Ryo Iizuka
Simplest MurataWifi ping server
Dependencies: NySNICInterface mbed-rtos mbed
Fork of
SNIC-xively-jumpstart-demo
by 
muRata
main.cpp
- Committer:
- kishino
- Date:
- 2014-06-25
- Revision:
- 20:f0c7f5ca7e8a
- Parent:
- 19:4e2900daad59
- Child:
- 21:25b85cbbdd82
File content as of revision 20:f0c7f5ca7e8a:
#include "mbed.h"
#include "SNIC_WifiInterface.h"
#define XI_FEED_ID 1056160623 // set Xively Feed ID (numerical, no quoutes)
#define XI_API_KEY "Wg7CfZDrj7VjIIpiYzdDrMow6wdENAOGjkIfQ0fUjJh6DAw2" // set Xively API key (double-quoted string)
#include "app_board_io.h"
#include "xively.h"
#include "xi_err.h"
#include "MMA7660.h"
#include "LM75B.h"
#include "C12832_lcd.h"
#include "PowerControl/EthernetPowerControl.h"
MMA7660 axl(p28, p27);
LM75B tmp(p28, p27);
C12832_LCD lcd;
#include "logo.h"
#define DEMO_AP_SSID "E2N1-Lab-Buffalo-D302"
#define DEMO_AP_SECURITY_TYPE e_SEC_WPA2_AES
#define DEMO_AP_SECUTIRY_KEY "12345678"
#define DEMO_AP_SECUTIRY_KEY_LEN 8
/** Wi-Fi SNIC UART Interface*/
C_SNIC_WifiInterface mSNICwifi( p9, p10, NC, NC, p30 );
Serial pc(USBTX, USBRX);
int main() {
PHY_PowerDown();
pc.baud( 115200 );
printf("main\r\n");
lcd_print_xively_logo();
// Initialize Wi-Fi interface
int s = mSNICwifi.init();
lcd_printf("init();\r\n");
if( s != 0 )
{
lcd_printf( "Could not initialise. Will halt!\n" );
return -1;
}
wait(0.5);
s = mSNICwifi.disconnect();
lcd_printf("disconnect();\r\n");
if( s != 0 )
{
printf( "disconnect failed\r\n" );
return -1;
}
wait(0.3);
// Connect AP
mSNICwifi.connect( DEMO_AP_SSID
, strlen(DEMO_AP_SSID)
, DEMO_AP_SECURITY_TYPE
, DEMO_AP_SECUTIRY_KEY
, DEMO_AP_SECUTIRY_KEY_LEN );
lcd_printf("connect();\r\n");
wait(0.5);
lcd_printf("IP Config();\r\n");
mSNICwifi.setIPConfig( true );
wait(0.5);
xi_feed_t feed;
memset( &feed, NULL, sizeof( xi_feed_t ) );
feed.feed_id = XI_FEED_ID;
feed.datastream_count = 3;
feed.datastreams[0].datapoint_count = 1;
xi_datastream_t* orientation_datastream = &feed.datastreams[0];
strcpy( orientation_datastream->datastream_id, "orientation" );
xi_datapoint_t* current_orientation = &orientation_datastream->datapoints[0];
feed.datastreams[1].datapoint_count = 1;
xi_datastream_t* side_rotation_datastream = &feed.datastreams[1];
strcpy( side_rotation_datastream->datastream_id, "side_rotation" );
xi_datapoint_t* current_side_rotation = &side_rotation_datastream->datapoints[0];
feed.datastreams[2].datapoint_count = 1;
xi_datastream_t* temperature_datastream = &feed.datastreams[2];
strcpy( temperature_datastream->datastream_id, "temperature" );
xi_datapoint_t* current_temperature = &temperature_datastream->datapoints[0];
// create the cosm library context
xi_context_t* xi_context
= xi_create_context( XI_HTTP, XI_API_KEY, feed.feed_id );
// check if everything works
if( xi_context == NULL )
{
return -1;
}
while(1) {
switch( axl.getSide() ) {
case MMA7660::Front:
xi_set_value_str( current_side_rotation, "front" );
break;
case MMA7660::Back:
xi_set_value_str( current_side_rotation, "back" );
break;
default:
xi_set_value_str( current_side_rotation, "unknown" );
break;
}
switch( axl.getOrientation() ) {
case MMA7660::Down:
xi_set_value_str( current_orientation, "down" );
break;
case MMA7660::Up:
xi_set_value_str( current_orientation, "up" );
break;
case MMA7660::Right:
xi_set_value_str( current_orientation, "right" );
break;
case MMA7660::Left:
xi_set_value_str( current_orientation, "left" );
break;
default:
xi_set_value_str( current_orientation, "unknown" );
break;
}
xi_set_value_f32( current_temperature, tmp.read() );
lcd_printf( "update...\n" );
xi_feed_update( xi_context, &feed );
lcd_printf( "done...\n" );
wait( 1.0 );
}
}