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/* Project: OSLib
* Description: The OS Construction Kit
* Date: 1.6.2000
* Idea by: Luca Abeni & Gerardo Lamastra
*
* OSLib is an SO project aimed at developing a common, easy-to-use
* low-level infrastructure for developing OS kernels and Embedded
* Applications; it partially derives from the HARTIK project but it
* currently is independently developed.
*
* OSLib is distributed under GPL License, and some of its code has
* been derived from the Linux kernel source; also some important
* ideas come from studying the DJGPP go32 extender.
*
* We acknowledge the Linux Community, Free Software Foundation,
* D.J. Delorie and all the other developers who believe in the
* freedom of software and ideas.
*
* For legalese, check out the included GPL license.
*/
/* File: X1.C */
/* Startup code: */
/* Build parameters list & make info accessible */
#include <ll/i386/hw-func.h>
#include <ll/stdlib.h>
#include <ll/i386/cons.h>
#include <ll/i386/mb-info.h>
#include <ll/i386/mem.h>
FILE(X1);
/* #define __DUMP_MEM__ */
/* We need to copy from X address space to the application space */
/* the info structure to allow pointer access using flat model */
/* Remember that flat model is similar to small model also if we */
/* can see the whole memory, because it has no explicit far */
/* pointers; then if we pass into _args[] the address of the */
/* string of the n-th argument it could not be correctly accessed */
/* because it lies in a memory zone unseen from PM application. */
/* This is due to the ELF format which has no relocation info */
/* since the file is already relocated starting from address 0! */
/* Then the PM application cannot see a real flat memory (segment */
/* with 0 base) but CS,DS & SS MUST have the base correctly set. */
/* Refer to this figure: */
/* */
/* DOS Memory <- X is there */
/* */
/* EXTENDED Memory -----[ */
/* [ */
/* Address xxxx [ <- Application code is here! */
/* [ */
/* Address yyyy [ <- Application Data & Stack! */
/* */
/* Then CS has xxxx base while DS & SS have yyyy base! */
/* Stack base address; use this to check stack overflow! */
/* With Flat model I do not think we can use 386 protection */
/* to detect a stack overflow; anyway Watcom C use a standard */
/* function __CHK to detect it! The compiler place it whenever */
/* it calls a function to detect overflow */
DWORD _stkbase;
DWORD _stktop;
/* This is some extra stuff we need to compile with argument */
/* passing and math extensions */
DWORD _argc = 0;
typedef char *charp;
charp _argv[100];
#ifndef MAIN
#define MAIN main
#endif
extern void MAIN(int argc,char *argv[]);
extern void bios_save(void);
extern void bios_restore(void);
/* This is used in GNU-C to implement C++ constructors/destructors */
/* See the lib sources for more details */
void __main(int argc, char **argv)
{
}
struct multiboot_info * mbi_address(void)
{
/* This is declared in [wc32/gnu]\x0.[asm/s] */
extern struct multiboot_info *mbi;
return (mbi);
}
void _startup(void)
{
register int i = 0;
char temp[1000];
struct multiboot_info *mbi = mbi_address();
char *cmdline = (char *)(mbi->cmdline);
if (!(mbi->flags & MB_INFO_MEMORY)) {
cputs("X/Runtime library error!!! Unable to find memory information!\n");
l1_exit(-1);
}
if (mbi->flags & MB_INFO_CMDLINE) {
/* Build parameter list, up to 100 parms... */
while (cmdline[i] != 0 && i < 1000) {
temp[i] = cmdline[i];
_argv[_argc] = &(temp[i]);
while (cmdline[i] != ' ' && cmdline[i] != 0 && i < 1000) {
temp[i] = cmdline[i];
i++;
}
if (cmdline[i] == ' ') {
temp[i] = 0; i++; _argc++;
}
}
temp[i] = 0;
_argc++;
}
bios_save();
/* Call main procedure using standard C convention */
/* Remember you cannot call any console I/O function */
/* if you do not call bios_save() */
#ifdef __DUMP_MEM__
message("X/MEM : %u\n",mbi->mem_upper);
message("DOS/MEM : %u\n",mbi->mem_lower);
message("x_bios Size : %u\n",sizeof(X_BIOSCALL));
message("mbi Size : %u\n",sizeof(struct multiboot_info));
message("Cmdline : %s\n",mbi->cmdline);
message("Argc : %u\n",_argc);
message("Argv[0] : %s\n",_argv[0]);
message("Argv[1] : %s\n",_argv[1]);
message("Argv[2] : %s\n",_argv[2]);
message("Argv[3] : %s\n",_argv[3]);
#endif
MAIN(_argc,_argv);
bios_restore();
}