f93x_uart0_interrupt.c

芯科原厂所有c8051fxx程序的例子。

//-----------------------------------------------------------------------------
// F93x_UART0_Interrupt.c
//-----------------------------------------------------------------------------
// Copyright 2007 Silicon Laboratories, Inc.
// http://www.silabs.com
//
// Program Description:
//
// This program demonstrates how to configure the C8051F930 to write to and read
// from the UART interface. The program reads a word using the UART interrupts
// and outputs that word to the screen, with all characters in uppercase
//
// How To Test:
//
// 1) Ensure that jumpers are placed on J12 of the C8051F930 target board
//    that connect P0.4/TX to the RXD signal, P0.5/RX to the TXD signal,
//    and VDD/DC+ to VIO.
// 2) Connect a USB cable from the development board to a PC
// 3) Specify the target baudrate in the constant <BAUDRATE>
// 4) Open Hyperterminal, or a similar program, and connect to the target
//    board's USB port (virtual com port)
// 5) Download and execute code on an 'F93x target board
// 6) Type up to 64 characters into the Terminal and press Enter.  The MCU
//    will then print back the characters that were typed
//
// Target:         C8051F93x-C8051F92x
// Tool chain:     Generic
// Command Line:   None
//
// Release 1.1
//    - Updated to be compatible with SDCC. (FB)
//    - 9 NOV 2007
//
// Release 1.0
//    -Initial Revision (FB)
//    -14 AUG 2007
//

//-----------------------------------------------------------------------------
// Includes
//-----------------------------------------------------------------------------

#include <compiler_defs.h>
#include <C8051F930_defs.h>            // SFR declarations
#include <stdio.h>

//-----------------------------------------------------------------------------
// Global CONSTANTS
//-----------------------------------------------------------------------------

#define SYSCLK           24500000      // SYSCLK frequency in Hz
#define BAUDRATE           230400      // Baud rate of UART in bps

//-----------------------------------------------------------------------------
// Function PROTOTYPES
//-----------------------------------------------------------------------------

void SYSCLK_Init (void);
void UART0_Init (void);
void PORT_Init (void);
INTERRUPT_PROTO (UART0_ISR, INTERRUPT_UART0);


//-----------------------------------------------------------------------------
// Generic UART definitions to support both Keil and SDCC
//-----------------------------------------------------------------------------
#ifdef SDCC
#include <sdcc_stdio.h>
#endif

char *GETS (char *, unsigned int);

#ifdef __C51__
#define GETS gets
#endif

#ifdef SDCC
#include <sdcc_stdio.c>
#endif


//-----------------------------------------------------------------------------
// Global Variables
//-----------------------------------------------------------------------------

#define UART_BUFFERSIZE 64
U8 UART_Buffer[UART_BUFFERSIZE];
U8 UART_Buffer_Size = 0;
U8 UART_Input_First = 0;
U8 UART_Output_First = 0;
U8 TX_Ready =1;
static U8 Byte;

//-----------------------------------------------------------------------------
// MAIN Routine
//-----------------------------------------------------------------------------

void main (void)
{
   PCA0MD &= ~0x40;                    // WDTE = 0 (clear watchdog timer
                                       // enable)
   PORT_Init();                        // Initialize Port I/O
   SYSCLK_Init ();                     // Initialize Oscillator
   UART0_Init();                       // Initialize UART0

   EA = 1;                             // Enable Interrupts

   while(1)
   {
      // If the complete word has been entered via the terminal followed by
      // carriage return

      if(TX_Ready == 1 && UART_Buffer_Size != 0 && Byte == 13)
      {
         TX_Ready = 0;                 // Set the flag to zero
         TI0 = 1;                      // Set transmit flag to 1
      }
   }
}

//-----------------------------------------------------------------------------
// Initialization Subroutines
//-----------------------------------------------------------------------------

//-----------------------------------------------------------------------------
// PORT_Init
//-----------------------------------------------------------------------------
//
// Return Value : None
// Parameters   : None
//
// Configure the Crossbar and GPIO ports.
//
// P0.4   digital   push-pull    UART TX
// P0.5   digital   open-drain   UART RX
//
//-----------------------------------------------------------------------------
void PORT_Init (void)
{
   P0MDOUT |= 0x10;                    // Enable UTX as push-pull output
   XBR0    = 0x01;                     // Enable UART on P0.4(TX) and P0.5(RX)
   XBR2    = 0x40;                     // Enable crossbar and weak pull-ups
}

//-----------------------------------------------------------------------------
// SYSCLK_Init
//-----------------------------------------------------------------------------
//
// Return Value : None
// Parameters   : None
//
// This routine initializes the system clock to use the internal precision 
// oscillator at its maximum frequency and enables the missing clock 
// detector.
// 
//-----------------------------------------------------------------------------

void SYSCLK_Init (void)
{
   
   OSCICN |= 0x80;                     // Enable the precision internal osc.
   
   RSTSRC = 0x06;                      // Enable missing clock detector and
                                       // leave VDD Monitor enabled.

   CLKSEL = 0x00;                      // Select precision internal osc. 
                                       // divided by 1 as the system clock
   
}
//-----------------------------------------------------------------------------
// UART0_Init
//-----------------------------------------------------------------------------
//
// Return Value : None
// Parameters   : None
//
// Configure the UART0 using Timer1, for <BAUDRATE> and 8-N-1.
//-----------------------------------------------------------------------------
void UART0_Init (void)
{
   SCON0 = 0x10;                       // SCON0: 8-bit variable bit rate
                                       //        level of STOP bit is ignored
                                       //        RX enabled
                                       //        ninth bits are zeros
                                       //        clear RI0 and TI0 bits
   #if (SYSCLK/BAUDRATE/2/256 < 1) 
      TH1 = -(SYSCLK/BAUDRATE/2);
      CKCON &= ~0x0B;                  // T1M = 1; SCA1:0 = xx
      CKCON |=  0x08;
   #elif (SYSCLK/BAUDRATE/2/256 < 4) 
      TH1 = -(SYSCLK/BAUDRATE/2/4);
      CKCON &= ~0x0B;                  // T1M = 0; SCA1:0 = 01
      CKCON |=  0x01;
   #elif (SYSCLK/BAUDRATE/2/256 < 12) 
      TH1 = -(SYSCLK/BAUDRATE/2/12);
      CKCON &= ~0x0B;                  // T1M = 0; SCA1:0 = 00
   #else 
      TH1 = -(SYSCLK/BAUDRATE/2/48);
      CKCON &= ~0x0B;                  // T1M = 0; SCA1:0 = 10
      CKCON |=  0x02;
   #endif

   TL1 = TH1;                          // init Timer1
   TMOD &= ~0xf0;                      // TMOD: timer 1 in 8-bit autoreload
   TMOD |=  0x20;
   TR1 = 1;                            // START Timer1
   TX_Ready = 1;                       // Flag showing that UART can transmit
   IP |= 0x10;                         // Make UART high priority
   ES0 = 1;                            // Enable UART0 interrupts

}

//-----------------------------------------------------------------------------
// Interrupt Service Routines
//-----------------------------------------------------------------------------

//-----------------------------------------------------------------------------
// UART0_Interrupt
//-----------------------------------------------------------------------------
//
// This routine is invoked whenever a character is entered or displayed on the
// Hyperterminal.
//
//-----------------------------------------------------------------------------

INTERRUPT(UART0_ISR, INTERRUPT_UART0)
{

   if (RI0 == 1)
   {
      if( UART_Buffer_Size == 0)  {      // If new word is entered
         UART_Input_First = 0;    }

      RI0 = 0;                           // Clear interrupt flag

      Byte = SBUF0;                      // Read a character from UART

      if (UART_Buffer_Size < UART_BUFFERSIZE)
      {
         UART_Buffer[UART_Input_First] = Byte; // Store in array

         UART_Buffer_Size++;             // Update array's size

         UART_Input_First++;             // Update counter
      }
   }

   if (TI0 == 1)                   // Check if transmit flag is set
   {
      TI0 = 0;                           // Clear interrupt flag

      if (UART_Buffer_Size != 1)         // If buffer not empty
      {
         // If a new word is being output
         if ( UART_Buffer_Size == UART_Input_First ) {
              UART_Output_First = 0;  }

         // Store a character in the variable byte
         Byte = UART_Buffer[UART_Output_First];

         if ((Byte >= 0x61) && (Byte <= 0x7A)) { // If upper case letter
            Byte -= 32; }

         SBUF0 = Byte;                   // Transmit to Hyperterminal

         UART_Output_First++;            // Update counter

         UART_Buffer_Size--;             // Decrease array size

      }
      else
      {
         UART_Buffer_Size = 0;            // Set the array size to 0
         TX_Ready = 1;                    // Indicate transmission complete
      }
   }
}

//-----------------------------------------------------------------------------
// End Of File
//-----------------------------------------------------------------------------