/**************************************************************************** * arch/arm/src/lm3s/lm3s_serial.c * * Copyright (C) 2009 Gregory Nutt. All rights reserved. * Author: Gregory Nutt * * 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 #include #include #include #include #include #include "chip.h" #include "up_arch.h" #include "up_internal.h" #include "os_internal.h" /**************************************************************************** * Definitions ****************************************************************************/ /* Some sanity checks *******************************************************/ /* Is there a UART enabled? */ #if defined(CONFIG_UART0_DISABLE) && defined(CONFIG_UART1_DISABLE) # error "No UARTs enabled" #endif /* Is there a serial console? */ #if defined(CONFIG_UART0_SERIAL_CONSOLE) && !defined(CONFIG_UART0_DISABLE) # undef CONFIG_UART1_SERIAL_CONSOLE # define HAVE_CONSOLE 1 #elif defined(CONFIG_UART1_SERIAL_CONSOLE) && !defined(CONFIG_UART1_DISABLE) # undef CONFIG_UART0_SERIAL_CONSOLE # define HAVE_CONSOLE 1 #else # warning "No valid CONFIG_UARTn_SERIAL_CONSOLE Setting" # undef CONFIG_UART0_SERIAL_CONSOLE # undef CONFIG_UART1_SERIAL_CONSOLE # undef HAVE_CONSOLE #endif /* If we are not using the serial driver for the console, then we * still must provide some minimal implementation of up_putc. */ #ifdef CONFIG_USE_SERIALDRIVER /* Which UART with be tty0/console and which tty1? */ #if defined(CONFIG_UART0_SERIAL_CONSOLE) # define CONSOLE_DEV g_uart0port /* UART0 is console */ # define TTYS0_DEV g_uart0port /* UART0 is ttyS0 */ # ifndef CONFIG_UART1_DISABLE # define TTYS1_DEV g_uart1port /* UART1 is ttyS1 */ # else # undef TTYS1_DEV /* No ttyS1 */ # endif #elif defined(CONFIG_UART1_SERIAL_CONSOLE) # define CONSOLE_DEV g_uart1port /* UART1 is console */ # define TTYS0_DEV g_uart1port /* UART1 is ttyS0 */ # ifndef CONFIG_UART0_DISABLE # define TTYS1_DEV g_uart0port /* UART0 is ttyS1 */ # else # undef TTYS1_DEV /* No ttyS1 */ # endif #elif !defined(CONFIG_UART0_DISABLE) # undef CONSOLE_DEV /* No console device */ # define TTYS0_DEV g_uart1port /* UART1 is ttyS0 */ # ifndef CONFIG_UART1_DISABLE # define TTYS1_DEV g_uart1port /* UART1 is ttyS1 */ # else # undef TTYS1_DEV /* No ttyS1 */ # endif #elif !defined(CONFIG_UART1_DISABLE) # undef CONSOLE_DEV /* No console device */ # define TTYS0_DEV g_uart1port /* UART1 is ttyS0 */ # undef TTYS1_DEV /* No ttyS1 */ #else # error "No valid TTY devices" # undef CONSOLE_DEV /* No console device */ # undef TTYS0_DEV /* No ttyS0 */ # undef TTYS1_DEV /* No ttyS1 */ #endif /**************************************************************************** * Private Types ****************************************************************************/ struct up_dev_s { uint32 uartbase; /* Base address of UART registers */ uint32 baud; /* Configured baud */ uint32 im; /* Saved IM value */ ubyte irq; /* IRQ associated with this UART */ ubyte parity; /* 0=none, 1=odd, 2=even */ ubyte bits; /* Number of bits (7 or 8) */ boolean stopbits2; /* TRUE: Configure with 2 stop bits instead of 1 */ }; /**************************************************************************** * Private Function Prototypes ****************************************************************************/ static int up_setup(struct uart_dev_s *dev); static void up_shutdown(struct uart_dev_s *dev); static int up_attach(struct uart_dev_s *dev); static void up_detach(struct uart_dev_s *dev); static int up_interrupt(int irq, void *context); static int up_ioctl(struct file *filep, int cmd, unsigned long arg); static int up_receive(struct uart_dev_s *dev, uint32 *status); static void up_rxint(struct uart_dev_s *dev, boolean enable); static boolean up_rxavailable(struct uart_dev_s *dev); static void up_send(struct uart_dev_s *dev, int ch); static void up_txint(struct uart_dev_s *dev, boolean enable); static boolean up_txready(struct uart_dev_s *dev); static boolean up_txempty(struct uart_dev_s *dev); /**************************************************************************** * Private Variables ****************************************************************************/ struct uart_ops_s g_uart_ops = { .setup = up_setup, .shutdown = up_shutdown, .attach = up_attach, .detach = up_detach, .ioctl = up_ioctl, .receive = up_receive, .rxint = up_rxint, .rxavailable = up_rxavailable, .send = up_send, .txint = up_txint, .txready = up_txready, .txempty = up_txempty, }; /* I/O buffers */ #ifndef CONFIG_UART0_DISABLE static char g_uart0rxbuffer[CONFIG_UART0_RXBUFSIZE]; static char g_uart0txbuffer[CONFIG_UART0_TXBUFSIZE]; #endif #ifndef CONFIG_UART1_DISABLE static char g_uart1rxbuffer[CONFIG_UART1_RXBUFSIZE]; static char g_uart1txbuffer[CONFIG_UART1_TXBUFSIZE]; #endif /* This describes the state of the LM3S6918 uart0 port. */ #ifndef CONFIG_UART0_DISABLE static struct up_dev_s g_uart0priv = { .uartbase = LM3S_UART0_BASE, .baud = CONFIG_UART0_BAUD, .irq = LM3S_IRQ_UART0, .parity = CONFIG_UART0_PARITY, .bits = CONFIG_UART0_BITS, .stopbits2 = CONFIG_UART0_2STOP, }; static uart_dev_t g_uart0port = { .recv = { .size = CONFIG_UART0_RXBUFSIZE, .buffer = g_uart0rxbuffer, }, .xmit = { .size = CONFIG_UART0_TXBUFSIZE, .buffer = g_uart0txbuffer, }, .ops = &g_uart_ops, .priv = &g_uart0priv, }; #endif /* This describes the state of the LM3S6918 uart1 port. */ #ifndef CONFIG_UART1_DISABLE static struct up_dev_s g_uart1priv = { .uartbase = LM3S_UART1_BASE, .baud = CONFIG_UART1_BAUD, .irq = LM3S_IRQ_UART1, .parity = CONFIG_UART1_PARITY, .bits = CONFIG_UART1_BITS, .stopbits2 = CONFIG_UART1_2STOP, }; static uart_dev_t g_uart1port = { .recv = { .size = CONFIG_UART1_RXBUFSIZE, .buffer = g_uart1rxbuffer, }, .xmit = { .size = CONFIG_UART1_TXBUFSIZE, .buffer = g_uart1txbuffer, }, .ops = &g_uart_ops, .priv = &g_uart1priv, }; #endif /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Name: up_serialin ****************************************************************************/ static inline uint32 up_serialin(struct up_dev_s *priv, int offset) { return getreg32(priv->uartbase + offset); } /**************************************************************************** * Name: up_serialout ****************************************************************************/ static inline void up_serialout(struct up_dev_s *priv, int offset, uint32 value) { putreg32(value, priv->uartbase + offset); } /**************************************************************************** * Name: up_disableuartint ****************************************************************************/ static inline void up_disableuartint(struct up_dev_s *priv, uint32 *im) { /* Return the current interrupt mask value */ if (im) { *im = priv->im; } /* Disable all interrupts */ priv->im = 0; up_serialout(priv, LM3S_UART_IM_OFFSET, 0); } /**************************************************************************** * Name: up_restoreuartint ****************************************************************************/ static inline void up_restoreuartint(struct up_dev_s *priv, uint32 im) { priv->im = im; up_serialout(priv, LM3S_UART_IM_OFFSET, im); } /**************************************************************************** * Name: up_waittxnotfull ****************************************************************************/ #ifdef HAVE_CONSOLE static inline void up_waittxnotfull(struct up_dev_s *priv) { int tmp; /* Limit how long we will wait for the TX available condition */ for (tmp = 1000 ; tmp > 0 ; tmp--) { /* Check Tx FIFO is full */ if ((up_serialin(priv, LM3S_UART_FR_OFFSET) & UART_FR_TXFF) == 0) { /* The Tx FIFO is not full... return */ break; } } /* If we get here, then the wait has timed out and the Tx FIFO remains * full. */ } #endif /**************************************************************************** * Name: up_setup * * Description: * Configure the UART baud, bits, parity, fifos, etc. This * method is called the first time that the serial port is * opened. * ****************************************************************************/ static int up_setup(struct uart_dev_s *dev) { struct up_dev_s *priv = (struct up_dev_s*)dev->priv; uint32 lcrh; uint32 ctl; #ifndef CONFIG_SUPPRESS_UART_CONFIG uint32 den; uint32 brdi; uint32 remainder; uint32 divfrac; /* Note: The logic here depends on the fact that that the UART module * was enabled and the GPIOs were configured in up_lowsetup(). */ /* Disable the UART by clearing the UARTEN bit in the UART CTL register */ ctl = up_serialin(priv, LM3S_UART_CTL_OFFSET); ctl &= ~UART_CTL_UARTEN; up_serialout(priv, LM3S_UART_CTL_OFFSET, ctl); /* Calculate BAUD rate from the SYS clock: * * "The baud-rate divisor is a 22-bit number consisting of a 16-bit integer * and a 6-bit fractional part. The number formed by these two values is * used by the baud-rate generator to determine the bit period. Having a * fractional baud-rate divider allows the UART to generate all the standard * baud rates. * * "The 16-bit integer is loaded through the UART Integer Baud-Rate Divisor * (UARTIBRD) register ... and the 6-bit fractional part is loaded with the * UART Fractional Baud-Rate Divisor (UARTFBRD) register... The baud-rate * divisor (BRD) has the following relationship to the system clock (where * BRDI is the integer part of the BRD and BRDF is the fractional part, * separated by a decimal place.): * * "BRD = BRDI + BRDF = UARTSysClk / (16 * Baud Rate) * * "where UARTSysClk is the system clock connected to the UART. The 6-bit * fractional number (that is to be loaded into the DIVFRAC bit field in the * UARTFBRD register) can be calculated by taking the fractional part of the * baud-rate divisor, multiplying it by 64, and adding 0.5 to account for * rounding errors: * * "UARTFBRD[DIVFRAC] = integer(BRDF * 64 + 0.5) * * "The UART generates an internal baud-rate reference clock at 16x the baud- * rate (referred to as Baud16). This reference clock is divided by 16 to * generate the transmit clock, and is used for error detection during receive * operations. * * "Along with the UART Line Control, High Byte (UARTLCRH) register ..., the * UARTIBRD and UARTFBRD registers form an internal 30-bit register. This * internal register is only updated when a write operation to UARTLCRH is * performed, so any changes to the baud-rate divisor must be followed by a * write to the UARTLCRH register for the changes to take effect. ..." */ den = priv->baud << 4; brdi = SYSCLK_FREQUENCY / den; remainder = SYSCLK_FREQUENCY - den * brdi; divfrac = ((remainder << 6) + (den >> 1)) / den; up_serialout(priv, LM3S_UART_IBRD_OFFSET, brdi); up_serialout(priv, LM3S_UART_FBRD_OFFSET, divfrac); /* Set up the LCRH register */ lcrh = 0; switch (priv->bits) { case 5: lcrh |= UART_LCRH_WLEN_5BITS; break; case 6: lcrh |= UART_LCRH_WLEN_6BITS; break; case 7: lcrh |= UART_LCRH_WLEN_7BITS; break; case 8: default: lcrh |= UART_LCRH_WLEN_8BITS; break; } switch (priv->parity) { case 0: default: break; case 1: lcrh |= UART_LCRH_PEN; break; case 2: lcrh |= UART_LCRH_PEN|UART_LCRH_EPS; break; } if (priv->stopbits2) { lcrh |= UART_LCRH_STP2; } up_serialout(priv, LM3S_UART_LCRH_OFFSET, lcrh); #endif /* Set the UART to interrupt whenever the TX FIFO is almost empty or when * any character is received. */ up_serialout(priv, LM3S_UART_IFLS_OFFSET, UART_IFLS_TXIFLSEL_18th|UART_IFLS_RXIFLSEL_18th); /* Flush the Rx and Tx FIFOs -- How do you do that?*/ /* Enable Rx interrupts from the UART except for Tx interrupts. We don't want * Tx interrupts until we have something to send. We will check for serial * errors as part of Rx interrupt processing (no interrupts will be received * yet because the interrupt is still disabled at the interrupt controller. */ up_serialout(priv, LM3S_UART_IM_OFFSET, UART_IM_RXIM|UART_IM_RTIM); /* Enable the FIFOs */ #ifdef CONFIG_SUPPRESS_UART_CONFIG lcrh = up_serialin(priv, LM3S_UART_LCRH_OFFSET); #endif lcrh |= UART_LCRH_FEN; up_serialout(priv, LM3S_UART_LCRH_OFFSET, lcrh); /* Enable Rx, Tx, and the UART */ #ifdef CONFIG_SUPPRESS_UART_CONFIG ctl = up_serialin(priv, LM3S_UART_CTL_OFFSET); #endif ctl |= (UART_CTL_UARTEN|UART_CTL_TXE|UART_CTL_RXE); up_serialout(priv, LM3S_UART_CTL_OFFSET, ctl); /* Set up the cache IM value */ priv->im = up_serialin(priv, LM3S_UART_IM_OFFSET); return OK; } /**************************************************************************** * Name: up_shutdown * * Description: * Disable the UART. This method is called when the serial * port is closed * ****************************************************************************/ static void up_shutdown(struct uart_dev_s *dev) { struct up_dev_s *priv = (struct up_dev_s*)dev->priv; up_disableuartint(priv, NULL); } /**************************************************************************** * Name: up_attach * * Description: * Configure the UART to operation in interrupt driven mode. This method is * called when the serial port is opened. Normally, this is just after the * the setup() method is called, however, the serial console may operate in * a non-interrupt driven mode during the boot phase. * * RX and TX interrupts are not enabled when by the attach method (unless the * hardware supports multiple levels of interrupt enabling). The RX and TX * interrupts are not enabled until the txint() and rxint() methods are called. * ****************************************************************************/ static int up_attach(struct uart_dev_s *dev) { struct up_dev_s *priv = (struct up_dev_s*)dev->priv; int ret; /* Attach and enable the IRQ */ ret = irq_attach(priv->irq, up_interrupt); if (ret == OK) { /* Enable the interrupt (RX and TX interrupts are still disabled * in the UART */ up_enable_irq(priv->irq); } return ret; } /**************************************************************************** * Name: up_detach * * Description: * Detach UART interrupts. This method is called when the serial port is * closed normally just before the shutdown method is called. The exception is * the serial console which is never shutdown. * ****************************************************************************/ static void up_detach(struct uart_dev_s *dev) { struct up_dev_s *priv = (struct up_dev_s*)dev->priv; up_disable_irq(priv->irq); irq_detach(priv->irq); } /**************************************************************************** * Name: up_interrupt * * Description: * This is the UART interrupt handler. It will be invoked * when an interrupt received on the 'irq' It should call * uart_transmitchars or uart_receivechar to perform the * appropriate data transfers. The interrupt handling logic\ * must be able to map the 'irq' number into the approprite * uart_dev_s structure in order to call these functions. * ****************************************************************************/ static int up_interrupt(int irq, void *context) { struct uart_dev_s *dev = NULL; struct up_dev_s *priv; uint32 mis; int passes; boolean handled; #ifndef CONFIG_UART0_DISABLE if (g_uart0priv.irq == irq) { dev = &g_uart0port; } else #endif #ifndef CONFIG_UART1_DISABLE if (g_uart1priv.irq == irq) { dev = &g_uart1port; } else #endif { PANIC(OSERR_INTERNAL); } priv = (struct up_dev_s*)dev->priv; /* Loop until there are no characters to be transferred or, * until we have been looping for a long time. */ handled = TRUE; for (passes = 0; passes < 256 && handled; passes++) { handled = FALSE; /* Get the masked UART status and clear the pending interrupts. */ mis = up_serialin(priv, LM3S_UART_MIS_OFFSET); up_serialout(priv, LM3S_UART_ICR_OFFSET, mis); /* Handle incoming, receive bytes (with or without timeout) */ if ((mis & (UART_MIS_RXMIS|UART_MIS_RTMIS)) != 0) { /* Rx buffer not empty ... process incoming bytes */ uart_recvchars(dev); handled = TRUE; } /* Handle outgoing, transmit bytes */ if ((mis & UART_MIS_TXMIS) != 0) { /* Tx FIFO not full ... process outgoing bytes */ uart_xmitchars(dev); handled = TRUE; } } return OK; } /**************************************************************************** * Name: up_ioctl * * Description: * All ioctl calls will be routed through this method * ****************************************************************************/ static int up_ioctl(struct file *filep, int cmd, unsigned long arg) { struct inode *inode = filep->f_inode; struct uart_dev_s *dev = inode->i_private; int ret = OK; switch (cmd) { case TIOCSERGSTRUCT: { struct up_dev_s *user = (struct up_dev_s*)arg; if (!user) { *get_errno_ptr() = EINVAL; ret = ERROR; } else { memcpy(user, dev, sizeof(struct up_dev_s)); } } break; default: *get_errno_ptr() = ENOTTY; ret = ERROR; break; } return ret; } /**************************************************************************** * Name: up_receive * * Description: * Called (usually) from the interrupt level to receive one * character from the UART. Error bits associated with the * receipt are provided in the return 'status'. * ****************************************************************************/ static int up_receive(struct uart_dev_s *dev, uint32 *status) { struct up_dev_s *priv = (struct up_dev_s*)dev->priv; uint32 rxd; /* Get the Rx byte + 4 bits of error information. Return those in status */ rxd = up_serialin(priv, LM3S_UART_DR_OFFSET); *status = rxd; /* The lower 8bits of the Rx data is the actual recevied byte */ return rxd & 0xff; } /**************************************************************************** * Name: up_rxint * * Description: * Call to enable or disable RX interrupts * ****************************************************************************/ static void up_rxint(struct uart_dev_s *dev, boolean enable) { struct up_dev_s *priv = (struct up_dev_s*)dev->priv; if (enable) { /* Receive an interrupt when their is anything in the Rx FIFO (or an Rx * timeout occurs. */ #ifndef CONFIG_SUPPRESS_SERIAL_INTS priv->im |= (UART_IM_RXIM|UART_IM_RTIM); #endif } else { priv->im &= ~(UART_IM_RXIM|UART_IM_RTIM); } up_serialout(priv, LM3S_UART_IM_OFFSET, priv->im); } /**************************************************************************** * Name: up_rxavailable * * Description: * Return TRUE if the receive fifo is not empty * ****************************************************************************/ static boolean up_rxavailable(struct uart_dev_s *dev) { struct up_dev_s *priv = (struct up_dev_s*)dev->priv; return ((up_serialin(priv, LM3S_UART_FR_OFFSET) & UART_FR_RXFE) == 0); } /**************************************************************************** * Name: up_send * * Description: * This method will send one byte on the UART * ****************************************************************************/ static void up_send(struct uart_dev_s *dev, int ch) { struct up_dev_s *priv = (struct up_dev_s*)dev->priv; up_serialout(priv, LM3S_UART_DR_OFFSET, (uint32)ch); } /**************************************************************************** * Name: up_txint * * Description: * Call to enable or disable TX interrupts * ****************************************************************************/ static void up_txint(struct uart_dev_s *dev, boolean enable) { struct up_dev_s *priv = (struct up_dev_s*)dev->priv; irqstate_t flags; flags = irqsave(); if (enable) { /* Set to receive an interrupt when the TX fifo is half emptied */ #ifndef CONFIG_SUPPRESS_SERIAL_INTS priv->im |= UART_IM_TXIM; up_serialout(priv, LM3S_UART_IM_OFFSET, priv->im); /* The serial driver wants an interrupt here, but will not get get * one unless we "prime the pump." I believe that this is because * behave like a level interrupt and the LM3S interrupts behave * (at least by default) like edge interrupts. * * In any event, faking a TX interrupt here solves the problem; * Call uart_xmitchars() just as would have been done if we recieved * the TX interrupt. */ uart_xmitchars(dev); #endif } else { /* Disable the TX interrupt */ priv->im &= ~UART_IM_TXIM; up_serialout(priv, LM3S_UART_IM_OFFSET, priv->im); } irqrestore(flags); } /**************************************************************************** * Name: up_txready * * Description: * Return TRUE if the tranmsit fifo is not full * ****************************************************************************/ static boolean up_txready(struct uart_dev_s *dev) { struct up_dev_s *priv = (struct up_dev_s*)dev->priv; return ((up_serialin(priv, LM3S_UART_FR_OFFSET) & UART_FR_TXFF) == 0); } /**************************************************************************** * Name: up_txempty * * Description: * Return TRUE if the transmit fifo is empty * ****************************************************************************/ static boolean up_txempty(struct uart_dev_s *dev) { struct up_dev_s *priv = (struct up_dev_s*)dev->priv; return ((up_serialin(priv, LM3S_UART_FR_OFFSET) & UART_FR_TXFE) != 0); } /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: up_serialinit * * Description: * Performs the low level UART initialization early in * debug so that the serial console will be available * during bootup. This must be called before up_serialinit. * ****************************************************************************/ void up_earlyserialinit(void) { /* NOTE: All GPIO configuration for the UARTs was performed in * up_lowsetup */ /* Disable all UARTS */ up_disableuartint(TTYS0_DEV.priv, NULL); #ifdef TTYS1_DEV up_disableuartint(TTYS1_DEV.priv, NULL); #endif /* Configuration whichever one is the console */ #ifdef HAVE_CONSOLE CONSOLE_DEV.isconsole = TRUE; up_setup(&CONSOLE_DEV); #endif } /**************************************************************************** * Name: up_serialinit * * Description: * Register serial console and serial ports. This assumes * that up_earlyserialinit was called previously. * ****************************************************************************/ void up_serialinit(void) { /* Register the console */ #ifdef HAVE_CONSOLE (void)uart_register("/dev/console", &CONSOLE_DEV); #endif /* Register all UARTs */ (void)uart_register("/dev/ttyS0", &TTYS0_DEV); #ifdef TTYS1_DEV (void)uart_register("/dev/ttyS1", &TTYS1_DEV); #endif } /**************************************************************************** * Name: up_putc * * Description: * Provide priority, low-level access to support OS debug writes * ****************************************************************************/ int up_putc(int ch) { #ifdef HAVE_CONSOLE struct up_dev_s *priv = (struct up_dev_s*)CONSOLE_DEV.priv; uint32 im; up_disableuartint(priv, &im); up_waittxnotfull(priv); up_serialout(priv, LM3S_UART_DR_OFFSET, (uint32)ch); /* Check for LF */ if (ch == '\n') { /* Add CR */ up_waittxnotfull(priv); up_serialout(priv, LM3S_UART_DR_OFFSET, (uint32)'\r'); } up_waittxnotfull(priv); up_restoreuartint(priv, im); #endif return ch; } #else /* CONFIG_USE_SERIALDRIVER */ /**************************************************************************** * Name: up_putc * * Description: * Provide priority, low-level access to support OS debug writes * ****************************************************************************/ int up_putc(int ch) { #ifdef HAVE_CONSOLE /* Check for LF */ if (ch == '\n') { /* Add CR */ up_lowputc('\r'); } up_lowputc(ch); #endif return ch; } #endif /* CONFIG_USE_SERIALDRIVER */