/* ----------------------------------------------------------------------- * * * Copyright 1998-2008 H. Peter Anvin - All Rights Reserved * Copyright 2009-2010 Intel Corporation; author: H. Peter Anvin * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, Inc., 53 Temple Place Ste 330, * Boston MA 02111-1307, USA; either version 2 of the License, or * (at your option) any later version; incorporated herein by reference. * * ----------------------------------------------------------------------- */ /* * syslinux.c - Linux installer program for SYSLINUX * * Hacked up for DOS. */ #include #include #include #include #include #include #include "mystuff.h" #include "syslinux.h" #include "libfat.h" #include "setadv.h" #include "sysexits.h" #include "syslxopt.h" #include "syslxint.h" #include "syslxfs.h" char *program = "syslinux.com"; /* Name of program */ uint16_t dos_version; #ifdef DEBUG # define dprintf printf void pause(void) { uint16_t ax; asm volatile("int $0x16" : "=a" (ax) : "a" (0)); } #else # define dprintf(...) ((void)0) # define pause() ((void)0) #endif void unlock_device(int); void __attribute__ ((noreturn)) die(const char *msg) { unlock_device(0); puts("syslinux: "); puts(msg); putchar('\n'); exit(1); } void warning(const char *msg) { puts("syslinux: warning: "); puts(msg); putchar('\n'); } /* * read/write wrapper functions */ int creat(const char *filename, int mode) { uint16_t rv; uint8_t err; dprintf("creat(\"%s\", 0x%x)\n", filename, mode); rv = 0x3C00; asm volatile ("int $0x21 ; setc %0" : "=bcdm" (err), "+a" (rv) : "c" (mode), "d" (filename)); if (err) { dprintf("rv = %d\n", rv); die("cannot open ldlinux.sys"); } return rv; } void close(int fd) { uint16_t rv = 0x3E00; dprintf("close(%d)\n", fd); asm volatile ("int $0x21":"+a" (rv) :"b"(fd)); /* The only error MS-DOS returns for close is EBADF, and we really don't care... */ } int rename(const char *oldname, const char *newname) { uint16_t rv = 0x5600; /* Also support 43FFh? */ uint8_t err; dprintf("rename(\"%s\", \"%s\")\n", oldname, newname); asm volatile ("int $0x21 ; setc %0":"=bcdm" (err), "+a"(rv) :"d"(oldname), "D"(newname)); if (err) { dprintf("rv = %d\n", rv); warning("cannot move ldlinux.sys"); return rv; } return 0; } ssize_t write_file_seg(int fd, unsigned char *buf, const unsigned int len) { uint16_t seg = ((size_t)buf >> 4) + ds(); uint32_t offset = 0; uint16_t rv; uint8_t err; while (offset < len) { uint32_t chunk = len - offset; if (chunk > 32768) chunk = 32768; asm volatile ("pushw %%ds ; " "movw %6,%%ds ; " "int $0x21 ; " "popw %%ds ; " "setc %0":"=bcdm" (err), "=a"(rv) :"a"(0x4000), "b"(fd), "c"(chunk), "d" (offset & 15), "SD" ((uint16_t)(seg + (offset >> 4)))); if (err || rv == 0) die("file write error"); offset += rv; } return offset; } ssize_t write_file(int fd, const void *buf, size_t count) { uint16_t rv; ssize_t done = 0; uint8_t err; dprintf("write_file(%d,%p,%u)\n", fd, buf, count); while (count) { asm volatile ("int $0x21 ; setc %0":"=bcdm" (err), "=a"(rv) :"a"(0x4000), "b"(fd), "c"(count), "d"(buf)); if (err || rv == 0) die("file write error"); done += rv; count -= rv; } return done; } static inline __attribute__ ((const)) uint16_t data_segment(void) { uint16_t ds; asm("movw %%ds,%0" : "=rm"(ds)); return ds; } void write_device(int drive, const void *buf, size_t nsecs, unsigned int sector) { uint16_t errnum = 0x0001; struct diskio dio; dprintf("write_device(%d,%p,%u,%u)\n", drive, buf, nsecs, sector); dio.startsector = sector; dio.sectors = nsecs; dio.bufoffs = (uintptr_t) buf; dio.bufseg = data_segment(); if (dos_version >= 0x070a) { /* Try FAT32-aware system call first */ asm volatile("int $0x21 ; jc 1f ; xorw %0,%0\n" "1:" : "=a" (errnum) : "a" (0x7305), "b" (&dio), "c" (-1), "d" (drive), "S" (1), "m" (dio) : "memory"); dprintf(" rv(7305) = %04x", errnum); } /* If not supported, try the legacy system call (int2526.S) */ if (errnum == 0x0001) errnum = int26_write_sector(drive, &dio); if (errnum) { dprintf("rv = %04x\n", errnum); die("sector write error"); } } void read_device(int drive, void *buf, size_t nsecs, unsigned int sector) { uint16_t errnum = 0x0001; struct diskio dio; dprintf("read_device(%d,%p,%u,%u)\n", drive, buf, nsecs, sector); dio.startsector = sector; dio.sectors = nsecs; dio.bufoffs = (uintptr_t) buf; dio.bufseg = data_segment(); if (dos_version >= 0x070a) { /* Try FAT32-aware system call first */ asm volatile("int $0x21 ; jc 1f ; xorw %0,%0\n" "1:" : "=a" (errnum) : "a" (0x7305), "b" (&dio), "c" (-1), "d" (drive), "S" (0), "m" (dio)); dprintf(" rv(7305) = %04x", errnum); } /* If not supported, try the legacy system call (int2526.S) */ if (errnum == 0x0001) errnum = int25_read_sector(drive, &dio); if (errnum) { dprintf("rv = %04x\n", errnum); die("sector read error"); } } /* Both traditional DOS and FAT32 DOS return this structure, but FAT32 return a lot more data, so make sure we have plenty of space */ struct deviceparams { uint8_t specfunc; uint8_t devtype; uint16_t devattr; uint16_t cylinders; uint8_t mediatype; uint16_t bytespersec; uint8_t secperclust; uint16_t ressectors; uint8_t fats; uint16_t rootdirents; uint16_t sectors; uint8_t media; uint16_t fatsecs; uint16_t secpertrack; uint16_t heads; uint32_t hiddensecs; uint32_t hugesectors; uint8_t lotsofpadding[224]; } __attribute__ ((packed)); uint32_t get_partition_offset(int drive) { uint8_t err; uint16_t rv; struct deviceparams dp; dp.specfunc = 1; /* Get current information */ rv = 0x440d; asm volatile ("int $0x21 ; setc %0" :"=abcdm" (err), "+a"(rv), "=m"(dp) :"b" (drive), "c" (0x0860), "d" (&dp)); if (!err) return dp.hiddensecs; rv = 0x440d; asm volatile ("int $0x21 ; setc %0" : "=abcdm" (err), "+a" (rv), "=m" (dp) : "b" (drive), "c" (0x4860), "d" (&dp)); if (!err) return dp.hiddensecs; die("could not find partition start offset"); } struct rwblock { uint8_t special; uint16_t head; uint16_t cylinder; uint16_t firstsector; uint16_t sectors; uint16_t bufferoffset; uint16_t bufferseg; } __attribute__ ((packed)); static struct rwblock mbr = { .special = 0, .head = 0, .cylinder = 0, .firstsector = 0, /* MS-DOS, unlike the BIOS, zero-base sectors */ .sectors = 1, .bufferoffset = 0, .bufferseg = 0 }; void write_mbr(int drive, const void *buf) { uint16_t rv; uint8_t err; dprintf("write_mbr(%d,%p)", drive, buf); mbr.bufferoffset = (uintptr_t) buf; mbr.bufferseg = data_segment(); rv = 0x440d; asm volatile ("int $0x21 ; setc %0" : "=bcdm" (err), "+a"(rv) :"c"(0x0841), "d"(&mbr), "b"(drive), "m"(mbr)); dprintf(" rv(0841) = %04x", rv); if (!err) { dprintf("\n"); return; } rv = 0x440d; asm volatile ("int $0x21 ; setc %0" : "=bcdm" (err), "+a"(rv) :"c"(0x4841), "d"(&mbr), "b"(drive), "m"(mbr)); dprintf(" rv(4841) = %04x\n", rv); if (err) die("mbr write error"); } void read_mbr(int drive, const void *buf) { uint16_t rv; uint8_t err; dprintf("read_mbr(%d,%p)", drive, buf); mbr.bufferoffset = (uintptr_t) buf; mbr.bufferseg = data_segment(); rv = 0x440d; asm volatile ("int $0x21 ; setc %0":"=abcdm" (err), "+a"(rv) :"c"(0x0861), "d"(&mbr), "b"(drive), "m"(mbr)); dprintf(" rv(0861) = %04x", rv); if (!err) { dprintf("\n"); return; } rv = 0x440d; asm volatile ("int $0x21 ; setc %0":"=abcdm" (err), "+a"(rv) :"c"(0x4861), "d"(&mbr), "b"(drive), "m"(mbr)); dprintf(" rv(4841) = %04x\n", rv); if (err) die("mbr read error"); dprintf("Bytes: %02x %02x %02x %02x %02x %02x %02x %02x\n", ((const uint8_t *)buf)[0], ((const uint8_t *)buf)[1], ((const uint8_t *)buf)[2], ((const uint8_t *)buf)[3], ((const uint8_t *)buf)[4], ((const uint8_t *)buf)[5], ((const uint8_t *)buf)[6], ((const uint8_t *)buf)[7]); } /* This call can legitimately fail, and we don't care, so ignore error return */ void set_attributes(const char *file, int attributes) { uint16_t rv = 0x4301; dprintf("set_attributes(\"%s\", 0x%02x)\n", file, attributes); asm volatile ("int $0x21":"+a" (rv) :"c"(attributes), "d"(file)); } /* * Version of the read_device function suitable for libfat */ int libfat_xpread(intptr_t pp, void *buf, size_t secsize, libfat_sector_t sector) { read_device(pp, buf, 1, sector); return secsize; } static inline void get_dos_version(void) { dprintf("DOS version %d.%d\n", (dos_version >> 8), dos_version & 0xff); } /* The locking interface relies on static variables. A massive hack :( */ static uint8_t lock_level, lock_drive; static inline void set_lock_device(uint8_t device) { lock_level = 0; lock_drive = device; } static int do_lock(uint8_t level) { uint16_t level_arg = lock_drive + (level << 8); uint16_t rv; uint8_t err; #if 0 /* DOS 7.10 = Win95 OSR2 = first version with FAT32 */ uint16_t lock_call = (dos_version >= 0x070a) ? 0x484A : 0x084A; #else uint16_t lock_call = 0x084A; /* MSDN says this is OK for all filesystems */ #endif dprintf("Trying lock %04x... ", level_arg); asm volatile ("int $0x21 ; setc %0" : "=bcdm" (err), "=a" (rv) : "a" (0x440d), "b" (level_arg), "c" (lock_call), "d" (0x0001)); dprintf("%s %04x\n", err ? "err" : "ok", rv); return err ? rv : 0; } void lock_device(int level) { static int hard_lock = 0; int err; if (dos_version < 0x0700) return; /* Win9x/NT only */ if (!hard_lock) { /* Assume hierarchial "soft" locking supported */ while (lock_level < level) { int new_level = lock_level + 1; err = do_lock(new_level); if (err) { if (err == 0x0001) { /* Try hard locking next */ hard_lock = 1; } goto soft_fail; } lock_level = new_level; } return; } soft_fail: if (hard_lock) { /* Hard locking, only level 4 supported */ /* This is needed for Win9x in DOS mode */ err = do_lock(4); if (err) { if (err == 0x0001) { /* Assume locking is not needed */ return; } goto hard_fail; } lock_level = 4; return; } hard_fail: die("could not lock device"); } void unlock_device(int level) { uint16_t rv; uint8_t err; uint16_t unlock_call; if (dos_version < 0x0700) return; /* Win9x/NT only */ #if 0 /* DOS 7.10 = Win95 OSR2 = first version with FAT32 */ unlock_call = (dos_version >= 0x070a) ? 0x486A : 0x086A; #else unlock_call = 0x086A; /* MSDN says this is OK for all filesystems */ #endif if (lock_level == 4 && level > 0) return; /* Only drop the hard lock at the end */ while (lock_level > level) { uint8_t new_level = (lock_level == 4) ? 0 : lock_level - 1; uint16_t level_arg = (new_level << 8) + lock_drive; rv = 0x440d; dprintf("Trying unlock %04x... ", new_level); asm volatile ("int $0x21 ; setc %0" : "=bcdm" (err), "+a" (rv) : "b" (level_arg), "c" (unlock_call)); dprintf("%s %04x\n", err ? "err" : "ok", rv); lock_level = new_level; } } /* * This function does any desired MBR manipulation; called with the device lock held. */ struct mbr_entry { uint8_t active; /* Active flag */ uint8_t bhead; /* Begin head */ uint8_t bsector; /* Begin sector */ uint8_t bcylinder; /* Begin cylinder */ uint8_t filesystem; /* Filesystem value */ uint8_t ehead; /* End head */ uint8_t esector; /* End sector */ uint8_t ecylinder; /* End cylinder */ uint32_t startlba; /* Start sector LBA */ uint32_t sectors; /* Length in sectors */ } __attribute__ ((packed)); static void adjust_mbr(int device, int writembr, int set_active) { static unsigned char sectbuf[SECTOR_SIZE]; int i; if (!writembr && !set_active) return; /* Nothing to do */ read_mbr(device, sectbuf); if (writembr) { memcpy(sectbuf, syslinux_mbr, syslinux_mbr_len); *(uint16_t *) (sectbuf + 510) = 0xaa55; } if (set_active) { uint32_t offset = get_partition_offset(device); struct mbr_entry *me = (struct mbr_entry *)(sectbuf + 446); int found = 0; dprintf("Searching for partition offset: %08x\n", offset); for (i = 0; i < 4; i++) { if (me->startlba == offset) { me->active = 0x80; found++; } else { me->active = 0; } me++; } if (found < 1) { die("partition not found (-a is not implemented for logical partitions)"); } else if (found > 1) { die("multiple aliased partitions found"); } } write_mbr(device, sectbuf); } static void move_file(int dev_fd, char *pathname, char *filename) { char new_name[160]; char *cp = new_name + 3; const char *sd; int slash = 1; new_name[0] = dev_fd | 0x40; new_name[1] = ':'; new_name[2] = '\\'; for (sd = opt.directory; *sd; sd++) { char c = *sd; if (c == '/' || c == '\\') { if (slash) continue; c = '\\'; slash = 1; } else { slash = 0; } *cp++ = c; } /* Skip if subdirectory == root */ if (cp > new_name + 3) { if (!slash) *cp++ = '\\'; memcpy(cp, filename, 12); set_attributes(pathname, 0); if (rename(pathname, new_name)) set_attributes(pathname, 0x07); else set_attributes(new_name, 0x07); } } int main(int argc, char *argv[]) { static unsigned char sectbuf[SECTOR_SIZE]; int dev_fd, fd; static char ldlinux_name[] = "@:\\ldlinux.sys"; static char ldlinuxc32_name[] = "@:\\ldlinux.c32"; struct libfat_filesystem *fs; libfat_sector_t s, *secp; libfat_sector_t *sectors; int ldlinux_sectors; int32_t ldlinux_cluster; int nsectors; const char *errmsg; int i; int patch_sectors; unsigned char *dp; dprintf("argv = %p\n", argv); for (i = 0; i <= argc; i++) dprintf("argv[%d] = %p = \"%s\"\n", i, argv[i], argv[i]); get_dos_version(); argv[0] = program; parse_options(argc, argv, MODE_SYSLINUX_DOSWIN); if (!opt.device) usage(EX_USAGE, MODE_SYSLINUX_DOSWIN); if (opt.sectors || opt.heads || opt.reset_adv || opt.set_once || (opt.update_only > 0) || opt.menu_save || opt.offset) { fprintf(stderr, "At least one specified option not yet implemented" " for this installer.\n"); exit(1); } /* * Create an ADV in memory... this should be smarter. */ syslinux_reset_adv(syslinux_adv); /* * Figure out which drive we're talking to */ dev_fd = (opt.device[0] & ~0x20) - 0x40; if (dev_fd < 1 || dev_fd > 26 || opt.device[1] != ':' || opt.device[2]) usage(EX_USAGE, MODE_SYSLINUX_DOSWIN); set_lock_device(dev_fd); lock_device(2); /* Make sure we can lock the device */ read_device(dev_fd, sectbuf, 1, 0); unlock_device(1); /* * Check to see that what we got was indeed an MS-DOS boot sector/superblock */ if ((errmsg = syslinux_check_bootsect(sectbuf, NULL))) { unlock_device(0); puts(errmsg); putchar('\n'); exit(1); } ldlinux_name[0] = dev_fd | 0x40; ldlinuxc32_name[0] = dev_fd | 0x40; set_attributes(ldlinux_name, 0); fd = creat(ldlinux_name, 0); /* SYSTEM HIDDEN READONLY */ write_file_seg(fd, syslinux_ldlinux, syslinux_ldlinux_len); write_file(fd, syslinux_adv, 2 * ADV_SIZE); close(fd); set_attributes(ldlinux_name, 0x07); /* SYSTEM HIDDEN READONLY */ set_attributes(ldlinuxc32_name, 0); fd = creat(ldlinuxc32_name, 0); /* SYSTEM HIDDEN READONLY */ write_file_seg(fd, syslinux_ldlinuxc32, syslinux_ldlinuxc32_len); close(fd); set_attributes(ldlinuxc32_name, 0x07); /* SYSTEM HIDDEN READONLY */ /* * Now, use libfat to create a block map. This probably * should be changed to use ioctl(...,FIBMAP,...) since * this is supposed to be a simple, privileged version * of the installer. */ ldlinux_sectors = (syslinux_ldlinux_len + 2 * ADV_SIZE + SECTOR_SIZE - 1) >> SECTOR_SHIFT; sectors = calloc(ldlinux_sectors, sizeof *sectors); lock_device(2); fs = libfat_open(libfat_xpread, dev_fd); ldlinux_cluster = libfat_searchdir(fs, 0, "LDLINUX SYS", NULL); secp = sectors; nsectors = 0; s = libfat_clustertosector(fs, ldlinux_cluster); while (s && nsectors < ldlinux_sectors) { *secp++ = s; nsectors++; s = libfat_nextsector(fs, s); } libfat_close(fs); /* * If requested, move ldlinux.sys */ if (opt.directory) { move_file(dev_fd, ldlinux_name, "ldlinux.sys"); move_file(dev_fd, ldlinuxc32_name, "ldlinux.c32"); } /* * Patch ldlinux.sys and the boot sector */ i = syslinux_patch(sectors, nsectors, opt.stupid_mode, opt.raid_mode, opt.directory, NULL); patch_sectors = (i + SECTOR_SIZE - 1) >> SECTOR_SHIFT; /* * Overwrite the now-patched ldlinux.sys */ /* lock_device(3); -- doesn't seem to be needed */ dp = syslinux_ldlinux; for (i = 0; i < patch_sectors; i++) { memcpy_from_sl(sectbuf, dp, SECTOR_SIZE); dp += SECTOR_SIZE; write_device(dev_fd, sectbuf, 1, sectors[i]); } /* * Muck with the MBR, if desired, while we hold the lock */ adjust_mbr(dev_fd, opt.install_mbr, opt.activate_partition); /* * To finish up, write the boot sector */ /* Read the superblock again since it might have changed while mounted */ read_device(dev_fd, sectbuf, 1, 0); /* Copy the syslinux code into the boot sector */ syslinux_make_bootsect(sectbuf, VFAT); /* Write new boot sector */ if (opt.bootsecfile) { unlock_device(0); fd = creat(opt.bootsecfile, 0x20); /* ARCHIVE */ write_file(fd, sectbuf, SECTOR_SIZE); close(fd); } else { write_device(dev_fd, sectbuf, 1, 0); unlock_device(0); } /* Done! */ return 0; }