/****************************************************************************** * The MIT License * * Copyright (c) 2010 Perry Hung. * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, copy, * modify, merge, publish, distribute, sublicense, and/or sell copies * of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. *****************************************************************************/ /** * @file usart.c * @author Marti Bolivar , * Perry Hung * @brief USART control routines */ #include "usart.h" #define USART_TX_IRQ /* * Devices */ static usart_dev usart1 = { .regs = USART1_BASE, .max_baud = 4500000UL, .clk_id = RCC_USART1, .irq_num = NVIC_USART1 }; /** USART1 device */ usart_dev *USART1 = &usart1; static usart_dev usart2 = { .regs = USART2_BASE, .max_baud = 2250000UL, .clk_id = RCC_USART2, .irq_num = NVIC_USART2 }; /** USART2 device */ usart_dev *USART2 = &usart2; static usart_dev usart3 = { .regs = USART3_BASE, .max_baud = 2250000UL, .clk_id = RCC_USART3, .irq_num = NVIC_USART3 }; /** USART3 device */ usart_dev *USART3 = &usart3; #ifdef STM32_HIGH_DENSITY static usart_dev uart4 = { .regs = UART4_BASE, .max_baud = 2250000UL, .clk_id = RCC_UART4, .irq_num = NVIC_UART4 }; /** UART4 device */ usart_dev *UART4 = &uart4; static usart_dev uart5 = { .regs = UART5_BASE, .max_baud = 2250000UL, .clk_id = RCC_UART5, .irq_num = NVIC_UART5 }; /** UART5 device */ usart_dev *UART5 = &uart5; #endif /** * @brief Initialize a serial port. * @param dev Serial port to be initialized */ void usart_init(usart_dev *dev) { rb_init(&dev->rbRX, USART_RX_BUF_SIZE, dev->rx_buf); rb_init(&dev->rbTX, USART_TX_BUF_SIZE, dev->tx_buf); rcc_clk_enable(dev->clk_id); nvic_irq_enable(dev->irq_num); } /** * @brief Configure a serial port's baud rate. * * @param dev Serial port to be configured * @param clock_speed Clock speed, in megahertz. * @param baud Baud rate for transmit/receive. */ void usart_set_baud_rate(usart_dev *dev, uint32 baud) { uint32 integer_part; uint32 fractional_part; uint32 tmp; uint32 clock_speed = rcc_dev_clk_speed(dev->clk_id); /* See ST RM0008 for the details on configuring the baud rate register */ integer_part = (25 * clock_speed) / (4 * baud); tmp = (integer_part / 100) << 4; fractional_part = integer_part - (100 * (tmp >> 4)); tmp |= (((fractional_part * 16) + 50) / 100) & ((uint8)0x0F); dev->regs->BRR = (uint16)tmp; } /** * @brief Enable a serial port. * * USART is enabled in single buffer transmission mode, multibuffer * receiver mode, 8n1. * * Serial port must have a baud rate configured to work properly. * * @param dev Serial port to enable. * @see usart_set_baud_rate() */ void usart_enable(usart_dev *dev) { usart_reg_map *regs = dev->regs; regs->CR1 = USART_CR1_TE | USART_CR1_RE | USART_CR1_RXNEIE; regs->CR1 |= USART_CR1_UE; } /** * @brief Enable serial port tx interrupt. * * @param dev Serial port. */ void usart_tx_irq_enable(usart_dev *dev) { bb_peri_set_bit(&dev->regs->CR1, USART_CR1_TXEIE_BIT, 1); } /** * @brief Disable serial port tx interrupt. * * @param dev Serial port. */ void usart_tx_irq_disable(usart_dev *dev) { bb_peri_set_bit(&dev->regs->CR1, USART_CR1_TXEIE_BIT, 0); } /** * @brief Turn off a serial port. * @param dev Serial port to be disabled */ void usart_disable(usart_dev *dev) { /* FIXME this misbehaves if you try to use PWM on TX afterwards */ usart_reg_map *regs = dev->regs; // flush output buffer while(usart_data_pending(dev) > 0) ; /* TC bit must be high before disabling the USART */ while((regs->CR1 & USART_CR1_UE) && !(regs->SR & USART_SR_TC)) ; /* Disable UE */ regs->CR1 &= ~USART_CR1_UE; /* Clean up buffer */ usart_reset_rx(dev); } /** * @brief Call a function on each USART. * @param fn Function to call. */ void usart_foreach(void (*fn)(usart_dev*)) { fn(USART1); fn(USART2); fn(USART3); #ifdef STM32_HIGH_DENSITY fn(UART4); fn(UART5); #endif } /** * @brief Nonblocking USART transmit * @param dev Serial port to transmit over * @param buf Buffer to transmit * @param len Maximum number of bytes to transmit * @return Number of bytes transmitted */ uint32 usart_tx(usart_dev *dev, const uint8 *buf, uint32 len) { uint32 txed = 0; #ifdef USART_TX_IRQ while (txed < len && rb_safe_insert(&dev->rbTX, buf[txed])) { usart_tx_irq_enable(dev); txed++; } #else usart_reg_map *regs = dev->regs; while ((regs->SR & USART_SR_TXE) && (txed < len)) { regs->DR = buf[txed++]; } #endif return txed; } /** * @brief Transmit an unsigned integer to the specified serial port in * decimal format. * * This function blocks until the integer's digits have been * completely transmitted. * * @param dev Serial port to send on * @param val Number to print */ void usart_putudec(usart_dev *dev, uint32 val) { char digits[12]; int i = 0; do { digits[i++] = val % 10 + '0'; val /= 10; } while (val > 0); while (--i >= 0) { usart_putc(dev, digits[i]); } } /* * Interrupt handlers. */ static inline void usart_irq(usart_dev *dev) { volatile int sr = dev->regs->SR; if(sr & USART_SR_RXNE) { #ifdef USART_SAFE_INSERT /* If the buffer is full and the user defines USART_SAFE_INSERT, * ignore new bytes. */ rb_safe_insert(&dev->rbRX, (uint8)dev->regs->DR); #else /* By default, push bytes around in the ring buffer. */ rb_push_insert(&dev->rbRX, (uint8)dev->regs->DR); #endif #ifdef USART_TX_IRQ } else if(sr & USART_SR_TXE) { if(rb_full_count(&dev->rbTX) > 0) { dev->regs->DR = rb_remove(&dev->rbTX); } else { usart_tx_irq_disable(dev); // disable tx irq // nops needed to deactivate the irq before irq handler is left asm volatile("nop"); asm volatile("nop"); } #endif } } void __irq_usart1(void) { usart_irq(USART1); } void __irq_usart2(void) { usart_irq(USART2); } void __irq_usart3(void) { usart_irq(USART3); } #ifdef STM32_HIGH_DENSITY void __irq_uart4(void) { usart_irq(UART4); } void __irq_uart5(void) { usart_irq(UART5); } #endif