cellular port
Dependencies: Beep C027_Support C12832 LM75B MMA7660 mbed-rtos mbed nsdl_lib
This is a port of the NSDL HelloWorld for cellular.
To run the example you need a C027 and the ARM mbed application shield. The example uses cellular instead of ethernet and takes the true position from the GPS instead of using a fixed position.
main.cpp
- Committer:
- terohoo
- Date:
- 2013-10-15
- Revision:
- 1:e35d7f10999a
- Parent:
- 0:2edbfea18d23
- Child:
- 2:7e489126fe7a
File content as of revision 1:e35d7f10999a:
/* Define DEBUG for USB serial communication */ #define DEBUG #include "mbed.h" #include "EthernetInterface.h" #include "C12832_lcd.h" #include "LM75B.h" #include "MMA7660.h" #include "Beep.h" /* Sensinode includes */ #include "sn_nsdl.h" #include "sn_coap_header.h" #include "sn_coap_protocol.h" #include "sn_nsdl_lib.h" #include "resource_generation_help.h" /* 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" /* Change this IP address to that of your NanoService Platform installation */ const char* NSP_ADDRESS = "217.140.101.40"; /* internal NSP*/ const int NSP_PORT = 5683; uint8_t nsp_addr[4]; /* The number of seconds between NSP registration messages */ #define RD_UPDATE_PERIOD 60 static uint8_t res_gps_val[] = {"52.182382,0.178849"}; static uint8_t ep_type[] = {"mbed_device"}; static uint8_t lifetime_ptr[] = {"1200"}; /* stored data for observable resource */ uint8_t obs_number = 0; uint8_t *obs_token_ptr = 0; uint8_t obs_token_len = 0; char temp_val[5]; /* App board related stuff */ Beep buzzer(p26); //PwmOut led1(LED1); PwmOut led2(LED2); PwmOut led3(LED3); //PwmOut led4(LED4); #ifdef DEBUG Serial pc(USBTX, USBRX); // tx, rx #endif C12832_LCD lcd; LM75B tmp(p28,p27); MMA7660 MMA(p28, p27); EthernetInterface eth; UDPSocket server; Endpoint nsp; Endpoint from; /* For creating uniq name for board.. */ char mbed_uid[33]; char endpoint_name[15] = "MyMbedexam"; extern "C" { uint8_t tx_cb(sn_nsdl_capab_e protocol, uint8_t *data_ptr, uint16_t data_len, sn_nsdl_addr_s *address_ptr); uint8_t rx_cb(sn_coap_hdr_s *coap_packet_ptr, sn_nsdl_addr_s *address_ptr); void *own_alloc(uint16_t size); void own_free(void* ptr_to_free); static uint8_t temp_resource_cb(sn_coap_hdr_s *received_coap_ptr, sn_nsdl_addr_s *address, sn_proto_info_s * proto); static uint8_t light_resource_cb(sn_coap_hdr_s *received_coap_ptr, sn_nsdl_addr_s *address, sn_proto_info_s * proto); static uint8_t gps_resource_cb(sn_coap_hdr_s *received_coap_ptr, sn_nsdl_addr_s *address, sn_proto_info_s * proto); static uint8_t relay_resource_cb(sn_coap_hdr_s *received_coap_ptr, sn_nsdl_addr_s *address, sn_proto_info_s * proto); } /* Thread for handling registration updates */ void registration_update_thread(void const *args) { sn_nsdl_ep_parameters_s *endpoint_ptr = 0; while(true) { wait(RD_UPDATE_PERIOD); INIT_REGISTER_NSDL_ENDPOINT(endpoint_ptr, (uint8_t*)endpoint_name, ep_type, lifetime_ptr); if(sn_nsdl_register_endpoint(endpoint_ptr) != 0) pc.printf("NSP re-registering failed\r\n"); else pc.printf("NSP re-registering OK\r\n"); CLEAN_REGISTER_NSDL_ENDPOINT(endpoint_ptr); } } /* Thread for calling libNsdl exec function (cleanup, resendings etc..) */ /* Node updates temperature every 10 seconds. Notification sending is done here. */ void exec_call_thread(void const *args) { int32_t time = 0; while (true) { wait(1); time++; sn_nsdl_exec(time); if((!(time % 10)) && obs_number != 0) { obs_number++; sprintf(temp_val,"%2.2f" ,tmp.read()); if(sn_nsdl_send_observation_notification(obs_token_ptr, obs_token_len, (uint8_t*)temp_val, 5, &obs_number, 1, COAP_MSG_TYPE_NON_CONFIRMABLE, 0) == 0) pc.printf("Observation sending failed\r\n"); else pc.printf("Observation\r\n"); } } } int main() { Thread registration_thread(registration_update_thread); Thread exec_thread(exec_call_thread); sn_nsdl_mem_s memory_cbs; sn_nsdl_resource_info_s *resource_ptr = 0; sn_nsdl_ep_parameters_s *endpoint_ptr = 0; sn_nsdl_addr_s received_packet_address; uint8_t received_address[4]; memset(&received_packet_address, 0, sizeof(sn_nsdl_addr_s)); received_packet_address.addr_ptr = received_address; lcd.cls(); lcd.locate(0,0); lcd.printf("mbed NanoService demo"); #ifdef DEBUG pc.printf("mbed NanoService Example App 0.1\n\n\r"); #endif /* Initialize network */ #ifdef DHCP #ifdef DEBUG pc.printf("DHCP in use\r\n"); #endif 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()); #ifdef DEBUG pc.printf("IP Address:%s \n\r", eth.getIPAddress()); #endif server.init(); server.bind(NSP_PORT); nsp.set_address(NSP_ADDRESS,NSP_PORT); #ifdef DEBUG pc.printf("name: %s\n\r", endpoint_name); pc.printf("NSP=%s - port %d\r\n\n",NSP_ADDRESS, NSP_PORT); #endif lcd.locate(0,22); lcd.printf("EP name:%s", endpoint_name); memory_cbs.sn_nsdl_alloc = &own_alloc; memory_cbs.sn_nsdl_free = &own_free; /* Initialize libNsdl */ if(sn_nsdl_init(&tx_cb, &rx_cb, &memory_cbs) == -1) pc.printf("libNsdl init failed\r\n"); else pc.printf("libNsdl init done\r\n"); /* Set nsp address for library */ set_NSP_address(nsp_addr, 5683, SN_NSDL_ADDRESS_TYPE_IPV4); #ifdef DEBUG pc.printf("Creating resources\r\n"); #endif /* Create resources */ resource_ptr = (sn_nsdl_resource_info_s*)own_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*)own_alloc(sizeof(sn_nsdl_resource_parameters_s)); if(!resource_ptr->resource_parameters_ptr) { own_free(resource_ptr); return 0; } memset(resource_ptr->resource_parameters_ptr, 0, sizeof(sn_nsdl_resource_parameters_s)); /* Static resurces */ CREATE_STATIC_RESOURCE(resource_ptr, sizeof("dev/mfg")-1, (uint8_t*) "dev/mfg", 0, 0, (uint8_t*) "Sensinode", sizeof("Sensinode")-1); 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); CREATE_DYNAMIC_RESOURCE(resource_ptr, sizeof("sen/temp")-1, (uint8_t*) "sen/temp", 0, 0, 1, &temp_resource_cb, SN_GRS_GET_ALLOWED); CREATE_DYNAMIC_RESOURCE(resource_ptr, sizeof("lt/0/dim")-1, (uint8_t*) "lt/0/dim", 0, 0, 0, &light_resource_cb, (SN_GRS_GET_ALLOWED | SN_GRS_PUT_ALLOWED)); CREATE_DYNAMIC_RESOURCE(resource_ptr, sizeof("gps/loc")-1, (uint8_t*) "gps/loc", 0, 0, 0, &gps_resource_cb, SN_GRS_GET_ALLOWED); CREATE_DYNAMIC_RESOURCE(resource_ptr, sizeof("beep/0/on")-1, (uint8_t*) "beep/0/on", 0, 0, 0, &relay_resource_cb, (SN_GRS_GET_ALLOWED | SN_GRS_PUT_ALLOWED)); /* Register with NSP */ INIT_REGISTER_NSDL_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"); CLEAN_REGISTER_NSDL_ENDPOINT(endpoint_ptr); own_free(resource_ptr->resource_parameters_ptr); own_free(resource_ptr); char buffer[1024]; while(1) { int n = server.receiveFrom(from, buffer, sizeof(buffer)); if (n < 0) { pc.printf("Socket error\n\r"); } else { pc.printf("Received %d bytes\r\n", n); sn_nsdl_process_coap((uint8_t*)buffer, n, &received_packet_address); } } } uint8_t tx_cb(sn_nsdl_capab_e protocol, uint8_t *data_ptr, uint16_t data_len, sn_nsdl_addr_s *address_ptr) { pc.printf("TX callback!\n\rSending %d bytes:\r\n", data_len); if(server.sendTo(nsp, (char*)data_ptr, data_len) != data_len) pc.printf("sending failed\n\r"); return 1; } uint8_t rx_cb(sn_coap_hdr_s *coap_packet_ptr, sn_nsdl_addr_s *address_ptr) { pc.printf("RX callback!\r\n"); return 0; } void *own_alloc(uint16_t size) { return malloc(size); } void own_free(void* ptr_to_free) { free(ptr_to_free); } /* Only GET method allowed */ /* Observable resource */ static uint8_t temp_resource_cb(sn_coap_hdr_s *received_coap_ptr, sn_nsdl_addr_s *address, sn_proto_info_s * proto) { sprintf(temp_val,"%2.2f" ,tmp.read()); sn_coap_hdr_s *coap_res_ptr = 0; pc.printf("temp callback\r\n"); coap_res_ptr = sn_coap_build_response(received_coap_ptr, COAP_MSG_CODE_RESPONSE_CONTENT); coap_res_ptr->payload_len = 5; coap_res_ptr->payload_ptr = (uint8_t*)temp_val; if(received_coap_ptr->token_ptr) { pc.printf("Token included\r\n"); if(obs_token_ptr) { free(obs_token_ptr); obs_token_ptr = 0; } obs_token_ptr = (uint8_t*)malloc(received_coap_ptr->token_len); if(obs_token_ptr) { memcpy(obs_token_ptr, received_coap_ptr->token_ptr, received_coap_ptr->token_len); obs_token_len = received_coap_ptr->token_len; } } if(received_coap_ptr->options_list_ptr->observe) { coap_res_ptr->options_list_ptr = (sn_coap_options_list_s*)malloc(sizeof(sn_coap_options_list_s)); memset(coap_res_ptr->options_list_ptr, 0, sizeof(sn_coap_options_list_s)); coap_res_ptr->options_list_ptr->observe_ptr = &obs_number; coap_res_ptr->options_list_ptr->observe_len = 1; obs_number++; } sn_nsdl_send_coap_message(address, coap_res_ptr); coap_res_ptr->options_list_ptr->observe_ptr = 0; sn_coap_parser_release_allocated_coap_msg_mem(coap_res_ptr); return 0; } /* Only GET and PUT method allowed */ static uint8_t light_resource_cb(sn_coap_hdr_s *received_coap_ptr, sn_nsdl_addr_s *address, sn_proto_info_s * proto) { sn_coap_hdr_s *coap_res_ptr = 0; static float led_dimm = 0; int led_state = 0; char led_dimm_temp[4]; pc.printf("light callback\r\n"); if(received_coap_ptr->msg_code == COAP_MSG_CODE_REQUEST_GET) { coap_res_ptr = sn_coap_build_response(received_coap_ptr, COAP_MSG_CODE_RESPONSE_CONTENT); led_state = led_dimm * 100; sprintf(led_dimm_temp, "%d", led_state); coap_res_ptr->payload_len = strlen(led_dimm_temp); coap_res_ptr->payload_ptr = (uint8_t*)led_dimm_temp; sn_nsdl_send_coap_message(address, coap_res_ptr); } else if(received_coap_ptr->msg_code == COAP_MSG_CODE_REQUEST_PUT) { memcpy(led_dimm_temp, (char *)received_coap_ptr->payload_ptr, received_coap_ptr->payload_len); led_dimm_temp[received_coap_ptr->payload_len] = '\0'; led_dimm = atof(led_dimm_temp); led_dimm = led_dimm/100; //led1.write(led_dimm); led2.write(led_dimm); led3.write(led_dimm); //led4.write(led_dimm); coap_res_ptr = sn_coap_build_response(received_coap_ptr, COAP_MSG_CODE_RESPONSE_CHANGED); sn_nsdl_send_coap_message(address, coap_res_ptr); } sn_coap_parser_release_allocated_coap_msg_mem(coap_res_ptr); return 0; } /* Only GET method allowed */ static uint8_t gps_resource_cb(sn_coap_hdr_s *received_coap_ptr, sn_nsdl_addr_s *address, sn_proto_info_s * proto) { sn_coap_hdr_s *coap_res_ptr = 0; static float led_dimm = 0; int led_state = 0; char led_dimm_temp[4]; pc.printf("gps callback\r\n"); coap_res_ptr = sn_coap_build_response(received_coap_ptr, COAP_MSG_CODE_RESPONSE_CONTENT); led_state = led_dimm * 100; sprintf(led_dimm_temp, "%d", led_state); coap_res_ptr->payload_len = sizeof(res_gps_val)-1; coap_res_ptr->payload_ptr = (uint8_t*)res_gps_val; sn_nsdl_send_coap_message(address, coap_res_ptr); sn_coap_parser_release_allocated_coap_msg_mem(coap_res_ptr); return 0; } /* Only GET and PUT method allowed */ static uint8_t relay_resource_cb(sn_coap_hdr_s *received_coap_ptr, sn_nsdl_addr_s *address, sn_proto_info_s * proto) { sn_coap_hdr_s *coap_res_ptr = 0; static uint8_t relay_state = '0'; pc.printf("relay callback\r\n"); if(received_coap_ptr->msg_code == COAP_MSG_CODE_REQUEST_GET) { coap_res_ptr = sn_coap_build_response(received_coap_ptr, COAP_MSG_CODE_RESPONSE_CONTENT); coap_res_ptr->payload_len = 1; coap_res_ptr->payload_ptr = &relay_state; sn_nsdl_send_coap_message(address, coap_res_ptr); } else if(received_coap_ptr->msg_code == COAP_MSG_CODE_REQUEST_PUT) { if(received_coap_ptr->payload_len) { if(*(received_coap_ptr->payload_ptr) == '1') { buzzer.beep(1000,0); relay_state = '1'; } else if(*(received_coap_ptr->payload_ptr) == '0') { buzzer.nobeep(); relay_state = '0'; } coap_res_ptr = sn_coap_build_response(received_coap_ptr, COAP_MSG_CODE_RESPONSE_CHANGED); sn_nsdl_send_coap_message(address, coap_res_ptr); } } sn_coap_parser_release_allocated_coap_msg_mem(coap_res_ptr); return 0; }