Exemple #1
0
result_t ser_print(char *string, int number) {

	size_t length;
	char *format = " : 0x";
	u8_t number_string[8];

	length = strlen(string);

	if(ser_write((u8_t *)string, length) != SUCCESS) {
		return FAILURE;
	}

	if(ser_write(gen_add_base(format), 5) != SUCCESS) {
		return FAILURE;
	}

	itoa(number, (char *)number_string, 16);

	if(ser_write(number_string, strlen((char *)number_string)) != SUCCESS) {
		return FAILURE;
	}

	if(ser_write(gen_add_base("\r\n"), 2) != SUCCESS) {
		return FAILURE;
	}

	return SUCCESS;
}
Exemple #2
0
void ser_print(const char *p)
{
        while (*p) {
                char c = *p++;
                if (c == '\n') ser_write('\r');
                ser_write(c);
        }
}
Exemple #3
0
static void ser_print_hex1(unsigned int n)
{
        n &= 15;
        if (n < 10) {
                ser_write('0' + n);
        } else {
                ser_write('A' - 10 + n);
        }
}
Exemple #4
0
/**
 * Write data to SPI bus.
 */
static size_t spimaster_write(struct KFile *fd, const void *buf, size_t size)
{
	Serial *fd_spi = SERIAL_CAST(fd);

	ser_purgeRx(fd_spi);

	return ser_write(&fd_spi->fd, buf, size);
}
Exemple #5
0
Errcode slow_to_wacom(SHORT port, char *s)
/* send a string out serial port with a delay afterwards */
{
	ser_write(port,s,strlen(s));
	flush_write(port);
	wait_milli(150);
	return(ser_status(port));
}
Exemple #6
0
// Send a packet to the serial port
static void send_response_packet()
{
  u16 temp16;

  // Send request
  if( remotefs_get_packet_size( rfs_buffer, &temp16 ) != REMOTEFS_ERR )
  {
    log_msg( "send_response_packet: sending response packet of %u bytes\n", ( unsigned )temp16 );
    ser_write( ser, rfs_buffer, temp16 );
  }
}
void transport_write_buffer( Transport *tpt, const u8 *buffer, int length )
{
  int n;
  struct exception e;
  TRANSPORT_VERIFY_OPEN;

  n = ser_write( tpt->fd, buffer, length );

  if ( n != length )
  {
    e.errnum = transport_errno;
    e.type = fatal;
    Throw( e );
  }
}
// Write a byte to the serial port
u32 ser_write_byte( ser_handler id, u8 data )
{
  return ser_write( id, &data, 1 );
}
Exemple #9
0
// Write a byte to the serial port
u32 ser_write_byte( int id, u8 data )
{
  return ( u32 )ser_write( id, &data, (u32) 1 );
}
Exemple #10
0
Errcode wac_input(Idriver *idr)
{
static char wlinebuf[32];
char *s = wlinebuf;
int count = sizeof(wlinebuf)-2;
int c;
int stype;
int temp;
int dp;
int ux,uy;
SHORT port = idr->comm_port;

ser_write(port, "RQ1\n", 4);
flush_write(port);
while (--count >= 0)
	{
	if ((c = timeout_get_char(port)) < Success)
		{
		return(c);
		}
	if ((*s++ = c) == '\n')
		break;
	}
*s = 0;
s = wlinebuf;
switch (*s++)	/* see what first character of packet says it is */
	{
	case '!':
		stype = PSTYLUS;
		break;
	case '#':
		stype = STYLUS;
		break;
	case '*':
		stype = PUCK;		/* it's a puck */
		break;
	default:
		flush_read(port);
		return(Err_version);
	}
s = skip_past_comma(s);
ux = atoi(s) - 120;
s = skip_past_comma(s);
uy = atoi(s) - 120;
s = skip_past_comma(s);
temp = atoi(s);
switch (stype)
	{
	case PSTYLUS:
		idr->buttons = 0; 
		wac_pos[2] = 0;
		if (temp > -99 && temp < 99)	/* filter to reasonable values */
			{
			wac_pos[0] = ux;
			wac_pos[1] = uy;
			if (temp < pmin)
				pmin = temp;
			if (temp > pmax)
				pmax = temp;
			dp = pmax-(pmin+PTHRESH);
			temp -= pmin+PTHRESH;
			if (temp > 0)
				{
				wac_pos[2] = temp*PMAX/dp;
				idr->buttons = 1;
				}
			}
		/* check for control key to interpret a right click 
			(Arr, no side button on pressure sensitive stylus!) */
		if (jkey_shift() & 0x4)	/* right button on control key */
			idr->buttons |= 0x2;
		break;
	case STYLUS:
		if (temp != 99)
			{
			wac_pos[0] = ux;
			wac_pos[1] = uy;
			idr->buttons = temp;
			}
		break;
	case PUCK:
		idr->buttons = 0;
		if (temp != 99)
			{
			wac_pos[0] = ux;
			wac_pos[1] = uy;
			if (temp&2)
				idr->buttons |= 1;
			if (temp&4)
				idr->buttons |= 2;
			}
		break;
		}
return(Success);
}
Exemple #11
0
static u32 transport_ser_send( const u8 *p, u32 size )
{
    TRANSPORT_SER *pser = ( TRANSPORT_SER* )transport_data;

    return ser_write( pser->fd, p, size );
}