CoAP Device Server Client
Dependencies: EthernetInterface mbed-rtos mbed nsdl_lib
Fork of COAPmbed by
Constrained Application Protocol (Coap) ist ein Software-Protokoll welches für Internet der Dinge Geräte zugeschnitten ist.
COAP ist auf den meisten Geräten, die UDP Unterstützen, lauffähig.
Ein COAP fähiges Gerät publiziert seine Sensoren und Aktoren in einem Resource Directory oder stellt selber ein solches zur Verfügung.
Mittels Resource Discovery können die vorhandenen Sensoren und Aktoren mit ihren Attributen abgefragt werden.
Zeile 29: Node Name aendern und folgende Adresse aufrufen: http://nsp.cloudapp.net:8083/, User/PW = demo
main.cpp
- Committer:
- bogdanm
- Date:
- 2013-10-15
- Revision:
- 2:7e489126fe7a
- Parent:
- 1:e35d7f10999a
- Child:
- 3:52c1b649eb04
File content as of revision 2:7e489126fe7a:
#include "mbed.h" #include "EthernetInterface.h" #include "C12832_lcd.h" #include "nsdl_support.h" #include "dbg.h" // Include various resources #include "temperature.h" #include "light.h" #include "gps.h" #include "relay.h" static C12832_LCD lcd; Serial pc(USBTX, USBRX); // tx, rx // **************************************************************************** // Configuration section // Ethernet configuration /* Define this to enable DHCP, otherwise manual address configuration is used */ #define DHCP /* Manual IP configurations, if DHCP not defined */ #define IP "10.45.0.206" #define MASK "255.255.255.0" #define GW "10.45.0.1" // NSP configuration /* Change this IP address to that of your NanoService Platform installation */ static const char* NSP_ADDRESS = "217.140.101.40"; /* internal NSP*/ static const int NSP_PORT = 5683; char endpoint_name[15] = "MyMbedexam"; 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 */ #ifdef DHCP NSDL_DEBUG("DHCP in use\r\n"); eth.init(); #else eth.init(IP, MASK, GW); #endif if(eth.connect(30000) == 0) pc.printf("Connect OK\n\r"); mbed_interface_uid(mbed_uid); mbed_uid[32] = '\0'; memcpy(&endpoint_name[10], &mbed_uid[27], 5); lcd.locate(0,11); lcd.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); lcd.locate(0,22); lcd.printf("EP name:%s", 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, sizeof("dev/mfg")-1, (uint8_t*) "dev/mfg", 0, 0, (uint8_t*) "Sensinode", sizeof("Sensinode")-1); nsdl_create_static_resource(resource_ptr, sizeof("dev/mdl")-1, (uint8_t*) "dev/mdl", 0, 0, (uint8_t*) "NSDL-C mbed device", sizeof("NSDL-C mbed device")-1); // Dynamic resources create_temperature_resource(resource_ptr); create_light_resource(resource_ptr); create_gps_resource(resource_ptr); create_relay_resource(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() { lcd.cls(); lcd.locate(0,0); lcd.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(); }