retvalue target_initialize_source(struct distribution *d, component_t component, const struct exportmode *exportmode, bool readonly, bool noexport, const char *fakecomponentprefix, struct target **target) { return target_initialize(d, component, architecture_source, pt_dsc, sources_getversion, sources_getinstalldata, sources_getarchitecture, sources_getfilekeys, sources_getchecksums, sources_getsourceandversion, sources_doreoverride, sources_retrack, sources_complete_checksums, mprintf("%s/source", dist_component_name(component, fakecomponentprefix)), exportmode, readonly, noexport, target); }
retvalue target_initialize_binary(struct distribution *d, component_t component, architecture_t architecture, const struct exportmode *exportmode, bool readonly, bool noexport, const char *fakecomponentprefix, struct target **target) { return target_initialize(d, component, architecture, pt_deb, binaries_getversion, binaries_getinstalldata, binaries_getarchitecture, binaries_getfilekeys, binaries_getchecksums, binaries_getsourceandversion, binaries_doreoverride, binaries_retrack, binaries_complete_checksums, mprintf("%s/binary-%s", dist_component_name(component, fakecomponentprefix), atoms_architectures[architecture]), exportmode, readonly, noexport, target); }
/* * カーネルの起動 */ void sta_ker(void) { /* * TECSの初期化 */ #ifndef TOPPERS_OMIT_TECS initialize_tecs(); #endif /* TOPPERS_OMIT_TECS */ /* * ターゲット依存の初期化 */ target_initialize(); /* * 各モジュールの初期化 * * タイムイベント管理モジュールは他のモジュールより先に初期化 * する必要がある. */ initialize_kmm(); initialize_tmevt(); /*[ASPD1061]*/ initialize_object(); /* * 初期化ルーチンの実行 */ call_inirtn(); /* * 高分解能タイマの設定 */ current_hrtcnt = target_hrt_get_current(); /*[ASPD1063]*/ set_hrt_event(); /*[ASPD1064]*/ /* * カーネル動作の開始 */ kerflg = true; LOG_KER_ENTER(); start_dispatch(); assert(0); }
/* * カーネルの起動 * NMIを除く全ての割込みがマスクされた状態(全割込みロック状態に相当)で呼び出される. */ void sta_ker(void) { target_initialize(); initialize_object(); call_inirtn(); /* * カーネルの動作を開始する. */ kerflg = true; /* ディスパッチャを起動し,タスクの動作を開始する */ LOG_KER_ENTER(); start_dispatch(); assert(false); }
int main(void) { int rc = target_initialize(); if (rc < 0) { return 1; } target_gpio_led_init(); demo_printf("GPIO demo started\r\n"); /** * Initialize Kaa client. */ kaa_error_t error_code = kaa_client_create(&kaa_client, NULL); if (error_code) { demo_printf("Failed to create client context: %i\r\n", error_code); return 2; } error_code = kaa_profile_manager_set_endpoint_access_token(kaa_client_get_context(kaa_client)->profile_manager, DEMO_ACCESS_TOKEN); if (error_code) { demo_printf("Failed to set access token: %i\r\n", error_code); return 3; } error_code = kaa_event_manager_set_kaa_remote_control_ecf_device_info_request_listener(kaa_client_get_context(kaa_client)->event_manager, kaa_device_info_request, NULL); if (error_code) { demo_printf("Unable to set remote control listener: %i\r\n", error_code); return 4; } error_code = kaa_event_manager_set_kaa_remote_control_ecf_gpio_toggle_request_listener(kaa_client_get_context(kaa_client)->event_manager, kaa_GPIOToggle_info_request, NULL); if (error_code) { demo_printf("Unable to set GPIO listener: %i\r\n", error_code); return 5; } demo_printf("ACCESS_TOKEN :%s\r\n", DEMO_ACCESS_TOKEN); /** * Start Kaa client main loop. */ error_code = kaa_client_start(kaa_client, kaa_external_process_fn, NULL, 0); if (error_code) { demo_printf("Unable to start Kaa client: %i\r\n", error_code); return 6; } /** * Destroy Kaa client. */ kaa_client_destroy(kaa_client); demo_printf("GPIO demo stopped\r\n"); return error_code; }
int main(/*int argc, char *argv[]*/) { /** * Initialise a board */ int ret = target_initialize(); if (ret < 0) { /* If console is failed to initialise, you will not see this message */ demo_printf("Failed to initialise a target\r\n"); return EXIT_FAILURE; } demo_printf("Configuration demo started\r\n"); /** * Initialize Kaa client. */ kaa_error_t error_code = kaa_client_create(&kaa_client, NULL); if (error_code) { demo_printf("Failed create Kaa client\r\n"); return EXIT_FAILURE; } /* * Set the handler for configuration updates. */ kaa_configuration_root_receiver_t receiver = { NULL, &kaa_demo_configuration_receiver }; error_code = kaa_configuration_manager_set_root_receiver( kaa_client_get_context(kaa_client)->configuration_manager, &receiver); if (error_code) { demo_printf("Failed to add configuration receiver\r\n"); return EXIT_FAILURE; } /* * Display default configuration. */ kaa_demo_print_configuration_message( kaa_configuration_manager_get_configuration( kaa_client_get_context(kaa_client)->configuration_manager)); /* * Obtain and display endpoint ID (represented by the EP key hash). */ const uint8_t *endpoint_key_hash = NULL; size_t endpoint_key_hash_length = 0; ext_get_sha1_base64_public(&endpoint_key_hash, &endpoint_key_hash_length); printf("Endpoint ID: %.*s\r\n", (int)endpoint_key_hash_length, endpoint_key_hash); /** * Start Kaa client main loop. */ error_code = kaa_client_start(kaa_client, NULL, NULL, 0); if(error_code) { demo_printf("Failed to start Kaa main loop\r\n"); return EXIT_FAILURE; } /** * Destroy Kaa client. */ kaa_client_destroy(kaa_client); return EXIT_SUCCESS; }