int main(int argc, char** argv) { nabto_main_setup* nms = unabto_init_context(); stream_echo_init(); if (!check_args(argc, argv, nms)) { return 1; } if (!unabto_init()) { return 1; } while(true) { unabto_tick(); #ifdef WIN32 Sleep(1); #endif #if (_POSIX_C_SOURCE >= 199309L) struct timespec sleepTime; sleepTime.tv_sec = 0; sleepTime.tv_nsec = 10*1000000; nanosleep(&sleepTime, NULL); #endif } unabto_close(); }
/** * Entry point. * @param argc number of parameters * @param argv the parameters * - 1 ip-address * - 2 serverid | - * - 3 log * @return the result */ int main(int argc, char* argv[]) { nabto_main_setup* nms; nabto_endpoint localEp; // flush stdout setvbuf(stdout, NULL, _IONBF, 0); nms = unabto_init_context(); /** * Overwrite default values with command line args */ if (!check_args(argc, argv, nms)) { return 1; } if (!unabto_init()) { NABTO_LOG_FATAL(("Failed at nabto_main_init")); } localEp.addr=nms->ipAddress; localEp.port=nms->localPort; if (nms->ipAddress != INADDR_ANY) NABTO_LOG_INFO(("Own IP address: " PRIep, MAKE_EP_PRINTABLE(localEp))); else NABTO_LOG_INFO(("Own IP address, local IP is set to INADDR_ANY: " PRIep, MAKE_EP_PRINTABLE(localEp))); while (true) { /* * Here the main application should do it's work * and then whenever time is left for Nabto (but at least regularly) * the nabto_main_tick() should be called. * * nabto_main_tick() * - polls the socket for incoming messages * - administers timers to do its own timer based work */ unabto_tick(); #if NABTO_ENABLE_STREAM nabto_stream_test_tick(); #endif #if (_POSIX_C_SOURCE >= 199309L) struct timespec sleepTime; sleepTime.tv_sec = 0; sleepTime.tv_nsec = 10*1000000; nanosleep(&sleepTime, NULL); #endif } unabto_close(); return 0; }
/** * main using gopt to check command line arguments * -h for help */ int main(int argc, char* argv[]) { // Set nabto to default values nabto_main_setup* nms = unabto_init_context(); // Overwrite default values with command line args if (!check_args(argc, argv, nms)) { return 1; } NABTO_LOG_INFO(("Identity: '%s'", nms->id)); NABTO_LOG_INFO(("Program Release %i.%i", RELEASE_MAJOR, RELEASE_MINOR)); NABTO_LOG_INFO(("Buffer size: %i", nms->bufsize)); // Initialize nabto if (!unabto_init()) { NABTO_LOG_FATAL(("Failed at nabto_main_init")); } nabto_stamp_t attachExpireStamp; // 20 seconds nabtoSetFutureStamp(&attachExpireStamp, 1000*20); // The main loop gives nabto a tick from time to time. // Everything else is taken care of behind the scenes. while (true) { unabto_tick(); nabto_yield(10); if (nabtoIsStampPassed(&attachExpireStamp)) { NABTO_LOG_ERROR(("Attach took too long.")); exit(4); } if (unabto_is_connected_to_gsp()) { NABTO_LOG_INFO(("Successfully attached to the gsp, now exiting.")); exit(0); } } NABTO_LOG_ERROR(("we should not end here")); exit(5); unabto_close(); return 0; }
/** * main using gopt to check command line arguments * -h for help */ int main(int argc, char* argv[]) { // Set nabto to default values nabto_main_setup* nms = unabto_init_context(); // Initialise application if (!application_init()){ NABTO_LOG_FATAL(("Unable to initialise serial connection")); } // Optionally set alternative url to html device driver //nmc.nabtoMainSetup.url = "https://dl.dropbox.com/u/15998645/html_dd_demo.zip"; // Overwrite default values with command line args if (!check_args(argc, argv, nms)) { return 1; } NABTO_LOG_INFO(("Identity: '%s'", nms->id)); NABTO_LOG_INFO(("Program Release %" PRIu32 ".%" PRIu32, RELEASE_MAJOR, RELEASE_MINOR)); NABTO_LOG_INFO(("Buffer size: %d" , nms->bufsize)); // Initialize nabto if (!unabto_init()) { NABTO_LOG_FATAL(("Failed at nabto_main_init")); } // The main loop gives nabto a tick from time to time. // Everything else is taken care of behind the scenes. while (true) { unabto_tick(); nabto_yield(10); } unabto_close(); return 0; }
void main(void) { static nabto_main_setup* nms; static char versionString[NABTO_DEVICE_VERSION_MAX_SIZE]; static char idString[NABTO_DEVICE_NAME_MAX_SIZE]; #if NABTO_ENABLE_UCRYPTO static const far rom uint8_t dummySharedSecret[16] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}; static const far rom uint8_t* sharedSecret; #endif // <editor-fold desc="Load information from bootloader and application data areas."> // Clear the global TCP/IP data structure and load it with the boards unique preprogrammed MAC address. memset((void*) &AppConfig, 0x00, sizeof (AppConfig)); memcpypgm2ram(&AppConfig.MyMACAddr, (const __ROM uint8_t*) bootloaderData.version1.mac, 6); if(bootloaderData.base.bootloaderDataVersion == 1) { strcpypgm2ram(idString, (const far rom char*) bootloaderData.version1.serialNumber); strcatpgm2ram(idString, ".nabduino.net"); #if NABTO_ENABLE_UCRYPTO // sharedSecret = applicationData.sharedSecret; // the old pre-bootloader-version-2 way of storing the shared secret - obsolete! #endif } else if(bootloaderData.base.bootloaderDataVersion == 2) { hardwareVersion = (uint8_t) bootloaderData.version2.hardwareVersionMajor; hardwareVersion <<= 8; hardwareVersion |= (uint8_t) bootloaderData.version2.hardwareVersionMinor; if(hardwareVersion == 0x0004) { hardwareVersionIndex = 0; // first version of the board that was released. } else if(hardwareVersion == 0x0102) { hardwareVersionIndex = 1; // second version of the board that was released (yes we jumped from 0.4 beta to 1.2). } else if(hardwareVersion == 0x0103) { hardwareVersionIndex = 2; // third version of the board } strcpypgm2ram(idString, (const far rom char*) bootloaderData.version2.deviceId); strcatpgm2ram(idString, (const far rom char*) bootloaderData.version2.productDomain); #if NABTO_ENABLE_UCRYPTO sharedSecret = bootloaderData.version2.sharedSecret; #endif } else { // unsupported version so it's probably safe to assume that bootloader data has been wiped - please fill in the appropriate values for your Nabduino board hardwareVersionIndex = 0; // hardware version 0.4 = 0, v1.2 = 1, v1.3 = 2 AppConfig.MyMACAddr.v[0] = 0xBC; // Nabto owned MAC OUI is BC:A4:E1 AppConfig.MyMACAddr.v[1] = 0xA4; AppConfig.MyMACAddr.v[2] = 0xE1; AppConfig.MyMACAddr.v[3] = 0x00; AppConfig.MyMACAddr.v[4] = 0x00; AppConfig.MyMACAddr.v[5] = 0x00; // If using more than one Nabduino on the same network make this byte unique for each board strcpypgm2ram(idString, "XXX"); // replace XXX with the id of the Nabduino board strcatpgm2ram(idString, ".nabduino.net"); #if NABTO_ENABLE_UCRYPTO sharedSecret = dummySharedSecret; #endif } // </editor-fold> // Initialize IOs etc. taking into account the hardware version. hal_initialize(); // Initialize the platform (timing, TCP/IP stack, DHCP and some PIC18 specific stuff) platform_initialize(); network_initialize(); nms = unabto_init_context(); nms->id = (const char*) idString; // build version string: <application SVN version>/<bootloader SVN version>/<hardware major version>.<hardware minor version> itoa(RELEASE_MINOR, versionString); strcatpgm2ram(versionString + strlen(versionString), "/"); itoa(bootloaderData.base.buildVersion, versionString + strlen(versionString)); strcatpgm2ram(versionString + strlen(versionString), "/"); itoa(hardwareVersion >> 8, versionString + strlen(versionString)); strcatpgm2ram(versionString + strlen(versionString), "."); itoa(hardwareVersion & 0xff, versionString + strlen(versionString)); nms->version = (const char*) versionString; #if NABTO_ENABLE_UCRYPTO memcpypgm2ram(nms->presharedKey, (const __ROM void*) sharedSecret, 16); nms->secureAttach = true; nms->secureData = true; nms->cryptoSuite = CRYPT_W_AES_CBC_HMAC_SHA256; #endif setup((char**) &nms->url); unabto_init(); while(1) { hal_tick(); platform_tick(); network_tick(); unabto_tick(); loop(); } }