/* * File : loadexec.c * Author : Frédéric Pétrot * * Load an executable into an array using the GNU BFD * * $Log: loadexec.c,v $ * Revision 1.1.1.1 2006/09/24 23:09:24 kane * Initalisation de l'arborescence CVS * * Revision 1.1 2005/09/20 20:43:43 kane * Init CVS * * Revision 1.1 2003/03/10 10:38:05 fred * Adding the bfd loader for good. * */ #include #include #include #include #ifndef TRUE #define TRUE true #endif #ifndef FALSE #define FALSE false #endif /* Loading the sections sections of file file into the array * pointed to by emem. * esize is the expected size, but it can be modified by the function if it too * small for the sections * All sizes and addresses are given in bytes * eoffset is the address of the section with the lowest address among * all required sections. * Code should be self explanatory once you've read the 230 pages of * the BFD documentation :) */ typedef struct raminfo { void *mem; unsigned int size; unsigned int ladr; unsigned int hadr; const char *file; const char **sections; } raminfo; static void bindsection(bfd *exec, asection *sect, PTR x) { int i; raminfo *rinfo = x; for (i = 0; rinfo->sections[i]; i++) if (!strcmp(sect->name, rinfo->sections[i])) break; if (!rinfo->sections[i]) return; if ((sect->flags & SEC_LOAD) && !(sect->flags & SEC_IN_MEMORY)) { bfd_get_section_contents(exec, sect, rinfo->mem + (sect->vma - rinfo->ladr), 0, bfd_section_size(exec, sect)); sect->contents = rinfo->mem; } } static void sectionssize(bfd *exec, asection *sect, PTR x) { int i; raminfo *rinfo = x; for (i = 0; rinfo->sections[i]; i++) if (!strcmp(sect->name, rinfo->sections[i])) break; if (!rinfo->sections[i]) return; rinfo->size += bfd_section_size(exec, sect); rinfo->ladr = sect->vma < rinfo->ladr ? sect->vma : rinfo->ladr; rinfo->hadr = sect->vma + rinfo->size > rinfo->hadr ? sect->vma + rinfo->size : rinfo->hadr; } void loadexec(void **emem, int *esize, int *eoffset, const char *file, const char **sections) { bfd *exec; static int x; int i; raminfo ringo; if (!x) bfd_init(); exec = bfd_openr(file, NULL); if (!exec) { fprintf(stderr, "Cannot open File '%s'\n", file); exit(1); } if (bfd_check_format(exec, bfd_object) != TRUE && !(exec->flags & EXEC_P)) { fprintf(stderr, "File %s is not an executable file\n", bfd_get_filename(exec)); exit(1); } #if 1 printf("Loading sections "); for (i = 0; sections[i]; i++) printf("%s%s", sections[i], sections[i+1] ? ", " : " "); printf("from \"%s\"\n",bfd_get_filename(exec)); //printf("of executable '%s' for '%s' architecture in format '%s'\n", // bfd_get_filename(exec), bfd_printable_name(exec), exec->xvec->name); #endif /* Set input parameters to bindsection */ ringo.file = file; ringo.sections = sections; ringo.size = 0; ringo.ladr = ~0; ringo.hadr = 0; bfd_map_over_sections(exec, sectionssize, &ringo); /* Get output parameters from sectionssize */ if (ringo.size < ringo.hadr - ringo.ladr) ringo.size = ringo.hadr - ringo.ladr; *esize = ringo.size > *esize ? ringo.size : *esize; *eoffset = ringo.ladr; ringo.mem = malloc(*esize * sizeof(char)); /* Start over again from the start of the memory */ bfd_map_over_sections(exec, bindsection, &ringo); /* Get output parameters from bindsection */ *emem = ringo.mem; if (bfd_close(exec) == FALSE) { bfd_perror(exec->filename); exit(1); } }