#nRF UART(E) instance configuration # Copyright (c) 2023 Nordic Semiconductor ASA # SPDX-License-Identifier: Apache-2.0 config UART_$(nrfx_uart_num)_INTERRUPT_DRIVEN bool "Interrupt support on port $(nrfx_uart_num)" depends on UART_INTERRUPT_DRIVEN select UART_ASYNC_TO_INT_DRIVEN_API if !UART_NRFX_UARTE_LEGACY_SHIM default y help This option enables UART interrupt support on port $(nrfx_uart_num). config UART_$(nrfx_uart_num)_ASYNC bool "Asynchronous API support on port $(nrfx_uart_num)" depends on UART_ASYNC_API && !UART_$(nrfx_uart_num)_INTERRUPT_DRIVEN default y help This option enables UART Asynchronous API support on port $(nrfx_uart_num). config UART_$(nrfx_uart_num)_ENHANCED_POLL_OUT bool "Efficient poll out on port $(nrfx_uart_num)" depends on !SOC_SERIES_NRF54LX default y depends on HAS_HW_NRF_UARTE$(nrfx_uart_num) depends on HAS_HW_NRF_PPI || HAS_HW_NRF_DPPIC select NRFX_PPI if HAS_HW_NRF_PPI select NRFX_DPPI if HAS_HW_NRF_DPPIC help When enabled, polling out does not trigger interrupt which stops TX. Feature uses a PPI channel. config NRFX_UARTE$(nrfx_uart_num) def_bool y if HAS_HW_NRF_UARTE$(nrfx_uart_num) && !UART_NRFX_UARTE_LEGACY_SHIM config UART_$(nrfx_uart_num)_NRF_PARITY_BIT bool "Parity bit" help Enable parity bit. config UART_$(nrfx_uart_num)_NRF_TX_BUFFER_SIZE int "Size of RAM buffer" depends on HAS_HW_NRF_UARTE$(nrfx_uart_num) depends on UART_NRFX_UARTE_LEGACY_SHIM range 1 65535 default 32 help Size of the transmit buffer for API function: fifo_fill. This value is limited by range of TXD.MAXCNT register for particular SoC. config UART_$(nrfx_uart_num)_NRF_HW_ASYNC bool "Use hardware RX byte counting" depends on HAS_HW_NRF_UARTE$(nrfx_uart_num) depends on UART_ASYNC_API depends on UART_NRFX_UARTE_LEGACY_SHIM select NRFX_PPI if HAS_HW_NRF_PPI select NRFX_DPPI if HAS_HW_NRF_DPPIC help If default driver uses interrupts to count incoming bytes, it is possible that with higher speeds and/or high cpu load some data can be lost. It is recommended to use hardware byte counting in such scenarios. Hardware RX byte counting requires timer instance and one PPI channel. config UART_$(nrfx_uart_num)_NRF_ASYNC_LOW_POWER bool "Low power mode" depends on HAS_HW_NRF_UARTE$(nrfx_uart_num) depends on UART_ASYNC_API depends on UART_NRFX_UARTE_LEGACY_SHIM help When enabled, UARTE is enabled before each TX or RX usage and disabled when not used. Disabling UARTE while in idle allows to achieve lowest power consumption. It is only feasible if receiver is not always on. config UART_$(nrfx_uart_num)_NRF_HW_ASYNC_TIMER int "Timer instance" depends on UART_$(nrfx_uart_num)_NRF_HW_ASYNC config UART_$(nrfx_uart_num)_TX_CACHE_SIZE int "TX cache buffer size" depends on !UART_NRFX_UARTE_LEGACY_SHIM default 8 help For UARTE, TX cache buffer is used when provided TX buffer is not located in memory which can be used by the EasyDMA. config UART_$(nrfx_uart_num)_RX_CACHE_SIZE int "RX cache buffer size" depends on !UART_NRFX_UARTE_LEGACY_SHIM default 32 if $(dt_nodelabel_has_compat,ram3x,$(DT_COMPAT_MMIO_SRAM)) default 5 range 5 255 help For UARTE, RX cache buffer is used when provided RX buffer is not located in memory which can be used by the EasyDMA. It is also used to store flushed data. config UART_$(nrfx_uart_num)_A2I_RX_SIZE depends on !UART_NRFX_UARTE_LEGACY_SHIM int "Asynchronous to interrupt driven adaptation layer RX buffer size" default 64 if UART_$(nrfx_uart_num)_INTERRUPT_DRIVEN default 0 help Amount of space dedicated for RX. It is divided into chunks with some amount of that space used for control data. config UART_$(nrfx_uart_num)_A2I_RX_BUF_COUNT depends on !UART_NRFX_UARTE_LEGACY_SHIM int "Asynchronous to interrupt driven adaptation layer RX buffer count" default 8 if UART_$(nrfx_uart_num)_INTERRUPT_DRIVEN default 0 help Number of chunks into RX space is divided. config UART_$(nrfx_uart_num)_GPIO_MANAGEMENT bool "GPIO management on port $(nrfx_uart_num)" depends on PM_DEVICE default y help If enabled, the driver will configure the GPIOs used by the uart to their default configuration when device is powered down. The GPIOs will be configured back to correct state when UART is powered up.