ref: 1bfde841484fadb1c41f41a6279e7e070f61a31b
dir: /sys/src/cmd/vmx/ksetup.c/
#include <u.h> #include <libc.h> #include <thread.h> #include <draw.h> #include <libsec.h> #include "dat.h" #include "fns.h" #include "x86.h" static uchar hdr[8192]; static int fd; extern int bootmodn; extern char **bootmod; extern int cmdlinen; extern char **cmdlinev; extern VgaMode *curmode, textmode; extern uintptr fbaddr, fbsz; static int elf64; static int biostype(Region *r) { return r->type >> 8 & 0xff; } static void * pack(void *v, char *fmt, ...) { uchar *p; va_list va; p = v; va_start(va, fmt); for(; *fmt != 0; fmt++) switch(*fmt){ case '.': p++; break; case 's': PUT16(p, 0, va_arg(va, int)); p += 2; break; case 'i': PUT32(p, 0, va_arg(va, u32int)); p += 4; break; case 'v': PUT64(p, 0, va_arg(va, u64int)); p += 8; break; case 'z': if(elf64) {PUT64(p, 0, va_arg(va, uintptr)); p += 8;} else {PUT32(p, 0, va_arg(va, uintptr)); p += 4;} break; default: sysfatal("pack: unknown fmt character %c", *fmt); } va_end(va); return p; } static int putmmap(uchar *p0) { uchar *p; Region *r; int t; p = p0; for(r = mmap; r != nil; r = r->next){ t = biostype(r); if(t == 0) continue; if(gavail(p) < 24) sysfatal("out of guest memory"); p = pack(p, "ivvi", 20, (uvlong) r->start, (uvlong)(r->end - r->start), t); } return (uchar *) p - p0; } static int putcmdline(uchar *p0) { int i; char *p, *e; if(cmdlinen == 0) return 0; p = (char*)p0; e = gend(p0); if(p >= e) return 0; for(i = 0; i < cmdlinen; i++){ p = strecpy(p, e, cmdlinev[i]); if(i != cmdlinen - 1) *p++ = ' '; } return p - (char*)p0 + 1; } static int putmods(uchar *p0) { int i, fd, rc; u32int *p; uchar *q; char dummy; if(bootmodn == 0) return 0; p = (u32int*)p0; q = (uchar*)(p + 4 * bootmodn); for(i = 0; i < bootmodn; i++){ q = gptr(-(-gpa(q) & -BY2PG), 1); if(q == nil) sysfatal("out of guest memory"); fd = open(bootmod[i], OREAD); if(fd == -1) sysfatal("module open: %r"); p[0] = gpa(q); rc = readn(fd, q, gavail(q)); if(rc < 0) sysfatal("module read: %r"); if(read(fd, &dummy, 1) == 1) sysfatal("out of guest memory"); close(fd); q += rc; p[1] = gpa(q); p[2] = 0; p[3] = 0; p += 4; } bootmodn = ((uchar*)p - p0) / 16; return q - p0; } static int trymultiboot(void) { u32int *p, flags; u32int header, load, loadend, bssend, entry; u32int filestart; uchar *gp; uchar *modp; int len; int rc; for(p = (u32int*)hdr; p < (u32int*)hdr + sizeof(hdr)/4; p++) if(*p == 0x1badb002) break; if(p == (u32int*)hdr + sizeof(hdr)/4) return 0; if((u32int)(p[0] + p[1] + p[2]) != 0) sysfatal("invalid multiboot checksum"); flags = p[1]; if((flags & 1<<16) == 0) sysfatal("no size info in multiboot header"); header = p[3]; load = p[4]; loadend = p[5]; bssend = p[6]; entry = p[7]; filestart = (uchar*)p - hdr - (header - load); gp = gptr(load, bssend != 0 ? bssend - load : loadend != 0 ? loadend - load : BY2PG); if(gp == nil) sysfatal("kernel image out of bounds"); seek(fd, filestart, 0); if(loadend == 0){ rc = readn(fd, gp, gavail(gp)); if(rc <= 0) sysfatal("readn: %r"); loadend = load + rc; }else{ rc = readn(fd, gp, loadend - load); if(rc < 0) sysfatal("readn: %r"); if(rc < loadend - load) sysfatal("short kernel image"); } if(bssend == 0) bssend = loadend; bssend = -(-bssend & -BY2PG); p = gptr(bssend, 128); if(p == nil) sysfatal("no space for multiboot structure"); memset(p, 0, 128); p[0] = 1<<0; p[1] = gavail(gptr(0, 0)) >> 10; if(p[1] > 640) p[1] = 640; p[2] = gavail(gptr(1048576, 0)) >> 10; modp = gptr(bssend + 128, 1); if(modp == nil) sysfatal("out of guest memory"); len = putmmap(modp); if(len != 0){ p[0] |= 1<<6; p[11] = len; p[12] = gpa(modp); modp += len; } len = putcmdline(modp); if(len != 0){ p[0] |= 1<<2; p[4] = gpa(modp); modp += len + 7 & -8; } len = putmods(modp); if(len != 0){ p[0] |= 1<<3; p[5] = bootmodn; p[6] = gpa(modp); modp += len + 7 & -8; } if(curmode != nil && curmode != &textmode){ int i, o, n; u16int r, g, b; o = 0; r = g = b = 0; for(i = 0; i < 4; i++){ n = curmode->chan >> 8*i & 0xf; if(n == 0) continue; switch(curmode->chan >> 4 + 8*i & 0xf){ case CRed: r = o | n<<8; break; case CGreen: g = o | n<<8; break; case CBlue: b = o | n<<8; break; } o += n; } p[0] |= 1<<12; pack(&p[22], "viiiisss", (u64int)fbaddr, curmode->hbytes, curmode->w, curmode->h, chantodepth(curmode->chan) | 1<<8, r, g, b); } USED(modp); rset(RPC, entry); rset(RAX, 0x2badb002); rset(RBX, bssend); return 1; } typedef struct ELFHeader ELFHeader; struct ELFHeader { uintptr entry, phoff, shoff; u32int flags; u16int ehsize; u16int phentsize, phnum; u16int shentsize, shnum, shstrndx; }; typedef struct ELFPHeader ELFPHeader; struct ELFPHeader { u32int type, flags; uintptr offset, vaddr, paddr, filesz, memsz, align; }; enum { PT_NULL, PT_LOAD, PT_DYNAMIC, PT_INTERP, PT_NOTE, PT_SHLIB, PT_PHDR, PT_TLS, PT_GNU_EH_FRAME = 0x6474e550, PT_GNU_RELRO = 0x6474e552, PT_OPENBSD_RANDOMIZE = 0x65a3dbe6, }; typedef struct ELFSHeader ELFSHeader; struct ELFSHeader { u32int iname, type; uintptr flags, addr, offset, size; u32int link, info; uintptr addralign, entsize; char *name; }; enum { SHT_SYMTAB = 2, SHT_STRTAB = 3, SHF_ALLOC = 2, }; typedef struct ELFSymbol ELFSymbol; struct ELFSymbol { u32int iname; uintptr addr, size; u8int info, other; u16int shndx; char *name; }; static ELFHeader eh; static ELFPHeader *ph; static ELFSHeader *sh; static ELFSymbol *sym; static int nsym; static uintptr elfmax; static u64int elff(uchar **p, uchar *e, int sz) { u64int rc; if(sz == -1) sz = elf64 ? 8 : 4; if(*p + sz > e){ fprint(2, "out of bounds: %#p > %#p", *p + sz, e); return 0; } switch(sz){ case 1: rc = GET8(*p, 0); break; case 2: rc = GET16(*p, 0); break; case 3: case 4: rc = GET32(*p, 0); break; default: rc = GET64(*p, 0); break; } *p += sz; return rc; } static void elfheader(ELFHeader *eh, uchar *p, uchar *e) { eh->entry = elff(&p, e, -1); eh->phoff = elff(&p, e, -1); eh->shoff = elff(&p, e, -1); eh->flags = elff(&p, e, 4); eh->ehsize = elff(&p, e, 2); eh->phentsize = elff(&p, e, 2); eh->phnum = elff(&p, e, 2); eh->shentsize = elff(&p, e, 2); eh->shnum = elff(&p, e, 2); eh->shstrndx = elff(&p, e, 2); } static void elfpheader(ELFPHeader *ph, uchar *p, uchar *e) { ph->type = elff(&p, e, 4); if(elf64) ph->flags = elff(&p, e, 4); ph->offset = elff(&p, e, -1); ph->vaddr = elff(&p, e, -1); ph->paddr = elff(&p, e, -1); ph->filesz = elff(&p, e, -1); ph->memsz = elff(&p, e, -1); if(!elf64) ph->flags = elff(&p, e, 4); ph->align = elff(&p, e, -1); } static void elfsheader(ELFSHeader *sh, uchar *p, uchar *e) { sh->iname = elff(&p, e, 4); sh->type = elff(&p, e, 4); sh->flags = elff(&p, e, -1); sh->addr = elff(&p, e, -1); sh->offset = elff(&p, e, -1); sh->size = elff(&p, e, -1); sh->link = elff(&p, e, 4); sh->info = elff(&p, e, 4); sh->addralign = elff(&p, e, -1); sh->entsize = elff(&p, e, -1); } static void elfsymbol(ELFSymbol *s, uchar *p, uchar *e) { s->iname = elff(&p, e, 4); if(elf64){ s->info = elff(&p, e, 1); s->other = elff(&p, e, 1); s->shndx = elff(&p, e, 2); s->addr = elff(&p, e, -1); s->size = elff(&p, e, -1); }else{ s->addr = elff(&p, e, -1); s->size = elff(&p, e, -1); s->info = elff(&p, e, 1); s->other = elff(&p, e, 1); s->shndx = elff(&p, e, 2); } } static void epreadn(void *buf, ulong sz, vlong off, char *fn) { seek(fd, off, 0); werrstr("eof"); if(readn(fd, buf, sz) < sz) sysfatal("%s: read: %r", fn); } static int elfheaders(void) { uchar *buf; int i; ELFSHeader *s; if(GET32(hdr, 0) != 0x464c457f) return 0; if(hdr[5] != 1 || hdr[6] != 1 || hdr[0x14] != 1) return 0; switch(hdr[4]){ case 1: elf64 = 0; break; case 2: elf64 = 1; if(sizeof(uintptr) == 4) sysfatal("64-bit binaries not supported on 32-bit host"); break; default: return 0; } elfheader(&eh, hdr + 0x18, hdr + sizeof(hdr)); buf = emalloc(eh.phentsize > eh.shentsize ? eh.phentsize : eh.shentsize); ph = emalloc(sizeof(ELFPHeader) * eh.phnum); for(i = 0; i < eh.phnum; i++){ epreadn(buf, eh.phentsize, eh.phoff + i * eh.phentsize, "elfheaders"); elfpheader(&ph[i], buf, buf + eh.phentsize); } sh = emalloc(sizeof(ELFSHeader) * eh.shnum); for(i = 0; i < eh.shnum; i++){ epreadn(buf, eh.shentsize, eh.shoff + i * eh.shentsize, "elfheaders"); elfsheader(&sh[i], buf, buf + eh.shentsize); } free(buf); if(eh.shstrndx != 0 && eh.shstrndx < eh.shnum){ s = &sh[eh.shstrndx]; if(s->type != SHT_STRTAB) sysfatal("elfheaders: section string table is not a string table"); buf = emalloc(s->size + 1); epreadn(buf, s->size, s->offset, "elfheaders"); for(i = 0; i < eh.shnum; i++){ if(sh[i].iname < s->size) sh[i].name = (char *) &buf[sh[i].iname]; } } return 1; } static void elfdata(void) { int i; void *v; for(i = 0; i < eh.phnum; i++){ switch(ph[i].type){ case PT_NULL: case PT_GNU_RELRO: case PT_NOTE: continue; case PT_DYNAMIC: case PT_INTERP: sysfatal("elf: dynamically linked"); default: sysfatal("elf: unknown program header type %#ux", (int)ph[i].type); case PT_LOAD: case PT_PHDR: case PT_OPENBSD_RANDOMIZE: break; } v = gptr(ph[i].paddr, ph[i].memsz); if(v == nil) sysfatal("invalid address %#p (length=%#p) in elf", (void*)ph[i].paddr, (void*)ph[i].memsz); if(ph[i].type == PT_OPENBSD_RANDOMIZE) genrandom(v, ph[i].memsz); else{ if(ph[i].filesz > ph[i].memsz) sysfatal("elf: header entry shorter in memory than in the file (%#p < %#p)", (void*)ph[i].memsz, (void*)ph[i].filesz); if(ph[i].filesz != 0) epreadn(v, ph[i].filesz, ph[i].offset, "elfdata"); if(ph[i].filesz < ph[i].memsz) memset((uchar*)v + ph[i].filesz, 0, ph[i].memsz - ph[i].filesz); } if(ph[i].paddr + ph[i].memsz > elfmax) elfmax = ph[i].paddr + ph[i].memsz; } } static int elfsymbols(void) { ELFSHeader *s, *sy, *st; char *str; uchar *buf, *p; int i; sy = nil; st = nil; for(s = sh; s < sh + eh.shnum; s++){ if(s->type == SHT_SYMTAB && s->name != nil && strcmp(s->name, ".symtab") == 0) sy = s; if(s->type == SHT_STRTAB && s->name != nil && strcmp(s->name, ".strtab") == 0) st = s; } if(sy == nil || st == nil) return 0; if(sy->entsize == 0 || (sy->size % sy->entsize) != 0) sysfatal("symbol section: invalid headers"); str = emalloc(st->size); epreadn(str, st->size, st->offset, "elfsymbols"); buf = emalloc(sy->size); epreadn(buf, sy->size, sy->offset, "elfsymbols"); nsym = sy->size / sy->entsize; sym = emalloc(sizeof(ELFSymbol) * nsym); for(i = 0; i < nsym; i++){ p = buf + i * sy->entsize; elfsymbol(sym + i, p, p + sy->entsize); if(sym[i].iname < st->size) sym[i].name = &str[sym[i].iname]; } free(buf); return 1; } static ELFSymbol * elfsym(char *n) { ELFSymbol *s; for(s = sym; s < sym + nsym; s++) if(s->name != nil && strcmp(s->name, n) == 0) return s; return nil; } static void * symaddr(ELFSymbol *s) { ELFPHeader *p; if(s == nil) return nil; for(p = ph; p < ph + eh.phnum; p++) if(s->addr >= p->vaddr && s->addr < p->vaddr + p->memsz) return gptr(p->paddr + (s->addr - p->vaddr), s->size); return nil; } static uchar *obsdarg, *obsdarg0, *obsdargnext; static int obsdarglen; static int obsdconsdev = 12 << 8, obsddbcons = -1, obsdbootdev; enum { BOOTARG_MEMMAP, BOOTARG_DISKINFO, BOOTARG_APMINFO, BOOTARG_CKSUMLEN, BOOTARG_PCIINFO, BOOTARG_CONSDEV, BOOTARG_SMPINFO, BOOTARG_BOOTMAC, BOOTARG_DDB, BOOTARG_BOOTDUID, BOOTARG_BOOTSR, BOOTARG_EFIINFO, BOOTARG_END = -1, }; static void obsdelfload(void) { void *v, *w, *hdrfix; int shentsize; int saddr; ELFSHeader *s; uintptr off; saddr = elf64 ? 8 : 4; elfmax = -(-elfmax & -saddr); v = gptr(elfmax, eh.ehsize); if(v == nil) space: sysfatal("out of space for kernel"); epreadn(v, eh.ehsize, 0, "obsdelfload"); elfmax += -(-eh.ehsize & -saddr); hdrfix = (uchar*)v + (elf64 ? 0x20 : 0x1c); shentsize = 40 + 24*elf64; v = gptr(elfmax, shentsize * eh.shnum); if(v == nil) goto space; off = shentsize * eh.shnum; elfmax += off; off += -(-eh.ehsize & -saddr); for(s = sh; s < sh + eh.shnum; s++) if(s->type == SHT_SYMTAB || s->type == SHT_STRTAB || s->name != nil && (strcmp(s->name, ".debug_line") == 0 || strcmp(s->name, ".SUNW_ctf") == 0)){ w = gptr(elfmax, s->size); if(w == nil) goto space; epreadn(w, s->size, s->offset, "obsdelfload"); v = pack(v, "iizzzziizz", s->iname, s->type, s->flags | SHF_ALLOC, (uintptr)0, off, s->size, s->link, s->info, s->addralign, s->entsize); elfmax += -(-s->size & -saddr); off += -(-s->size & -saddr); }else{ memset(v, 0, shentsize); v = (uchar*)v + shentsize; } pack(hdrfix, "zz......sss", (uintptr)0, -(-eh.ehsize & -saddr), 0, 0, shentsize); } #define obsdpack(...) (obsdarg = pack(obsdarg, __VA_ARGS__)) static void obsdstart(int type) { obsdarg0 = obsdarg; PUT32(obsdarg, 0, type); PUT32(obsdarg, 8, 0); /* next */ obsdarg += 12; } static void obsdend(void) { if(obsdarg == obsdarg0 + 12) obsdarg += 4; PUT32(obsdarg0, 4, obsdarg - obsdarg0); /* size */ obsdarglen += obsdarg - obsdarg0; PUT32(obsdargnext, 0, gpa(obsdarg0)); obsdargnext = obsdarg0 + 8; obsdarg0 = nil; } static void obsdfb(void) { int i, s, p; u32int r, g, b, a, m; if(curmode == nil || curmode == &textmode) return; p = r = g = b = a = 0; for(i = 0; i < 4; i++){ s = curmode->chan >> 8 * i & 0xf; if(s == 0) continue; m = (1<<s)-1 << p; p += s; switch(curmode->chan >> 4 + 8 * i & 0xf){ case CRed: r |= m; break; case CGreen: g |= m; break; case CBlue: b |= m; break; case CAlpha: case CIgnore: a |= m; break; default: return; } } obsdstart(BOOTARG_EFIINFO); obsdpack("vvvviiiiiii", 0ULL, 0ULL, (uvlong)fbaddr, (uvlong)fbsz, curmode->h, curmode->w, curmode->w, r, g, b, a); obsdend(); } static void obsdargs(void) { Region *r; int t; obsdstart(BOOTARG_MEMMAP); for(r = mmap; r != nil; r = r->next){ t = biostype(r); if(t == 0) continue; obsdpack("vvi", (uvlong)r->start, (uvlong)(r->end - r->start), t); } obsdpack("vvi", 0ULL, 0ULL, 0); obsdend(); obsdstart(BOOTARG_CONSDEV); obsdpack("iiii", obsdconsdev, -1, -1, 0); obsdend(); if(obsddbcons != -1){ obsdstart(BOOTARG_DDB); obsdpack("i", obsddbcons); obsdend(); } obsdfb(); obsdstart(BOOTARG_END); obsdend(); } static int obsdcmdline(int argc, char **argv) { char *p; char *q, *r; int howto; howto = 0; while(argc-- > 0){ p = *argv++; if(*p == '-'){ while(*++p != 0) switch(*p){ case 'a': howto |= 0x0001; break; /* RB_ASKNAME */ case 's': howto |= 0x0002; break; /* RB_SINGLE */ case 'd': howto |= 0x0040; break; /* RB_DDB */ case 'c': howto |= 0x0400; break; /* RB_CONFIG */ default: goto usage; } continue; } q = strchr(p, '='); if(q == nil) goto usage; *q++ = 0; if(strcmp(p, "device") == 0){ obsdbootdev = 0; switch(*q){ case 'w': break; case 'f': obsdbootdev = 2; break; case 's': obsdbootdev = 4; break; case 'c': obsdbootdev = 6; break; case 'r': obsdbootdev = 17; break; case 'v': obsdbootdev = 14; if(*++q != 'n') goto nodev; break; default: nodev: sysfatal("invalid device"); } if(*++q != 'd') goto nodev; obsdbootdev |= strtoul(++q, &r, 10) << 16; if(r == q || (obsdbootdev & 0xfff00000) != 0) goto nodev; if(*r < 'a' || *r > 'p') goto nodev; obsdbootdev |= *r - 'a' << 8; if(*++r != 0) goto nodev; obsdbootdev |= 0xa0000000; }else if(strcmp(p, "tty") == 0){ if(strcmp(q, "com0") == 0) obsdconsdev = 8 << 8; else if(strcmp(q, "com1") == 0) obsdconsdev = 8 << 8 | 1; else if(strcmp(q, "pc0") == 0) obsdconsdev = 12 << 8; else sysfatal("tty must be one of com0, com1, pc0"); }else if(strcmp(p, "db_console") == 0){ if(strcmp(q, "on") == 0) obsddbcons = 1; else if(strcmp(q, "off") == 0) obsddbcons = 0; else sysfatal("db_console must be one of on, off"); }else goto usage; } return howto; usage: fprint(2, "openbsd cmdline usage: kernel [-asdc] [var=value ...]\nsupported vars: device tty db_console\n"); threadexitsall("usage"); return 0; } static int obsdload(void) { int sp; int howto; uchar *v; obsdelfload(); sp = 0xfffc; sp -= 36; v = gptr(sp, 36); howto = obsdcmdline(cmdlinen, cmdlinev); assert(v != nil); PUT32(v, 4, howto); /* howto */ PUT32(v, 8, obsdbootdev); /* bootdev */ PUT32(v, 12, 0xa); /* bootapiver */ PUT32(v, 16, elfmax); /* esym */ PUT32(v, 20, 0); /* extmem */ PUT32(v, 24, 0); /* cnvmem */ PUT32(v, 32, 0); /* bootargv */ obsdarg = gptr(0x10000, 4096); assert(obsdarg != nil); obsdargnext = &v[32]; /* bootargv */ obsdargs(); assert(obsdarg0 == nil); PUT32(v, 28, obsdarglen); /* bootargc */ rset(RSP, sp); rset(RPC, (u32int)eh.entry & 0x0fffffff); return 1; } static int tryelf(void) { char *s; if(!elfheaders()) return 0; elfdata(); if(!elfsymbols()) return 0; s = symaddr(elfsym("ostype")); if(s != nil && strcmp(s, "OpenBSD") == 0) return obsdload(); return 0; } static void linuxbootmod(char *fn, void *zp, u32int kend) { u32int addr; uintptr memend; int fd; vlong sz; void *v; int rc; fd = open(fn, OREAD); if(fd < 0) sysfatal("linux: initrd: open: %r"); sz = seek(fd, 0, 2); if(sz < 0) sysfatal("linux: initrd: seek: %r"); if(sz == 0) sysfatal("linux: empty initrd"); addr = GET32(zp, 0x22c); memend = (1<<20) + gavail(gptr(1<<20, 0)); if(addr >= memend) addr = memend - 1; if((addr - (sz - 1) & -4) < kend) sysfatal("linux: no room for initrd"); addr = addr - (sz - 1) & -4; v = gptr(addr, sz); if(v == nil) sysfatal("linux: initrd: gptr failed"); seek(fd, 0, 0); rc = readn(fd, v, sz); if(rc < 0) sysfatal("linux: initrd: read: %r"); if(rc < sz) sysfatal("linux: initrd: short read"); close(fd); PUT32(zp, 0x218, addr); PUT32(zp, 0x21C, sz); } static void linuxscreeninfo(void *zp) { extern VgaMode *curmode, textmode; extern uintptr fbaddr, fbsz; uintptr extmem; int i, p, s; extmem = gavail(gptr(1<<20, 0)) >> 10; if(extmem >= 65535) extmem = 65535; PUT16(zp, 0x02, extmem); if(curmode == nil) return; if(curmode == &textmode){ PUT8(zp, 0x06, 3); /* mode 3 */ PUT8(zp, 0x07, 80); /* 80 cols */ PUT8(zp, 0x0e, 25); /* 25 rows */ PUT8(zp, 0x0f, 0x22); /* VGA */ PUT16(zp, 0x10, 16); /* characters are 16 pixels high */ }else{ PUT8(zp, 0x0f, 0x23); /* VESA linear framebuffer */ PUT16(zp, 0x12, curmode->w); PUT16(zp, 0x14, curmode->h); PUT16(zp, 0x16, chantodepth(curmode->chan)); PUT32(zp, 0x18, fbaddr); PUT32(zp, 0x1C, fbsz); PUT16(zp, 0x24, curmode->hbytes); for(i = 0, p = 0; i < 4; i++){ s = curmode->chan >> 8 * i & 15; if(s == 0) continue; switch(curmode->chan >> 8 * i + 4 & 15){ case CRed: PUT16(zp, 0x26, s | p << 8); break; case CGreen: PUT16(zp, 0x28, s | p << 8); break; case CBlue: PUT16(zp, 0x2a, s | p << 8); break; case CAlpha: case CIgnore: PUT16(zp, 0x2c, s | p << 8); ; break; } p += s; } PUT16(zp, 0x34, 1<<0|1<<1|1<<3|1<<4|1<<5|1<<6|1<<7); /* attributes */ } } static void linuxgdt(void *v) { u32int base; base = gpa(v); rset("gdtrbase", base); v = pack(v, "vvvv", 0, 0, GDTBASE(0) | GDTLIM(-1) | GDTRX | GDTG | GDTP | GDT32, GDTBASE(0) | GDTLIM(-1) | GDTRW | GDTG | GDTP | GDT32 ); rset("gdtrlimit", gpa(v) - base - 1); rset("cs", 0x10); rset("ds", 0x18); rset("es", 0x18); rset("ss", 0x18); } static void linuxe820(uchar *zp) { Region *r; uchar *v; int t; int n; v = zp + 0x2d0; n = 1; for(r = mmap; r != nil; r = r->next){ t = biostype(r); if(t == 0) continue; v = pack(v, "vvi", r->start, r->end - r->start, t); n++; } PUT8(zp, 0x1e8, n); } static int trylinux(void) { char buf[1024]; u8int loadflags; u16int version; uchar *zp; void *v; u32int ncmdline, cmdlinemax, syssize, setupsects; seek(fd, 0, 0); if(readn(fd, buf, sizeof(buf)) < 1024) return 0; if(GET16(buf, 0x1FE) != 0xAA55 || GET32(buf, 0x202) != 0x53726448) return 0; version = GET16(buf, 0x206); if(version < 0x206){ vmerror("linux: kernel too old (boot protocol version %d.%.2d, needs to be 2.06 or newer)", version >> 8, version & 0xff); return 0; } loadflags = GET8(buf, 0x211); if((loadflags & 1) == 0){ vmerror("linux: zImage is not supported"); return 0; } zp = gptr(0x1000, 0x1000); if(zp == nil) sysfatal("linux: gptr for zeropage failed"); rset(RSI, 0x1000); memset(zp, 0, 0x1000); memmove(zp + 0x1f1, buf + 0x1f1, 0x202 + GET8(buf, 0x201) - 0x1f1); setupsects = GET8(zp, 0x1F1); if(setupsects == 0) setupsects = 4; syssize = GET32(zp, 0x1F4); cmdlinemax = GET32(zp, 0x238); v = gptr(1<<20, syssize << 4); if(v == nil) sysfatal("linux: not enough room for kernel"); epreadn(v, syssize << 4, (setupsects + 1) * 512, "trylinux"); v = gptr(0x20000, 1); if(v == nil) sysfatal("linux: gptr for cmdline failed"); ncmdline = putcmdline(v); if(ncmdline == 0) *(uchar*)v = 0; else if(ncmdline - 1 > cmdlinemax) sysfatal("linux: cmdline too long (%d > %d)", ncmdline, cmdlinemax); PUT32(zp, 0x228, 0x20000); switch(bootmodn){ case 0: break; default: vmerror("linux: ignoring extra boot modules (only one supported)"); /* wet floor */ case 1: linuxbootmod(*bootmod, zp, (1<<20) + (syssize << 4)); } linuxscreeninfo(zp); v = gptr(0x3000, 256); if(v == nil) sysfatal("linux: gptr for gdt failed"); linuxgdt(v); linuxe820(zp); PUT16(zp, 0x1FA, 0xffff); PUT8(zp, 0x210, 0xFF); /* bootloader ID */ PUT8(zp, 0x211, loadflags | 0x80); /* kernel can use heap */ PUT32(zp, 0x224, 0xfe00); /* kernel can use full segment */ rset(RPC, GET32(zp, 0x214)); rset(RBP, 0); rset(RDI, 0); rset(RBX, 0); return 1; } void loadkernel(char *fn) { fd = open(fn, OREAD); if(fd < 0) sysfatal("open: %r"); if(readn(fd, hdr, sizeof(hdr)) <= 0) sysfatal("readn: %r"); if(trymultiboot()) goto done; if(tryelf()) goto done; if(trylinux()) goto done; sysfatal("%s: unknown format", fn); done: close(fd); }