/************************************************************************************ * drivers/serial/serial_dma.c * * Copyright (C) 2015, 2018 Gregory Nutt. All rights reserved. * Author: Max Neklyudov * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * 3. Neither the name NuttX nor the names of its contributors may be * used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * ************************************************************************************/ /************************************************************************************ * Included Files ************************************************************************************/ #include #include #include #include #include #include #ifdef CONFIG_SERIAL_DMA /************************************************************************************ * Private Functions ************************************************************************************/ /************************************************************************************ * Name: uart_check_signo * * Description: * Check if the SIGINT or SIGSTP character is in the contiguous Rx DMA buffer * region. The first signal associated with the first such character is returned. * * If there multiple such characters in the buffer, only the signal associated * with the first is returned (this a bug!) * * Returned Value: * 0 if a signal-related character does not appear in the. Otherwise, SIGKILL or * SIGSTP may be returned to indicate the appropriate signal action. * ************************************************************************************/ #if defined(CONFIG_TTY_SIGINT) || defined(CONFIG_TTY_SIGSTP) static int uart_check_signo(const char *buf, size_t size) { size_t i; for (i = 0; i < size; i++) { #ifdef CONFIG_TTY_SIGINT if (buf[i] == CONFIG_TTY_SIGINT_CHAR) { return SIGINT; } #endif #ifdef CONFIG_TTY_SIGSTP if (buf[i] == CONFIG_TTY_SIGSTP_CHAR) { return SIGSTP; } #endif } return 0; } #endif /************************************************************************************ * Name: uart_recvchars_signo * * Description: * Check if the SIGINT character is anywhere in the newly received DMA buffer. * * REVISIT: We must also remove the SIGINT/SIGSTP character from the Rx buffer. It * should not be read as normal data by the caller. * ************************************************************************************/ #if defined(CONFIG_TTY_SIGINT) || defined(CONFIG_TTY_SIGSTP) static int uart_recvchars_signo(FAR uart_dev_t *dev) { FAR struct uart_dmaxfer_s *xfer = &dev->dmarx; int signo; /* Check if the valid DMAed data is in one or two contiguous regions */ if (xfer->nbytes <= xfer->length) { return uart_check_signo(xfer->buffer, xfer->nbytes); } else { /* REVISIT: Additional signals could be in the second region. */ signo = uart_check_signo(xfer->buffer, xfer->length); if (signo != 0) { return signo; } return uart_check_signo(xfer->nbuffer, xfer->nbytes - xfer->length); } } #endif /************************************************************************************ * Public Functions ************************************************************************************/ /************************************************************************************ * Name: uart_xmitchars_dma * * Description: * Set up to transfer bytes from the TX circular buffer using DMA * ************************************************************************************/ void uart_xmitchars_dma(FAR uart_dev_t *dev) { FAR struct uart_dmaxfer_s *xfer = &dev->dmatx; if (dev->xmit.head == dev->xmit.tail) { /* No data to transfer. */ return; } if (dev->xmit.tail < dev->xmit.head) { xfer->buffer = &dev->xmit.buffer[dev->xmit.tail]; xfer->length = dev->xmit.head - dev->xmit.tail; xfer->nbuffer = NULL; xfer->nlength = 0; } else { xfer->buffer = &dev->xmit.buffer[dev->xmit.tail]; xfer->length = dev->xmit.size - dev->xmit.tail; xfer->nbuffer = dev->xmit.buffer; xfer->nlength = dev->xmit.head; } uart_dmasend(dev); } /************************************************************************************ * Name: uart_xmitchars_done * * Description: * Perform operations necessary at the complete of DMA including adjusting the * TX circular buffer indices and waking up of any threads that may have been * waiting for space to become available in the TX circular buffer. * ************************************************************************************/ void uart_xmitchars_done(FAR uart_dev_t *dev) { FAR struct uart_dmaxfer_s *xfer = &dev->dmatx; size_t nbytes = xfer->nbytes; struct uart_buffer_s *txbuf = &dev->xmit; /* Move tail for nbytes. */ txbuf->tail = (txbuf->tail + nbytes) % txbuf->size; xfer->nbytes = 0; xfer->length = xfer->nlength = 0; /* If any bytes were removed from the buffer, inform any waiters there there is * space available. */ if (nbytes) { uart_datasent(dev); } } /************************************************************************************ * Name: uart_recvchars_dma * * Description: * Set up to receive bytes into the RX circular buffer using DMA * ************************************************************************************/ void uart_recvchars_dma(FAR uart_dev_t *dev) { FAR struct uart_dmaxfer_s *xfer = &dev->dmarx; FAR struct uart_buffer_s *rxbuf = &dev->recv; #ifdef CONFIG_SERIAL_IFLOWCONTROL_WATERMARKS unsigned int nbuffered; unsigned int watermark; #endif bool is_full; int nexthead; /* If RX buffer is empty move tail and head to zero position */ if (rxbuf->head == rxbuf->tail) { rxbuf->head = 0; rxbuf->tail = 0; } /* Get the next head index and check if there is room to adding another * byte to the buffer. */ nexthead = rxbuf->head + 1; if (nexthead >= rxbuf->size) { nexthead = 0; } is_full = nexthead == rxbuf->tail; #ifdef CONFIG_SERIAL_IFLOWCONTROL_WATERMARKS /* Pre-calcuate the watermark level that we will need to test against. */ watermark = (CONFIG_SERIAL_IFLOWCONTROL_UPPER_WATERMARK * rxbuf->size) / 100; #endif #ifdef CONFIG_SERIAL_IFLOWCONTROL #ifdef CONFIG_SERIAL_IFLOWCONTROL_WATERMARKS /* How many bytes are buffered */ if (rxbuf->head >= rxbuf->tail) { nbuffered = rxbuf->head - rxbuf->tail; } else { nbuffered = rxbuf->size - rxbuf->tail + rxbuf->head; } /* Is the level now above the watermark level that we need to report? */ if (nbuffered >= watermark) { /* Let the lower level driver know that the watermark level has been * crossed. It will probably activate RX flow control. */ if (uart_rxflowcontrol(dev, nbuffered, true)) { /* Low-level driver activated RX flow control, return now. */ return; } } #else /* Check if RX buffer is full and allow serial low-level driver to pause * processing. This allows proper utilization of hardware flow control. */ if (is_full) { if (uart_rxflowcontrol(dev, rxbuf->size, true)) { /* Low-level driver activated RX flow control, return now. */ return; } } #endif #endif if (is_full) { /* If there is no free space in receive buffer we cannot start DMA * transfer. */ return; } if (rxbuf->tail <= rxbuf->head) { xfer->buffer = &rxbuf->buffer[rxbuf->head]; xfer->nbuffer = rxbuf->buffer; if (rxbuf->tail > 0) { xfer->length = rxbuf->size - rxbuf->head; xfer->nlength = rxbuf->tail - 1; } else { xfer->length = rxbuf->size - rxbuf->head - 1; xfer->nlength = 0; } } else { xfer->buffer = &rxbuf->buffer[rxbuf->head]; xfer->length = rxbuf->tail - rxbuf->head - 1; xfer->nbuffer = NULL; xfer->nlength = 0; } uart_dmareceive(dev); } /************************************************************************************ * Name: uart_recvchars_done * * Description: * Perform operations necessary at the complete of DMA including adjusting the * RX circular buffer indices and waking up of any threads that may have been * waiting for new data to become available in the RX circular buffer. * ************************************************************************************/ void uart_recvchars_done(FAR uart_dev_t *dev) { FAR struct uart_dmaxfer_s *xfer = &dev->dmarx; FAR struct uart_buffer_s *rxbuf = &dev->recv; size_t nbytes = xfer->nbytes; #if defined(CONFIG_TTY_SIGINT) || defined(CONFIG_TTY_SIGSTP) int signo = 0; /* Check if the SIGINT character is anywhere in the newly received DMA buffer. */ if (dev->pid >= 0) { signo = uart_recvchars_signo(dev); } #endif /* Move head for nbytes. */ rxbuf->head = (rxbuf->head + nbytes) % rxbuf->size; xfer->nbytes = 0; xfer->length = xfer->nlength = 0; /* If any bytes were added to the buffer, inform any waiters there is new * incoming data available. */ if (nbytes) { uart_datareceived(dev); } #if defined(CONFIG_TTY_SIGINT) || defined(CONFIG_TTY_SIGSTP) /* Send the signal if necessary */ if (signo != 0) { kill(dev->pid, signo); uart_reset_sem(dev); } #endif } #endif /* CONFIG_SERIAL_DMA */