// 0 = success // 1 = init failed // 2 = set tx_power failed // 3 = enabled failed // 4 = set channel selection policy failed int RFduinoGZLL_begin(device_t device) { _device = device; if (! nrf_gzll_init(device == HOST ? NRF_GZLL_MODE_HOST : NRF_GZLL_MODE_DEVICE)) return 1; nrf_gzll_tx_power_t tx_power; if (RFduinoGZLL_tx_power_level <= -20) tx_power = NRF_GZLL_TX_POWER_N20_DBM; else if (RFduinoGZLL_tx_power_level <= -16) tx_power = NRF_GZLL_TX_POWER_N16_DBM; else if (RFduinoGZLL_tx_power_level <= -12) tx_power = NRF_GZLL_TX_POWER_N12_DBM; else if (RFduinoGZLL_tx_power_level <= -16) tx_power = NRF_GZLL_TX_POWER_N16_DBM; else if (RFduinoGZLL_tx_power_level <= -8) tx_power = NRF_GZLL_TX_POWER_N8_DBM; else if (RFduinoGZLL_tx_power_level <= -4) tx_power = NRF_GZLL_TX_POWER_N4_DBM; else if (RFduinoGZLL_tx_power_level <= 0) tx_power = NRF_GZLL_TX_POWER_0_DBM; else tx_power = NRF_GZLL_TX_POWER_4_DBM; if (! nrf_gzll_set_tx_power(tx_power)) return 2; if (! nrf_gzll_set_device_channel_selection_policy(NRF_GZLL_DEVICE_CHANNEL_SELECTION_POLICY_USE_CURRENT)) return 4; if (RFduinoGZLL_host_base_address ) { uint8_t msb = RFduinoGZLL_host_base_address >> 24; if (msb == 0x55 || msb == 0xAA) return 5; // msb of base address should not be alternating 0s and 1s if ( !nrf_gzll_set_base_address_0(RFduinoGZLL_host_base_address) ) return 5; } if (RFduinoGZLL_device_base_address) { uint8_t msb = RFduinoGZLL_device_base_address >> 24; if (msb == 0x55 || msb == 0xAA) return 6; // msb of base address should not be alternating 0s and 1s if ( !nrf_gzll_set_base_address_1(RFduinoGZLL_device_base_address) ) return 6; } if (! nrf_gzll_enable()) return 3; RFduinoGZLL_enabled = 1; return 0; }
int main() { bool init_ok = false; //lint -save -e514 Unusual use of a boolean expression (use of &= assignment). // Configure input pins nrf_gpio_pin_dir_set(BUTTON_SEND_MOUSE_DATA, NRF_GPIO_PIN_DIR_INPUT); nrf_gpio_pin_dir_set(BUTTON_SEND_KEYBOARD_DATA, NRF_GPIO_PIN_DIR_INPUT); nrf_gpio_port_dir_set(LED_PORT, NRF_GPIO_PORT_DIR_OUTPUT); // Initialize and enable "mouse sensor" init_ok = mouse_sensor_init(MOUSE_SENSOR_SAMPLE_PERIOD_8_MS); mouse_sensor_enable(); // Initialize and enable Gazell init_ok &= nrf_gzll_init(NRF_GZLL_MODE_DEVICE); // Ensure Gazell parameters are configured. init_ok &= nrf_gzll_set_max_tx_attempts(150); init_ok &= nrf_gzll_set_device_channel_selection_policy(NRF_GZLLDE_DEVICE_CHANNEL_SELECTION_POLICY); init_ok &= nrf_gzll_set_timeslot_period(NRF_GZLLDE_RXPERIOD_DIV_2); init_ok &= nrf_gzll_set_sync_lifetime(0); // Asynchronous mode, more efficient for pairing. switch(gzp_get_pairing_status()) { case -2: host_id_received = false; system_addr_received = false; break; case -1: host_id_received = false; system_addr_received = true; break; default: host_id_received = true; system_addr_received = true; } gzp_init(); init_ok &= nrf_gzll_enable(); if(init_ok) { while(1) { // If BUTTON_SEND_MOUSE_DATA button is pressed. if(nrf_gpio_pin_read(BUTTON_SEND_MOUSE_DATA) == 0) { read_mouse_and_send(); } // If BUTTON_SEND_KEYBOARD_DATA button is pressed if(nrf_gpio_pin_read(BUTTON_SEND_KEYBOARD_DATA) == 0) { read_keyboard_and_send(); } /* CPU sleep. We will wake up from all enabled interrupts, which here are the internal Gazell interrupts and the "mouse sensor" internal timer interrupt. */ //__WFI(); } } else { /* The initialization failed. Use nrf_gzll_get_error_code() to investigate the cause. */ } //lint -restore }
int main() { bool init_ok = false; uint32_t err_code; //lint -save -e514 Unusual use of a boolean expression (use of &= assignment). const app_uart_comm_params_t comm_params = { RX_PIN_NUMBER, TX_PIN_NUMBER, RTS_PIN_NUMBER, CTS_PIN_NUMBER, APP_UART_FLOW_CONTROL_ENABLED, false, UART_BAUDRATE_BAUDRATE_Baud38400 }; APP_UART_FIFO_INIT(&comm_params, UART_RX_BUF_SIZE, UART_TX_BUF_SIZE, uart_error_handle, APP_IRQ_PRIORITY_LOW, err_code); (void)err_code; UNUSED_VARIABLE(bsp_init(BSP_INIT_BUTTONS,0,NULL)); printf("Desktop emulator example\n"); // Initialize and enable "mouse sensor" init_ok = mouse_sensor_init(MOUSE_SENSOR_SAMPLE_PERIOD_8_MS); mouse_sensor_enable(); // Initialize and enable Gazell init_ok &= nrf_gzll_init(NRF_GZLL_MODE_DEVICE); // Ensure Gazell parameters are configured. init_ok &= nrf_gzll_set_max_tx_attempts(150); init_ok &= nrf_gzll_set_device_channel_selection_policy(NRF_GZLLDE_DEVICE_CHANNEL_SELECTION_POLICY); init_ok &= nrf_gzll_set_timeslot_period(NRF_GZLLDE_RXPERIOD_DIV_2); init_ok &= nrf_gzll_set_sync_lifetime(0); // Asynchronous mode, more efficient for pairing. switch(gzp_get_pairing_status()) { case -2: host_id_received = false; system_addr_received = false; break; case -1: host_id_received = false; system_addr_received = true; break; default: host_id_received = true; system_addr_received = true; } gzp_init(); init_ok &= nrf_gzll_enable(); if(init_ok) { while(1) { // If BUTTON_SEND_MOUSE_DATA button is pressed. bool send_mouse_data_button_pressed; err_code = bsp_button_is_pressed(SEND_MOUSE_DATA_BUTTON_ID,&(send_mouse_data_button_pressed)); if( send_mouse_data_button_pressed) { read_mouse_and_send(); } else { //indicate mouse button not pressed } // If BUTTON_SEND_KEYBOARD_DATA button is pressed bool send_keyboard_data_button_pressed; err_code = bsp_button_is_pressed(SEND_KEYBOARD_DATA_BUTTON_ID,&(send_keyboard_data_button_pressed)); if(send_keyboard_data_button_pressed) { read_keyboard_and_send(); } else { //indicate keyboard button not pressed } error_report(); /* CPU sleep. We will wake up from all enabled interrupts, which here are the internal Gazell interrupts and the "mouse sensor" internal timer interrupt. */ //__WFI(); } } else { /* The initialization failed. Use nrf_gzll_get_error_code() to investigate the cause. */ } //lint -restore }