retarget.c

Mouse for USB demo, based on STR710

/*
 * Copyright (C) ARM Limited, 1999. All rights reserved.
 */


/*
This implements a 'retarget' layer for low-level IO.  Typically, this would 
contain your own target-dependent implementations of fputc(), ferror(), etc.
This example provides implementations of fputc(), ferror(), _sys_exit(), 
_ttywrch() and __user_initial_stackheap().
Here, semi-hosting SWIs are used to display text onto the console of the host debugger.
This mechanism is portable across ARMulator, Angel, Multi-ICE and EmbeddedICE.
Alternatively, to output characters from the serial port of an ARM Development (PID) Board
(see serial.c), use '#define USE_SERIAL_PORT' or compile with '-DUSE_SERIAL_PORT'.
*/

#include <stdio.h>
#include "71x_conf.h"

/* #define USE_SERIAL_PORT */

#ifdef __thumb
/* Thumb Semihosting SWI */
#define SemiSWI 0xAB
#else
/* ARM Semihosting SWI */
#define SemiSWI 0x123456
#endif

/* Write a character */ 
__swi(SemiSWI) void _WriteC(unsigned op, char *c);
#define WriteC(c) _WriteC (0x3,c)

/* Exit */
__swi(SemiSWI) void _Exit(unsigned op, unsigned except);
#define Exit() _Exit (0x18,0x20026)


struct __FILE { int handle;   /* Add whatever you need here */};
FILE __stdout;


extern void sendchar( char *ch );    /* in serial.c */


int fputc(int ch, FILE *f)
{
    /* Place your implementation of fputc here */
    /* e.g. write a character to a UART, or to the debugger console with SWI WriteC */

    char tempch = ch;
#ifdef USE_SERIAL_PORT
//    sendchar( &tempch );
#else
    WriteC( &tempch );
#endif
    return ch;
}


int ferror(FILE *f)
{   /* Your implementation of ferror */
    return EOF;
}


void _sys_exit(int return_code)
{
    Exit();         /* for debugging */

label:  goto label; /* endless loop */
}


void _ttywrch(int ch)
{
    char tempch = ch;
#ifdef USE_SERIAL_PORT
    sendchar( &tempch );
#else
    WriteC( &tempch );
#endif
}


__value_in_regs struct R0_R3 {unsigned heap_base, stack_base, heap_limit, stack_limit;} 
    __user_initial_stackheap(unsigned int R0, unsigned int SP, unsigned int R2, unsigned int SL)
{
    struct R0_R3 config;

    config.heap_base = 0x00030000;
    config.stack_base = SP;

/*
To place heap_base directly above the ZI area, use:
    extern unsigned int Image$$ZI$$Limit;
    config.heap_base = (unsigned int)&Image$$ZI$$Limit;
(or &Image$$region_name$$ZI$$Limit for scatterloaded images)

To specify the limits for the heap & stack, use e.g:
    config.heap_limit = SL;
    config.stack_limit = SL;
*/

    return config;
}