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/*
 * This software is Copyright (C) 1998 by T.sqware - all rights limited
 * It is provided in to the public domain "as is", can be freely modified
 * as far as this copyight notice is kept unchanged, but does not imply
 * an endorsement by T.sqware of the product in which it is included.
 *
 *  COPYRIGHT (c) 2000 Canon Research France SA.
 *  Emmanuel Raguet, mailto:raguet@crf.canon.fr
 *
 * The license and distribution terms for this file may be
 * found in the file LICENSE in this distribution or at
 * http://www.rtems.com/license/LICENSE.
 *
 *  $Id$
 */

#include <bsp.h>
#include <irq.h>
#include <registers.h>
#include <uart.h>
#include <rtems/libio.h>
#include <assert.h>

/*
 * Basic 16552 driver
 */

struct uart_data
{
  int hwFlow;
  int baud;
};

static struct uart_data uart_data[2];

/*
 * Macros to read/wirte register of uart, if configuration is
 * different just rewrite these macros
 */

static inline unsigned char
uread(int uart, unsigned int reg)
{
  register unsigned char val;

  val = Regs[reg];

  return val;
}

static inline void
uwrite(int uart, int reg, unsigned int val)
{

  Regs[reg] = val;

}

#ifdef UARTDEBUG
    static void
uartError(int uart)
{
  unsigned char uartStatus, dummy;

  uartStatus = uread(uart, LSR);
  dummy = uread(uart, RBR);

  if (uartStatus & OE)
    printk("********* Over run Error **********\n");
  if (uartStatus & PE)
    printk("********* Parity Error   **********\n");
  if (uartStatus & FE)
    printk("********* Framing Error  **********\n");
  if (uartStatus & BI)
    printk("********* Parity Error   **********\n");
  if (uartStatus & ERFIFO)
    printk("********* Error receive Fifo **********\n");

}
#else
inline void uartError(int uart)
{
  unsigned char uartStatus;

  uartStatus = uread(uart, LSR);
  uartStatus = uread(uart, RBR);
}
#endif

/*
 * Uart initialization, it is hardcoded to 8 bit, no parity,
 * one stop bit, FIFO, things to be changed
 * are baud rate and nad hw flow control,
 * and longest rx fifo setting
 */
void
BSP_uart_init(int uart, int baud, int hwFlow)
{
  unsigned char tmp;

  /* Sanity check */
  assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2);

  switch(baud)
    {
    case 50:
    case 75:
    case 110:
    case 134:
    case 300:
    case 600:
    case 1200:
    case 2400:
    case 9600:
    case 19200:
    case 38400:
    case 57600:
    case 115200:
      break;
    default:
      assert(0);
      return;
    }

  /* Enable UART block */
  uwrite(uart, CNT, UART_ENABLE | PAD_ENABLE);

  /* Set DLAB bit to 1 */
  uwrite(uart, LCR, DLAB);

  /* Set baud rate */
  uwrite(uart, DLL,  (BSPBaseBaud/baud) & 0xff);
  uwrite(uart, DLM,  ((BSPBaseBaud/baud) >> 8) & 0xff);

  /* 8-bit, no parity , 1 stop */
  uwrite(uart, LCR, CHR_8_BITS);

  /* Enable FIFO */
  uwrite(uart, FCR, FIFO_EN | XMIT_RESET | RCV_RESET | RECEIVE_FIFO_TRIGGER12);

  /* Disable Interrupts */
  uwrite(uart, IER, 0);

  /* Read status to clear them */
  tmp = uread(uart, LSR);
  tmp = uread(uart, RBR);

  /* Remember state */
  uart_data[uart].hwFlow     = hwFlow;
  uart_data[uart].baud       = baud;
  return;
}

/*
 * Set baud
 */
void
BSP_uart_set_baud(int uart, int baud)
{
  unsigned char  ier;

  /* Sanity check */
  assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2);

  /*
   * This function may be called whenever TERMIOS parameters
   * are changed, so we have to make sure that baud change is
   * indeed required
   */

  if(baud == uart_data[uart].baud)
    {
      return;
    }

  ier = uread(uart, IER);

  BSP_uart_init(uart, baud, uart_data[uart].hwFlow);

  uwrite(uart, IER, ier);

  return;
}

/*
 * Enable/disable interrupts
 */
void
BSP_uart_intr_ctrl(int uart, int cmd)
{

  assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2);

  switch(cmd)
    {
    case BSP_UART_INTR_CTRL_DISABLE:
      uwrite(uart, IER, INTERRUPT_DISABLE);
      break;
    case BSP_UART_INTR_CTRL_ENABLE:
      uwrite(uart, IER,
	     (RECEIVE_ENABLE  |
	      TRANSMIT_ENABLE |
	      RECEIVER_LINE_ST_ENABLE
	      )
	     );
      break;
    case BSP_UART_INTR_CTRL_TERMIOS:
      uwrite(uart, IER,
	     (RECEIVE_ENABLE  |
	      RECEIVER_LINE_ST_ENABLE
	      )
	     );
      break;
    case BSP_UART_INTR_CTRL_GDB:
      uwrite(uart, IER, RECEIVE_ENABLE);
      break;
    default:
      assert(0);
      break;
    }

  return;
}

/*
 * Status function, -1 if error
 * detected, 0 if no received chars available,
 * 1 if received char available, 2 if break
 * is detected, it will eat break and error
 * chars. It ignores overruns - we cannot do
 * anything about - it execpt count statistics
 * and we are not counting it.
 */
int
BSP_uart_polled_status(int uart)
{
  unsigned char val;

  assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2);

  val = uread(uart, LSR);

  if(val & BI)
    {
      /* BREAK found, eat character */
      uread(uart, RBR);
      return BSP_UART_STATUS_BREAK;
    }

  if((val & (DR | OE | FE)) ==  1)
    {
      /* No error, character present */
      return BSP_UART_STATUS_CHAR;
    }

  if((val & (DR | OE | FE)) == 0)
    {
      /* Nothing */
      return BSP_UART_STATUS_NOCHAR;
    }

  /*
   * Framing or parity error
   * eat character
   */
  uread(uart, RBR);

  return BSP_UART_STATUS_ERROR;
}

/*
 * Polled mode write function
 */
void
BSP_uart_polled_write(int uart, int val)
{
  unsigned char val1;

  /* Sanity check */
  assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2);

  for(;;)
    {
      if((val1=uread(uart, LSR)) & THRE)
	{
	  break;
	}
    }

  uwrite(uart, THR, val & 0xff);

  return;
}

void
BSP_output_char_via_serial(int val)
{
  BSP_uart_polled_write(BSPConsolePort, val);
  if (val == '\n') BSP_uart_polled_write(BSPConsolePort,'\r');
}

/*
 * Polled mode read function
 */
int
BSP_uart_polled_read(int uart)
{
  unsigned char val;

  assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2);

  for(;;)
    {
      if(uread(uart, LSR) & DR)
	{
	  break;
	}
    }

  val = uread(uart, RBR);

  return (int)(val & 0xff);
}

unsigned
BSP_poll_char_via_serial()
{
	return BSP_uart_polled_read(BSPConsolePort);
}

/* ================ Termios support  =================*/

static volatile int  termios_stopped_com1        = 0;
static volatile int  termios_tx_active_com1      = 0;
static void*	     termios_ttyp_com1           = NULL;
static char          termios_tx_hold_com1        = 0;
static volatile char termios_tx_hold_valid_com1  = 0;

static volatile int  termios_stopped_com2        = 0;
static volatile int  termios_tx_active_com2      = 0;
static void*	     termios_ttyp_com2           = NULL;
static char          termios_tx_hold_com2        = 0;
static volatile char termios_tx_hold_valid_com2  = 0;

/*
 * Set channel parameters
 */
void
BSP_uart_termios_set(int uart, void *ttyp)
{
  assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2);

  if(uart == BSP_UART_COM1)
    {
      termios_stopped_com1 = 0;
      termios_tx_active_com1      = 0;
      termios_ttyp_com1           = ttyp;
      termios_tx_hold_com1        = 0;
      termios_tx_hold_valid_com1  = 0;
    }
  else
    {
      termios_stopped_com2 = 0;
      termios_tx_active_com2      = 0;
      termios_ttyp_com2           = ttyp;
      termios_tx_hold_com2        = 0;
      termios_tx_hold_valid_com2  = 0;
    }

  return;
}

int
BSP_uart_termios_write_com1(int minor, const char *buf, int len)
{
  assert(buf != NULL);

  if(len <= 0)
    {
      return 0;
    }

  /* If there TX buffer is busy - something is royally screwed up */
  assert((uread(BSP_UART_COM1, LSR) & THRE) != 0);

  if(termios_stopped_com1)
    {
      /* CTS low */
      termios_tx_hold_com1       = *buf;
      termios_tx_hold_valid_com1 = 1;
      return 0;
    }

  /* Write character */
  uwrite(BSP_UART_COM1, THR, *buf & 0xff);

  /* Enable interrupts if necessary */
  if(!termios_tx_active_com1)
    {
      termios_tx_active_com1 = 1;
      uwrite(BSP_UART_COM1, IER,
	     (RECEIVE_ENABLE  |
	      TRANSMIT_ENABLE |
	      RECEIVER_LINE_ST_ENABLE
	     )
	    );
    }

  return 0;
}

int
BSP_uart_termios_write_com2(int minor, const char *buf, int len)
{
  assert(buf != NULL);

  if(len <= 0)
    {
      return 0;
    }

  /* If there TX buffer is busy - something is royally screwed up */
  assert((uread(BSP_UART_COM2, LSR) & THRE) != 0);

  if(termios_stopped_com2)
    {
      /* CTS low */
      termios_tx_hold_com2       = *buf;
      termios_tx_hold_valid_com2 = 1;
      return 0;
    }

  /* Write character */

  uwrite(BSP_UART_COM2, THR, *buf & 0xff);

  /* Enable interrupts if necessary */
  if(!termios_tx_active_com2)
    {
      termios_tx_active_com2 = 1;
      uwrite(BSP_UART_COM2, IER,
	     (RECEIVE_ENABLE  |
	      TRANSMIT_ENABLE |
	      RECEIVER_LINE_ST_ENABLE
	     )
	    );
    }

  return 0;
}

void
BSP_uart_termios_isr_com1(void)
{
  unsigned char buf[40];
  int      off, ret, vect;

  off = 0;

  for(;;)
    {
      vect = uread(BSP_UART_COM1, IIR) & 0xf;

      switch(vect)
	{
	case NO_MORE_INTR :
	  /* No more interrupts */
	  if(off != 0)
	    {
	      /* Update rx buffer */
	      rtems_termios_enqueue_raw_characters(termios_ttyp_com1,
						   (char *)buf,
						   off);
	    }
	  return;
	case TRANSMITTER_HODING_REGISTER_EMPTY :
	  /*
	   * TX holding empty: we have to disable these interrupts
	   * if there is nothing more to send.
	   */

	  ret = rtems_termios_dequeue_characters(termios_ttyp_com1, 1);

	  /* If nothing else to send disable interrupts */
	  if(ret == 0)
	    {
	      uwrite(BSP_UART_COM1, IER,
		     (RECEIVE_ENABLE  |
		      RECEIVER_LINE_ST_ENABLE
		     )
		    );
              termios_tx_active_com1 = 0;
	    }
	  break;
	case RECEIVER_DATA_AVAIL :
	case CHARACTER_TIMEOUT_INDICATION:
	  /* RX data ready */
	  assert(off < sizeof(buf));
	  buf[off++] = uread(BSP_UART_COM1, RBR);
	  break;
	case RECEIVER_ERROR:
	  /* RX error: eat character */
	   uartError(BSP_UART_COM1);
	  break;
	default:
	  /* Should not happen */
	  assert(0);
	  return;
	}
    }
}

void
BSP_uart_termios_isr_com2()
{
  unsigned char buf[40];
  int      off, ret, vect;

  off = 0;

  for(;;)
    {
      vect = uread(BSP_UART_COM2, IIR) & 0xf;

      switch(vect)
	{
	case NO_MORE_INTR :
	  /* No more interrupts */
	  if(off != 0)
	    {
	      /* Update rx buffer */
	      rtems_termios_enqueue_raw_characters(termios_ttyp_com2,
						   (char *)buf,
						   off);
	    }
	  return;
	case TRANSMITTER_HODING_REGISTER_EMPTY :
	  /*
	   * TX holding empty: we have to disable these interrupts
	   * if there is nothing more to send.
	   */

	  ret = rtems_termios_dequeue_characters(termios_ttyp_com2, 1);

	  /* If nothing else to send disable interrupts */
	  if(ret == 0)
	    {
	      uwrite(BSP_UART_COM2, IER,
		     (RECEIVE_ENABLE  |
		      RECEIVER_LINE_ST_ENABLE
		     )
		    );
              termios_tx_active_com2 = 0;
	    }
	  break;
	case RECEIVER_DATA_AVAIL :
	case CHARACTER_TIMEOUT_INDICATION:
	  /* RX data ready */
	  assert(off < sizeof(buf));
	  buf[off++] = uread(BSP_UART_COM2, RBR);
	  break;
	case RECEIVER_ERROR:
	  /* RX error: eat character */
	   uartError(BSP_UART_COM2);
	  break;
	default:
	  /* Should not happen */
	  assert(0);
	  return;
	}
    }
}