# Copyright (c) 2020 STMICROELECTRONICS # SPDX-License-Identifier: Apache-2.0 # Common fields for STM32 UART peripherals. description: STM32 UART-BASE include: [uart-controller.yaml, pinctrl-device.yaml, reset-device.yaml] properties: reg: required: true clocks: required: true resets: required: true interrupts: required: true single-wire: type: boolean description: | Enable the single wire half-duplex communication. Using this mode, TX and RX lines are internally connected and only TX pin is used afterwards and should be configured. RX/TX conflicts must be handled on user side. tx-rx-swap: type: boolean description: Swap the TX and RX pins. Used in case of a cross wired connection. tx-invert: type: boolean description: | Invert the binary logic of tx pin. When enabled, physical logic levels are inverted and we use 1=Low, 0=High instead of 1=High, 0=Low. rx-invert: type: boolean description: | Invert the binary logic of rx pin. When enabled, physical logic levels are inverted and we use 1=Low, 0=High instead of 1=High, 0=Low. pinctrl-0: required: true pinctrl-names: required: true wakeup-line: type: int description: | EXTI line number matching the device wakeup interrupt mask register. This property is required on stm32 devices where the wakeup interrupt signal could be configured masked at boot (sm32wl55 for instance), preventing the device to wakeup the core from stop mode(s). Valid range: 0 - 31 de-enable: type: boolean description: | Enable activating an external transeiver through the DE pin which must also be configured using pinctrl. de-assert-time: type: int default: 0 description: | Defines the time between the activation of the DE signal and the beginning of the start bit. It is expressed in 16th of a bit time. Valid range: 0 - 31 de-deassert-time: type: int default: 0 description: | Defines the time between the activation of the DE signal and the beginning of the start bit. It is expressed in 16th of a bit time. Valid range: 0 - 31 de-invert: type: boolean description: | Invert the binary logic of the de pin. When enabled, physical logic levels are inverted and we use 1=Low, 0=High instead of 1=High, 0=Low.