int reset_default_coloring(ZWay zway) { ZWDevicesList list = zway_devices_list(zway); if (list != NULL) { int i = 0; while (list[i]) { zway_cc_switch_binary_set(zway, list[i], 0, 0, NULL, NULL, NULL); i++; } } zway_devices_list_free(list); return 0; }
int reset_default_coloring(ZWay zway) { ZWCSTR vendor = "Fibar Group"; ZWDevicesList list = zway_devices_list(zway); if (list != NULL) { printf("remove inactive devices: \n"); int i = 0; while (list[i]) { zway_log(zway, Debug, "strcmp: %i", strcmp(get_vendor_string(zway, list[i]), vendor)); if (strcmp(get_vendor_string(zway, list[i]), vendor) == 0) { zway_cc_configuration_set(zway, list[i], 0, 0x3D, 1, 0x01, NULL, NULL, NULL); //coloring //ZWay zway, ZWBYTE node_id, ZWBYTE instance_id, ZWBYTE parameter, int value, ZWBYTE size, ZJobCustomCallback successCallback, ZJobCustomCallback failureCallback, void* callbackArg); } i++; } } zway_devices_list_free(list); return 0; }
void appendHandlers() { char cmd, cc_cmd, holder_root; ZWBYTE dev, inst, cc, cc_val; char data_path[256]; char cmd_buffer[256]; ZWBOOL was_idle = FALSE; ZWBOOL basic_level_attached = FALSE; int running = TRUE; if (!zway_is_running(zway)) { running = FALSE; break; } while (true) { if (!zway_is_idle(zway)) { sleep_ms(10); break; } } ZDataHolder basic_level_holder_power, basic_level_holder_meter; ZWDevicesList list = zway_devices_list(zway); if (list != NULL) { int i = 0; while (list[i]) { zdata_acquire_lock(ZDataRoot(zway)); if (list[i] > 1) { zway_log(zway, Debug, ZSTR("Search data holder for device %i"), list[i]); basic_level_holder_meter = zway_find_device_instance_cc_data(zway, list[i], 0, 0x31, "4.val"); if (basic_level_holder_meter) { basic_level_attached = (zdata_add_callback(basic_level_holder_meter, (ZDataChangeCallback) handle_watt_value, FALSE, NULL) == NoError); if (basic_level_attached) { zway_log(zway, Critical, ZSTR("Basic.data.level holder handler attached to device %i instance 0"), list[i]); } else { zway_log(zway, Critical, ZSTR("Could not attache handler to device %i"), list[i]); } } basic_level_holder_power = zway_find_device_instance_cc_data(zway, list[i], 0, 0x32, "0.val"); if (basic_level_holder_power) { basic_level_attached = (zdata_add_callback(basic_level_holder_power, (ZDataChangeCallback) handle_power_value, FALSE, NULL) == NoError); if (basic_level_attached) { zway_log(zway, Critical, ZSTR("Basic.data.level holder handler attached to device %i instance 0"), list[i]); } else { zway_log(zway, Critical, ZSTR("Could not attache handler to device %i"), list[i]); } } ZDataHolder dataHolder = zway_find_device_instance_cc_data(zway, list[i], 0, 0x25, "level"); if (dataHolder) { zdata_add_callback(dataHolder, (ZDataChangeCallback) dataChangeCallback, TRUE, NULL); } } zdata_release_lock(ZDataRoot(zway)); i++; } basic_level_attached = TRUE; } }
int do_work(ZWay zway) { print_help(); char cmd, cc_cmd, holder_root; ZWBYTE dev, inst, cc, cc_val, nconv; char data_path[256]; char cmd_buffer[256]; ZWBOOL was_idle = FALSE; ZWBOOL basic_level_attached = FALSE; int skip = 0; int running = TRUE; int level = 0; /* while(1){ digitalWrite(LED1,1); delay(500); digitalWrite(LED1,0); delay(500); }*/ while (running) { /* printf("\n\n\n"); zdata_acquire_lock(ZDataRoot(zway)); level = get_data(zway, zway_find_device_instance_cc_data(zway, '2', '0', 32, 'level')); zdata_release_lock(ZDataRoot(zway));*/ /* zdata_acquire_lock(ZDataRoot(zway)); level = get_data(zway, zway_find_device_data(zway, '1', 'level')); zdata_release_lock(ZDataRoot(zway)); */ printf("data ::::::: %d", int_val2); //zdata_add_callback(zway_find_device_instance_cc_data(zway,1,0,32,"mylevel"),[ZDataChangeCallback] callback, FALSE,[void*]arg); printf("\nLOG,while1\n"); if (!zway_is_running(zway)) //this is almost can not be execute { running = FALSE; break; } printf("\nLOG,while2\n"); if (!zway_is_idle(zway)) //maybe wait for { printf("\nLOG, sleep\n"); sleep_ms(10); continue; } skip = 0; /* printf("\nLOG,while3\n"); if (!basic_level_attached) { printf("\nLOG,basic level start\n"); ZDataHolder basic_level_holder; zdata_acquire_lock(ZDataRoot(zway)); basic_level_holder = zway_find_device_instance_cc_data(zway, 8, 0, 0x20, "mylevel"); // basic_level_holder = zway_find_device_instance_cc_data(zway, 8, 0, 0x26, "level"); if (basic_level_holder) { printf("\nLOG,basic level holder\n"); basic_level_attached = (zdata_add_callback(basic_level_holder, (ZDataChangeCallback) print_basic_holder, FALSE, NULL) == NoError); if (basic_level_attached){ zway_log(zway, Debug, ZSTR("Basic.data.mylevel holder handler attached to device 8 instance 0")); printf("\nLOG,basic level attatched\n"); } } zdata_release_lock(ZDataRoot(zway)); }*/ printf("\nLOG,while4\n"); if (!basic_level_attached) { printf("\nLOG,basic level start\n"); ZDataHolder basic_level_holder; zdata_acquire_lock(ZDataRoot(zway)); // basic_level_holder = zway_find_device_instance_cc_data(zway, 8, 0, 0x20, "mylevel"); basic_level_holder = zway_find_device_instance_cc_data(zway, 2, 0, 32, "level"); if (basic_level_holder) { printf("\nLOG,basic level holder\n"); basic_level_attached = (zdata_add_callback(basic_level_holder, (ZDataChangeCallback) print_basic_holder, FALSE, NULL) == NoError); if (basic_level_attached) { zway_log(zway, Debug, ZSTR( "Basic.data.mylevel holder handler attached to device 8 instance 0")); printf("\nLOG,basic level attatched\n"); pthread_create(&pthread, NULL, observer_function, NULL); pthread_detach(pthread); } } zdata_release_lock(ZDataRoot(zway)); } printf("> "); fgets(cmd_buffer, 255, stdin); was_idle = FALSE; nconv = sscanf(cmd_buffer, "%c %*s", &cmd); printf("nconv : %hhd", &nconv); if (nconv > 0) { switch (cmd) { case 'h': print_help(); break; case 'd': nconv = sscanf(cmd_buffer, "%c %c", &cmd, &holder_root); if (nconv > 1) { switch (holder_root) { case 'r': nconv = sscanf(cmd_buffer, "%c %c %s", &cmd, &holder_root, data_path); if (nconv >= 2) { if (nconv == 2) { data_path[0] = '.'; data_path[1] = '\0'; } zdata_acquire_lock(ZDataRoot(zway)); dump_data(zway, zway_find_controller_data(zway, data_path)); zdata_release_lock(ZDataRoot(zway)); } break; case 'd': nconv = sscanf(cmd_buffer, "%c %c %hhd %s", &cmd, &holder_root, &dev, data_path); if (nconv >= 3) { if (nconv == 3) { data_path[0] = '.'; data_path[1] = '\0'; } zdata_acquire_lock(ZDataRoot(zway)); dump_data(zway, zway_find_device_data(zway, dev, data_path)); zdata_release_lock(ZDataRoot(zway)); } break; case 'i': nconv = sscanf(cmd_buffer, "%c %c %hhd %hhd %s", &cmd, &holder_root, &dev, &inst, data_path); if (nconv >= 4) { if (nconv == 4) { data_path[0] = '.'; data_path[1] = '\0'; } zdata_acquire_lock(ZDataRoot(zway)); dump_data(zway, zway_find_device_instance_data(zway, dev, inst, data_path)); zdata_release_lock(ZDataRoot(zway)); } break; case 'c': nconv = sscanf(cmd_buffer, "%c %c %hhd %hhd %hhd %s", &cmd, &holder_root, &dev, &inst, &cc, data_path); if (nconv >= 5) { if (nconv == 5) { data_path[0] = '.'; data_path[1] = '\0'; } zdata_acquire_lock(ZDataRoot(zway)); dump_data(zway, zway_find_device_instance_cc_data(zway, dev, inst, cc, data_path)); zdata_release_lock(ZDataRoot(zway)); } break; } } break; case 's': nconv = sscanf(cmd_buffer, "%c %hhd %hhd %hhd %c %hhd", &cmd, &dev, &inst, &cc, &cc_cmd, &cc_val); printf("nconv : %hhd \n", &nconv); /* if (nconv == 6 && cmd == 's' && cc == 0x20 && cc_cmd == 's') { printf("nconv2 : %hhd \n",&nconv); printf("if gogo111111111111111111111111111111111111111111111111111111111111111111\n"); zdata_acquire_lock(ZDataRoot(zway)); zway_cc_switch_multilevel_set(zway, dev, inst, cc_val, 0x01 ,NULL ,NULL,0); zdata_release_lock(ZDataRoot(zway)); } else if (nconv == 5 && cmd == 's' && cc == 0x20 && cc_cmd == 'g') { printf("elseif gogo\n"); zdata_acquire_lock(ZDataRoot(zway)); zway_cc_switch_multilevel_get(zway, dev, inst,NULL,NULL,0); zdata_release_lock(ZDataRoot(zway)); } */ if (nconv == 6 && cmd == 's' && cc == 0x20 && cc_cmd == 's') { printf("nconv2 : %hhd \n", &nconv); printf( "if gogo111111111111111111111111111111111111111111111111111111111111111111\n"); zdata_acquire_lock(ZDataRoot(zway)); zway_cc_basic_set(zway, dev, inst, cc_val, NULL, NULL, NULL); zdata_release_lock(ZDataRoot(zway)); } else if (nconv == 5 && cmd == 's' && cc == 0x20 && cc_cmd == 'g') { printf("elseif gogo\n"); zdata_acquire_lock(ZDataRoot(zway)); zway_cc_basic_get(zway, dev, inst, NULL, NULL, NULL); zdata_release_lock(ZDataRoot(zway)); } else if (nconv == 6 && cmd == 's' && cc == 0x26 && cc_cmd == 's') { printf("nconv2 : %hhd \n", &nconv); printf( "if gogo333333333333333333333333333333333333333333333333333333333\n"); zdata_acquire_lock(ZDataRoot(zway)); zway_cc_switch_multilevel_set(zway, dev, inst, cc_val, 0x01, NULL, NULL, 0); zdata_release_lock(ZDataRoot(zway)); } break; case 'n': nconv = sscanf(cmd_buffer, "%c %hhd", &cmd, &dev); if (nconv == 2) zway_fc_request_node_information(zway, dev, NULL, NULL, NULL); break; case 'm': test_memory(zway); break; case 'a': zway_fc_add_node_to_network(zway, TRUE, TRUE, NULL, NULL, NULL); break; case 'A': zway_fc_add_node_to_network(zway, FALSE, TRUE, NULL, NULL, NULL); break; case 'e': zway_fc_remove_node_from_network(zway, TRUE, TRUE, NULL, NULL, NULL); break; case 'x': running = FALSE; break; case 'S': test_save(zway); break; case 'R': test_restore(zway); break; case 'q': // digitalWrite(LED1, 1); break; case 'w': // digitalWrite(LED1, 0); break; case 'l': nconv = sscanf(cmd_buffer, "%c %hhd %hhd", &cmd, &dev, &inst); switch (nconv) { case 1: { ZWDevicesList list = zway_devices_list(zway); if (list != NULL) { int i = 0; printf("Devices list: "); while (list[i]) { printf("%i ", list[i]); i++; } zway_devices_list_free(list); printf("\n"); } else printf("Error happened requesting devices list\n"); } break; case 2: { ZWInstancesList list = zway_instances_list(zway, dev); if (list != NULL) { int i = 0; printf("Instances list for device %i: ", dev); while (list[i]) { printf("%i ", list[i]); i++; } zway_instances_list_free(list); printf("\n"); } else printf("Error happened requesting instances list\n"); } break; case 3: { ZWCommandClassesList list = zway_command_classes_list(zway, dev, inst); if (list != NULL) { int i = 0; printf( "Command Classes list for device %i instance %i: ", dev, inst); while (list[i]) { printf("%02x ", list[i]); i++; } zway_command_classes_list_free(list); printf("\n"); } else printf( "Error happened requesting command classes list\n"); } break; } break; } } } return 0; }