Example showing the ublox Cellular GPS/GNSS module with the online PubNub service on an LPC4088 Experiment Base Board
Dependencies: C027_Support C12832 EALib LM75B MMA7660 PubNub mbed-rtos mbed picojson
PubNubDemo.cpp@8:ad3a3cffc336, 2014-06-06 (annotated)
- Committer:
- mazgch
- Date:
- Fri Jun 06 15:20:06 2014 +0000
- Revision:
- 8:ad3a3cffc336
- Parent:
- 5:6cf75d71d7b9
- Child:
- 10:cbefe5a22319
- Child:
- 12:fd1dbd9b27fe
use latest lib
Who changed what in which revision?
User | Revision | Line number | New contents of line |
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pasky | 0:e2c6c039dfbe | 1 | #include <cstring> |
pasky | 0:e2c6c039dfbe | 2 | |
pasky | 0:e2c6c039dfbe | 3 | #include "mbed.h" |
mazgch | 2:5f22df5ec656 | 4 | #include "C12832.h" |
pasky | 0:e2c6c039dfbe | 5 | #include "MMA7660.h" |
pasky | 0:e2c6c039dfbe | 6 | #include "LM75B.h" |
pasky | 0:e2c6c039dfbe | 7 | |
pasky | 0:e2c6c039dfbe | 8 | #include "picojson.h" |
pasky | 0:e2c6c039dfbe | 9 | #include "PubNub.h" |
pasky | 0:e2c6c039dfbe | 10 | |
mazgch | 5:6cf75d71d7b9 | 11 | //------------------------------------------------------------------------------------ |
mazgch | 5:6cf75d71d7b9 | 12 | // You need to configure these cellular modem / SIM parameters. |
mazgch | 5:6cf75d71d7b9 | 13 | // These parameters are ignored for LISA-C200 variants and can be left NULL. |
mazgch | 5:6cf75d71d7b9 | 14 | //------------------------------------------------------------------------------------ |
mazgch | 2:5f22df5ec656 | 15 | #include "MDM.h" |
mazgch | 5:6cf75d71d7b9 | 16 | //! Set your secret SIM pin here (e.g. "1234"). Check your SIM manual. |
mazgch | 2:5f22df5ec656 | 17 | #define SIMPIN NULL |
mazgch | 5:6cf75d71d7b9 | 18 | /*! The APN of your network operator SIM, sometimes it is "internet" check your |
mazgch | 5:6cf75d71d7b9 | 19 | contract with the network operator. You can also try to look-up your settings in |
mazgch | 5:6cf75d71d7b9 | 20 | google: https://www.google.de/search?q=APN+list */ |
mazgch | 8:ad3a3cffc336 | 21 | #define APN NULL |
mazgch | 5:6cf75d71d7b9 | 22 | //! Set the user name for your APN, or NULL if not needed |
mazgch | 2:5f22df5ec656 | 23 | #define USERNAME NULL |
mazgch | 5:6cf75d71d7b9 | 24 | //! Set the password for your APN, or NULL if not needed |
mazgch | 2:5f22df5ec656 | 25 | #define PASSWORD NULL |
mazgch | 5:6cf75d71d7b9 | 26 | //------------------------------------------------------------------------------------ |
pasky | 0:e2c6c039dfbe | 27 | |
pasky | 0:e2c6c039dfbe | 28 | /* Demo of PubNub + the mbed application board. */ |
pasky | 0:e2c6c039dfbe | 29 | |
pasky | 0:e2c6c039dfbe | 30 | /* How to get things set up: */ |
pasky | 0:e2c6c039dfbe | 31 | /* 1. Tune in at the PubNub Developer Console, with the following |
pasky | 0:e2c6c039dfbe | 32 | * keys (press Subscribe afterwards): */ |
pasky | 0:e2c6c039dfbe | 33 | const char pubkey[] = "demo"; |
pasky | 0:e2c6c039dfbe | 34 | const char subkey[] = "demo"; |
pasky | 0:e2c6c039dfbe | 35 | const char channel[] = "hello_world2"; |
pasky | 0:e2c6c039dfbe | 36 | /* 2. Attach your mbed board to your computer. A folder should pop up like |
pasky | 0:e2c6c039dfbe | 37 | * if you plug in a USB memory stick. */ |
pasky | 0:e2c6c039dfbe | 38 | /* 3. Open this example in the mbed web IDE and hit the Compile button. */ |
pasky | 0:e2c6c039dfbe | 39 | /* 4. A download popup with a .bin file will appear; save it in the USB |
pasky | 0:e2c6c039dfbe | 40 | * mbed folder. */ |
pasky | 0:e2c6c039dfbe | 41 | /* 5. Press reset button on the mbed to start things up. */ |
pasky | 0:e2c6c039dfbe | 42 | |
pasky | 0:e2c6c039dfbe | 43 | /* You will see the board publish a "status" message that shows its |
pasky | 0:e2c6c039dfbe | 44 | * current temperature and physical tilt. The board's LCD should |
pasky | 0:e2c6c039dfbe | 45 | * print some progress messages regarding that. */ |
pasky | 0:e2c6c039dfbe | 46 | /* You can make the board do things too, by sending messages like: |
pasky | 0:e2c6c039dfbe | 47 | * { "send_status": true } |
pasky | 0:e2c6c039dfbe | 48 | * { "lcd": "Hi there!" } |
pasky | 0:e2c6c039dfbe | 49 | * { "beep": true } |
pasky | 0:e2c6c039dfbe | 50 | * { "rgbled": {"r": 0.5, "g": 1, "b": 0} } |
pasky | 0:e2c6c039dfbe | 51 | * Try it out! Paste these in the Message window and press the send icon. |
pasky | 0:e2c6c039dfbe | 52 | */ |
pasky | 0:e2c6c039dfbe | 53 | |
pasky | 0:e2c6c039dfbe | 54 | Serial pc(USBTX, USBRX); // tx, rx |
mazgch | 2:5f22df5ec656 | 55 | MMA7660 MMA(SDA, SCL); |
mazgch | 2:5f22df5ec656 | 56 | LM75B tmp(SDA, SCL); |
mazgch | 2:5f22df5ec656 | 57 | C12832 lcd(D11, D13, D12, D7, D10); |
pasky | 0:e2c6c039dfbe | 58 | |
mazgch | 2:5f22df5ec656 | 59 | PwmOut led_r(D5); // RGB LED with 3 PWM outputs for dimmer control |
mazgch | 2:5f22df5ec656 | 60 | PwmOut led_g(D9); |
mazgch | 2:5f22df5ec656 | 61 | PwmOut led_b(D8); |
mazgch | 2:5f22df5ec656 | 62 | PwmOut speaker(D6); // Speaker with PWM driver |
pasky | 0:e2c6c039dfbe | 63 | |
pasky | 0:e2c6c039dfbe | 64 | PubNub pn(pubkey, subkey); |
pasky | 0:e2c6c039dfbe | 65 | |
pasky | 0:e2c6c039dfbe | 66 | void status_msg(PubNub &pn) |
pasky | 0:e2c6c039dfbe | 67 | { |
pasky | 0:e2c6c039dfbe | 68 | /* Read sensors. */ |
pasky | 0:e2c6c039dfbe | 69 | float m[3]; |
pasky | 0:e2c6c039dfbe | 70 | MMA.readData(m); |
pasky | 0:e2c6c039dfbe | 71 | float temp = tmp.read(); |
pasky | 0:e2c6c039dfbe | 72 | |
pasky | 0:e2c6c039dfbe | 73 | /* Print on LCD. */ |
pasky | 0:e2c6c039dfbe | 74 | lcd.printf("pub: mx=%.2f, my=%.2f, mz=%.2f, t=%.2f \n", m[0], m[1], m[2], temp); |
pasky | 0:e2c6c039dfbe | 75 | |
pasky | 0:e2c6c039dfbe | 76 | /* Prepare JSON message. */ |
pasky | 0:e2c6c039dfbe | 77 | char jsonmsg[128]; |
pasky | 0:e2c6c039dfbe | 78 | snprintf(jsonmsg, sizeof(jsonmsg), |
pasky | 0:e2c6c039dfbe | 79 | "{\"status\":{\"mx\":%.2f,\"my\":%.2f,\"mz\":%.2f,\"temp\":%.2f}}", |
pasky | 0:e2c6c039dfbe | 80 | m[0], m[1], m[2], temp); |
pasky | 0:e2c6c039dfbe | 81 | |
pasky | 0:e2c6c039dfbe | 82 | #if 0 |
pasky | 0:e2c6c039dfbe | 83 | /* In some rare situations, you might want to instead use picojson |
pasky | 0:e2c6c039dfbe | 84 | * to construct JSON messages, even though it takes a lot of memory: */ |
pasky | 0:e2c6c039dfbe | 85 | |
pasky | 0:e2c6c039dfbe | 86 | printf("%d: ", __LINE__); __heapstats((__heapprt)fprintf, stdout); |
pasky | 0:e2c6c039dfbe | 87 | picojson::value msg(picojson::object_type, false); |
pasky | 0:e2c6c039dfbe | 88 | picojson::object &msgo = msg.get<picojson::object>(); |
pasky | 0:e2c6c039dfbe | 89 | msgo["status"] = picojson::value(picojson::object_type, false); |
pasky | 0:e2c6c039dfbe | 90 | picojson::object &status = msgo["status"].get<picojson::object>(); |
pasky | 0:e2c6c039dfbe | 91 | status["mx"] = picojson::value(double(mx)); |
pasky | 0:e2c6c039dfbe | 92 | status["my"] = picojson::value(double(my)); |
pasky | 0:e2c6c039dfbe | 93 | status["temp"] = picojson::value(temp); |
pasky | 0:e2c6c039dfbe | 94 | strcpy(jsonmsg, msg.serialize().c_str()); |
pasky | 0:e2c6c039dfbe | 95 | printf("%d: ", __LINE__); __heapstats((__heapprt)fprintf, stdout); |
pasky | 0:e2c6c039dfbe | 96 | #endif |
pasky | 0:e2c6c039dfbe | 97 | |
pasky | 0:e2c6c039dfbe | 98 | /* Publish on PubNub. */ |
pasky | 0:e2c6c039dfbe | 99 | PubNubRes ret = pn.publish(channel, jsonmsg); |
pasky | 0:e2c6c039dfbe | 100 | if (ret != PNR_OK) |
pasky | 0:e2c6c039dfbe | 101 | lcd.printf("puberr: %d \n", ret); |
pasky | 0:e2c6c039dfbe | 102 | } |
pasky | 0:e2c6c039dfbe | 103 | |
pasky | 0:e2c6c039dfbe | 104 | void process_msg(PubNub &pn, const char *jsonmsg) |
pasky | 0:e2c6c039dfbe | 105 | { |
pasky | 0:e2c6c039dfbe | 106 | /* Use the picojson parser since we want to deal with complex messages. |
pasky | 0:e2c6c039dfbe | 107 | * If you are short on memory, you can find an example for parsing simple |
pasky | 0:e2c6c039dfbe | 108 | * JSON messages in the PubNub::subscribe() API docs. */ |
pasky | 0:e2c6c039dfbe | 109 | picojson::value msg; |
pasky | 0:e2c6c039dfbe | 110 | std::string err = picojson::parse(msg, jsonmsg, jsonmsg + strlen(jsonmsg)); |
pasky | 0:e2c6c039dfbe | 111 | if (!err.empty()) { |
pasky | 0:e2c6c039dfbe | 112 | lcd.printf("JSON parse: %s \n", err.c_str()); |
pasky | 0:e2c6c039dfbe | 113 | return; |
pasky | 0:e2c6c039dfbe | 114 | } |
pasky | 0:e2c6c039dfbe | 115 | |
pasky | 0:e2c6c039dfbe | 116 | if (msg.get("send_status").get<bool>()) { |
pasky | 0:e2c6c039dfbe | 117 | status_msg(pn); |
pasky | 0:e2c6c039dfbe | 118 | } |
pasky | 0:e2c6c039dfbe | 119 | if (msg.get("lcd").is<std::string>()) { |
pasky | 0:e2c6c039dfbe | 120 | lcd.printf("in: %s \n", msg.get("lcd").get<std::string>().c_str()); |
pasky | 0:e2c6c039dfbe | 121 | } |
pasky | 0:e2c6c039dfbe | 122 | if (msg.get("beep").is<bool>()) { |
pasky | 0:e2c6c039dfbe | 123 | speaker = msg.get("beep").get<bool>() ? 0.5 : 0; |
pasky | 0:e2c6c039dfbe | 124 | } |
pasky | 0:e2c6c039dfbe | 125 | if (msg.get("led").is<picojson::object>()) { |
pasky | 0:e2c6c039dfbe | 126 | picojson::value led = msg.get("led"); |
pasky | 0:e2c6c039dfbe | 127 | if (led.get("r").is<double>()) led_r = 1.0 - led.get("r").get<double>(); |
pasky | 0:e2c6c039dfbe | 128 | if (led.get("g").is<double>()) led_g = 1.0 - led.get("g").get<double>(); |
pasky | 0:e2c6c039dfbe | 129 | if (led.get("b").is<double>()) led_b = 1.0 - led.get("b").get<double>(); |
pasky | 0:e2c6c039dfbe | 130 | } |
pasky | 0:e2c6c039dfbe | 131 | } |
pasky | 0:e2c6c039dfbe | 132 | |
pasky | 0:e2c6c039dfbe | 133 | int main() |
pasky | 0:e2c6c039dfbe | 134 | { |
pasky | 0:e2c6c039dfbe | 135 | /* For debugging, you may find it useful to print memory usage |
pasky | 0:e2c6c039dfbe | 136 | * stats. AvailableMemory may be flaky, but the following is nice. |
pasky | 0:e2c6c039dfbe | 137 | * It will get printed to the USB serial port interface. */ |
pasky | 0:e2c6c039dfbe | 138 | printf("%d: ", __LINE__); __heapstats((__heapprt)fprintf, stdout); |
pasky | 0:e2c6c039dfbe | 139 | |
pasky | 0:e2c6c039dfbe | 140 | /* Generate a 800Hz tone using PWM hardware output */ |
pasky | 0:e2c6c039dfbe | 141 | speaker.period(1.0/800.0); // 800hz period |
pasky | 0:e2c6c039dfbe | 142 | led_r = led_g = led_b = 1.0; // lights out |
pasky | 0:e2c6c039dfbe | 143 | |
pasky | 0:e2c6c039dfbe | 144 | lcd.cls(); |
pasky | 0:e2c6c039dfbe | 145 | lcd.locate(0,0); |
pasky | 0:e2c6c039dfbe | 146 | |
pasky | 0:e2c6c039dfbe | 147 | if (!MMA.testConnection()) |
pasky | 0:e2c6c039dfbe | 148 | lcd.printf("MMA error \n"); |
pasky | 0:e2c6c039dfbe | 149 | |
mazgch | 2:5f22df5ec656 | 150 | MDMSerial mdm; |
mazgch | 5:6cf75d71d7b9 | 151 | //mdm.setDebug(4); // enable this for debugging issues |
mazgch | 5:6cf75d71d7b9 | 152 | if (!mdm.connect(SIMPIN, APN,USERNAME,PASSWORD)) |
mazgch | 2:5f22df5ec656 | 153 | return -1; |
pasky | 0:e2c6c039dfbe | 154 | |
pasky | 0:e2c6c039dfbe | 155 | status_msg(pn); |
pasky | 0:e2c6c039dfbe | 156 | // lcd.printf("pub... "); |
pasky | 0:e2c6c039dfbe | 157 | |
pasky | 0:e2c6c039dfbe | 158 | while (1) { |
pasky | 0:e2c6c039dfbe | 159 | // lcd.printf("sub... "); |
pasky | 0:e2c6c039dfbe | 160 | printf("%d: ", __LINE__); __heapstats((__heapprt)fprintf, stdout); |
pasky | 0:e2c6c039dfbe | 161 | |
pasky | 0:e2c6c039dfbe | 162 | char *reply = NULL; |
pasky | 0:e2c6c039dfbe | 163 | PubNubRes ret = pn.subscribe(channel, &reply); |
pasky | 0:e2c6c039dfbe | 164 | if (ret != PNR_OK) { |
pasky | 0:e2c6c039dfbe | 165 | lcd.printf("suberr: %d \n", ret); |
pasky | 0:e2c6c039dfbe | 166 | wait(1.0); |
pasky | 0:e2c6c039dfbe | 167 | continue; |
pasky | 0:e2c6c039dfbe | 168 | } |
pasky | 0:e2c6c039dfbe | 169 | |
pasky | 0:e2c6c039dfbe | 170 | if (reply) { |
pasky | 0:e2c6c039dfbe | 171 | // lcd.printf("recv(%s)\n", reply); |
pasky | 0:e2c6c039dfbe | 172 | process_msg(pn, reply); |
pasky | 0:e2c6c039dfbe | 173 | } |
pasky | 0:e2c6c039dfbe | 174 | |
pasky | 0:e2c6c039dfbe | 175 | wait(0.5); // avoid busy loop in bad situations |
pasky | 0:e2c6c039dfbe | 176 | } |
mazgch | 2:5f22df5ec656 | 177 | |
mazgch | 2:5f22df5ec656 | 178 | mdm.disconnect(); |
mazgch | 2:5f22df5ec656 | 179 | mdm.powerOff(); |
pasky | 0:e2c6c039dfbe | 180 | } |