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[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [ColdFire_MCF51CN128_CodeWarrior/] [Sources/] [startcf.c] - Blame information for rev 792

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Line No. Rev Author Line
1 578 jeremybenn
/*
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 *    CF_Startup.c - Default init/startup/termination routines for
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 *                     Embedded Metrowerks C++
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 *
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 *    Copyright © 1993-1998 Metrowerks, Inc. All Rights Reserved.
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 *    Copyright © 2005 Freescale semiConductor Inc. All Rights Reserved.
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 *
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 *
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 *    THEORY OF OPERATION
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 *
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 *    This version of thestartup code is intended for linker relocated
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 *    executables.  The startup code will assign the stack pointer to
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 *    __SP_INIT, assign the address of the data relative base address
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 *    to a5, initialize the .bss/.sbss sections to zero, call any
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 *    static C++ initializers and then call main.  Upon returning from
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 *    main it will call C++ destructors and call exit to terminate.
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 */
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#ifdef __cplusplus
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#pragma cplusplus off
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#endif
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#pragma PID off
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#pragma PIC off
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#include "startcf.h"
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#include "RuntimeConfig.h"
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        /* imported data */
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extern unsigned long far _SP_INIT, _SDA_BASE;
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extern unsigned long far _START_BSS, _END_BSS;
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extern unsigned long far _START_SBSS, _END_SBSS;
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extern unsigned long far __DATA_RAM, __DATA_ROM, __DATA_END;
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        /* imported routines */
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extern void __call_static_initializers(void);
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extern int main(int, char **);
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extern void exit(int);
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        /* exported routines */
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extern void _ExitProcess(void);
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extern asm void _startup(void);
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extern void __initialize_hardware(void);
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extern void __initialize_system(void);
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/*
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 *    Dummy routine for initializing hardware.  For user's custom systems, you
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 *    can create your own routine of the same name that will perform HW
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 *    initialization.  The linker will do the right thing to ignore this
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 *    definition and use the version in your file.
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 */
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#pragma overload void __initialize_hardware(void);
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void __initialize_hardware(void)
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{
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}
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/*
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 *    Dummy routine for initializing systems.  For user's custom systems,
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 *    you can create your own routine of the same name that will perform
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 *    initialization.  The linker will do the right thing to ignore this
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 *    definition and use the version in your file.
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 */
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#pragma overload void __initialize_system(void);
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void __initialize_system(void)
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{
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}
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/*
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 *    Dummy routine for initializing C++.  This routine will get overloaded by the C++ runtime.
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 */
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#pragma overload void __call_static_initializers(void);
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void __call_static_initializers(void)
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{
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}
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/*
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 *      Routine to copy a single section from ROM to RAM ...
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 */
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static __declspec(register_abi) void __copy_rom_section(char* dst, const char* src, unsigned long size)
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{
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        if (dst != src)
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                 while (size--)
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                    *dst++ = *src++;
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}
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/*
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 *      Routine that copies all sections the user marked as ROM into
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 *      their target RAM addresses ...
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 *
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 *      __S_romp is automatically generated by the linker if it
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 *      is referenced by the program.  It is a table of RomInfo
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 *      structures.  The final entry in the table has all-zero
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 *      fields.
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 */
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static void __copy_rom_sections_to_ram(void)
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{
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        RomInfo         *info;
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        /*
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         *      Go through the entire table, copying sections from ROM to RAM.
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         */
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        for (info = _S_romp; info->Source != 0L || info->Target != 0L || info->Size != 0; ++info)
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    __copy_rom_section( (char *)info->Target,(char *)info->Source, info->Size);
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}
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/*
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 *    Exit handler called from the exit routine, if your OS needs
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 *    to do something special for exit handling just replace this
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 *    routines with what the OS needs to do ...
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 */
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asm void _ExitProcess(void)
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{
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        illegal
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        rts
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}
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/*
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 *    Routine to clear out blocks of memory should give good
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 *    performance regardless of 68k or ColdFire part.
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 */
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static __declspec(register_abi) void clear_mem(char *dst, unsigned long n)
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{
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        unsigned long i;
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        long *lptr;
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        if (n >= 32)
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        {
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                /* align start address to a 4 byte boundary */
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                i = (- (unsigned long) dst) & 3;
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                if (i)
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                {
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                        n -= i;
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                        do
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                                *dst++ = 0;
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                        while (--i);
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                }
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                /* use an unrolled loop to zero out 32byte blocks */
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                i = n >> 5;
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                if (i)
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                {
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                        lptr = (long *)dst;
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                        dst += i * 32;
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                        do
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                        {
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                                *lptr++ = 0;
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                                *lptr++ = 0;
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                                *lptr++ = 0;
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                                *lptr++ = 0;
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                                *lptr++ = 0;
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                                *lptr++ = 0;
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                                *lptr++ = 0;
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                                *lptr++ = 0;
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                        }
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                        while (--i);
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                }
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                i = (n & 31) >> 2;
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                /* handle any 4 byte blocks left */
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                if (i)
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                {
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                        lptr = (long *)dst;
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                        dst += i * 4;
169
                        do
170
                                *lptr++ = 0;
171
                        while (--i);
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                }
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                n &= 3;
174
        }
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        /* handle any byte blocks left */
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        if (n)
178
                do
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                        *dst++ = 0;
180
                while (--n);
181
}
182
 
183
/*
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 *    Startup routine for embedded application ...
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 */
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asm void _startup(void)
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{
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        /* disable interrupts */
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    move.w        #0x2700,sr
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        /* Pre-init SP, in case memory for stack is not valid it should be setup using
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           MEMORY_INIT before __initialize_hardware is called
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        */
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        lea __SP_AFTER_RESET,a7;
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    /* initialize memory */
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    MEMORY_INIT
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        /* initialize any hardware specific issues */
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    jsr           __initialize_hardware
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        /* setup the stack pointer */
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    lea           _SP_INIT,a7
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        /* setup A6 dummy stackframe */
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    movea.l       #0,a6
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    link          a6,#0
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        /* setup A5 */
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    lea           _SDA_BASE,a5
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213
 
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        /* zero initialize the .bss section */
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    lea           _END_BSS, a0
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    lea           _START_BSS, a1
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    suba.l        a1, a0
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    move.l        a0, d0
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    beq           __skip_bss__
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    lea           _START_BSS, a0
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    /* call clear_mem with base pointer in a0 and size in d0 */
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    jsr           clear_mem
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__skip_bss__:
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        /* zero initialize the .sbss section */
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    lea           _END_SBSS, a0
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    lea           _START_SBSS, a1
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    suba.l        a1, a0
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    move.l        a0, d0
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    beq           __skip_sbss__
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239
    lea           _START_SBSS, a0
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241
    /* call clear_mem with base pointer in a0 and size in d0 */
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    jsr           clear_mem
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244
__skip_sbss__:
245
 
246
        /* copy all ROM sections to their RAM locations ... */
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#if SUPPORT_ROM_TO_RAM
248
 
249
        /*
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         * _S_romp is a null terminated array of
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         * typedef struct RomInfo {
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     *      unsigned long       Source;
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     *      unsigned long       Target;
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     *      unsigned long       Size;
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     *  } RomInfo;
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     *
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     * Watch out if you're rebasing using _PICPID_DELTA
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     */
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    lea           _S_romp, a0
261
    move.l        a0, d0
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    beq           __skip_rom_copy__
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    jsr           __copy_rom_sections_to_ram
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265
#else
266
 
267
        /*
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   * There's a single block to copy from ROM to RAM, perform
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   * the copy directly without using the __S_romp structure
270
   */
271
 
272
    lea           __DATA_RAM, a0
273
    lea           __DATA_ROM, a1
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275
    cmpa          a0,a1
276
    beq           __skip_rom_copy__
277
 
278
    move.l        #__DATA_END, d0
279
    sub.l         a0, d0
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281
    jsr           __copy_rom_section
282
 
283
#endif
284
__skip_rom_copy__:
285
 
286
        /* call C++ static initializers (__sinit__(void)) */
287
        jsr                       __call_static_initializers
288
 
289
        jsr                       __initialize_system
290
 
291
        /* call main(int, char **) */
292
        pea                       __argv
293
        clr.l             -(sp)                         /* clearing a long is ok since it's caller cleanup */
294
        jsr                       main
295
        addq.l          #8, sp
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297
        unlk              a6
298
 
299
        /* now call exit(0) to terminate the application */
300
        clr.l             -(sp)
301
        jsr                       exit
302
        addq.l          #4, sp
303
 
304
        /* should never reach here but just in case */
305
        illegal
306
        rts
307
 
308
        /* exit will never return */
309
__argv:
310
    dc.l          0
311
}
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