osd-contiki/examples/osd/pingtheplug/er-example-server.c

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/*
* Copyright (c) 2011, Matthias Kovatsch and other contributors.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the Institute nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* This file is part of the Contiki operating system.
*/
/**
* \file
* Erbium (Er) PIR REST Engine example (with CoAP-specific code)
* \author
* Matthias Kovatsch <kovatsch@inf.ethz.ch>
* Harald Pichler <harald@the-develop.net>
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "contiki.h"
#include "contiki-net.h"
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#include <avr/eeprom.h>
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#include "rest-engine.h"
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#define PLATFORM_HAS_LED 1
//#define PLATFORM_HAS_BUTTON 1
#define PLATFORM_HAS_OPTRIAC 1
#define PLATFORM_HAS_TEMPERATURE 1
#define PLATFORM_HAS_BATTERY 1
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/* Define which resources to include to meet memory constraints. */
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#define REST_RES_MODEL 1
#define REST_RES_NAME 1
#define REST_RES_SW 1
#define REST_RES_RESET 1
#define REST_RES_TIMER 1
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#define REST_RES_OPTRIAC 1
#define REST_RES_TEMPERATURE 1
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#define REST_RES_LED 1
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#define REST_RES_BATTERY 1
#include "pcintkey.h"
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#include "statusled.h"
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#if defined (PLATFORM_HAS_BUTTON)
#include "dev/button-sensor.h"
#endif
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#if defined (PLATFORM_HAS_LED)
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#include "dev/leds.h"
#endif
#if defined (PLATFORM_HAS_OPTRIAC)
#include "dev/optriac-sensor.h"
#endif
#if defined (PLATFORM_HAS_TEMPERATURE)
#include "dev/temperature-sensor.h"
#endif
#if defined (PLATFORM_HAS_BATTERY)
#include "dev/battery-sensor.h"
#endif
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#define DEBUG 1
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#if DEBUG
#define PRINTF(...) printf(__VA_ARGS__)
#define PRINT6ADDR(addr) PRINTF("[%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x]", ((uint8_t *)addr)[0], ((uint8_t *)addr)[1], ((uint8_t *)addr)[2], ((uint8_t *)addr)[3], ((uint8_t *)addr)[4], ((uint8_t *)addr)[5], ((uint8_t *)addr)[6], ((uint8_t *)addr)[7], ((uint8_t *)addr)[8], ((uint8_t *)addr)[9], ((uint8_t *)addr)[10], ((uint8_t *)addr)[11], ((uint8_t *)addr)[12], ((uint8_t *)addr)[13], ((uint8_t *)addr)[14], ((uint8_t *)addr)[15])
#define PRINTLLADDR(lladdr) PRINTF("[%02x:%02x:%02x:%02x:%02x:%02x]",(lladdr)->addr[0], (lladdr)->addr[1], (lladdr)->addr[2], (lladdr)->addr[3],(lladdr)->addr[4], (lladdr)->addr[5])
#else
#define PRINTF(...)
#define PRINT6ADDR(addr)
#define PRINTLLADDR(addr)
#endif
/******************************************************************************/
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uint8_t g_triac_a = 0;
uint8_t g_triac_b = 0;
/******************************************************************************/
#if REST_RES_MODEL
/*
* Resources are defined by the RESOURCE macro.
* Signature: resource name, the RESTful methods it handles, and its URI path (omitting the leading slash).
*/
/*
* A handler function named [resource name]_handler must be implemented for each RESOURCE.
* A buffer for the response payload is provided through the buffer pointer. Simple resources can ignore
* preferred_size and offset, but must respect the REST_MAX_CHUNK_SIZE limit for the buffer.
* If a smaller block size is requested for CoAP, the REST framework automatically splits the data.
*/
void
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model_get_handler(void* request, void* response, uint8_t *buffer, uint16_t preferred_size, int32_t *offset)
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{
char message[100];
int index = 0;
int length = 0; /* |<-------->| */
/* Some data that has the length up to REST_MAX_CHUNK_SIZE. For more, see the chunk resource. */
// jSON Format
index += sprintf(message + index,"{\n \"model\" : \"PingThePlug\"\n");
index += sprintf(message + index,"}\n");
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length = strlen(message);
memcpy(buffer, message,length );
REST.set_header_content_type(response, REST.type.APPLICATION_JSON);
REST.set_response_payload(response, buffer, length);
}
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RESOURCE(res_model, "title=\"model\";rt=\"simple.dev.md\"", model_get_handler, NULL, NULL, NULL);
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#endif
/******************************************************************************/
#if REST_RES_SW
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/*
* Resources are defined by the RESOURCE macro.
* Signature: resource name, the RESTful methods it handles, and its URI path (omitting the leading slash).
*/
/*
* A handler function named [resource name]_handler must be implemented for each RESOURCE.
* A buffer for the response payload is provided through the buffer pointer. Simple resources can ignore
* preferred_size and offset, but must respect the REST_MAX_CHUNK_SIZE limit for the buffer.
* If a smaller block size is requested for CoAP, the REST framework automatically splits the data.
*/
void
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sw_get_handler(void* request, void* response, uint8_t *buffer, uint16_t preferred_size, int32_t *offset)
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{
char message[100];
int index = 0;
int length = 0; /* |<-------->| */
/* Some data that has the length up to REST_MAX_CHUNK_SIZE. For more, see the chunk resource. */
// jSON Format
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index += sprintf(message + index,"{\n \"sw\" : \"V1.0\"\n");
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index += sprintf(message + index,"}\n");
length = strlen(message);
memcpy(buffer, message,length );
REST.set_header_content_type(response, REST.type.APPLICATION_JSON);
REST.set_response_payload(response, buffer, length);
}
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RESOURCE(res_sw, "title=\"Software Version\";rt=\"simple.dev.sv\"", sw_get_handler, NULL, NULL, NULL);
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#endif
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/******************************************************************************/
#if REST_RES_NAME
/*
* Resources are defined by the RESOURCE macro.
* Signature: resource name, the RESTful methods it handles, and its URI path (omitting the leading slash).
*/
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/* eeprom space */
#define P_NAME "Testboard"
#define P_NAME_MAX 17
uint8_t eemem_p_name[P_NAME_MAX] EEMEM = P_NAME;
/*
* A handler function named [resource name]_handler must be implemented for each RESOURCE.
* A buffer for the response payload is provided through the buffer pointer. Simple resources can ignore
* preferred_size and offset, but must respect the REST_MAX_CHUNK_SIZE limit for the buffer.
* If a smaller block size is requested for CoAP, the REST framework automatically splits the data.
*/
void
name_handler(void* request, void* response, uint8_t *buffer, uint16_t preferred_size, int32_t *offset)
{
uint8_t eebuffer[32];
char message[100];
int index = 0;
int length = 0; /* |<-------->| */
const char *name = NULL;
int success = 1;
switch(REST.get_method_type(request)){
case METHOD_GET:
cli();
eeprom_read_block (eebuffer, &eemem_p_name, sizeof(eemem_p_name));
sei();
/* Some data that has the length up to REST_MAX_CHUNK_SIZE. For more, see the chunk resource. */
// jSON Format
index += sprintf(message + index,"{\n \"name\" : \"%s\"\n",eebuffer);
index += sprintf(message + index,"}\n");
length = strlen(message);
memcpy(buffer, message,length );
REST.set_header_content_type(response, REST.type.APPLICATION_JSON);
REST.set_response_payload(response, buffer, length);
break;
case METHOD_POST:
if (success && (length=REST.get_post_variable(request, "name", &name))) {
PRINTF("name %s\n", name);
if (length < P_NAME_MAX) {
memcpy(&eebuffer, name,length);
eebuffer[length]=0;
cli();
eeprom_write_block(&eebuffer, &eemem_p_name, sizeof(eemem_p_name));
sei();
} else {
success = 0;
}
} else {
success = 0;
}
break;
default:
success = 0;
}
if (!success) {
REST.set_response_status(response, REST.status.BAD_REQUEST);
}
}
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RESOURCE(res_name, "title=\"name\";rt=\"simple.dev.n\"", name_handler, NULL, name_handler, NULL );
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#endif
/******************************************************************************/
#if REST_RES_TIMER
/*A simple actuator example*/
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/* eeprom space */
#define P_TIMER "60"
#define P_TIMER_MAX 10
uint8_t eemem_p_timer[P_TIMER_MAX] EEMEM = P_TIMER;
int gtimer_read(){
uint8_t eebuffer[32];
cli();
eeprom_read_block (eebuffer, &eemem_p_timer, sizeof(eemem_p_timer));
sei();
return atoi((const char *)eebuffer);
}
void
timer_handler(void* request, void* response, uint8_t *buffer, uint16_t preferred_size, int32_t *offset)
{
uint8_t eebuffer[32];
const char *timer = NULL;
char message[100];
int length = 0; /* |<-------->| */
int index = 0;
int success = 1;
switch(REST.get_method_type(request)){
case METHOD_GET:
cli();
eeprom_read_block (eebuffer, &eemem_p_timer, sizeof(eemem_p_timer));
sei();
/* Some data that has the length up to REST_MAX_CHUNK_SIZE. For more, see the chunk resource. */
// jSON Format
index += sprintf(message + index,"{\n \"timer\" : \"%s\"\n",eebuffer);
index += sprintf(message + index,"}\n");
length = strlen(message);
memcpy(buffer, message,length );
REST.set_header_content_type(response, REST.type.APPLICATION_JSON);
REST.set_response_payload(response, buffer, length);
break;
case METHOD_POST:
if (success && (length=REST.get_post_variable(request, "timer", &timer))) {
PRINTF("name %s\n", timer);
if (length < P_TIMER_MAX) {
memcpy(&eebuffer, timer,length);
eebuffer[length]=0;
cli();
eeprom_write_block(&eebuffer, &eemem_p_timer, sizeof(eemem_p_timer));
sei();
} else {
success = 0;
}
} else {
success = 0;
}
break;
default:
success = 0;
}
if (!success) {
REST.set_response_status(response, REST.status.BAD_REQUEST);
}
}
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RESOURCE(res_timer, "title=\"timer\";rt=\"timer\"", timer_handler, NULL, timer_handler, NULL );
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#endif
/******************************************************************************/
#if REST_RES_RESET
/*A simple actuator example*/
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/* eeprom space */
#define P_RESET "0"
#define P_RESET_MAX 10
uint8_t eemem_p_reset[P_RESET_MAX] EEMEM = P_RESET;
void
reset_handler(void* request, void* response, uint8_t *buffer, uint16_t preferred_size, int32_t *offset)
{
uint8_t eebuffer[32];
const char *mode = NULL;
char message[100];
int length = 0; /* |<-------->| */
int index = 0;
int reset = 0;
size_t len = 0;
int success = 1;
switch(REST.get_method_type(request)){
case METHOD_GET:
cli();
eeprom_read_block (eebuffer, &eemem_p_reset, sizeof(eemem_p_reset));
sei();
/* Some data that has the length up to REST_MAX_CHUNK_SIZE. For more, see the chunk resource. */
// jSON Format
index += sprintf(message + index,"{\n \"reset\" : \"%s\"\n",eebuffer);
index += sprintf(message + index,"}\n");
length = strlen(message);
memcpy(buffer, message,length );
REST.set_header_content_type(response, REST.type.APPLICATION_JSON);
REST.set_response_payload(response, buffer, length);
break;
case METHOD_POST:
if (success && (len=REST.get_post_variable(request, "mode", &mode))) {
PRINTF("mode %s\n", mode);
if (strncmp(mode, "on", len)==0) {
length=strlen(P_NAME);
memcpy(&eebuffer, P_NAME,length);
eebuffer[length]=0;
cli();
eeprom_write_block(&eebuffer, &eemem_p_name, sizeof(eemem_p_name));
sei();
length=strlen(P_TIMER);
memcpy(&eebuffer, P_TIMER,length);
eebuffer[length]=0;
cli();
eeprom_write_block(&eebuffer, &eemem_p_timer, sizeof(eemem_p_timer));
eeprom_read_block (eebuffer, &eemem_p_reset, sizeof(eemem_p_reset));
sei();
reset= atoi((char*)eebuffer) + 1;
length=sprintf((char*)eebuffer,"%d",reset);
cli();
eeprom_write_block(&eebuffer, &eemem_p_reset, sizeof(eemem_p_reset));
sei();
} else {
success = 0;
}
} else {
success = 0;
}
break;
default:
success = 0;
}
if (!success) {
REST.set_response_status(response, REST.status.BAD_REQUEST);
}
}
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RESOURCE(res_reset, "title=\"reset\";rt=\"reset\"", reset_handler, NULL, reset_handler, NULL );
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#endif
/******************************************************************************/
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// pcintkey_ext
/*A simple actuator example. read the key button status*/
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void
extbutton_handler(void* request, void* response, uint8_t *buffer, uint16_t preferred_size, int32_t *offset)
{
static char bname1[17]="button1";
static char bname2[17]="button2";
static char bname3[17]="button3";
int success = 1;
char temp[100];
int index = 0;
int length = 0; /* |<-------->| */
const char *name = NULL;
size_t len = 0;
switch(REST.get_method_type(request)){
case METHOD_GET:
// jSON Format
index += sprintf(temp + index,"{\n \"%s\" : ",bname1);
if(is_button_ext4())
index += sprintf(temp + index,"\"on\",\n");
else
index += sprintf(temp + index,"\"off\",\n");
index += sprintf(temp + index,"{\n \"%s\" : ",bname2);
if(is_button_ext5())
index += sprintf(temp + index,"\"on\",\n");
else
index += sprintf(temp + index,"\"off\",\n");
index += sprintf(temp + index," \"%s\" : ",bname3);
if(is_button_ext6())
index += sprintf(temp + index,"\"on\"\n");
else
index += sprintf(temp + index,"\"off\"\n");
index += sprintf(temp + index,"}\n");
length = strlen(temp);
memcpy(buffer, temp,length );
REST.set_header_content_type(response, REST.type.APPLICATION_JSON);
REST.set_response_payload(response, buffer, length);
break;
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case METHOD_POST:
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if (success && (len=REST.get_post_variable(request, "name", &name))) {
PRINTF("name %s\n", name);
memcpy(bname1, name,len);
bname1[len]=0;
} else {
success = 0;
}
break;
default:
success = 0;
}
if (!success) {
REST.set_response_status(response, REST.status.BAD_REQUEST);
}
}
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RESOURCE(res_extbutton, "title=\"button\";rt=\"button\"", extbutton_handler, NULL, extbutton_handler, NULL );
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/******************************************************************************/
#if REST_RES_LED
/*A simple actuator example, depending on the color query parameter and post variable mode, corresponding led is activated or deactivated*/
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void
led1_handler(void* request, void* response, uint8_t *buffer, uint16_t preferred_size, int32_t *offset)
{
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size_t len = 0;
const char *mode = NULL;
uint8_t led = 0;
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int success = 1;
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led = LEDS_RED;
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if (success && (len=REST.get_post_variable(request, "mode", &mode))) {
PRINTF("mode %s\n", mode);
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if (strncmp(mode, "on", len)==0) {
leds_on(led);
} else if (strncmp(mode, "off", len)==0) {
leds_off(led);
} else {
success = 0;
}
} else {
success = 0;
}
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if (!success) {
REST.set_response_status(response, REST.status.BAD_REQUEST);
}
}
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RESOURCE(res_led1, "title=\"LED: PUT mode=on|off\";rt=\"simple.act.led\"", led1_handler, NULL, led1_handler, NULL );
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/*A simple actuator example, depending on the color query parameter and post variable mode, corresponding led is activated or deactivated*/
void
led2_handler(void* request, void* response, uint8_t *buffer, uint16_t preferred_size, int32_t *offset)
{
size_t len = 0;
const char *mode = NULL;
int success = 1;
if (success && (len=REST.get_post_variable(request, "mode", &mode))) {
PRINTF("mode %s\n", mode);
if (strncmp(mode, "on", len)==0) {
statusled_on();
} else if (strncmp(mode, "off", len)==0) {
statusled_off();
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} else {
success = 0;
}
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} else {
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success = 0;
}
if (!success) {
REST.set_response_status(response, REST.status.BAD_REQUEST);
}
}
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RESOURCE(res_led2, "title=\"LED: PUT mode=on|off\";rt=\"simple.act.led\"", led2_handler, NULL, led2_handler, NULL );
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#endif
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#if REST_RES_OPTRIAC
/*A simple actuator example*/
void
optriac_handler(void* request, void* response, uint8_t *buffer, uint16_t preferred_size, int32_t *offset)
{
const char *mode = NULL;
static char namea[17]="Triac-a";
static char nameb[17]="Triac-b";
char temp[100];
int index = 0;
size_t len = 0;
int success = 1;
switch(REST.get_method_type(request)){
case METHOD_GET:
// jSON Format
index += sprintf(temp + index,"{\n \"%s\" : ",namea);
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if(optriac_sensor.value(OPTRIAC_SENSOR_1) == 0)
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index += sprintf(temp + index,"\"off\",\n");
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if(optriac_sensor.value(OPTRIAC_SENSOR_1) == 1)
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index += sprintf(temp + index,"\"on\",\n");
index += sprintf(temp + index," \"%s\" : ",nameb);
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if(optriac_sensor.value(OPTRIAC_SENSOR_2) == 0)
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index += sprintf(temp + index,"\"off\"\n");
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if(optriac_sensor.value(OPTRIAC_SENSOR_2) == 1)
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index += sprintf(temp + index,"\"on\"\n");
index += sprintf(temp + index,"}\n");
len = strlen(temp);
memcpy(buffer, temp,len );
REST.set_header_content_type(response, REST.type.APPLICATION_JSON);
REST.set_response_payload(response, buffer, len);
break;
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case METHOD_PUT:
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if (success && (len=REST.get_post_variable(request, "mode", &mode))) {
PRINTF("mode %s\n", mode);
if (strncmp(mode, "on", len)==0) {
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optriac_sensor.configure(OPTRIAC_SENSOR_1,1);
optriac_sensor.configure(OPTRIAC_SENSOR_2,1);
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statusled_on();
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} else if (strncmp(mode, "off", len)==0) {
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optriac_sensor.configure(OPTRIAC_SENSOR_1,0);
optriac_sensor.configure(OPTRIAC_SENSOR_2,0);
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statusled_off();
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} else {
success = 0;
}
} else {
success = 0;
}
break;
default:
success = 0;
}
if (!success) {
REST.set_response_status(response, REST.status.BAD_REQUEST);
}
}
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RESOURCE(res_optriac, "title=\"TRIAC, PUT mode=on|off\";rt=\"simple.act.triac\"", optriac_handler, NULL, optriac_handler, NULL );
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#endif /* PLATFORM_HAS_OPTRIAC */
/******************************************************************************/
#if REST_RES_TEMPERATURE && defined (PLATFORM_HAS_TEMPERATURE)
/* A simple getter example. Returns the reading from light sensor with a simple etag */
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void
temperature_handler(void* request, void* response, uint8_t *buffer, uint16_t preferred_size, int32_t *offset)
{
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int temperature = temperature_sensor.value(0);
unsigned int accept = -1;
REST.get_header_accept(request, &accept);
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if(accept == -1 || accept == REST.type.TEXT_PLAIN)
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{
REST.set_header_content_type(response, REST.type.TEXT_PLAIN);
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snprintf((char *)buffer, REST_MAX_CHUNK_SIZE, "%d.%02d", temperature/100, temperature % 100);
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REST.set_response_payload(response, (uint8_t *)buffer, strlen((char *)buffer));
}
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else if (accept == REST.type.APPLICATION_JSON)
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{
REST.set_header_content_type(response, REST.type.APPLICATION_JSON);
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snprintf((char *)buffer, REST_MAX_CHUNK_SIZE, "{'temperature':%d.%02d}", temperature/100, temperature % 100);
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REST.set_response_payload(response, buffer, strlen((char *)buffer));
}
else
{
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REST.set_response_status(response, REST.status.NOT_ACCEPTABLE);
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const char *msg = "Supporting content-types text/plain and application/json";
REST.set_response_payload(response, msg, strlen(msg));
}
}
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RESOURCE(res_temperature, "title=\"Temperature status\";rt=\"temperature-c\"", temperature_handler, NULL, NULL, NULL );
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#endif /* PLATFORM_HAS_TEMPERATURE */
/******************************************************************************/
#if REST_RES_BATTERY && defined (PLATFORM_HAS_BATTERY)
/* A simple getter example. Returns the reading from light sensor with a simple etag */
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void
battery_handler(void* request, void* response, uint8_t *buffer, uint16_t preferred_size, int32_t *offset)
{
int battery = battery_sensor.value(0);
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unsigned int accept = -1;
REST.get_header_accept(request, &accept);
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if(accept == -1 || accept == REST.type.TEXT_PLAIN)
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{
REST.set_header_content_type(response, REST.type.TEXT_PLAIN);
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snprintf((char *)buffer, REST_MAX_CHUNK_SIZE, "%d.%02d", battery/1000, battery % 1000);
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REST.set_response_payload(response, (uint8_t *)buffer, strlen((char *)buffer));
}
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else if (accept == REST.type.APPLICATION_JSON)
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{
REST.set_header_content_type(response, REST.type.APPLICATION_JSON);
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snprintf((char *)buffer, REST_MAX_CHUNK_SIZE, "{\"battery\":%d.%02d}", battery/1000, battery % 1000);
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REST.set_response_payload(response, buffer, strlen((char *)buffer));
}
else
{
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REST.set_response_status(response, REST.status.NOT_ACCEPTABLE);
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const char *msg = "Supporting content-types text/plain and application/json";
REST.set_response_payload(response, msg, strlen(msg));
}
}
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RESOURCE(res_battery, "title=\"Battery status\";rt=\"battery-mV\"", battery_handler, NULL, NULL, NULL );
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#endif /* PLATFORM_HAS_BATTERY */
/******************************************************************************/
void
hw_init()
{
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leds_off(LEDS_RED);
statusledinit();
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key_init();
}
#define MESURE_INTERVAL (CLOCK_SECOND/2)
PROCESS(rest_server_example, "Erbium Example Server");
AUTOSTART_PROCESSES(&rest_server_example, &sensors_process);
PROCESS_THREAD(rest_server_example, ev, data)
{
static struct etimer ds_periodic_timer;
static int ext4=0;
static int ext5=0;
static int ext6=0;
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// ext4 = is_button_ext4();
// ext5 = is_button_ext5();
// ext6 = is_button_ext6();
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PROCESS_BEGIN();
PRINTF("Starting Erbium Example Server\n");
#ifdef RF_CHANNEL
PRINTF("RF channel: %u\n", RF_CHANNEL);
#endif
#ifdef IEEE802154_PANID
PRINTF("PAN ID: 0x%04X\n", IEEE802154_PANID);
#endif
PRINTF("uIP buffer: %u\n", UIP_BUFSIZE);
PRINTF("LL header: %u\n", UIP_LLH_LEN);
PRINTF("IP+UDP header: %u\n", UIP_IPUDPH_LEN);
PRINTF("REST max chunk: %u\n", REST_MAX_CHUNK_SIZE);
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/* if static routes are used rather than RPL */
#if !UIP_CONF_IPV6_RPL && !defined (CONTIKI_TARGET_MINIMAL_NET) && !defined (CONTIKI_TARGET_NATIVE)
set_global_address();
configure_routing();
#endif
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/* Initialize the OSD Hardware. */
hw_init();
/* Initialize the REST engine. */
rest_init_engine();
/* Activate the application-specific resources. */
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#if REST_RES_MODEL
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rest_activate_resource(&res_model,"p/model");
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#endif
#if REST_RES_SW
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rest_activate_resource(&res_sw,"p/sw");
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#endif
#if REST_RES_NAME
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rest_activate_resource(&res_name,"p/name");
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#endif
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#if REST_RES_RESET
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rest_activate_resource(&res_reset,"p/reset");
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#endif
#if REST_RES_TIMER
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rest_activate_resource(&res_timer,"a/timer");
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#endif
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rest_activate_resource(&res_extbutton,"s/extbutton");
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/* Activate the application-specific resources. */
#if REST_RES_OPTRIAC
SENSORS_ACTIVATE(optriac_sensor);
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rest_activate_resource(&res_optriac,"a/optriac");
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#endif
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#if defined (PLATFORM_HAS_LED)
#if REST_RES_LED
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rest_activate_resource(&res_led1,"a/led1");
rest_activate_resource(&res_led2,"a/led2");
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#endif
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#endif /* PLATFORM_HAS_LED */
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#if defined (PLATFORM_HAS_TEMPERATURE) && REST_RES_TEMPERATURE
SENSORS_ACTIVATE(temperature_sensor);
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rest_activate_resource(&res_temperature,"s/cputemp");
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#endif
#if defined (PLATFORM_HAS_BATTERY) && REST_RES_BATTERY
SENSORS_ACTIVATE(battery_sensor);
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rest_activate_resource(&res_battery,"s/battery");
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#endif
etimer_set(&ds_periodic_timer, MESURE_INTERVAL);
/* Define application-specific events here. */
while(1) {
PROCESS_WAIT_EVENT();
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/* Button Tric Logic */
if(etimer_expired(&ds_periodic_timer)) {
PRINTF("Periodic %d %d\n",ext5,ext6);
}
} /* while (1) */
PROCESS_END();
}