smd.iotkit2.ch / Mbed 2 deprecated COAPleshan

CoAP Device Server Client mit leshan Server

Dependencies:   EthernetInterface mbed-rtos mbed nsdl_lib

Fork of COAPmbed by smd.iotkit2.ch

Sandbox Server

Eclipse stellt einen Testserver unter http://leshan.eclipse.org/ zur Verfügung. Das Programm verbindet sich mit diesem und ist unter mbed-k64f... erreichbar.

Installation lokale Version leshan

wget https://hudson.eclipse.org/leshan/job/leshan/lastSuccessfulBuild/artifact/leshan-server-demo.jar
java -jar ./leshan-server-demo.jar

cURL

Die Funktionen können mittels cURL oder Browser wie folgt getestet werden:

# Alle Clients abfragen (Antwort im JSON Format)
curl -X GET  http://localhost:8080/api/clients
                         
# Wert von LED2 abfragen (Antwort im text/plain Format)                      
curl -X GET  http://localhost:8080/api/clients/mbed-k64f-1234/10/0/2 
 
# Wert für LED2 setzen
curl -X GET -vvv http://localhost:8080/api/clients/mbed-k64f-1234/10/0/2 -H "Content-Type: text/plain" -d "10"

main.cpp

Committer:
stefan1691
Date:
2015-06-21
Revision:
16:b27c9d2b1a98
Parent:
15:fba25b7e63cd
Child:
17:8ee737f79492

File content as of revision 16:b27c9d2b1a98:

/**  CoAP Device Server Client
    Zeile 29: Node Name aendern und auf der Gegenseite leshan Server Verwenden.
*/ 
#include "mbed.h"
#include "EthernetInterface.h"
#include "nsdl_support.h"
#include "dbg.h"

// Include various resources
#include "PwmOutResource.h"

PwmOutResource led1( D11, "led1", "10/0/0" );
PwmOutResource led2( D12, "led2", "10/0/1" );
PwmOutResource led3( D13, "led3", "10/0/2" );

char *staticResources[2] [3] = { { "3/0/0", "Manufacturer", "mc-b" },
                                 { "3/0/1", "Model Number", "CoAP mbed device" },
                               };

Serial pc(USBTX, USBRX); // tx, rx

// ****************************************************************************
// Server configuration
/* Change this IP address to that of your NanoService Platform installation */
static const char* NSP_ADDRESS = "192.168.178.23"; /* Lokale Installation - leshan Server */ 
static const int NSP_PORT = 5683;
char endpoint_name[] = "mbed-k64f-1234"; // aendern pro Node
uint8_t ep_type[] = {"mbed_device"};
uint8_t lifetime_ptr[] = {"1200"};

// ****************************************************************************
// Ethernet initialization

EthernetInterface eth;

static void ethernet_init()
{
    //char mbed_uid[33]; // for creating unique name for the board

    /* Initialize network */
    eth.init();
    
    if(eth.connect(30000) == 0)
        pc.printf("Connect OK\n\r");

    //mbed_interface_uid(mbed_uid); // -> Fehlt fuer K64F
    //strcpy( mbed_uid, "k64f-1234" );
    //mbed_uid[32] = '\0';
    //strncat(endpoint_name, mbed_uid + 27, 15 - strlen(endpoint_name));

    printf("IP:%s", eth.getIPAddress());

    NSDL_DEBUG("IP Address:%s ", eth.getIPAddress());
}

// ****************************************************************************
// NSP initialization

UDPSocket server;
Endpoint nsp;

static void nsp_init()
{
    server.init();
    server.bind(NSP_PORT);

    nsp.set_address(NSP_ADDRESS, NSP_PORT);
    
    NSDL_DEBUG("name: %s", endpoint_name);
    NSDL_DEBUG("NSP=%s - port %d\n", NSP_ADDRESS, NSP_PORT);

    printf("EP name:%s\n", endpoint_name);
}

// ****************************************************************************
// Resource creation

static int create_resources()
{
    sn_nsdl_resource_info_s *resource_ptr = NULL;
    sn_nsdl_ep_parameters_s *endpoint_ptr = NULL;
    
    NSDL_DEBUG("Creating resources");

    /* Create resources */
    resource_ptr = (sn_nsdl_resource_info_s*)nsdl_alloc(sizeof(sn_nsdl_resource_info_s));
    if(!resource_ptr)
        return 0;
    memset(resource_ptr, 0, sizeof(sn_nsdl_resource_info_s));

    resource_ptr->resource_parameters_ptr = (sn_nsdl_resource_parameters_s*)nsdl_alloc(sizeof(sn_nsdl_resource_parameters_s));
    if(!resource_ptr->resource_parameters_ptr)
    {
        nsdl_free(resource_ptr);
        return 0;
    }
    memset(resource_ptr->resource_parameters_ptr, 0, sizeof(sn_nsdl_resource_parameters_s));

    // Static resources
    nsdl_create_static_resource( resource_ptr, strlen(staticResources[0] [0]), (uint8_t*) staticResources[0] [0], 0, 0, 
                                               (uint8_t*) staticResources[0] [2], strlen(staticResources[0] [2]) );
    nsdl_create_static_resource( resource_ptr, strlen(staticResources[1] [0]), (uint8_t*) staticResources[1] [0], 0, 0, 
                                               (uint8_t*) staticResources[1] [2], strlen(staticResources[1] [2]) );

    // Dynamic resources
    led1.create( resource_ptr );
    led2.create( resource_ptr );
    led3.create( resource_ptr );        

        /* Register with NSP */
    endpoint_ptr = nsdl_init_register_endpoint(endpoint_ptr, (uint8_t*)endpoint_name, ep_type, lifetime_ptr);
    if(sn_nsdl_register_endpoint(endpoint_ptr) != 0)
        pc.printf("NSP registering failed\r\n");
    else
        pc.printf("NSP registering OK\r\n");
    nsdl_clean_register_endpoint(&endpoint_ptr);

    nsdl_free(resource_ptr->resource_parameters_ptr);
    nsdl_free(resource_ptr);
    return 1;
}

// ****************************************************************************
// Program entry point

int main()
{
    printf("mbed NanoService demo");
    NSDL_DEBUG("mbed NanoService Example App 0.1\n");
    
    // Initialize Ethernet interface first
    ethernet_init();
    
    // Initialize NSP node
    nsp_init();
    
    // Initialize NSDL stack
    nsdl_init();
    
    // Create NSDL resources
    create_resources();
    
    // Run the NSDL event loop (never returns)
    nsdl_event_loop();
}