/* This file contains the C startup code for Minix on Intel processors. * It cooperates with mpx.s to set up a good environment for main(). * * This code runs in real mode for a 16 bit kernel and may have to switch * to protected mode for a 286. * For a 32 bit kernel this already runs in protected mode, but the selectors * are still those given by the BIOS with interrupts disabled, so the * descriptors need to be reloaded and interrupt descriptors made. */ #include "kernel.h" #include "protect.h" #include "proc.h" #include #include FORWARD _PROTOTYPE( char *get_value, (_CONST char *params, _CONST char *key)); /*===========================================================================* * cstart * *===========================================================================*/ PUBLIC void cstart(cs, ds, mds, parmoff, parmsize) U16_t cs, ds; /* kernel code and data segment */ U16_t mds; /* monitor data segment */ U16_t parmoff, parmsize; /* boot parameters offset and length */ { /* Perform system initializations prior to calling main(). Most settings are * determined with help of the environment strings passed by MINIX' loader. */ char params[128*sizeof(char *)]; /* boot monitor parameters */ register char *value; /* value in key=value pair */ extern int etext, end; int h; /* Decide if mode is protected; 386 or higher implies protected mode. * This must be done first, because it is needed for, e.g., seg2phys(). * For 286 machines we cannot decide on protected mode, yet. This is * done below. */ #if _WORD_SIZE != 2 machine.prot = 1; #endif /* Record where the kernel and the monitor are. */ kinfo.code_base = seg2phys(cs); kinfo.code_size = (phys_bytes) &etext; /* size of code segment */ kinfo.data_base = seg2phys(ds); kinfo.data_size = (phys_bytes) &end; /* size of data segment */ /* Initialize protected mode descriptors. */ prot_init(); /* Copy the boot parameters to the local buffer. */ kinfo.params_base = seg2phys(mds) + parmoff; kinfo.params_size = MIN(parmsize,sizeof(params)-2); phys_copy(kinfo.params_base, vir2phys(params), kinfo.params_size); /* Record miscellaneous information for user-space servers. */ kinfo.nr_procs = NR_PROCS; kinfo.nr_tasks = NR_TASKS; strncpy(kinfo.release, OS_RELEASE, sizeof(kinfo.release)); kinfo.release[sizeof(kinfo.release)-1] = '\0'; strncpy(kinfo.version, OS_VERSION, sizeof(kinfo.version)); kinfo.version[sizeof(kinfo.version)-1] = '\0'; kinfo.proc_addr = (vir_bytes) proc; kinfo.kmem_base = vir2phys(0); kinfo.kmem_size = (phys_bytes) &end; /* Load average data initialization. */ kloadinfo.proc_last_slot = 0; for(h = 0; h < _LOAD_HISTORY; h++) kloadinfo.proc_load_history[h] = 0; /* Processor? 86, 186, 286, 386, ... * Decide if mode is protected for older machines. */ machine.processor=atoi(get_value(params, "processor")); #if _WORD_SIZE == 2 machine.prot = machine.processor >= 286; #endif if (! machine.prot) mon_return = 0; /* XT, AT or MCA bus? */ value = get_value(params, "bus"); if (value == NIL_PTR || strcmp(value, "at") == 0) { machine.pc_at = TRUE; /* PC-AT compatible hardware */ } else if (strcmp(value, "mca") == 0) { machine.pc_at = machine.ps_mca = TRUE; /* PS/2 with micro channel */ } /* Type of VDU: */ value = get_value(params, "video"); /* EGA or VGA video unit */ if (strcmp(value, "ega") == 0) machine.vdu_ega = TRUE; if (strcmp(value, "vga") == 0) machine.vdu_vga = machine.vdu_ega = TRUE; /* Return to assembler code to switch to protected mode (if 286), * reload selectors and call main(). */ } /*===========================================================================* * get_value * *===========================================================================*/ PRIVATE char *get_value(params, name) _CONST char *params; /* boot monitor parameters */ _CONST char *name; /* key to look up */ { /* Get environment value - kernel version of getenv to avoid setting up the * usual environment array. */ register _CONST char *namep; register char *envp; for (envp = (char *) params; *envp != 0;) { for (namep = name; *namep != 0 && *namep == *envp; namep++, envp++) ; if (*namep == '\0' && *envp == '=') return(envp + 1); while (*envp++ != 0) ; } return(NIL_PTR); }