/* ----------------------------------------------------------------------- * * * Copyright 1998-2008 H. Peter Anvin - All Rights Reserved * Copyright 2009-2014 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. * * ----------------------------------------------------------------------- */ /* * syslxmod.c - Code to provide a SYSLINUX code set to an installer. */ #define _XOPEN_SOURCE 500 /* Required on glibc 2.x */ #define _BSD_SOURCE /* glibc 2.20 deprecates _BSD_SOURCE in favour of _DEFAULT_SOURCE */ #define _DEFAULT_SOURCE 1 #include <stdio.h> #include <inttypes.h> #include <string.h> #include <stddef.h> #include <stdlib.h> #include "syslinux.h" #include "syslxint.h" /* * Generate sector extents */ static void generate_extents(struct syslinux_extent _slimg *ex, int nptrs, const sector_t *sectp, int nsect) { uint32_t addr = 0x8000; /* ldlinux.sys starts loading here */ uint32_t base; sector_t sect, lba; unsigned int len; base = addr; len = lba = 0; memset_sl(ex, 0, nptrs * sizeof *ex); while (nsect) { sect = *sectp++; if (len) { uint32_t xbytes = (len + 1) * SECTOR_SIZE; if (sect == lba + len && xbytes < 65536 && ((addr ^ (base + xbytes - 1)) & 0xffff0000) == 0) { /* We can add to the current extent */ len++; goto next; } set_64_sl(&ex->lba, lba); set_16_sl(&ex->len, len); ex++; } base = addr; lba = sect; len = 1; next: addr += SECTOR_SIZE; nsect--; } if (len) { set_64_sl(&ex->lba, lba); set_16_sl(&ex->len, len); ex++; } } /* * Form a pointer based on a 16-bit patcharea/epa field */ static inline void *ptr(void *img, const uint16_t _slimg *offset_p) { return (char *)img + get_16_sl(offset_p); } static inline void _slimg *slptr(void _slimg *img, const uint16_t _slimg *offset_p) { return (char _slimg *)img + get_16_sl(offset_p); } /* * This patches the boot sector and the beginning of ldlinux.sys * based on an ldlinux.sys sector map passed in. Typically this is * handled by writing ldlinux.sys, mapping it, and then overwrite it * with the patched version. If this isn't safe to do because of * an OS which does block reallocation, then overwrite it with * direct access since the location is known. * * Returns the number of modified bytes in ldlinux.sys if successful, * otherwise -1. */ int syslinux_patch(const sector_t *sectp, int nsectors, int stupid, int raid_mode, const char *subdir, const char *subvol) { struct patch_area _slimg *patcharea; struct ext_patch_area _slimg *epa; struct syslinux_extent _slimg *ex; const uint32_t _slimg *wp; int nsect = ((boot_image_len + SECTOR_SIZE - 1) >> SECTOR_SHIFT) + 2; uint32_t csum; int i, dw, nptrs; struct fat_boot_sector *sbs = (struct fat_boot_sector *)boot_sector; uint64_t _slimg *advptrs; if (nsectors < nsect) return -1; /* The actual file is too small for content */ /* Search for LDLINUX_MAGIC to find the patch area */ for (wp = (const uint32_t _slimg *)boot_image; get_32_sl(wp) != LDLINUX_MAGIC; wp++) ; patcharea = (struct patch_area _slimg *)wp; epa = slptr(boot_image, &patcharea->epaoffset); /* First sector need pointer in boot sector */ set_32(ptr(sbs, &epa->sect1ptr0), sectp[0]); set_32(ptr(sbs, &epa->sect1ptr1), sectp[0] >> 32); sectp++; /* Handle RAID mode */ if (raid_mode) { /* Patch in INT 18h = CD 18 */ set_16(ptr(sbs, &epa->raidpatch), 0x18CD); } /* Set up the totals */ dw = boot_image_len >> 2; /* COMPLETE dwords, excluding ADV */ set_16_sl(&patcharea->data_sectors, nsect - 2); /* Not including ADVs */ set_16_sl(&patcharea->adv_sectors, 2); /* ADVs need 2 sectors */ set_32_sl(&patcharea->dwords, dw); /* Handle Stupid mode */ if (stupid) { /* Access only one sector at a time */ set_16_sl(&patcharea->maxtransfer, 1); } /* Set the sector extents */ ex = slptr(boot_image, &epa->secptroffset); nptrs = get_16_sl(&epa->secptrcnt); #if 0 if (nsect > nptrs) { /* Not necessarily an error in this case, but a general problem */ fprintf(stderr, "Insufficient extent space, build error!\n"); exit(1); } #endif /* -1 for the pointer in the boot sector, -2 for the two ADVs */ generate_extents(ex, nptrs, sectp, nsect-1-2); /* ADV pointers */ advptrs = slptr(boot_image, &epa->advptroffset); set_64_sl(&advptrs[0], sectp[nsect-1-2]); set_64_sl(&advptrs[1], sectp[nsect-1-1]); /* Poke in the base directory path */ if (subdir) { int sublen = strlen(subdir) + 1; if (get_16_sl(&epa->dirlen) < sublen) { fprintf(stderr, "Subdirectory path too long... aborting install!\n"); exit(1); } memcpy_to_sl(slptr(boot_image, &epa->diroffset), subdir, sublen); } /* Poke in the subvolume information */ if (subvol) { int sublen = strlen(subvol) + 1; if (get_16_sl(&epa->subvollen) < sublen) { fprintf(stderr, "Subvol name too long... aborting install!\n"); exit(1); } memcpy_to_sl(slptr(boot_image, &epa->subvoloffset), subvol, sublen); } /* Now produce a checksum */ set_32_sl(&patcharea->checksum, 0); csum = LDLINUX_MAGIC; for (i = 0, wp = (const uint32_t _slimg *)boot_image; i < dw; i++, wp++) csum -= get_32_sl(wp); /* Negative checksum */ set_32_sl(&patcharea->checksum, csum); /* * Assume all bytes modified. This can be optimized at the expense * of keeping track of what the highest modified address ever was. */ return dw << 2; }