ref: 6b84c3a6548f1c577948763b0a09a7b6e2460e04
dir: /os/boot/pc/bcom.c/
/* * ld - DOS boot loader of Plan 9 */ #include "u.h" #include "lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "fs.h" Type types[] = { { Tfloppy, Fini|Ffs, floppyinit, floppyinitdev, floppygetfspart, 0, floppyboot, }, { Tsd, Fini|Ffs, sdinit, sdinitdev, sdgetfspart, sdaddconf, sdboot, }, { Tnil, 0, 0, 0, 0, 0, 0, }, }; #include "sd.h" extern SDifc sdataifc; extern SDifc sdmylexifc; extern SDifc sd53c8xxifc; SDifc* sdifc[] = { &sdataifc, // &sdmylexifc, // &sd53c8xxifc, nil, }; typedef struct Mode Mode; enum { Maxdev = 7, Dany = -1, Nmedia = 16, Nini = 10, }; enum { /* mode */ Mauto = 0x00, Mlocal = 0x01, Manual = 0x02, NMode = 0x03, }; typedef struct Medium Medium; struct Medium { Type* type; int flag; int dev; char name[NAMELEN]; Fs* inifs; Medium* next; }; typedef struct Mode { char* name; int mode; } Mode; static Medium media[Nmedia]; static Medium *curmedium = media; static Mode modes[NMode+1] = { [Mauto] { "auto", Mauto, }, [Mlocal] { "local", Mlocal, }, [Manual] { "manual", Manual, }, }; char *defaultpartition = "new"; static Medium* parse(char *line, char **file) { char *p; Type *tp; Medium *mp; if(p = strchr(line, '!')) { *p++ = 0; *file = p; } else *file = ""; for(tp = types; tp->type != Tnil; tp++) for(mp = tp->media; mp; mp = mp->next) if(strcmp(mp->name, line) == 0) return mp; return nil; } static int boot(Medium *mp, char *file) { static Boot b; memset(&b, 0, sizeof b); b.state = INIT9LOAD; // sprint(BOOTLINE, "%s!%s", mp->name, file); return (*mp->type->boot)(mp->dev, file, &b); } static Medium* allocm(Type *tp) { Medium **l; if(curmedium >= &media[Nmedia]) return 0; for(l = &tp->media; *l; l = &(*l)->next) ; *l = curmedium++; return *l; } char *parts[] = { "dos", "9fat", "fs", 0 }; Medium* probe(int type, int flag, int dev) { Type *tp; int i; Medium *mp; for(tp = types; tp->type != Tnil; tp++){ if(type != Tany && type != tp->type) continue; if(flag != Fnone){ for(mp = tp->media; mp; mp = mp->next){ if((flag & mp->flag) && (dev == Dany || dev == mp->dev)) return mp; } } if((tp->flag & Fprobe) == 0){ tp->flag |= Fprobe; tp->mask = (*tp->init)(); } for(i = 0; tp->mask; i++){ if((tp->mask & (1<<i)) == 0) continue; tp->mask &= ~(1<<i); if((mp = allocm(tp)) == 0) continue; mp->dev = i; mp->flag = tp->flag; mp->type = tp; (*tp->initdev)(i, mp->name); if((flag & mp->flag) && (dev == Dany || dev == i)) return mp; } } return 0; } extern int loopconst; void main(void) { Medium *mp; int flag; char def[2*NAMELEN], line[80], *p, *file; Type *tp; i8042a20(); memset(m, 0, sizeof(Mach)); trapinit(); clockinit(); alarminit(); spllo(); kbdinit(); if((ulong)&end > (KZERO|(640*1024))) panic("i'm too big"); /* * If there were any arguments, MS-DOS leaves a character * count followed by the arguments in the runtime header. * Step over the leading space. */ p = (char*)0x80080080; if(p[0]){ p[p[0]+1] = 0; p += 2; } else p = 0; /* * Advance command line to first option, if any */ if(p) { while(*p==' ' || *p=='\t') p++; if(*p == 0) p = nil; } /* * Probe everything, to collect device names. */ probe(Tany, Fnone, Dany); if(p != 0) { if((mp = parse(p, &file)) == nil) { print("bad loadfile syntax: %s\n", p); goto done; } boot(mp, file); } done: flag = 0; for(tp = types; tp->type != Tnil; tp++){ for(mp = tp->media; mp; mp = mp->next){ if(flag == 0){ flag = 1; print("Load devices:"); } print(" %s", mp->name); } } if(flag) print("\n"); for(;;){ if(getstr("load from", line, sizeof(line), nil, 0) >= 0) if(mp = parse(line, &file)) boot(mp, file); def[0] = 0; } } int getfields(char *lp, char **fields, int n, char sep) { int i; for(i = 0; lp && *lp && i < n; i++){ while(*lp == sep) *lp++ = 0; if(*lp == 0) break; fields[i] = lp; while(*lp && *lp != sep){ if(*lp == '\\' && *(lp+1) == '\n') *lp++ = ' '; lp++; } } return i; } int cistrcmp(char *a, char *b) { int ac, bc; for(;;){ ac = *a++; bc = *b++; if(ac >= 'A' && ac <= 'Z') ac = 'a' + (ac - 'A'); if(bc >= 'A' && bc <= 'Z') bc = 'a' + (bc - 'A'); ac -= bc; if(ac) return ac; if(bc == 0) break; } return 0; } int cistrncmp(char *a, char *b, int n) { unsigned ac, bc; while(n > 0){ ac = *a++; bc = *b++; n--; if(ac >= 'A' && ac <= 'Z') ac = 'a' + (ac - 'A'); if(bc >= 'A' && bc <= 'Z') bc = 'a' + (bc - 'A'); ac -= bc; if(ac) return ac; if(bc == 0) break; } return 0; } void* ialloc(ulong n, int align) { static ulong palloc; ulong p; int a; if(palloc == 0) palloc = 3*1024*1024; p = palloc; if(align <= 0) align = 4; if(a = n % align) n += align - a; if(a = p % align) p += align - a; palloc = p+n; return memset((void*)(p|KZERO), 0, n); } void* xspanalloc(ulong size, int align, ulong span) { ulong a, v; a = (ulong)ialloc(size+align+span, 0); if(span > 2) v = (a + span) & ~(span-1); else v = a; if(align > 1) v = (v + align) & ~(align-1); return (void*)v; } static Block *allocbp; Block* allocb(int size) { Block *bp, **lbp; ulong addr; lbp = &allocbp; for(bp = *lbp; bp; bp = bp->next){ if((bp->lim - bp->base) >= size){ *lbp = bp->next; break; } lbp = &bp->next; } if(bp == 0){ bp = ialloc(sizeof(Block)+size+64, 0); addr = (ulong)bp; addr = ROUNDUP(addr + sizeof(Block), 8); bp->base = (uchar*)addr; bp->lim = ((uchar*)bp) + sizeof(Block)+size+64; } if(bp->flag) panic("allocb reuse\n"); bp->rp = bp->base; bp->wp = bp->rp; bp->next = 0; bp->flag = 1; return bp; } void freeb(Block* bp) { bp->next = allocbp; allocbp = bp; bp->flag = 0; } enum { Paddr= 0x70, /* address port */ Pdata= 0x71, /* data port */ }; uchar nvramread(int offset) { outb(Paddr, offset); return inb(Pdata); } void (*etherdetach)(void); void (*floppydetach)(void); void (*sddetach)(void); void warp9(ulong entry) { if(etherdetach) etherdetach(); consdrain(); (*(void(*)(void))(PADDR(entry)))(); } char* getconf(char*) { return nil; } void addconf(char*, ...) { } void uartspecial(int, void(*)(int), int(*)(void), int) { } void uartputs(IOQ*, char*, int) { } void uartputc(int) {} void uartdrain(void) { }