Test of MQTT client running on an Outrageous Circuit mBuino with an ENC28J60 ethernet adapter. Derived from Zoltan Hudak's MQTT_Hello_ENC28J60 program as well as his MQTTClient and UIPEthernet libraries.
Dependencies: MQTTClient UIPEthernet mbed
This program is a quick test of the Outrageous Circuits mBuino using an ENC28J60 Ethernet chip. This is modified from Zoltan Hudak's MQTT_Hello_ENC28J60 program. https://developer.mbed.org/users/hudakz/code/MQTT_Hello_ENC28J60/
UIPEthernet and MQTTClient are from Zoltan Hudak as well.
This program connects to an MQTT broker. Subscribes to two topics and publishes to one of those topics every 5 seconds. The payload for the published topic are the elapsed milliseconds from a free running timer. The round trip time is calculated for the published topic to be received.
It uses 27.8kB of 32kB of the LPC11U24's flash so there is not much left but it works. Debugging was done using the UART pins.
main.cpp@0:acb3694163ca, 2015-08-23 (annotated)
- Committer:
- skeller
- Date:
- Sun Aug 23 00:15:53 2015 +0000
- Revision:
- 0:acb3694163ca
- Child:
- 1:b5084016cae1
First test.
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
skeller | 0:acb3694163ca | 1 | /* |
skeller | 0:acb3694163ca | 2 | This program is a quick test of the Outrageous Circuits mBuino using an ENC28J60 Ethernet chip. |
skeller | 0:acb3694163ca | 3 | This is modified from Zoltan Hudak's MQTT_Hello_ENC28J60 program. |
skeller | 0:acb3694163ca | 4 | https://developer.mbed.org/users/hudakz/code/MQTT_Hello_ENC28J60/ |
skeller | 0:acb3694163ca | 5 | |
skeller | 0:acb3694163ca | 6 | UIPEthernet and MQTTClient are from Zoltan Hudak as well. |
skeller | 0:acb3694163ca | 7 | |
skeller | 0:acb3694163ca | 8 | This program connects to an MQTT broker. Subscribes to two topics and publishes to one of those topics every 5 seconds. |
skeller | 0:acb3694163ca | 9 | The payload for the published topic are the elapsed milliseconds from a free running timer. The round trip time is calculated for the published topic to be received. |
skeller | 0:acb3694163ca | 10 | |
skeller | 0:acb3694163ca | 11 | */ |
skeller | 0:acb3694163ca | 12 | |
skeller | 0:acb3694163ca | 13 | |
skeller | 0:acb3694163ca | 14 | |
skeller | 0:acb3694163ca | 15 | #include "mbed.h" |
skeller | 0:acb3694163ca | 16 | #include <UIPEthernet.h> |
skeller | 0:acb3694163ca | 17 | #include <MQTTClient.h> |
skeller | 0:acb3694163ca | 18 | #include <UIPClient.h> |
skeller | 0:acb3694163ca | 19 | |
skeller | 0:acb3694163ca | 20 | DigitalOut myled(LED1); |
skeller | 0:acb3694163ca | 21 | DigitalOut led2(LED2); |
skeller | 0:acb3694163ca | 22 | Serial pc(P0_19,P0_18 ); |
skeller | 0:acb3694163ca | 23 | |
skeller | 0:acb3694163ca | 24 | UIPEthernetClass UIPEthernet(P0_21, P0_22, P1_15, P0_11); // mosi, miso, sck, cs |
skeller | 0:acb3694163ca | 25 | |
skeller | 0:acb3694163ca | 26 | // MAC number must be unique within the connected network. Modify as appropriate. |
skeller | 0:acb3694163ca | 27 | const uint8_t MY_MAC[6] = {0x00,0x01,0x02,0x03,0x04,0x06}; |
skeller | 0:acb3694163ca | 28 | // IP address must be also unique and compatible with your network. Change as appropriate. |
skeller | 0:acb3694163ca | 29 | const IPAddress MY_IP(192,168,1,181); |
skeller | 0:acb3694163ca | 30 | const IPAddress MY_DNS(192,168,1,1); |
skeller | 0:acb3694163ca | 31 | const IPAddress MY_GATEWAY(192,168,1,1); |
skeller | 0:acb3694163ca | 32 | const IPAddress MY_MASK(255,255,255,0); |
skeller | 0:acb3694163ca | 33 | |
skeller | 0:acb3694163ca | 34 | char message_buff[100]; |
skeller | 0:acb3694163ca | 35 | IPAddress serverIP(192,168,1,1); // MQTT broker (e.g. 'Mosquitto' running on a Raspberry Pi or Linux machine) |
skeller | 0:acb3694163ca | 36 | EthernetClient ethernetClient; |
skeller | 0:acb3694163ca | 37 | void onMqttMessage(char* topic, uint8_t* payload, unsigned int length); |
skeller | 0:acb3694163ca | 38 | MQTTClient mqttClient(serverIP, 1883, onMqttMessage, ethernetClient); |
skeller | 0:acb3694163ca | 39 | Timer timer; |
skeller | 0:acb3694163ca | 40 | |
skeller | 0:acb3694163ca | 41 | |
skeller | 0:acb3694163ca | 42 | int main(void) |
skeller | 0:acb3694163ca | 43 | { |
skeller | 0:acb3694163ca | 44 | const int MAX_COUNT = 5; |
skeller | 0:acb3694163ca | 45 | int i = 0; |
skeller | 0:acb3694163ca | 46 | bool connected = false; |
skeller | 0:acb3694163ca | 47 | char payload[100]; |
skeller | 0:acb3694163ca | 48 | int nextTimer = 0; |
skeller | 0:acb3694163ca | 49 | bool led2Status = false; |
skeller | 0:acb3694163ca | 50 | pc.baud(19200); |
skeller | 0:acb3694163ca | 51 | // initialize the ethernet device |
skeller | 0:acb3694163ca | 52 | |
skeller | 0:acb3694163ca | 53 | UIPEthernet.begin(MY_MAC, MY_IP, MY_DNS, MY_GATEWAY, MY_MASK); //uint8_t* mac, IPAddress ip, IPAddress dns, IPAddress gateway, IPAddress subnet |
skeller | 0:acb3694163ca | 54 | |
skeller | 0:acb3694163ca | 55 | // The MQTT broker is like a post office distributing messages published by clients to all subscribers (clients). |
skeller | 0:acb3694163ca | 56 | // So the 'example/hello' messages published by this client will be sent via the broker to all clients which subscribed to such messages. |
skeller | 0:acb3694163ca | 57 | // This way also this client will receive all subscribed messages (in this case 'outdoor/temperature' messages) |
skeller | 0:acb3694163ca | 58 | // published by other clients (however not directly but via the broker). |
skeller | 0:acb3694163ca | 59 | pc.printf("Connecting to MQTT broker ..\r\n"); |
skeller | 0:acb3694163ca | 60 | do { |
skeller | 0:acb3694163ca | 61 | wait(1.0); |
skeller | 0:acb3694163ca | 62 | connected = mqttClient.connect("myMQTTHelloClient"); |
skeller | 0:acb3694163ca | 63 | } while(!connected && (i < MAX_COUNT)); |
skeller | 0:acb3694163ca | 64 | |
skeller | 0:acb3694163ca | 65 | if(connected) { |
skeller | 0:acb3694163ca | 66 | pc.printf("MQTT broker connected.\r\n"); |
skeller | 0:acb3694163ca | 67 | mqttClient.subscribe("outdoor/temperature"); |
skeller | 0:acb3694163ca | 68 | pc.printf("Subscribed to: outdoor/temperature\r\n"); |
skeller | 0:acb3694163ca | 69 | mqttClient.subscribe("example/hello"); |
skeller | 0:acb3694163ca | 70 | pc.printf("Subscribed to: example/hello\r\n"); |
skeller | 0:acb3694163ca | 71 | } else { |
skeller | 0:acb3694163ca | 72 | pc.printf("Failed to connect to MQTT broker.\r\n"); |
skeller | 0:acb3694163ca | 73 | } |
skeller | 0:acb3694163ca | 74 | |
skeller | 0:acb3694163ca | 75 | //start global timer |
skeller | 0:acb3694163ca | 76 | timer.start(); |
skeller | 0:acb3694163ca | 77 | |
skeller | 0:acb3694163ca | 78 | while(1) { |
skeller | 0:acb3694163ca | 79 | |
skeller | 0:acb3694163ca | 80 | |
skeller | 0:acb3694163ca | 81 | if(timer.read_ms() > nextTimer) { |
skeller | 0:acb3694163ca | 82 | nextTimer = timer.read_ms() + 5000; |
skeller | 0:acb3694163ca | 83 | |
skeller | 0:acb3694163ca | 84 | if(led2Status == true) { |
skeller | 0:acb3694163ca | 85 | led2 = 0; |
skeller | 0:acb3694163ca | 86 | led2Status = false; |
skeller | 0:acb3694163ca | 87 | } else { |
skeller | 0:acb3694163ca | 88 | led2 = 1; |
skeller | 0:acb3694163ca | 89 | led2Status = true; |
skeller | 0:acb3694163ca | 90 | } |
skeller | 0:acb3694163ca | 91 | //lastTime = t; |
skeller | 0:acb3694163ca | 92 | if(connected) { |
skeller | 0:acb3694163ca | 93 | pc.printf("Publish. . .\r\n"); |
skeller | 0:acb3694163ca | 94 | sprintf(payload, "%d", timer.read_ms()); |
skeller | 0:acb3694163ca | 95 | mqttClient.publish("example/hello", payload); |
skeller | 0:acb3694163ca | 96 | pc.printf("Published: example/hello\r\n"); |
skeller | 0:acb3694163ca | 97 | } else { |
skeller | 0:acb3694163ca | 98 | pc.printf("Not connected\r\n"); |
skeller | 0:acb3694163ca | 99 | } |
skeller | 0:acb3694163ca | 100 | } |
skeller | 0:acb3694163ca | 101 | |
skeller | 0:acb3694163ca | 102 | mqttClient.loop(); // MQTT client loop processing |
skeller | 0:acb3694163ca | 103 | } |
skeller | 0:acb3694163ca | 104 | } |
skeller | 0:acb3694163ca | 105 | |
skeller | 0:acb3694163ca | 106 | /** |
skeller | 0:acb3694163ca | 107 | * @brief Called on new MQTT message arrival |
skeller | 0:acb3694163ca | 108 | * @note |
skeller | 0:acb3694163ca | 109 | * @param topic: The topic of the new message |
skeller | 0:acb3694163ca | 110 | * payload: The payload of the new message |
skeller | 0:acb3694163ca | 111 | * length: Payload's length |
skeller | 0:acb3694163ca | 112 | * @retval |
skeller | 0:acb3694163ca | 113 | */ |
skeller | 0:acb3694163ca | 114 | void onMqttMessage(char* topic, uint8_t* payload, unsigned int length) |
skeller | 0:acb3694163ca | 115 | { |
skeller | 0:acb3694163ca | 116 | int i = 0; |
skeller | 0:acb3694163ca | 117 | int elapsed = 0; |
skeller | 0:acb3694163ca | 118 | int value = 0; |
skeller | 0:acb3694163ca | 119 | myled = 1; |
skeller | 0:acb3694163ca | 120 | //pc.printf("Message arrived:\r\n"); |
skeller | 0:acb3694163ca | 121 | //pc.printf(" Topic: %s\r\n", topic); |
skeller | 0:acb3694163ca | 122 | //pc.printf(" Length: %d\r\n", length); |
skeller | 0:acb3694163ca | 123 | |
skeller | 0:acb3694163ca | 124 | // create character buffer with ending null terminator (string) |
skeller | 0:acb3694163ca | 125 | for(i = 0; i < length; i++) { |
skeller | 0:acb3694163ca | 126 | message_buff[i] = payload[i]; |
skeller | 0:acb3694163ca | 127 | } |
skeller | 0:acb3694163ca | 128 | |
skeller | 0:acb3694163ca | 129 | message_buff[i] = '\0'; |
skeller | 0:acb3694163ca | 130 | value = atoi(message_buff); |
skeller | 0:acb3694163ca | 131 | elapsed = timer.read_ms() - value; |
skeller | 0:acb3694163ca | 132 | pc.printf("%d - Payload: %s\r\n", elapsed, message_buff); |
skeller | 0:acb3694163ca | 133 | myled = 0; |
skeller | 0:acb3694163ca | 134 | } |
skeller | 0:acb3694163ca | 135 | /*int main() |
skeller | 0:acb3694163ca | 136 | { |
skeller | 0:acb3694163ca | 137 | uart.baud(19200); |
skeller | 0:acb3694163ca | 138 | uart.printf("Hello World"); |
skeller | 0:acb3694163ca | 139 | |
skeller | 0:acb3694163ca | 140 | while(1) { |
skeller | 0:acb3694163ca | 141 | myled = 1; |
skeller | 0:acb3694163ca | 142 | wait(0.2); |
skeller | 0:acb3694163ca | 143 | myled = 0; |
skeller | 0:acb3694163ca | 144 | wait(1); |
skeller | 0:acb3694163ca | 145 | uart.printf("Hello World\r\n"); |
skeller | 0:acb3694163ca | 146 | } |
skeller | 0:acb3694163ca | 147 | }*/ |