/* * Copyright © 2018 Keith Packard * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 * General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ #include #include /* ao_serial_stm.c */ struct ao_stm_usart { struct ao_fifo rx_fifo; struct ao_fifo tx_fifo; struct stm_usart *reg; uint32_t clk; uint8_t tx_running; uint8_t draining; #if HAS_SERIAL_SW_FLOW /* RTS - 0 if we have FIFO space, 1 if not * CTS - 0 if we can send, 0 if not */ struct stm_gpio *gpio_rts; struct stm_gpio *gpio_cts; uint8_t pin_rts; uint8_t pin_cts; uint8_t rts; #endif }; static int _ao_usart_tx_start(struct ao_stm_usart *usart) { if (!ao_fifo_empty(usart->tx_fifo)) { #if HAS_SERIAL_SW_FLOW if (usart->gpio_cts && ao_gpio_get(usart->gpio_cts, usart->pin_cts) == 1) { ao_exti_enable(usart->gpio_cts, usart->pin_cts); return 0; } #endif if (usart->reg->sr & (1 << STM_USART_SR_TXE)) { usart->tx_running = 1; usart->reg->cr1 |= (1 << STM_USART_CR1_TXEIE) | (1 << STM_USART_CR1_TCIE); ao_fifo_remove(usart->tx_fifo, usart->reg->dr); ao_wakeup(&usart->tx_fifo); return 1; } } return 0; } #if HAS_SERIAL_SW_FLOW static void _ao_usart_cts(struct ao_stm_usart *usart) { if (_ao_usart_tx_start(usart)) ao_exti_disable(usart->gpio_cts, usart->pin_cts); } #endif static void _ao_usart_rx(struct ao_stm_usart *usart, int is_stdin) { if (usart->reg->sr & (1 << STM_USART_SR_RXNE)) { if (!ao_fifo_full(usart->rx_fifo)) { ao_fifo_insert(usart->rx_fifo, usart->reg->dr); ao_wakeup(&usart->rx_fifo); if (is_stdin) ao_wakeup(&ao_stdin_ready); #if HAS_SERIAL_SW_FLOW /* If the fifo is nearly full, turn off RTS and wait * for it to drain a bunch */ if (usart->gpio_rts && ao_fifo_mostly(usart->rx_fifo)) { ao_gpio_set(usart->gpio_rts, usart->pin_rts, 1); usart->rts = 0; } #endif } else { usart->reg->cr1 &= ~(1 << STM_USART_CR1_RXNEIE); } } } static void ao_usart_isr(struct ao_stm_usart *usart, int is_stdin) { _ao_usart_rx(usart, is_stdin); if (!_ao_usart_tx_start(usart)) usart->reg->cr1 &= ~(1<< STM_USART_CR1_TXEIE); if (usart->reg->sr & (1 << STM_USART_SR_TC)) { usart->tx_running = 0; usart->reg->cr1 &= ~(1 << STM_USART_CR1_TCIE); if (usart->draining) { usart->draining = 0; ao_wakeup(&usart->tx_fifo); } } } static int _ao_usart_pollchar(struct ao_stm_usart *usart) { int c; if (ao_fifo_empty(usart->rx_fifo)) c = AO_READ_AGAIN; else { uint8_t u; ao_fifo_remove(usart->rx_fifo,u); if ((usart->reg->cr1 & (1 << STM_USART_CR1_RXNEIE)) == 0) { if (ao_fifo_barely(usart->rx_fifo)) usart->reg->cr1 |= (1 << STM_USART_CR1_RXNEIE); } #if HAS_SERIAL_SW_FLOW /* If we've cleared RTS, check if there's space now and turn it back on */ if (usart->gpio_rts && usart->rts == 0 && ao_fifo_barely(usart->rx_fifo)) { ao_gpio_set(usart->gpio_rts, usart->pin_rts, 0); usart->rts = 1; } #endif c = u; } return c; } static char ao_usart_getchar(struct ao_stm_usart *usart) { int c; ao_arch_block_interrupts(); while ((c = _ao_usart_pollchar(usart)) == AO_READ_AGAIN) ao_sleep(&usart->rx_fifo); ao_arch_release_interrupts(); return (char) c; } static inline uint8_t _ao_usart_sleep_for(struct ao_stm_usart *usart, uint16_t timeout) { return ao_sleep_for(&usart->rx_fifo, timeout); } static void ao_usart_putchar(struct ao_stm_usart *usart, char c) { ao_arch_block_interrupts(); while (ao_fifo_full(usart->tx_fifo)) ao_sleep(&usart->tx_fifo); ao_fifo_insert(usart->tx_fifo, c); _ao_usart_tx_start(usart); ao_arch_release_interrupts(); } static void ao_usart_drain(struct ao_stm_usart *usart) { ao_arch_block_interrupts(); while (!ao_fifo_empty(usart->tx_fifo) || usart->tx_running) { usart->draining = 1; ao_sleep(&usart->tx_fifo); } ao_arch_release_interrupts(); } static void ao_usart_set_speed(struct ao_stm_usart *usart, uint32_t speed) { if (speed > 115200) return; usart->reg->brr = usart->clk / speed; } static void _ao_usart_init(struct ao_stm_usart *usart, int hw_flow) { usart->reg->cr1 = ((0 << STM_USART_CR1_OVER8) | (1 << STM_USART_CR1_UE) | (0 << STM_USART_CR1_M) | (0 << STM_USART_CR1_WAKE) | (0 << STM_USART_CR1_PCE) | (0 << STM_USART_CR1_PS) | (0 << STM_USART_CR1_PEIE) | (0 << STM_USART_CR1_TXEIE) | (0 << STM_USART_CR1_TCIE) | (1 << STM_USART_CR1_RXNEIE) | (0 << STM_USART_CR1_IDLEIE) | (1 << STM_USART_CR1_TE) | (1 << STM_USART_CR1_RE) | (0 << STM_USART_CR1_RWU) | (0 << STM_USART_CR1_SBK)); usart->reg->cr2 = ((0 << STM_USART_CR2_LINEN) | (STM_USART_CR2_STOP_1 << STM_USART_CR2_STOP) | (0 << STM_USART_CR2_CLKEN) | (0 << STM_USART_CR2_CPOL) | (0 << STM_USART_CR2_CPHA) | (0 << STM_USART_CR2_LBCL) | (0 << STM_USART_CR2_LBDIE) | (0 << STM_USART_CR2_LBDL) | (0 << STM_USART_CR2_ADD)); usart->reg->cr3 = ((0 << STM_USART_CR3_ONEBIT) | (0 << STM_USART_CR3_CTSIE) | (0 << STM_USART_CR3_CTSE) | (0 << STM_USART_CR3_RTSE) | (0 << STM_USART_CR3_DMAT) | (0 << STM_USART_CR3_DMAR) | (0 << STM_USART_CR3_SCEN) | (0 << STM_USART_CR3_NACK) | (0 << STM_USART_CR3_HDSEL) | (0 << STM_USART_CR3_IRLP) | (0 << STM_USART_CR3_IREN) | (0 << STM_USART_CR3_EIE)); if (hw_flow) usart->reg->cr3 |= ((1 << STM_USART_CR3_CTSE) | (1 << STM_USART_CR3_RTSE)); /* Pick a 9600 baud rate */ ao_usart_set_speed(usart, 9600); } #if HAS_SERIAL_HW_FLOW static void ao_usart_set_flow(struct ao_stm_usart *usart) { } #endif #if HAS_SERIAL_6 struct ao_stm_usart ao_stm_usart6; void stm_usart6_isr(void) { ao_usart_isr(&ao_stm_usart6, USE_SERIAL_6_STDIN); } char ao_serial6_getchar(void) { return ao_usart_getchar(&ao_stm_usart6); } void ao_serial6_putchar(char c) { ao_usart_putchar(&ao_stm_usart6, c); } int _ao_serial6_pollchar(void) { return _ao_usart_pollchar(&ao_stm_usart6); } uint8_t _ao_serial6_sleep_for(uint16_t timeout) { return _ao_usart_sleep_for(&ao_stm_usart6, timeout); } void ao_serial6_set_speed(uint32_t speed) { ao_usart_drain(&ao_stm_usart6); ao_usart_set_speed(&ao_stm_usart6, speed); } void ao_serial6_drain(void) { ao_usart_drain(&ao_stm_usart6); } #endif /* HAS_SERIAL_6 */ #if HAS_SERIAL_SW_FLOW static void ao_serial_set_sw_rts_cts(struct ao_stm_usart *usart, void (*isr)(void), struct stm_gpio *port_rts, int pin_rts, struct stm_gpio *port_cts, int pin_cts) { /* Pull RTS low to note that there's space in the FIFO */ ao_enable_output(port_rts, pin_rts, 0); usart->gpio_rts = port_rts; usart->pin_rts = pin_rts; usart->rts = 1; ao_exti_setup(port_cts, pin_cts, AO_EXTI_MODE_FALLING|AO_EXTI_PRIORITY_MED, isr); usart->gpio_cts = port_cts; usart->pin_cts = pin_cts; } #endif void ao_usart_init(void) { #if HAS_SERIAL_6 stm_rcc.apb2enr |= (1 << STM_RCC_APB2ENR_USART6EN); ao_stm_usart6.reg = &stm_usart6; ao_stm_usart6.clk = AO_P2CLK; ao_enable_port(SERIAL_6_RX_PORT); ao_enable_port(SERIAL_6_TX_PORT); stm_afr_set(SERIAL_6_RX_PORT, SERIAL_6_RX_PIN, STM_AFR_AF8); stm_afr_set(SERIAL_6_TX_PORT, SERIAL_6_TX_PIN, STM_AFR_AF8); stm_nvic_set_enable(STM_ISR_USART6_POS); stm_nvic_set_priority(STM_ISR_USART6_POS, AO_STM_NVIC_MED_PRIORITY); _ao_usart_init(&ao_stm_usart6, USE_SERIAL_6_FLOW && !USE_SERIAL_6_SW_FLOW); # if USE_SERIAL_6_FLOW # if USE_SERIAL_6_SW_FLOW ao_serial_set_sw_rts_cts(&ao_stm_usart6, ao_serial6_cts, SERIAL_6_PORT_RTS, SERIAL_6_PIN_RTS, SERIAL_6_PORT_CTS, SERIAL_6_PIN_CTS); # else stm_afr_set(SERIAL_6_PORT_RTS, SERIAL_6_PIN_RTS, STM_AFR_AF8); stm_afr_set(SERIAL_6_PORT_CTS, SERIAL_6_PIN_CTS, STM_AFR_AF8); # endif #endif #if USE_SERIAL_6_STDIN && !DELAY_SERIAL_6_STDIN ao_add_stdio(_ao_serial6_pollchar, ao_serial6_putchar, NULL); #endif #endif }