GDP group 24 node core
Dependencies: EthernetInterface SDFileSystem mbed-rtos mbed snail MbedJSONValue
main.cpp
- Committer:
- Trumple
- Date:
- 2014-12-15
- Revision:
- 5:ffef0c7a70a1
- Parent:
- 4:0bab12a0cc9a
- Child:
- 7:5ae1d99d2b69
- Child:
- 8:fd531fe7637b
File content as of revision 5:ffef0c7a70a1:
#include "mbed.h" #include "snail.h" #include "sensorinterface.h" #include "sdcard.h" #include "http.h" #include "MbedJSONValue.h" #define DEBUG time_t lastPollTime = 0; time_t pollInterval = 30; bool isBasenode = false; http h = http(); char localAddress[8]; char baseNodeAddress[8]; bool networkParametersUpdated = false; bool networkParametersTimedOut = false; Serial pc(USBTX, USBRX); snail xbee = snail(); Ticker networkParametersTimeout; void handleJoinNetworkReply(snail::message& message) { pc.printf("[MAIN] Got join network reply...\r\n"); snail::joinnetworkreply& reply = static_cast<snail::joinnetworkreply&>(message); set_time(reply.timestamp); memcpy(baseNodeAddress, reply.baseNodeAddress, sizeof(baseNodeAddress)); networkParametersUpdated = true; } void handleJoinNetworkRequest(snail::message& message) { pc.printf("[MAIN] Got join network request...\r\n"); if (isBasenode) { snail::joinnetworkrequest& request = static_cast<snail::joinnetworkrequest&>(message); //TODO: Send sensors data to server snail::joinnetworkreply reply(request.source, time(NULL), localAddress); xbee.send(reply, sizeof(reply)); } } void handleSensorData(snail::message& message) { pc.printf("[MAIN] Got sensor data...\r\n"); snail::sensordata& d = static_cast<snail::sensordata&>(message); int value = 0; value += d.payload[0]; value = value << 8; value += d.payload[1]; MbedJSONValue j; j["timestamp"] = (int)time(NULL); j["value"] = value; pc.printf(h.post("178.62.84.55", 8888, "/field/testfield/testnode/testsensor/", j.serialize()).c_str()); } void handleNetworkParametersTimeout() { networkParametersTimedOut = true; } void getLocalAddress() { pc.printf("[MAIN] Requesting lower address bits...\r\n"); xbee.ATCommand("SL"); while (!xbee.isATCommandResponseWaiting()) xbee.processIncomingData(); snail::atcommandresponse SLr = xbee.getATCommandResponse(); pc.printf("[MAIN] Requesting upper address bits...\r\n"); xbee.ATCommand("SH"); while (!xbee.isATCommandResponseWaiting()) xbee.processIncomingData(); snail::atcommandresponse SHr = xbee.getATCommandResponse(); string address(SHr.response); address += SLr.response; pc.printf("[MAIN] Got local address: "); for (int i = 0; i < address.size(); i++) pc.printf("%.2X", address[i]); pc.printf("\r\n"); memcpy(localAddress, address.c_str(), sizeof(localAddress)); } void getNetworkParameters() { #ifdef DEBUG pc.printf("[MAIN] Requesting to join network...\r\n"); #endif xbee.registerMessageCallback(MESSAGE_JOIN_NETWORK_REPLY, handleJoinNetworkReply); networkParametersTimeout.attach(&handleNetworkParametersTimeout, 30.0); snail::joinnetworkrequest::sensor sensors[32]; snail::joinnetworkrequest request(sensors, 0); xbee.send(request, sizeof(request)); while(!networkParametersUpdated) { if (networkParametersTimedOut) { #ifdef DEBUG pc.printf("[MAIN] Timed out, retrying...\r\n"); #endif xbee.send(request, sizeof(request)); networkParametersTimedOut = false; } xbee.processIncomingData(); } #ifdef DEBUG pc.printf("[MAIN] Got network parameters. Time: %i, base node address: ", time(NULL)); for (int i = 0; i < sizeof(baseNodeAddress); i++) pc.printf("%.2X", baseNodeAddress[i]); pc.printf("\r\n"); #endif networkParametersTimeout.detach(); } int main() { #ifdef DEBUG pc.printf("[MAIN] Starting up...\r\n"); pc.printf(" . .\r\n"); pc.printf(" / `. .' \\\r\n"); pc.printf(" .---. < > < > .---.\r\n"); pc.printf(" | \\ \\ - ~ ~ - / / |\r\n"); pc.printf(" ~-..-~ ~-..-~\r\n"); pc.printf(" \\~~~\\.' `./~~~/\r\n"); pc.printf(" .-~~^-. \\__/ \\__/\r\n"); pc.printf(" .' O \\ / / \\ \\\r\n"); pc.printf("(_____, `._.' | } \\/~~~/\r\n"); pc.printf(" `----. / } | / \\__/\r\n"); pc.printf(" `-. | / | / `. ,~~|\r\n"); pc.printf(" ~-.__| /_ - ~ ^| /- _ `..-' f: f:\r\n"); pc.printf(" | / | / ~-. `-. _||_||_\r\n"); pc.printf(" |_____| |_____| ~ - . _ _ _ _ _>\r\n"); pc.printf("\r\n"); pc.printf("\r\n"); pc.printf(" Sensorsaurus | Team 24 GDP | Southampton | 2014\r\n"); pc.printf("\r\n"); pc.printf("\r\n"); #endif //sdcard sd = sdcard(); //TODO: read basenode pin #ifdef DEBUG pc.printf("[MAIN] Basenode switch: %i\r\n", isBasenode); #endif //TODO: load configuration from SD getLocalAddress(); if (isBasenode) { getLocalAddress(); h.connect(); string timestampStr = h.get("time.bitnode.co.uk", 80, "/"); time_t timestamp = atoi(timestampStr.c_str()); set_time(timestamp); pc.printf("[MAIN] Got time: %i\r\n", timestamp); xbee.registerMessageCallback(MESSAGE_JOIN_NETWORK_REQUEST, handleJoinNetworkRequest); xbee.registerMessageCallback(MESSAGE_SENSOR_DATA, handleSensorData); while(1) { #ifdef DEBUG pc.printf("[MAIN] Basenode is idle\r\n"); #endif wait(1); xbee.processIncomingData(); } } else { sensorinterface sensors = sensorinterface(); getNetworkParameters(); while(1) { xbee.processIncomingData(); //TODO: if xbee interrupt has woken us up //transmit 10 latest readings //check if it's time to poll if (time(NULL) - lastPollTime > pollInterval) { #ifdef DEBUG pc.printf("[MAIN] Requesting data...\r\n"); #endif sensors.requestData(); lastPollTime = time(NULL); } //if there is data waiting for us... if (sensors.isDataWaiting()) { #ifdef DEBUG pc.printf("[MAIN] Data waiting, reading data...\r\n"); #endif d_reply data = sensors.readData(); #ifdef DEBUG pc.printf("[MAIN] Got data: "); for (int i = 0; i < data.readings.size(); i++) pc.printf("0x%.2X|", data.readings[i]); pc.printf("\r\n"); #endif string readings_str(data.readings.begin(), data.readings.end()); char readings[sizeof(snail::sensordata().payload)]; memcpy(readings, readings_str.c_str(), sizeof(readings)); snail::sensordata message(baseNodeAddress, data.type, data.type, time(NULL), readings, data.readings.size()); xbee.send(message, sizeof(message)); //log //sd.write(static_cast<long int>(time(NULL)), data); } } } }