buffer; uint8_t rlen; // read the packet type: rlen = readPacket(pbuff, 1, timeout); if (rlen != 1) return 0; DEBUG_PRINT(F("Packet Type:\t")); DEBUG_PRINTBUFFER(pbuff, rlen); pbuff++; uint32_t value = 0; uint32_t multiplier = 1; uint8_t encodedByte; do { rlen = readPacket(pbuff, 1, timeout); if (rlen != 1) return 0; encodedByte = pbuff[0]; // save the last read val pbuff++; // get ready for reading the next byte uint32_t intermediate = encodedByte & 0x7F; intermediate *= multiplier; value += intermediate; multiplier *= 128; if (multiplier > (128UL * 128UL * 128UL)) { DEBUG_PRINT(F("Malformed packet len\n")); return 0; } } while (encodedByte & 0x80); DEBUG_PRINT(F("Packet Length:\t")); DEBUG_PRINTLN(value); if (value > (maxsize - (pbuff - buffer) - 1)) { DEBUG_PRINTLN(F("Packet too big for buffer")); rlen = readPacket(pbuff, (maxsize - (pbuff - buffer) - 1), timeout); } else { rlen = readPacket(pbuff, value, timeout); } // DEBUG_PRINT(F("Remaining packet:\t")); DEBUG_PRINTBUFFER(pbuff, rlen); return ((pbuff - buffer) + rlen); } const __FlashStringHelper *Adafruit_MQTT::connectErrorString(int8_t code) { switch (code) { case 1: return F( "The Server does not support the level of the MQTT protocol requested"); case 2: return F( "The Client identifier is correct UTF-8 but not allowed by the Server"); case 3: return F("The MQTT service is unavailable"); case 4: return F("The data in the user name or password is malformed"); case 5: return F("Not authorized to connect"); case 6: return F("Exceeded reconnect rate limit. Please try again later."); case 7: return F("You have been banned from connecting. Please contact the MQTT " "server administrator for more details."); case -1: return F("Connection failed"); case -2: return F("Failed to subscribe"); default: return F("Unknown error"); } } bool Adafruit_MQTT::disconnect() { // Construct and send disconnect packet. uint8_t len = disconnectPacket(buffer); if (!sendPacket(buffer, len)) DEBUG_PRINTLN(F("Unable to send disconnect packet")); return disconnectServer(); } bool Adafruit_MQTT::publish(const char *topic, const char *data, uint8_t qos) { return publish(topic, (uint8_t *)(data), strlen(data), qos); } bool Adafruit_MQTT::publish(const char *topic, uint8_t *data, uint16_t bLen, uint8_t qos) { // Construct and send publish packet. uint16_t len = publishPacket(buffer, topic, data, bLen, qos, (uint16_t)sizeof(buffer)); if (!sendPacket(buffer, len)) return false; // If QOS level is high enough verify the response packet. if (qos > 0) { len = readFullPacket(buffer, MAXBUFFERSIZE, PUBLISH_TIMEOUT_MS); DEBUG_PRINT(F("Publish QOS1+ reply:\t")); DEBUG_PRINTBUFFER(buffer, len); if (len != 4) return false; if ((buffer[0] >> 4) != MQTT_CTRL_PUBACK) return false; uint16_t packnum = buffer[2]; packnum <<= 8; packnum |= buffer[3]; // we increment the packet_id_counter right after publishing so inc here too // to match packnum++; if (packnum != packet_id_counter) return false; } return true; } bool Adafruit_MQTT::will(const char *topic, const char *payload, uint8_t qos, uint8_t retain) { if (connected()) { DEBUG_PRINT(F("Will defined after connect")); return false; } will_topic = topic; will_payload = payload; will_qos = qos; will_retain = retain; return true; } bool Adafruit_MQTT::subscribe(Adafruit_MQTT_Subscribe *sub) { uint8_t i; // see if we are already subscribed for (i = 0; i < MAXSUBSCRIPTIONS; i++) { if (subscriptions[i] == sub) { DEBUG_PRINTLN(F("Already subscribed")); return true; } } if (i == MAXSUBSCRIPTIONS) { // add to subscriptionlist for (i = 0; i < MAXSUBSCRIPTIONS; i++) { if (subscriptions[i] == 0) { DEBUG_PRINT(F("Added sub ")); DEBUG_PRINTLN(i); subscriptions[i] = sub; return true; } } } DEBUG_PRINTLN(F("no more subscription space :(")); return false; } bool Adafruit_MQTT::unsubscribe(Adafruit_MQTT_Subscribe *sub) { uint8_t i; // see if we are already subscribed for (i = 0; i < MAXSUBSCRIPTIONS; i++) { if (subscriptions[i] == sub) { DEBUG_PRINTLN( F("Found matching subscription and attempting to unsubscribe.")); // Construct and send unsubscribe packet. uint8_t len = unsubscribePacket(buffer, subscriptions[i]->topic); // sending unsubscribe failed if (!sendPacket(buffer, len)) return false; // if QoS for this subscription is 1 or 2, we need // to wait for the unsuback to confirm unsubscription if (subscriptions[i]->qos > 0 && MQTT_PROTOCOL_LEVEL > 3) { // wait for UNSUBACK len = readFullPacket(buffer, MAXBUFFERSIZE, CONNECT_TIMEOUT_MS); DEBUG_PRINT(F("UNSUBACK:\t")); DEBUG_PRINTBUFFER(buffer, len); if ((len != 5) || (buffer[0] != (MQTT_CTRL_UNSUBACK << 4))) { return false; // failure to unsubscribe } } subscriptions[i] = 0; return true; } } // subscription not found, so we are unsubscribed return true; } void Adafruit_MQTT::processPackets(int16_t timeout) { uint32_t elapsed = 0, endtime, starttime = millis(); while (elapsed < (uint32_t)timeout) { Adafruit_MQTT_Subscribe *sub = readSubscription(timeout - elapsed); if (sub) { if (sub->callback_uint32t != NULL) { // huh lets do the callback in integer mode uint32_t data = 0; data = atoi((char *)sub->lastread); sub->callback_uint32t(data); } else if (sub->callback_double != NULL) { // huh lets do the callback in doublefloat mode double data = 0; data = atof((char *)sub->lastread); sub->callback_double(data); } else if (sub->callback_buffer != NULL) { // huh lets do the callback in buffer mode sub->callback_buffer((char *)sub->lastread, sub->datalen); } else if (sub->callback_io != NULL) { // huh lets do the callback in io mode ((sub->io_mqtt)->*(sub->callback_io))((char *)sub->lastread, sub->datalen); } } // keep track over elapsed time endtime = millis(); if (endtime < starttime) { starttime = endtime; // looped around!") } elapsed += (endtime - starttime); } } Adafruit_MQTT_Subscribe *Adafruit_MQTT::readSubscription(int16_t timeout) { // Check if data is available to read. uint16_t len = readFullPacket(buffer, MAXBUFFERSIZE, timeout); // return one full packet return handleSubscriptionPacket(len); } Adafruit_MQTT_Subscribe *Adafruit_MQTT::handleSubscriptionPacket(uint16_t len) { uint16_t i, topiclen, datalen; if (!len) { return NULL; // No data available, just quit. } DEBUG_PRINT("Packet len: "); DEBUG_PRINTLN(len); DEBUG_PRINTBUFFER(buffer, len); if (len < 3) { return NULL; } if ((buffer[0] & 0xF0) != (MQTT_CTRL_PUBLISH) << 4) { return NULL; } // Parse out length of packet. topiclen = buffer[3]; DEBUG_PRINT(F("Looking for subscription len ")); DEBUG_PRINTLN(topiclen); // Find subscription associated with this packet. for (i = 0; i < MAXSUBSCRIPTIONS; i++) { if (subscriptions[i]) { // Skip this subscription if its name length isn't the same as the // received topic name. if (strlen(subscriptions[i]->topic) != topiclen) continue; // Stop if the subscription topic matches the received topic. Be careful // to make comparison case insensitive. if (strncasecmp((char *)buffer + 4, subscriptions[i]->topic, topiclen) == 0) { DEBUG_PRINT(F("Found sub #")); DEBUG_PRINTLN(i); break; } } } if (i == MAXSUBSCRIPTIONS) return NULL; // matching sub not found ??? uint8_t packet_id_len = 0; uint16_t packetid = 0; // Check if it is QoS 1, TODO: we dont support QoS 2 if ((buffer[0] & 0x6) == 0x2) { packet_id_len = 2; packetid = buffer[topiclen + 4]; packetid <<= 8; packetid |= buffer[topiclen + 5]; } // zero out the old data memset(subscriptions[i]->lastread, 0, SUBSCRIPTIONDATALEN); datalen = len - topiclen - packet_id_len - 4; if (datalen > SUBSCRIPTIONDATALEN) { datalen = SUBSCRIPTIONDATALEN - 1; // cut it off } // extract out just the data, into the subscription object itself memmove(subscriptions[i]->lastread, buffer + 4 + topiclen + packet_id_len, datalen); subscriptions[i]->datalen = datalen; DEBUG_PRINT(F("Data len: ")); DEBUG_PRINTLN(datalen); DEBUG_PRINT(F("Data: ")); DEBUG_PRINTLN((char *)subscriptions[i]->lastread); if ((MQTT_PROTOCOL_LEVEL > 3) && (buffer[0] & 0x6) == 0x2) { uint8_t ackpacket[4]; // Construct and send puback packet. uint8_t len = pubackPacket(ackpacket, packetid); if (!sendPacket(ackpacket, len)) DEBUG_PRINT(F("Failed")); } // return the valid matching subscription return subscriptions[i]; } void Adafruit_MQTT::flushIncoming(uint16_t timeout) { // flush input! DEBUG_PRINTLN(F("Flushing input buffer")); while (readPacket(buffer, MAXBUFFERSIZE, timeout)) ; } bool Adafruit_MQTT::ping(uint8_t num) { // flushIncoming(100); while (num--) { // Construct and send ping packet. uint8_t len = pingPacket(buffer); if (!sendPacket(buffer, len)) continue; // Process ping reply. len = processPacketsUntil(buffer, MQTT_CTRL_PINGRESP, PING_TIMEOUT_MS); if (buffer[0] == (MQTT_CTRL_PINGRESP << 4)) return true; } return false; } // Packet Generation Functions ///////////////////////////////////////////////// // The current MQTT spec is 3.1.1 and available here: // http://docs.oasis-open.org/mqtt/mqtt/v3.1.1/os/mqtt-v3.1.1-os.html#_Toc398718028 // However this connect packet and code follows the MQTT 3.1 spec here (some // small differences in the protocol): // http://public.dhe.ibm.com/software/dw/webservices/ws-mqtt/mqtt-v3r1.html#connect uint8_t Adafruit_MQTT::connectPacket(uint8_t *packet) { uint8_t *p = packet; uint16_t len; // fixed header, connection messsage no flags p[0] = (MQTT_CTRL_CONNECT << 4) | 0x0; p += 2; // fill in packet[1] last #if MQTT_PROTOCOL_LEVEL == 3 p = stringprint(p, "MQIsdp"); #elif MQTT_PROTOCOL_LEVEL == 4 p = stringprint(p, "MQTT"); #else #error "MQTT level not supported" #endif p[0] = MQTT_PROTOCOL_LEVEL; p++; // always clean the session p[0] = MQTT_CONN_CLEANSESSION; // set the will flags if needed if (will_topic && pgm_read_byte(will_topic) != 0) { p[0] |= MQTT_CONN_WILLFLAG; if (will_qos == 1) p[0] |= MQTT_CONN_WILLQOS_1; else if (will_qos == 2) p[0] |= MQTT_CONN_WILLQOS_2; if (will_retain == 1) p[0] |= MQTT_CONN_WILLRETAIN; } if (pgm_read_byte(username) != 0) p[0] |= MQTT_CONN_USERNAMEFLAG; if (pgm_read_byte(password) != 0) p[0] |= MQTT_CONN_PASSWORDFLAG; p++; p[0] = MQTT_CONN_KEEPALIVE >> 8; p++; p[0] = MQTT_CONN_KEEPALIVE & 0xFF; p++; if (MQTT_PROTOCOL_LEVEL == 3) { p = stringprint(p, clientid, 23); // Limit client ID to first 23 characters. } else { if (pgm_read_byte(clientid) != 0) { p = stringprint(p, clientid); } else { p[0] = 0x0; p++; p[0] = 0x0; p++; DEBUG_PRINTLN(F("SERVER GENERATING CLIENT ID")); } } if (will_topic && pgm_read_byte(will_topic) != 0) { p = stringprint(p, will_topic); p = stringprint(p, will_payload); } if (pgm_read_byte(username) != 0) { p = stringprint(p, username); } if (pgm_read_byte(password) != 0) { p = stringprint(p, password); } len = p - packet; packet[1] = len - 2; // don't include the 2 bytes of fixed header data DEBUG_PRINTLN(F("MQTT connect packet:")); DEBUG_PRINTBUFFER(buffer, len); return len; } // packetAdditionalLen is a helper function used to figure out // how bigger the payload needs to be in order to account for // its variable length field. As per // http://docs.oasis-open.org/mqtt/mqtt/v3.1.1/os/mqtt-v3.1.1-os.html#_Table_2.4_Size static uint16_t packetAdditionalLen(uint16_t currLen) { /* Increase length field based on current length */ if (currLen < 128) return 0; if (currLen < 16384) return 1; if (currLen < 2097151) return 2; return 3; } // as per // http://docs.oasis-open.org/mqtt/mqtt/v3.1.1/os/mqtt-v3.1.1-os.html#_Toc398718040 uint16_t Adafruit_MQTT::publishPacket(uint8_t *packet, const char *topic, uint8_t *data, uint16_t bLen, uint8_t qos, uint16_t maxPacketLen) { uint8_t *p = packet; uint16_t len = 0; // calc length of non-header data len += 2; // two bytes to set the topic size len += strlen(topic); // topic length if (qos > 0) { len += 2; // qos packet id } // Calculate additional bytes for length field (if any) uint16_t additionalLen = packetAdditionalLen(len + bLen); // Payload length. When maxPacketLen provided is 0, let's // assume buffer is big enough. Fingers crossed. if (maxPacketLen == 0 || (len + bLen + 2 + additionalLen <= maxPacketLen)) { len += bLen + additionalLen; } else { // If we make it here, we got a pickle: the payload is not going // to fit in the packet buffer. Instead of corrupting memory, let's // do something less damaging by reducing the bLen to what we are // able to accomodate. Alternatively, consider using a bigger // maxPacketLen. bLen = maxPacketLen - (len + 2 + packetAdditionalLen(maxPacketLen)); len = maxPacketLen - 4; } // Now you can start generating the packet! p[0] = MQTT_CTRL_PUBLISH << 4 | qos << 1; p++; // fill in packet[1] last do { uint8_t encodedByte = len % 128; len /= 128; // if there are more data to encode, set the top bit of this byte if (len > 0) { encodedByte |= 0x80; } p[0] = encodedByte; p++; } while (len > 0); // topic comes before packet identifier p = stringprint(p, topic); // add packet identifier. used for checking PUBACK in QOS > 0 if (qos > 0) { p[0] = (packet_id_counter >> 8) & 0xFF; p[1] = packet_id_counter & 0xFF; p += 2; // increment the packet id packet_id_counter++; } memmove(p, data, bLen); p += bLen; len = p - packet; DEBUG_PRINTLN(F("MQTT publish packet:")); DEBUG_PRINTBUFFER(buffer, len); return len; } uint8_t Adafruit_MQTT::subscribePacket(uint8_t *packet, const char *topic, uint8_t qos) { uint8_t *p = packet; uint16_t len; p[0] = MQTT_CTRL_SUBSCRIBE << 4 | MQTT_QOS_1 << 1; // fill in packet[1] last p += 2; // packet identifier. used for checking SUBACK p[0] = (packet_id_counter >> 8) & 0xFF; p[1] = packet_id_counter & 0xFF; p += 2; // increment the packet id packet_id_counter++; p = stringprint(p, topic); p[0] = qos; p++; len = p - packet; packet[1] = len - 2; // don't include the 2 bytes of fixed header data DEBUG_PRINTLN(F("MQTT subscription packet:")); DEBUG_PRINTBUFFER(buffer, len); return len; } uint8_t Adafruit_MQTT::unsubscribePacket(uint8_t *packet, const char *topic) { uint8_t *p = packet; uint16_t len; p[0] = MQTT_CTRL_UNSUBSCRIBE << 4 | 0x1; // fill in packet[1] last p += 2; // packet identifier. used for checking UNSUBACK p[0] = (packet_id_counter >> 8) & 0xFF; p[1] = packet_id_counter & 0xFF; p += 2; // increment the packet id packet_id_counter++; p = stringprint(p, topic); len = p - packet; packet[1] = len - 2; // don't include the 2 bytes of fixed header data DEBUG_PRINTLN(F("MQTT unsubscription packet:")); DEBUG_PRINTBUFFER(buffer, len); return len; } uint8_t Adafruit_MQTT::pingPacket(uint8_t *packet) { packet[0] = MQTT_CTRL_PINGREQ << 4; packet[1] = 0; DEBUG_PRINTLN(F("MQTT ping packet:")); DEBUG_PRINTBUFFER(buffer, 2); return 2; } uint8_t Adafruit_MQTT::pubackPacket(uint8_t *packet, uint16_t packetid) { packet[0] = MQTT_CTRL_PUBACK << 4; packet[1] = 2; packet[2] = packetid >> 8; packet[3] = packetid; DEBUG_PRINTLN(F("MQTT puback packet:")); DEBUG_PRINTBUFFER(buffer, 4); return 4; } uint8_t Adafruit_MQTT::disconnectPacket(uint8_t *packet) { packet[0] = MQTT_CTRL_DISCONNECT << 4; packet[1] = 0; DEBUG_PRINTLN(F("MQTT disconnect packet:")); DEBUG_PRINTBUFFER(buffer, 2); return 2; } // Adafruit_MQTT_Publish Definition //////////////////////////////////////////// Adafruit_MQTT_Publish::Adafruit_MQTT_Publish(Adafruit_MQTT *mqttserver, const char *feed, uint8_t q) { mqtt = mqttserver; topic = feed; qos = q; } bool Adafruit_MQTT_Publish::publish(int32_t i) { char payload[12]; ltoa(i, payload, 10); return mqtt->publish(topic, payload, qos); } bool Adafruit_MQTT_Publish::publish(uint32_t i) { char payload[11]; ultoa(i, payload, 10); return mqtt->publish(topic, payload, qos); } bool Adafruit_MQTT_Publish::publish(double f, uint8_t precision) { char payload[41]; // Need to technically hold float max, 39 digits and minus // sign. dtostrf(f, 0, precision, payload); return mqtt->publish(topic, payload, qos); } bool Adafruit_MQTT_Publish::publish(const char *payload) { return mqtt->publish(topic, payload, qos); } // publish buffer of arbitrary length bool Adafruit_MQTT_Publish::publish(uint8_t *payload, uint16_t bLen) { return mqtt->publish(topic, payload, bLen, qos); } // Adafruit_MQTT_Subscribe Definition ////////////////////////////////////////// Adafruit_MQTT_Subscribe::Adafruit_MQTT_Subscribe(Adafruit_MQTT *mqttserver, const char *feed, uint8_t q) { mqtt = mqttserver; topic = feed; qos = q; datalen = 0; callback_uint32t = 0; callback_buffer = 0; callback_double = 0; callback_io = 0; io_mqtt = 0; } void Adafruit_MQTT_Subscribe::setCallback(SubscribeCallbackUInt32Type cb) { callback_uint32t = cb; } void Adafruit_MQTT_Subscribe::setCallback(SubscribeCallbackDoubleType cb) { callback_double = cb; } void Adafruit_MQTT_Subscribe::setCallback(SubscribeCallbackBufferType cb) { callback_buffer = cb; } void Adafruit_MQTT_Subscribe::setCallback(AdafruitIO_MQTT *io, SubscribeCallbackIOType cb) { callback_io = cb; io_mqtt = io; } void Adafruit_MQTT_Subscribe::removeCallback(void) { callback_uint32t = 0; callback_buffer = 0; callback_double = 0; callback_io = 0; io_mqtt = 0; }