static gboolean adapter_insert(GtkTreeModel *model, GtkTreePath *path, GtkTreeIter *iter, gpointer user_data) { adapter_data *adapter; adapter = adapter_alloc(model, path, iter, user_data); if (adapter == NULL) return FALSE; adapter_create(adapter); return FALSE; }
struct btd_adapter *btd_manager_register_adapter(int id, gboolean up) { struct btd_adapter *adapter; const char *path; adapter = manager_find_adapter_by_id(id); if (adapter) { error("Unable to register adapter: hci%d already exist", id); return NULL; } adapter = adapter_create(connection, id); if (!adapter) return NULL; adapters = g_slist_append(adapters, adapter); if (!adapter_init(adapter, up)) { adapters = g_slist_remove(adapters, adapter); btd_adapter_unref(adapter); return NULL; } path = adapter_get_path(adapter); g_dbus_emit_signal(connection, "/", MANAGER_INTERFACE, "AdapterAdded", DBUS_TYPE_OBJECT_PATH, &path, DBUS_TYPE_INVALID); manager_update_adapters(); btd_stop_exit_timer(); if (default_adapter_id < 0) manager_set_default_adapter(id); if (main_opts.did_source) btd_adapter_set_did(adapter, main_opts.did_vendor, main_opts.did_product, main_opts.did_version, main_opts.did_source); DBG("Adapter %s registered", path); return btd_adapter_ref(adapter); }
int manager_register_adapter(int id, gboolean devup) { struct btd_adapter *adapter; adapter = manager_find_adapter_by_id(id); if (adapter) { error("Unable to register adapter: hci%d already exist", id); return -1; } adapter = adapter_create(connection, id, devup); if (!adapter) return -1; adapters = g_slist_append(adapters, adapter); return 0; }
int perftest(int argc, char *argv[]) { struct PerfTest perftest[1]; struct ZoneFileParser *parser; struct Catalog *db; size_t i; perftest->loop_count = 10000000; /* * Create a pseudo-network subsystem for generating packets */ perftest->server.parent = perftest; perftest->server.adapter = adapter_create( perftest_alloc_packet, perftest_server_to_client_response, &perftest->server); adapter_add_ipv4(perftest->server.adapter, 0xC0A80101, 0xFFFFffff); /* create a catalog/database, this is where all the parsed zonefile * records will be put */ perftest->db = catalog_create(); perftest->thread->catalog = perftest->db; db = perftest->db; /* * Parse a sample zone */ parser = zonefile_begin( example_origin, /* origin */ 60, /* TTL */ 10000, /* filesize */ "<perftest>", /* filename */ zonefile_load, /* callback */ db, /* callback data */ 0 ); zonefile_set_singlestep(parser); for (i=0; perftest_zone[i]; i++) { zonefile_parse(parser, (const unsigned char*)perftest_zone[i], strlen(perftest_zone[i]) ); } zonefile_end(parser); /* * Send packets. This creates one thread per CPU processing requests. */ { unsigned threads_desired = pixie_cpu_get_count(); uint64_t start, stop; double requests_per_second; fprintf(stderr, "running %u threads\n", threads_desired); start = pixie_gettime(); for (i=0; i<threads_desired; i++) { __sync_fetch_and_add(&threads_running, 1); pixie_begin_thread((void(*)(void*))run_perf, 0, perftest); } while (threads_running) pixie_usleep(1000); stop = pixie_gettime(); requests_per_second = 1000000.0 * (1.0 * threads_desired * perftest->loop_count) / (stop - start); fprintf(stderr, "queries = %u\n", (unsigned)(threads_desired * perftest->loop_count)); fprintf(stderr, "seconds = %5.3f\n", (stop - start)/1000000.0); fprintf(stderr, "queries/second = %5.3f\n", requests_per_second); } exit(1); return 0; }