/** @addtogroup usart_file USART peripheral API @ingroup peripheral_apis @author @htmlonly © @endhtmlonly 2009 Uwe Hermann This library supports the USART/UART in the STM32F series of ARM Cortex Microcontrollers by ST Microelectronics. Devices can have up to 3 USARTs and 2 UARTs. */ /* * This file is part of the libopencm3 project. * * Copyright (C) 2009 Uwe Hermann * * This library is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this library. If not, see . */ /**@{*/ #include #include /*---------------------------------------------------------------------------*/ /** @brief USART Set Baudrate. The baud rate is computed from the APB high-speed prescaler clock (for USART1/6) or the APB low-speed prescaler clock (for other USARTs). These values must be correctly set before calling this function (refer to the rcc_clock_setup-* functions in RCC). Note: For LPUART, baudrates over 2**24 (~16.7 Mbaud) may overflow the calculation and are therefore not supported by this function. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base @param[in] baud unsigned 32 bit. Baud rate specified in Hz. */ void usart_set_baudrate(uint32_t usart, uint32_t baud) { uint32_t clock = rcc_apb1_frequency; #if defined USART1 if ((usart == USART1) #if defined USART6 || (usart == USART6) #endif ) { clock = rcc_apb2_frequency; } #endif /* * Yes it is as simple as that. The reference manual is * talking about fractional calculation but it seems to be only * marketing babble to sound awesome. It is nothing else but a * simple divider to generate the correct baudrate. * * Note: We round() the value rather than floor()ing it, for more * accurate divisor selection. */ #ifdef LPUART1 if (usart == LPUART1) { USART_BRR(usart) = (clock / baud) * 256 + ((clock % baud) * 256 + baud / 2) / baud; return; } #endif USART_BRR(usart) = (clock + baud / 2) / baud; } /*---------------------------------------------------------------------------*/ /** @brief USART Set Word Length. The word length is set to 8 or 9 bits. Note that the last bit will be a parity bit if parity is enabled, in which case the data length will be 7 or 8 bits respectively. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base @param[in] bits unsigned 32 bit. Word length in bits 8 or 9. */ void usart_set_databits(uint32_t usart, uint32_t bits) { if (bits == 8) { USART_CR1(usart) &= ~USART_CR1_M; /* 8 data bits */ } else { USART_CR1(usart) |= USART_CR1_M; /* 9 data bits */ } } /*---------------------------------------------------------------------------*/ /** @brief USART Set Stop Bit(s). The stop bits are specified as 0.5, 1, 1.5 or 2. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base @param[in] stopbits unsigned 32 bit. Stop bits @ref usart_cr2_stopbits. */ void usart_set_stopbits(uint32_t usart, uint32_t stopbits) { uint32_t reg32; reg32 = USART_CR2(usart); reg32 = (reg32 & ~USART_CR2_STOPBITS_MASK) | stopbits; USART_CR2(usart) = reg32; } /*---------------------------------------------------------------------------*/ /** @brief USART Set Parity. The parity bit can be selected as none, even or odd. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base @param[in] parity unsigned 32 bit. Parity @ref usart_cr1_parity. */ void usart_set_parity(uint32_t usart, uint32_t parity) { uint32_t reg32; reg32 = USART_CR1(usart); reg32 = (reg32 & ~USART_PARITY_MASK) | parity; USART_CR1(usart) = reg32; } /*---------------------------------------------------------------------------*/ /** @brief USART Set Rx/Tx Mode. The mode can be selected as Rx only, Tx only or Rx+Tx. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base @param[in] mode unsigned 32 bit. Mode @ref usart_cr1_mode. */ void usart_set_mode(uint32_t usart, uint32_t mode) { uint32_t reg32; reg32 = USART_CR1(usart); reg32 = (reg32 & ~USART_MODE_MASK) | mode; USART_CR1(usart) = reg32; } /*---------------------------------------------------------------------------*/ /** @brief USART Set Hardware Flow Control. The flow control bit can be selected as none, RTS, CTS or RTS+CTS. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base @param[in] flowcontrol unsigned 32 bit. Flowcontrol @ref usart_cr3_flowcontrol. */ void usart_set_flow_control(uint32_t usart, uint32_t flowcontrol) { uint32_t reg32; reg32 = USART_CR3(usart); reg32 = (reg32 & ~USART_FLOWCONTROL_MASK) | flowcontrol; USART_CR3(usart) = reg32; } /*---------------------------------------------------------------------------*/ /** @brief USART Enable. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base */ void usart_enable(uint32_t usart) { USART_CR1(usart) |= USART_CR1_UE; } /*---------------------------------------------------------------------------*/ /** @brief USART Disable. At the end of the current frame, the USART is disabled to reduce power. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base */ void usart_disable(uint32_t usart) { USART_CR1(usart) &= ~USART_CR1_UE; } /*---------------------------------------------------------------------------*/ /** @brief USART Send Data Word with Blocking Blocks until the transmit data buffer becomes empty then writes the next data word for transmission. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base @param[in] data unsigned 16 bit. */ void usart_send_blocking(uint32_t usart, uint16_t data) { usart_wait_send_ready(usart); usart_send(usart, data); } /*---------------------------------------------------------------------------*/ /** @brief USART Read a Received Data Word with Blocking. Wait until a data word has been received then return the word. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base @returns unsigned 16 bit data word. */ uint16_t usart_recv_blocking(uint32_t usart) { usart_wait_recv_ready(usart); return usart_recv(usart); } /*---------------------------------------------------------------------------*/ /** @brief USART Receiver DMA Enable. DMA is available on: @li USART1 Rx DMA1 channel 5. @li USART2 Rx DMA1 channel 6. @li USART3 Rx DMA1 channel 3. @li UART4 Rx DMA2 channel 3. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base */ void usart_enable_rx_dma(uint32_t usart) { USART_CR3(usart) |= USART_CR3_DMAR; } /*---------------------------------------------------------------------------*/ /** @brief USART Receiver DMA Disable. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base */ void usart_disable_rx_dma(uint32_t usart) { USART_CR3(usart) &= ~USART_CR3_DMAR; } /*---------------------------------------------------------------------------*/ /** @brief USART Transmitter DMA Enable. DMA is available on: @li USART1 Tx DMA1 channel 4. @li USART2 Tx DMA1 channel 7. @li USART3 Tx DMA1 channel 2. @li UART4 Tx DMA2 channel 5. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base */ void usart_enable_tx_dma(uint32_t usart) { USART_CR3(usart) |= USART_CR3_DMAT; } /*---------------------------------------------------------------------------*/ /** @brief USART Transmitter DMA Disable. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base */ void usart_disable_tx_dma(uint32_t usart) { USART_CR3(usart) &= ~USART_CR3_DMAT; } /*---------------------------------------------------------------------------*/ /** @brief USART Receiver Interrupt Enable. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base */ void usart_enable_rx_interrupt(uint32_t usart) { USART_CR1(usart) |= USART_CR1_RXNEIE; } /*---------------------------------------------------------------------------*/ /** @brief USART Receiver Interrupt Disable. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base */ void usart_disable_rx_interrupt(uint32_t usart) { USART_CR1(usart) &= ~USART_CR1_RXNEIE; } /*---------------------------------------------------------------------------*/ /** @brief USART Transmitter Interrupt Enable. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base */ void usart_enable_tx_interrupt(uint32_t usart) { USART_CR1(usart) |= USART_CR1_TXEIE; } /*---------------------------------------------------------------------------*/ /** @brief USART Transmitter Interrupt Disable. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base */ void usart_disable_tx_interrupt(uint32_t usart) { USART_CR1(usart) &= ~USART_CR1_TXEIE; } /*---------------------------------------------------------------------------*/ /** @brief USART Error Interrupt Enable. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base */ void usart_enable_error_interrupt(uint32_t usart) { USART_CR3(usart) |= USART_CR3_EIE; } /*---------------------------------------------------------------------------*/ /** @brief USART Error Interrupt Disable. @param[in] usart unsigned 32 bit. USART block register address base @ref usart_reg_base */ void usart_disable_error_interrupt(uint32_t usart) { USART_CR3(usart) &= ~USART_CR3_EIE; } /**@}*/