IEEE1888 GateWay sample that handles only 1 sensor. This is older repository, see IEEE1888_MULTI_SENSOR_GW. The newer version can handle multiple sensors.
Dependencies: EthernetInterface FiapV2 HTTPClientForSOAP NTPClient mbed-rtos mbed spxml
Fork of temp_FIAP by
This program sends only *1* data to FIAP storage with IEEE1888 format.
The data represents temperature degree Celsius taken from LM35 at P20. The LM35 is temperature sensor made by National Semiconductor.
Note 1: Newer repository is available. IEEE1888 (FIAP) multi sensor gateway can handle multiple sensors.
NOTE 2: You should define 2 constants at least before using this program. The constants are FIAP_STORAGE and POINT_ID, contained in main.h file. And You can also define other constants in main.h .
from here, in Japanese. これは、IEEE1888 形式でデータを *1種類だけ* 送信するプログラムです。 このプログラムは、P20 に接続した温度センサー LM35 の値を送信します。
注意: 下記のリポジトリーのプログラムは、複数のセンサーのデータをまとめて送信したい場合を考慮した、新しい Version です。 IEEE1888 (FIAP) multi sensor gateway
また、使用前に、main.h ファイルの定数を定義する必要があります。 (少なくとも FIAP_STORAGE および POINT_ID の2つ )
main.cpp@9:0d34968a5de1, 2013-02-13 (annotated)
- Committer:
- strysd
- Date:
- Wed Feb 13 14:12:44 2013 +0000
- Revision:
- 9:0d34968a5de1
- Parent:
- 8:e482433c9593
- Child:
- 10:51ef659414a9
comment flipper
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
strysd | 6:cccef292257b | 1 | #include "main.h" |
yueee_yt | 0:27cf9683af17 | 2 | #include "mbed.h" |
yueee_yt | 0:27cf9683af17 | 3 | #include "EthernetInterface.h" |
yueee_yt | 0:27cf9683af17 | 4 | #include "NTPClient.h" |
yueee_yt | 0:27cf9683af17 | 5 | #include "fiap.h" |
yueee_yt | 0:27cf9683af17 | 6 | |
yueee_yt | 0:27cf9683af17 | 7 | EthernetInterface eth; |
yueee_yt | 0:27cf9683af17 | 8 | NTPClient ntp; |
yueee_yt | 0:27cf9683af17 | 9 | time_t ctTime; |
yueee_yt | 0:27cf9683af17 | 10 | |
strysd | 5:720a29128f41 | 11 | AnalogIn ain(p15);//censor |
strysd | 4:f50c307c5eda | 12 | |
strysd | 6:cccef292257b | 13 | DigitalOut led1(LED1);//NTP error |
strysd | 8:e482433c9593 | 14 | DigitalOut led2(LED2);//sendFIAP |
strysd | 8:e482433c9593 | 15 | DigitalOut led3(LED3);//LAN speed (1 = error) |
strysd | 8:e482433c9593 | 16 | DigitalOut led4(LED4);//LAN link (1 = error) |
strysd | 4:f50c307c5eda | 17 | |
strysd | 8:e482433c9593 | 18 | DigitalIn lnk(P1_25);//LAN link |
strysd | 8:e482433c9593 | 19 | DigitalIn spd(P1_26);//LAN speed |
strysd | 9:0d34968a5de1 | 20 | DigitalOut speed(p29);//LAN speed for RJ45 (1 = OK) |
strysd | 9:0d34968a5de1 | 21 | DigitalOut link(p30); //LAN link for RJ45 (1 = OK) |
strysd | 8:e482433c9593 | 22 | |
yueee_yt | 1:ddf5d6f68d58 | 23 | char atemp[6]; |
strysd | 8:e482433c9593 | 24 | int exitTimer; |
strysd | 8:e482433c9593 | 25 | int this_year; |
strysd | 8:e482433c9593 | 26 | int this_month; |
strysd | 4:f50c307c5eda | 27 | float ftemp; |
yueee_yt | 0:27cf9683af17 | 28 | struct fiap_element element[]= { |
strysd | 8:e482433c9593 | 29 | {DATA_IDENTIFY,NULL,NULL,NULL,NULL,NULL,NULL,NULL,TIME_ZONE_CHAR}, |
yueee_yt | 0:27cf9683af17 | 30 | }; |
strysd | 4:f50c307c5eda | 31 | struct tm t; |
strysd | 8:e482433c9593 | 32 | FIAP fiap(FIAP_STORAGE); |
yueee_yt | 0:27cf9683af17 | 33 | |
strysd | 9:0d34968a5de1 | 34 | //if you set LEDs for LAN indicator in real time. |
strysd | 9:0d34968a5de1 | 35 | /* |
strysd | 9:0d34968a5de1 | 36 | Ticker flipper; |
strysd | 9:0d34968a5de1 | 37 | |
strysd | 9:0d34968a5de1 | 38 | void myflip() { |
strysd | 9:0d34968a5de1 | 39 | led3 = spd; |
strysd | 9:0d34968a5de1 | 40 | led4 = lnk; |
strysd | 9:0d34968a5de1 | 41 | speed = !spd; |
strysd | 9:0d34968a5de1 | 42 | link = !lnk; |
strysd | 9:0d34968a5de1 | 43 | } |
strysd | 9:0d34968a5de1 | 44 | */ |
strysd | 9:0d34968a5de1 | 45 | |
strysd | 8:e482433c9593 | 46 | void sendFIAP(void ) |
yueee_yt | 0:27cf9683af17 | 47 | { |
strysd | 8:e482433c9593 | 48 | ftemp=ain*330.0; //(3.3 * 100.0) |
strysd | 8:e482433c9593 | 49 | sprintf(atemp,"%4.1f",ftemp); |
yueee_yt | 0:27cf9683af17 | 50 | ctTime = time(NULL); |
strysd | 4:f50c307c5eda | 51 | t = *localtime(&ctTime); |
yueee_yt | 0:27cf9683af17 | 52 | element[0].value=atemp; |
strysd | 8:e482433c9593 | 53 | element[0].year=this_year; |
strysd | 8:e482433c9593 | 54 | element[0].month=this_month; |
yueee_yt | 0:27cf9683af17 | 55 | element[0].day=t.tm_mday; |
yueee_yt | 0:27cf9683af17 | 56 | element[0].hour=t.tm_hour; |
yueee_yt | 0:27cf9683af17 | 57 | element[0].minute=t.tm_min; |
yueee_yt | 0:27cf9683af17 | 58 | element[0].second=t.tm_sec; |
yueee_yt | 0:27cf9683af17 | 59 | fiap.post(element,1); |
yueee_yt | 0:27cf9683af17 | 60 | } |
yueee_yt | 0:27cf9683af17 | 61 | |
yueee_yt | 0:27cf9683af17 | 62 | int main() |
yueee_yt | 0:27cf9683af17 | 63 | { |
strysd | 9:0d34968a5de1 | 64 | led1 = led2 = led3 = led4 = speed = link = 0; |
strysd | 9:0d34968a5de1 | 65 | |
strysd | 9:0d34968a5de1 | 66 | //if you set LEDs for LAN indicator in real time. |
strysd | 9:0d34968a5de1 | 67 | //interval : 0.1 = 100ms |
strysd | 9:0d34968a5de1 | 68 | //flipper.attach(&myflip, 0.1); |
strysd | 4:f50c307c5eda | 69 | |
yueee_yt | 0:27cf9683af17 | 70 | //Ethernet Initialize |
yueee_yt | 0:27cf9683af17 | 71 | eth.init(); //Use DHCP |
yueee_yt | 0:27cf9683af17 | 72 | eth.connect(); |
strysd | 4:f50c307c5eda | 73 | printf("%s\r\n", eth.getIPAddress()); |
yueee_yt | 0:27cf9683af17 | 74 | printf("Trying to update time...\r\n"); |
strysd | 8:e482433c9593 | 75 | if (ntp.setTime(NTP_SERVER) != 0) { |
strysd | 8:e482433c9593 | 76 | printf("NTP Error\r\n"); |
strysd | 4:f50c307c5eda | 77 | led1 = 1; |
yueee_yt | 0:27cf9683af17 | 78 | return -1; |
yueee_yt | 0:27cf9683af17 | 79 | } |
strysd | 8:e482433c9593 | 80 | time_t ctTime; |
strysd | 8:e482433c9593 | 81 | ctTime = time(NULL); |
strysd | 8:e482433c9593 | 82 | ctTime+= TIME_ZONE_SECONDS; |
strysd | 8:e482433c9593 | 83 | set_time(ctTime); |
strysd | 8:e482433c9593 | 84 | ctTime = time(NULL); |
strysd | 8:e482433c9593 | 85 | printf("Time is set to (JST): %s\r\n", ctime(&ctTime)); |
strysd | 8:e482433c9593 | 86 | t = *localtime(&ctTime); |
strysd | 8:e482433c9593 | 87 | this_year=t.tm_year+1900; |
strysd | 8:e482433c9593 | 88 | this_month=t.tm_mon+1; |
strysd | 8:e482433c9593 | 89 | |
strysd | 5:720a29128f41 | 90 | fiap.debug_mode=DEBUG_MODE; |
strysd | 8:e482433c9593 | 91 | exitTimer = WAIT_LAN_ERROR; |
strysd | 8:e482433c9593 | 92 | while(exitTimer > 0) { |
strysd | 8:e482433c9593 | 93 | led3 = spd; |
strysd | 8:e482433c9593 | 94 | led4 = lnk; |
strysd | 8:e482433c9593 | 95 | if (led4 == 1 || led3 == 1) { |
strysd | 8:e482433c9593 | 96 | exitTimer--; |
strysd | 8:e482433c9593 | 97 | wait(2); |
strysd | 8:e482433c9593 | 98 | } else { |
strysd | 8:e482433c9593 | 99 | led2 = 1; |
strysd | 8:e482433c9593 | 100 | exitTimer = WAIT_LAN_ERROR; |
strysd | 8:e482433c9593 | 101 | sendFIAP(); |
strysd | 8:e482433c9593 | 102 | led2 = 0; |
strysd | 8:e482433c9593 | 103 | wait(5); |
strysd | 8:e482433c9593 | 104 | } |
yueee_yt | 0:27cf9683af17 | 105 | } |
strysd | 8:e482433c9593 | 106 | eth.disconnect(); |
strysd | 8:e482433c9593 | 107 | printf("Disconnected\r\n"); |
strysd | 8:e482433c9593 | 108 | return -1; |
strysd | 5:720a29128f41 | 109 | } |