/* * verify the ELF structure of a module */ static int module_verify_elf(struct module_verify_data *mvdata) { const Elf_Ehdr *hdr = mvdata->hdr; const Elf_Shdr *section, *section2, *secstop; const Elf_Rela *relas, *rela, *relastop; const Elf_Rel *rels, *rel, *relstop; const Elf_Sym *symbol, *symstop; size_t size, sssize, *secsize, tmp, tmp2; long last; int line; size = mvdata->size; mvdata->nsects = hdr->e_shnum; #define elfcheck(X) \ do { if (unlikely(!(X))) { line = __LINE__; goto elfcheck_error; } } while(0) #define seccheck(X) \ do { if (unlikely(!(X))) { line = __LINE__; goto seccheck_error; } } while(0) #define symcheck(X) \ do { if (unlikely(!(X))) { line = __LINE__; goto symcheck_error; } } while(0) #define relcheck(X) \ do { if (unlikely(!(X))) { line = __LINE__; goto relcheck_error; } } while(0) #define relacheck(X) \ do { if (unlikely(!(X))) { line = __LINE__; goto relacheck_error; } } while(0) /* validate the ELF header */ elfcheck(hdr->e_ehsize < size); elfcheck(hdr->e_entry == 0); elfcheck(hdr->e_phoff == 0); elfcheck(hdr->e_phnum == 0); elfcheck(hdr->e_shnum < SHN_LORESERVE); elfcheck(hdr->e_shoff < size); elfcheck(hdr->e_shoff >= hdr->e_ehsize); elfcheck((hdr->e_shoff & (sizeof(long) - 1)) == 0); elfcheck(hdr->e_shstrndx > 0); elfcheck(hdr->e_shstrndx < hdr->e_shnum); elfcheck(hdr->e_shentsize == sizeof(Elf_Shdr)); tmp = (size_t) hdr->e_shentsize * (size_t) hdr->e_shnum; elfcheck(tmp <= size - hdr->e_shoff); /* allocate a table to hold in-file section sizes */ mvdata->secsizes = kmalloc(hdr->e_shnum * sizeof(size_t), GFP_KERNEL); if (!mvdata->secsizes) return -ENOMEM; memset(mvdata->secsizes, 0, hdr->e_shnum * sizeof(size_t)); /* validate the ELF section headers */ mvdata->sections = mvdata->buffer + hdr->e_shoff; secstop = mvdata->sections + mvdata->nsects; sssize = mvdata->sections[hdr->e_shstrndx].sh_size; elfcheck(sssize > 0); section = mvdata->sections; seccheck(section->sh_type == SHT_NULL); seccheck(section->sh_size == 0); seccheck(section->sh_offset == 0); secsize = mvdata->secsizes + 1; for (section++; section < secstop; secsize++, section++) { seccheck(section->sh_name < sssize); seccheck(section->sh_link < hdr->e_shnum); if (section->sh_entsize > 0) seccheck(section->sh_size % section->sh_entsize == 0); seccheck(section->sh_offset >= hdr->e_ehsize); seccheck(section->sh_offset < size); /* determine the section's in-file size */ tmp = size - section->sh_offset; if (section->sh_offset < hdr->e_shoff) tmp = hdr->e_shoff - section->sh_offset; for (section2 = mvdata->sections + 1; section2 < secstop; section2++) { if (section->sh_offset < section2->sh_offset) { tmp2 = section2->sh_offset - section->sh_offset; if (tmp2 < tmp) tmp = tmp2; } } *secsize = tmp; _debug("Section %ld: %zx bytes at %lx\n", section - mvdata->sections, *secsize, section->sh_offset); /* perform section type specific checks */ switch (section->sh_type) { case SHT_NOBITS: break; case SHT_REL: seccheck(section->sh_entsize == sizeof(Elf_Rel)); goto more_rel_checks; case SHT_RELA: seccheck(section->sh_entsize == sizeof(Elf_Rela)); more_rel_checks: seccheck(section->sh_info > 0); seccheck(section->sh_info < hdr->e_shnum); goto more_sec_checks; case SHT_SYMTAB: seccheck(section->sh_entsize == sizeof(Elf_Sym)); goto more_sec_checks; default: more_sec_checks: /* most types of section must be contained entirely * within the file */ seccheck(section->sh_size <= *secsize); break; } } /* validate the ELF section names */ section = &mvdata->sections[hdr->e_shstrndx]; seccheck(section->sh_offset != hdr->e_shoff); mvdata->secstrings = mvdata->buffer + section->sh_offset; last = -1; for (section = mvdata->sections + 1; section < secstop; section++) { const char *secname; tmp = sssize - section->sh_name; secname = mvdata->secstrings + section->sh_name; seccheck(secname[0] != 0); if (section->sh_name > last) last = section->sh_name; } if (last > -1) { tmp = sssize - last; elfcheck(memchr(mvdata->secstrings + last, 0, tmp) != NULL); } /* look for various sections in the module */ for (section = mvdata->sections + 1; section < secstop; section++) { switch (section->sh_type) { case SHT_SYMTAB: if (strcmp(mvdata->secstrings + section->sh_name, ".symtab") == 0 ) { seccheck(mvdata->symbols == NULL); mvdata->symbols = mvdata->buffer + section->sh_offset; mvdata->nsyms = section->sh_size / sizeof(Elf_Sym); seccheck(section->sh_size > 0); } break; case SHT_STRTAB: if (strcmp(mvdata->secstrings + section->sh_name, ".strtab") == 0 ) { seccheck(mvdata->strings == NULL); mvdata->strings = mvdata->buffer + section->sh_offset; sssize = mvdata->nstrings = section->sh_size; seccheck(section->sh_size > 0); } break; } } if (!mvdata->symbols) { printk("Couldn't locate module symbol table\n"); goto format_error; } if (!mvdata->strings) { printk("Couldn't locate module strings table\n"); goto format_error; } /* validate the symbol table */ symstop = mvdata->symbols + mvdata->nsyms; symbol = mvdata->symbols; symcheck(ELF_ST_TYPE(symbol[0].st_info) == STT_NOTYPE); symcheck(symbol[0].st_shndx == SHN_UNDEF); symcheck(symbol[0].st_value == 0); symcheck(symbol[0].st_size == 0); last = -1; for (symbol++; symbol < symstop; symbol++) { symcheck(symbol->st_name < sssize); if (symbol->st_name > last) last = symbol->st_name; symcheck(symbol->st_shndx < mvdata->nsects || symbol->st_shndx >= SHN_LORESERVE); } if (last > -1) { tmp = sssize - last; elfcheck(memchr(mvdata->strings + last, 0, tmp) != NULL); } /* validate each relocation table as best we can */ for (section = mvdata->sections + 1; section < secstop; section++) { section2 = mvdata->sections + section->sh_info; switch (section->sh_type) { case SHT_REL: rels = mvdata->buffer + section->sh_offset; relstop = mvdata->buffer + section->sh_offset + section->sh_size; for (rel = rels; rel < relstop; rel++) { relcheck(rel->r_offset < section2->sh_size); relcheck(ELF_R_SYM(rel->r_info) < mvdata->nsyms); } break; case SHT_RELA: relas = mvdata->buffer + section->sh_offset; relastop = mvdata->buffer + section->sh_offset + section->sh_size; for (rela = relas; rela < relastop; rela++) { relacheck(rela->r_offset < section2->sh_size); relacheck(ELF_R_SYM(rela->r_info) < mvdata->nsyms); } break; default: break; } } _debug("ELF okay\n"); return 0; elfcheck_error: printk("Verify ELF error (assertion %d)\n", line); goto format_error; seccheck_error: printk("Verify ELF error [sec %ld] (assertion %d)\n", (long)(section - mvdata->sections), line); goto format_error; symcheck_error: printk("Verify ELF error [sym %ld] (assertion %d)\n", (long)(symbol - mvdata->symbols), line); goto format_error; relcheck_error: printk("Verify ELF error [sec %ld rel %ld] (assertion %d)\n", (long)(section - mvdata->sections), (long)(rel - rels), line); goto format_error; relacheck_error: printk("Verify ELF error [sec %ld rela %ld] (assertion %d)\n", (long)(section - mvdata->sections), (long)(rela - relas), line); goto format_error; format_error: return -ELIBBAD; } /* end module_verify_elf() */
int main(int argc, char **argv) { int c, opt = 0; char *optf; int fd; ssize_t l; optf = NULL; opterr = 0; while ((c = getopt(argc, argv, "qrwd")) != -1) { switch (c) { case 'r': ifopt; opt = OPT_READ; break; case 'w': ifopt; opt = OPT_WRITE; break; case 'd': ifopt; opt = OPT_REMOVE; break; case 'q': quiet = 1; break; default: usage(); break; } } optf = *(argv+optind); if (!optf) usage(); /* sanity checks */ if (!seccheck(optf)) { errno = EACCES; xerror(optf); } snprintf(B, sizeof(B)-1, "%s/%s", CONFTOOL_BASE, optf); if (opt == OPT_REMOVE) { if (unlink(B) == -1) xerror(B); return 0; } fd = open(B, opt == OPT_WRITE ? O_WRONLY | O_TRUNC | O_CREAT : O_RDONLY, 0666); if (fd == -1) xerror(B); zerob(); if (!opt || opt == OPT_READ) { l = read(fd, B, sizeof(B)); if (l) write(1, B, l); } else if (opt == OPT_WRITE) { int x = 1; l = 0; if (*(argv+optind+x)) { while (*(argv+optind+x)) { l += strlen(*(argv+optind+x)); strncat(B, *(argv+optind+x), sizeof(B)-1-l); l++; strncat(B, " ", sizeof(B)-1-l); x++; } *(B+l-1) = '\n'; write(fd, B, l); } } close(fd); return 0; }